ADARUN Parameter Directory

This document describes all of the ADARUN parameters available for Adabas.

Parameter Use to Values Default
ALOGDEV Specify the device type used for multiple audit log data sets.

Note:
This parameter must be specified with the ALOGSIZE parameter.

Valid device types are listed in Adabas Device Types and Block Sizes. value of the DEVICE parameter
ALOGSIZE

Specify the number of blocks available for each audit log in multiple audit log data sets.

Note:
This parameter must be specified with the ALOGDEV parameter.

16 - 16777215 ---
AOslog Log to DDPRINT the commands issued by ADADBS OPERCOM or equivalent AOS functions that modify the active nucleus. YES | NO NO
ARExclude Exclude file(s) from autorestart. 1 - 5000 ---
ARMname Specify the automatic restart management (ARM) program name. arm-pgm-name ---
ARNworkbuffers Specify the number of WORK I/O buffers allocated during autorestart processing after a failure. 0 - 2147483647 varies based on ADARUN V64BIT parameter setting.
ASSOCache Activate or deactivate controller caching for the Associator component. YES | NO YES
ASSOSpacewarn Identify up to three pairs of threshold percentages and percentage change increments, expressed as percentages of the total ASSO portion of the database. When ASSO space use reaches a specified threshold percentage, a space usage message is issued. In addition, when the ASSO space use changes by the increment specified for that threshold, additional space usage messages are issued. 0-100,1-99 0,5
ASYtvs Flush buffers asynchronously based on volume serial number. YES | NO YES
AUDITING Enable auditing of Adabas nuclei. YES | NO NO
AUDITLOG Specify whether auditing data of utility and AOS functions should be activated.

Note:
The AUDITLOG parameter is independent and unrelated to the AUDITING ADARUN parameter.

CONSOLE | NO NO
AUTOCQEnv Identify the type of user affected by the AUTOCQTIME parameter setting. Only commands from users in the specified environment will be returned from the command queue if they meet the AUTOCQTIME criteria. ALL | CICS ALL
AUTOCQTime Specify the timeout period, in seconds, after which an eligible unprocessed command in the command queue during online recovery will be returned to the user with response code 22 (ADARSP022), subcode 55. 0 (zero) | 1 - 86400 0
AUTOINCASSOSize Specifies the size, in cylinders or blocks, by which the highest-numbered (last-defined) Associator (ASSO) data set will be increased by an automatic database increase process. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0
AUTOINCASSOTHreshold Specifies the Associator space threshold at which Adabas automatically initiates a database increase process. This threshold is expressed as a percentage of used Associator space to total Associator space available in the database. 0, 50 - 100 0
AUTOINCASSOTOtal Specifies the maximum total size, in cylinders or blocks, of the entire Associator space of the database that is not to be exceeded by automatic database increase processes. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0
AUTOINCDATASize Specifies the size, in cylinders or blocks, by which the highest-numbered (last-defined) Data Storage (DATA) data set will be increased by an automatic database increase process. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0
AUTOINCDATATHreshold Specifies the Data Storage space threshold at which Adabas automatically initiates a database increase process. This threshold is expressed as a percentage of used Data Storage space to total Data Storage space available in the database. 0, 50 - 100 0
AUTOINCDATATOtal Specifies the maximum total size, in cylinders or blocks, of the entire Data Storage space of the database that is not to be exceeded by automatic database increase processes. 0 - 2147483647 (cylinders)

0B- 2147483647B (blocks)

0
CACHe Load ADACSH (Adabas Caching Facility control) during Adabas session initialization. YES | NO NO
CACTivate Control RABN activation. (Adabas Caching Facility) YES | NO NO
CASSODsp Cache an Associator RABN or RABN range in the data space cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters. (Adabas Caching Facility) rabn | rabn1 - rabnx ---
CASSOExt Cache an Associator RABN or RABN range in the extended memory cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters. (Adabas Caching Facility) rabn | rabn1 - rabnx ---
CASSOG64 Cache an Associator RABN or RABN range backed by 2G large pages in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

This parameter is available only in z/OS environments.

rabn | rabn1 - rabnx ---
CASSOHsp Cache an Associator RABN or RABN range in the hiperspace cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters. (Adabas Caching Facility) rabn | rabn1 - rabnx ---
CASSOL64 Cache an Associator RABN or RABN range backed by 1M large pages in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

This parameter is available only in z/OS environments.

rabn | rabn1 - rabnx ---
CASSOP64 Cache an Associator RABN or RABN range backed by pageable 1M large pages in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

This parameter is available only in z/OS environments.

rabn | rabn1 - rabnx ---
CASSOV64 Cache an Associator RABN or RABN range in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CASSOMaxs Specify the unit size in which areas are allocated for Associator cache space. (Adabas Caching Facility) 80K - 2047M (extended memory, data spaces, or hiperspaces)

1M - your installation limit (virtual 64 memory)

1M (extended memory, data spaces, or hiperspaces)

1M (virtual 64 memory)

CBufno Specify the number of read-ahead buffers for concurrent I/O processing. (Adabas Caching Facility) 0 - the NT parameter value 0
CCtimeout Specify the cache space area inactivity time limit (in seconds) before it is released back to the system.

If demand caching is in effect, use this parameter to specify the inactivity time limit (in seconds) of a RABN range, file or file range, before it is disabled.

(Adabas Caching Facility)

60 - 2147483647 7200 seconds (2 hours)
CDATADsp Cache a Data Storage RABN or RABN range in the data space cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters. (Adabas Caching Facility) rabn | rabn1 - rabnx ---
CDATAExt Cache a Data Storage RABN or RABN range in the extended memory cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CDATAG64 Cache a Data Storage RABN or RABN range backed by 2G large pages in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CDATAHsp Cache a Data Storage RABN or RABN range in the hiperspace cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CDATAL64 Cache a Data Storage RABN or RABN range backed by 1M large pages in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CDATAP64 Cache a Data Storage RABN or RABN range backed by pageable 1M large pages in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

This parameter is available only in z/OS environments.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CDATAV64 Cache a Data Storage RABN or RABN range in the virtual 64-bit storage cache. This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

rabn | rabn1 - rabnx ---
CDATAMaxs Specify the unit size in which areas are allocated for Data Storage cache space.

(Adabas Caching Facility)

80K - 2047M (extended memory, data spaces, or hiperspaces)

1M - your installation limit (virtual 64 memory)

1M (extended memory, data spaces, or hiperspaces)

1M (virtual 64 memory)

CDEmand Set the lowest Adabas buffer efficiency level accepted before caching is activated. A value of "0" indicates that no demand-level caching occurs.

(Adabas Caching Facility)

0 - 2147483647 0
CDIspstat Control whether RABN range statistics display on both the operator console and DDPRINT, or only on DDPRINT.

(Adabas Caching Facility)

YES (display on both) | NO (display only on DDPRINT) YES
CDXnn Specify the user routine of collation descriptor user exits. The nn in the parameter name can range from 01 through 08, so up to eight collation descriptor exits may be specified (in any order). user routine name (up to 8 characters) ---
CExclude Identify command types that should be excluded from read-ahead caching. More than one command type may be specified by separating values with forward slashes (/).

(Adabas Caching Facility)

PHYS | LOGI | HIST | FIND ---
CFile Select a file or range of files to be cached. This parameter is also used to indicate the class of caching service, the caching scope, and the cache storage type that should be implemented for the file or file range. Specify this parameter using the following syntax:
CFILE=({fnr | fnr1-fnrx}[,class][,scope][,cachetype])

where:

  • fnr, fnr1, fnrx: valid file numbers. When a range is specified, the lower file number must be specified first (fnr1).

  • class: The percentage of cache space that can be used, which effectively assigns a priority to the files, with lower priority RABNs being purged first. A value of 1 indicates the highest priority, 5 indicates the lowest priority.

  • scope: Identifies the type of caching used: Associator (A), Data Storage (D), or both (B).

  • cachetype: Identifies the cache storage type used: data space (D), extended (E), 2G large pages in virtual 64-bit storage (G), hiperspace (H), 1M fixed large pages in virtual 64-bit storage (L), 1M pageable large pages in virtual 64-bit storage (P), or virtual 64-bit storage (V). Virtual 64-bit storage cache is only available in z/OS and z/VSE environments. Large page storage cache (L, P, or G) is only available in z/OS environments.

This parameter is mutually exclusive with the CASSOxxx, CDATAxxx and CSTORAGE parameters.

(Adabas Caching Facility)

fnr, fnr1, fnrx: 0 - n

class: 1 | 2 | 3 | 4 | 5

scope: A | D | B

cachetype: D | E | G | H | L | P | V

fnr, fnr1, fnrx: ---

class: 3

scope: B

cachetype: D

CLOGBmax Specify the maximum size (bytes) of a logged buffer. 368 - 2147483647 4096
CLOGDev Specify the device type used for multiple command log data sets. This parameter must be specified with the CLOGSIZE parameter. Valid device types are listed in Adabas Device Types and Block Sizes. value of the DEVICE parameter
CLOGLayout Specify the format of the Adabas command log. 8 8
CLOGMAx Specify the maximum size (bytes) of all of the logged buffers allowed for an Adabas command. 368 - 2147483647 16384
CLOGMRg Indicate whether the Adabas cluster should run with an automatic CLOG merge.

(Adabas Cluster Services, Adabas Parallel Services)

YES | NO NO
CLOGSize Specify the number of blocks available for each command log in multiple command log data sets. This parameter must be specified with the CLOGDEV parameter. 16 - 16777215 ---
CLUCACHEExtra Specify the additional vector size, in blocks, required to allow Adabas Cluster Services and Adabas Parallel Services to track the blocks held by Adabas Caching Facility in the different cluster nuclei.

(Adabas Cluster Services, Adabas Parallel Services)

0 - 2147483647 1000
CLUCACHEName Identifies the name of the Adabas cluster cache structure/area in which the current nucleus participates.

(Adabas Cluster Services)

cluster-name ---
CLUCACHESize Specify the amount of storage to allocate for the global cache area that services the Adabas Parallel Services cluster in which the current nucleus participates.

(Adabas Parallel Services)

128K - varies (depending on the cache type specified by the CLUCACHETYPE parameter) ---
CLUCACHEType Identify the virtual storage type for the global cache area: shared dataspace (DSP), virtual 64-bit storage (V64), virtual 64-bit cache backed by page-fixed two-gigabyte (2G) large pages (G64), virtual 64-bit cache backed by page-fixed one-megabyte (1M) large pages (L64), or virtual 64-bit cache backed by pageable one-megabyte (1M) large pages (P64).

The G64, L64, and P64 values for this parameter are available in z/OS environments only. The V64 value for this parameter is available in z/OS and z/VSE environments only.

(Adabas Parallel Services)

DSP | G64 | L64 | P64 | V64 DSP
CLUCACHEUnchanged Indicate whether unchanged blocks are written to global cache during Adabas Parallel Services processing.

(Adabas Parallel Services)

YES | NO NO
CLUGroupname Specify the XCF messaging group name in Adabas Cluster Services or the name of the messaging group in Adabas Parallel Services.

(Adabas Cluster Services, Adabas Parallel Services)

groupname none in Adabas Cluster Services; the router name in Adabas Parallel Services
CLULOCKName Specify the lock structure name defined in the CFRM policy or the global lock area in which the current nucleus participates.

(Adabas Cluster Services)

lockstructurename ---
CLULOCKSize Specify the amount of storage allocated for the global lock area. Specify values for this parameter using the following syntax:
nnn[K | M | G]

where nnn: the number of bytes (no unit specification), kilobyte (K), megabytes (M), or gigabytes (G).

(Adabas Parallel Services)

131072 - 2147483147 (bytes)

128K - 2097152K

128K - 2048M

128K - 2G

---
CLUPublprot Specify whether or not cluster nuclei make their protection data available within the cluster before they make the related updates available to the other nuclei.

(Adabas Cluster Services, Adabas Parallel Services)

YES | NO NO
CLUSter Indicate whether the Adabas nucleus will participate in a cluster of nuclei working on the same database, and, if so, the type of cluster in which it will participate. Valid values are "NO" (nucleus not participating in a cluster), "LOCAL" (nucleus participating in a cluster on the same operating system image), and "SYSPLEX" (nucleus participating in a cluster on different systems in a parallel sysplex).

(Adabas Cluster Services, Adabas Parallel Services)

NO | LOCAL | SYSPLEX NO
CLUWork1cache

Specify the maximum number of WORK blocks that the cluster nucleus should keep in the global cache at a time.

0 - 32767 0
CMAXcsps Specify the number of storage areas that can be allocated for ADACSH cache space in data spaces, hiperspaces, or virtual 64-bit storage. This parameter has no affect on a cache space in extended memory, where only one Associator and one Data Storage area are allowed.

(Adabas Caching Facility)

1 - 16 8
CRetry Specify the number of seconds between Adabas Caching Facility attempts to acquire an area of cache space if the previous GETMAIN or space allocation failed.

(Adabas Caching Facility)

60 - 2147483647 900 (15 minutes)
CStorage Identify the type of cache space to which all RABNs for the database are cached (using system defaults). This parameter overrides the use of the CASSOxxx and CDATAxxx ADARUN parameters. Valid values are "DATASPACE" (dataspace), "EXTENDED" (extended memory), "HIPERSPACE" (hiperspace), "G64" (2G large pages in virtual 64-bit storage), "L64" (fixed 1M large pages in virtual 64-bit storage), "P64" (pageable 1M large pages in virtual 64-bit storage), or "VIRTUAL64" (virtual 64-bit storage). "EXTENDED" is the only option available on BS2000 RISC machines; "HIPERSPACE", "G64", "L64", and "P64" are only valid in z/OS environments; "VIRTUAL64" is only valid in z/OS and z/VSE environments.

This parameter is mutually exclusive with the CFILE and CXFILE parameters.

(Adabas Caching Facility)

DATASPACE | EXTENDED | G64 | HIPERSPACE | L64 | P64 | VIRTUAL64 ---
CT Specify the maximum time limit (in seconds) for interregion communication of results from Adabas to the user. 1 - 2147483647 60
CWORKStorage Identify the type of cache space used for Adabas Caching Facility work areas CWORK2FAC and CWORK3FAC. Valid values are "DATASPACE" (dataspace), "EXTENDED" (extended memory), "G64" (2G large pages in virtual 64-bit storage), "HIPERSPACE" (hiperspace), "L64" (fixed 1M large pages in virtual 64-bit storage), "P64" (pageable 1M large pages in virtual 64-bit storage), or "VIRTUAL64" (virtual 64-bit storage). "EXTENDED" is the only option available on BS2000 RISC machines; "HIPERSPACE", "G64", "L64", and "P64" are only valid in z/OS environments; "VIRTUAL64" is only valid in z/OS and z/VSE environments.

(Adabas Caching Facility)

DATASPACE | EXTENDED | G64 | HIPERSPACE | L64 | P64 | VIRTUAL64 ---
CWORK2fac Specify the percentage of Work part 2 to be cached. If "0" is specified, Work part 2 is not cached.

(Adabas Caching Facility)

0 - 100 0
CWORK3fac Specify the percentage of Work part 3 to be cached. If "0" is specified, Work part 3 is not cached.

(Adabas Caching Facility)

0 - 100 0
CXfile Select a file or range of files to be excluded from caching. Specify this parameter using the following syntax:
CXFILE=({fnr | fnr1-fnrx}[,,scope])

where:

  • fnr, fnr1, fnrx: valid file numbers to be excluded. When a range is specified, the lower file number must be specified first (fnr1).

  • scope: Identifies the scope of exclusion: Associator RABNs only excluded (A), Data Storage RABNs only excluded (D), or both types of RABNs excluded (B). If a scope is specified, you must specify two commas before it.

This parameter is mutually exclusive with the CASSOxxx, CDATAxxx, and CSTORAGE ADARUN parameters.

(Adabas Caching Facility)

fnr, fnr1, fnrx: 0 - n

scope: A | D | B

fnr, fnr1, fnrx: ---

scope: B

DATACache Control whether caching control is enabled (YES) or disabled (NO) for the Data Storage data set. YES | NO YES
DATASpacewarn Identify up to three pairs of threshold percentages and percentage change increments, expressed as percentages of the total Data Storage portion of the database. When Data Storage space use reaches a specified threshold percentage, a space usage message is issued. In addition, when the Data Storage space use changes by the increment specified for that threshold, additional space usage messages are issued. 0-100,1-99 0,5
DBid Specify the physical database ID of the database.

Note:
If you specify the DBID parameter, you must also specify the ADARUN SVC parameter.

1 - 65535 1
DEVIce Specify the device type on which the first block of the Associator is stored. Valid device types for each platform are listed in Adabas Device Types and Blocks Sizes. devtype

3390

DIrratio Together with the ELEMENTRATIO ADARUN parameter, define the ratio of directory entries to data elements in Adabas cluster environments.

(Adabas Cluster Services, Adabas Parallel Services)

1 - 32767 1
DSF Enable Adabas Delta Save support.

(Adabas Delta Save)

YES | NO NO
DSFEx1 Specify the user routine to be given control by Adabas Delta Save.

(Adabas Delta Save)

exitname ---
DTp Indicate whether to enable distributed transaction processing, and, if so, whether the nucleus should be a resource or transaction manager. Valid values are NO (distributed transaction processing is not enabled), RM (the nucleus participates in distributed transaction processing as a resource manager), and TM (the nucleus participates in distributed transaction processing as a transaction manager).

(Adabas Transaction Manager)

NO | RM | TM NO
DUALALD Specify the device type to be used for dual audit logging. devtype value of the DEVICE parameter
DUALALS Specify the number of blocks available for each dual audit log. 16 - 16777215 ---
DUALCLD Specify the device type to be used for dual command logging. Valid device types for each platform are listed in Adabas Device Types and Blocks Sizes. devtype value of the DEVICE parameter
DUALCLS Specify the number of blocks available for each dual command log. 16 - 16777215 ---
DUALPLD Specify the device type to be used for dual protection logging. Valid device types for each platform are listed in Adabas Device Types and Blocks Sizes. devtype value of the DEVICE parameter
DUALPLS Specify the number of blocks available for each dual protection log. 16 - 16777215 ---
ELementratio Together with DIRRATIO ADARUN parameter, define the ratio of directory entries to data elements in Adabas cluster environments.

Adabas Cluster Services, Adabas Parallel Services

1 - 32767 1
EXcpvr Indicate whether EXCP or EXCPVR should be used when running APF-authorized. YES | NO YES
FAstpath Enable Adabas Fastpath support.

(Adabas Fastpath)

YES | NO NO
FMxio Set a limit on the number of I/O operations that can be started in parallel by LFIOP flush processing. The full meaning of this parameter varies, depending on the setting of the ASYTVS ADARUN parameter. If ASYTVS=YES, you can use FMXIO to set the limit on the number of I/O
  • If ASYTVS=YES, you can use FMXIO to set a limit on the number of I/O operations to be started in parallel on each volume.

  • If ASYTVS=NO, you can use FMXIO to set a limit on the number of I/O operations to be started in parallel overall.

1 - 16 (ASYTVS=YES) 1 (ASYTVS=YES)
1 - 100 (ASYTVS=NO) 60 (ASYTVS=NO)
FOrce Indicate whether the nucleus or Adabas Review hub can overwrite an existing ID table entry. YES | NO NO
HEXnn Specify the hyperdescriptor exit(s) and associated user routine to be used by the nucleus. Specify this parameter using the following syntax:
HEXnn=user-routine-name

where:

  • nn: the number of the hyperdescriptor exit

  • user-routine-name: the name (up to eight characters) of the user routine that gets control for the associated hyperdescriptor exit.

  • nn: 01 - 31

  • user-routine-name: text (up to eight characters)

  • nn: ---

  • user-routine-name: ---

IGNDIb Indicate whether an active nucleus entry in the data integrity block (DIB) should be ignored and deleted. YES | NO NO
IGNDTp Indicate whether the two-phase commit area (Work part 4) should be ignored. YES | NO NO
INDEXCrosscheck Indicate whether index cross-checking is turned on or off. Index cross-checking is a process Adabas uses to ensure that a data storage record it is reading actually matches the descriptor value in the index by which the record was found. YES | NO YES
INDEXUpdate Indicate whether to use the original or advanced index update processing rules. ORIGINAL | ADVANCED ORIGINAL
INFobuffersize Specify the size of the information buffer pool, in bytes. The information buffer pool is also known as the Adabas event log. 0 or 1024 - 2147483647 0 (buffer will not be allocated)
INTAuto Specify the time interval (in seconds) between autorestart progress messages, which will be printed in addition to the standard messages at the end of each autorestart phase, if the phase takes longer than the interval specified. The default (0 seconds) indicates that autorestart progress messages should only be printed at the completion of each autorestart phase. 0 - 2147483647 0
INTNas Specify the time interval (in units of 1.048576 seconds) between SYNS 60 checkpoints. 1 - 2147483647 3600 (approximately one hour)
LAP Specify the size of the Auditing Pool. minimum 20000 100000 (if AUDITING=YES) or 0 (if AUDITING=NO)
LARgepage Indicate whether the Adabas nucleus should use page-fixed one-megabyte (1M) large pages above the two-gigabyte (2G) bar (L64), page-fixed 2G large pages above the 2G bar (G64), or pageable one-megabyte (1M) large pages (P64). A value of "YES" is equivalent to specifying "L64". A value of "NO" indicates that virtual storage above the 2G bar will be backed by four-kilobyte (4K) pages.

Values of "G64", "L64", and "YES" can only be specified if the ADARUN V64BIT parameter is also set to "YES". In addition, the operating system must support large pages of the required type.

Note:
At this time, this parameter is applicable only to z/OS systems.

G64 | L64 | P64 | NO | YES NO
LBP Specify the maximum number of bytes to be used for the Adabas buffer pool during a session. 80000 - 2147483647 350000
LCP Specify the maximum number of bytes to be used for the Adabas security pool during a session. 2000 - 2147483647 10000
LDEuqp Specify the number of bytes to be used for the unique (UQ) descriptor pool during a session. 5000 - 2147483647 5000
LDTp Define the length of the distributed transaction processing area (Work part 4) or the index of Work part 4:

If you have Adabas Transaction Manager Version 7.4 or earlier installed, this parameter defines the length of the distributed transaction processing area (Work part 4) for use with DTP=RM.

If you have Adabas Transaction Manager Version 7.5 or later installed, this parameter defines the size (in blocks) of the Work part 4 index which is used to administer the data on Work part 4 (DDWORKR4).

(Adabas Transaction Manager)

Adabas Transaction Manager 7.4 or earlier: 0 - 65535

Adabas Transaction Manager 7.5 or later: 8 - one eighth of the WORK4 size

Adabas Transaction Manager 7.4 or earlier: 0

Adabas Transaction Manager 7.5 or later: 8

LFIop Enable asynchronous buffer flush operations and define the length of the related buffer flush pool. A value of "0" disables asynchronous buffer flush operations; only synchronous flushing occurs. A value of "1" enables asynchronous buffer flush operations, and defines the buffer pool size as 25% of the buffer pool (LBP parameter) size. Any other value (with a minimum of 80000 allowed) enables asynchronous buffer flush operations and defines the size of the pool directly (in bytes). 0 | 1 | 80000 - 18446744073709551615 (although this is really limited by the available amount of virtual and real memory) 0
LFP Specify the size (in bytes) of the Adabas internal format buffer pool. 6000 - 2147483647 12000
LI Specify the size (in bytes) allocated for the table of ISNs (TBI) used to store ISN lists (overflow ISNs or saved ISN lists). 2000 - 2147483647 10000
LNKGNAME The name of the link globals table to be employed by an Adabas 8 batch/TSO link routine.

Note:
If you specify the LNKGNAME parameter, you must also specify the ADARUN DBID and SVC parameters.

valid module name for an IBM z/OS operating system LNKGBLS
LOCal Indicate whether an Adabas nucleus or Adabas Review hub is isolated and available for local use only. The isolated nucleus or hub will be unknown to the network. YES | NO YES
LOGAbdx Indicate whether Adabas buffer descriptions (ABDs) should be logged during this session. For the dependencies of the various logging parameters, please review the detailed description. YES | NO NO
LOGCB Indicate whether Adabas extended control blocks (ACBX) should be logged during this Adabas session. For the dependencies of the various logging parameters, please review the detailed description. YES | NO NO
LOGCLex Indicate whether the Adabas command log extension (CLEX) should be logged. For the dependencies of the various logging parameters, please review the detailed description. YES | NO NO
LOGFb Indicate whether Adabas format buffers (FB) should be logged. YES | NO NO
LOGGing Indicate whether command logging should be used for the Adabas session. If this is set to "NO", all other LOGxxxx parameters are ignored. YES | NO NO
LOGIB Indicate whether Adabas ISN buffers (IB) should be logged. YES | NO NO
LOGIO Indicate whether Adabas I/O activity should be logged. YES | NO NO
LOGMb Indicate whether Adabas multifetch buffers (MB) should be logged. For the dependencies of the various logging parameters, please review the detailed description. YES | NO NO
LOGRb Indicate whether Adabas record buffers (RB) should be logged. YES | NO NO
LOGSB Indicate whether Adabas search buffers (SB) should be logged. YES | NO NO
LOGSIze Specify the maximum block size for the sequential command log. 100 - 32760 value of the QBLKSIZE ADARUN parameter
LOGUX Indicate whether Adabas user exit B data should be logged. For the dependencies of the various logging parameters, please review the detailed description. YES | NO NO
LOGVB Indicate whether Adabas value buffers (VB) should be logged. YES | NO NO
LOGVOlio Indicate whether the extended I/O list should be written to the command log for CLOGLAYOUT=8. YES | NO NO
LOGWarn Specify the frequency, in seconds, at which the PLOG and CLOG status is checked and resulting alert messages are produced.

This parameter is optional, but a valid user exit 2 or user exit 12 must also be specified when this parameter is set to any value other than zero (0). A value of zero (0), the default, indicates that no CLOG and PLOG status checks should occur and that no alert messages should be produced. Any other valid LOGWARN value represents the interval (in seconds) at which the PLOG and CLOG status is checked and resulting alert messages are produced.

0 - 2147483647 0
LP Specify the number of blocks to allocate to the data protection area (Work part 1). The highest value you can set for this parameter is limited by the size of the Work data set and the sizes of Work parts 2, 3, and 4. 200 - * 1000
LQ Specify the size (in bytes) of the table of sequential commands, which contains entries required during the processing of Adabas read sequential (L2/L5, L3/L6, and L9) commands. 2000 - 2147483647 10000
LRDp Specify the size (in bytes) of the redo pool, which allows for deferred publishing. If the value of this parameter is set to 0, updated database blocks are always written to global cache at the time the update is made; no deferred publishing occurs.

(Adabas Cluster Services, Adabas Parallel Services)

0 | 80000 - 2137483647 For Adabas Parallel Services 8.2 or later, the default is 0 (zero).

For Adabas Cluster Services 8.2 or later, the default is either the value of the ADARUN LFIOP parameter or 10 megabytes, whichever is smaller.

For earlier releases of Adabas Parallel Services and Adabas Cluster Services, the default is the value of the ADARUN LFIOP parameter.

LRPl Specify the size of the Adabas or Event Replicator replication pools, in bytes. This parameter should be specified for only:
  • an Adabas nucleus that also has REPLICATION=YES set.

  • an Event Replicator database

The values for the Adabas nucleus and the Event Replicator database may be different.

20000 - *

100000 (if REPLICATION=YES)

0 (if REPLICATION=NO)

LS Specify the maximum number of bytes for internal sort processing.

Note:
To ensure that a single search command does not use too much of the work pool space, the maximum LS value must be less than or equal to the LWP (work pool length) divided by two minus the minimum LS value (19968) (LS = LWP/2 - 19968).

19968 - * 49920
LSF Indicate whether Logical Save Facility should be enabled (YES) or disabled (NO) for the nucleus. YES | NO NO
LTZ Specify the size of the time zone pool used by a user session, in bytes. 0, 12288 - 2147483647 32768
LU Specify the length (in bytes) of the intermediate user buffer area. The range of values varies based on the operating system on which Adabas is installed..

On z/OS systems, LU cannot exceed a value greater than that produced by this calculation:

(NABvalue x 4096)

a positive integer, minimum and maximum governed by the operating system. 65535
LWKP2 Specify the number of Work blocks to use for intermediate ISN lists Work part 2). 0 - 16777215 0
LWP Specify the size (in bytes) of the Adabas work pool. This value must be equal to or greater than twice the sum of the specified internal sort area length (LS parameter) plus the minimum LS value (19968). In other words, the LWP value must be greater than or equal to a value calculated as follows:

(LS-value + 19968)x 2

The minimum value you can specify is 80000 or a value not less than the value of the NT parameter multiplied by 25000.

80000-2147483647 150000
MLwto Specify whether multi-line messages that are normally written to the operator console as a series of single-line write-to-operator (WTO) messages should instead appear as multi-line WTO messages.

(Event Replicator for Adabas only)

YES | NO NO
MODe Identify the Adabas operating mode. Valid operating modes include running in single-user mode (SINGLE) or running in multiuser mode (MULTI). SINGLE | MULTI MULTI
MSGBuf Specify the size (in kilobytes) of the message buffer area, which is used to buffer messages for use for performance and tuning and problem analysis. 0 - 128 0
MSGConsl Specify the case of Adabas messages sent to the console. Upper | Mixed Mixed
MSGDruck Specify the case of Adabas messages sent to the DD/DRUCK data set. Upper | Mixed Mixed
MSGPrint Specify the case of Adabas messages sent to the DD/PRINT data set. Upper | Mixed Mixed
MXCANCEL Specify the timeout threshold, in seconds, in which processing of an intracluster cancellation request must occur.

Adabas Cluster Services, Adabas Parallel Services

15 - 2147483647 The value of the MXMSG parameter.
MXCANCELWarn Specify the timeout threshold, in seconds, for an intracluster cancellation request to occur before issuing an early warning about the failure of the cancellation request.

The value of this parameter must be less than the value of the MXCANCEL parameter. A value of "0" indicates that no warnings should be issued.

Adabas Cluster Services, Adabas Parallel Services

0 | 4 - (MXCANCEL_value - 1) The value of the MXCANCEL parameter divided by 4.
MXMSG Specify the timeout threshold, in seconds, in which the processing of an intracluster command must occur.

Adabas Cluster Services, Adabas Parallel Services

15 - 32767 300
MXMSGWarn Specify the timeout threshold, in seconds, for a response to an intracluster command to occur before issuing an early warning about the failure of the request.

The value of this parameter must be less than the value of the MXMSG parameter. A value of "0" indicates that no warnings should be issued.

Adabas Cluster Services, Adabas Parallel Services

0 | 4 - (MXMSG_value - 1) The value of the MXMSG parameter divided by 4.
MXStatus Specify the interval, in seconds, at which the member-level XCF status monitoring heartbeat should occur.

A value of "0" indicates that no member-level status monitoring should occur.

Adabas Cluster Services

0 | 15 - 21474836 15
MXTNa Set the maximum non-activity time, in seconds, that can be specified in the OP command for an individual user. 1 - 65535 3600
MXTSx Set the maximum execution time (in seconds) that can be specified for the ADARUN TLSCMD parameter and for any override execution time setting that might be specified in the Adabas control block of an OP command. 1 - 65535 3600
MXTT Set the maximum transaction time limit, in seconds, that can be specified in the OP command for an individual user. 1 - 65535 3600
MXWtor Specify the timeout interval, in seconds, in which an operator response to a self-termination operator query must occur before issuing a warning.

A value of "0" indicates that no warning message should be issued.

Adabas Cluster Services

0 | 15 - 64800 0
NAb Specify the number of attached buffers to be used during the session. The maximum value you can specify for this parameter varies, depending on the amount of available virtual storage. 1 -varies 16
NALOG Specify the maximum number of audit log data sets to be opened and logged in the PPT for the session. 0 | 2 - 8 0
NC Specify the maximum number of command queue elements (CQEs) for the session. The number of CQEs established for the session determines the maximum number of Adabas commands that may be queued or be in process at any one time during the session. 20 - 32767 200
NCLog Specify the maximum number of command log data sets to be opened and logged in the PPT for the session. A value of "0" disables this parameter. 0 | 2 - 8 0
NH Specify the maximum number of hold queue elements for the session. 20 - 16777215 500
NIsnhq Specify the maximum number of records that can be placed in hold status (hold queues) at the same time by a single user. The maximum value that can be specified for this parameter is the value set for the NH ADARUN parameter (which has a maximum value of 16777215). The default is the larger of 20 or the value of the NH parameter divided by the value of the NU parameter with the result multiplied by two ((NH/NU) * 2). 1 - 16777215 (NH parameter maximum) 20 | (NH/NU) * 2 (whichever is larger)
NOndes Indicate whether to allow (YES) searches using nondescriptors in search buffers. YES | NO YES
NPLOG Specify the maximum number of protection log data sets to be opened and logged in the PPT. A value of "0" disables this parameter. 0 | 2 - 8 0
NPLOGBuffers Specify the number of PLOG protection I/O buffers allocated in the Adabas nucleus session. PLOG protection I/O buffers are only allocated when ADARUN parameter LFIOP is set to a nonzero value. 1 - 2,147,483,687 1
NQcid Specify the maximum number of active command IDs per user. 1 - 65535 20
NSisn Specify the maximum number of ISNs per ISN table (TBI) element. The maximum value that can be specified varies based on the device type of the Work data set or, in the case where user-defined Work block sizes are used, the maximum value is based on a formula. For more information, refer to the more detailed NSISN documentation. 7 - * 51
NT Specify the number of threads to be used during the Adabas session. 4 - 250 5
NU Specify the maximum number of user queue elements for the Adabas session. 20 - 16777215 200
NUCid Specify the ID of an Adabas nucleus in an Adabas cluster.

Adabas Cluster Services, Adabas Parallel Services

0 - 65000 0
NWork1buffers Specify the number of Work part 1 protection I/O buffers allocated in the Adabas nucleus session. Work part 1 protection I/O buffers are only allocated when ADARUN parameter LFIOP is set to a nonzero value. 1 - 2,147,483,687 1
OPenrq Indicate whether an open command (OP) must be issued (is required) as the first command of a user session. YES | NO YES
PAmreqs BS2000 only. Set the maximum number of PAM blocks that can be transferred in one PAM macro request. The default can be reduced to avaoid the recipt of I/O errors DMS09AC -- too many simultaneous I/O requests on some machines. 1 - 1024 80
PGfix Indicate whether pages containing I/O control blocks are released after I/O processing is completed or after the job has ended when using EXCPVR on z/OS systems. When this parameter is set to YES, pages containing the I/O control blocks are fixed for the duration of the job. When set to "NO", pages are fixed only for the duration of I/O processing. YES | NO NO
PLOGDev Specify the device type used for multiple protection log data sets. This parameter must be specified with the PLOGSIZE parameter. Valid device types are listed in Adabas Device Types and Block Sizes value of the DEVICE parameter
PLOGRq Indicate whether a protection log is required for the Adabas session. For details on the meanings of the different values for this parameter, refer to the detailed PLOGRQ documentation. YES | NO | SEL | FORCE YES
PLOGSIze Specify the number of blocks available for each protection log in multiple protection log data sets. This parameter must be specified with the PLOGDEV parameter. 16 - 16777215 ---
PREFEtch Indicate whether the Adabas command-level prefetch or multifetch features should be automatically enabled. YES enables the multifetch (M) option; OLD enables the prefetch (P) option; NO disables the prefetch feature. YES | OLD | NO NO
PREFICmd Identify the commands that should be included in prefetch or multifetch processing.

To specify multiple values for this parameter, list the values separated by forward slashes (/). For example: PREFICMD=L3/L9. The maximum number of entries is 50. The same number of list items must be specified for this parameter as are specified for the PREFIFIL parameter. If you want several commands to be prefetched or multifetched for a single file, repeat the same file number in the PREFIFIL parameter.

The values for this parameter are used in conjunction with the value of the PREFIFIL parameter to customize prefetch and multifetch processing during the session. You cannot specify this parameter in the same session as the PREFXCMD parameter; if you do, the values of the PREFXCMD parameter are used and the values for this parameter are ignored.

L1 - L9 ---
PREFIFil Identify the files that should be included in prefetch or multifetch processing. To specify multiple values for this parameter, list the values separated by commas. The maximum number of entries is 50. The same number of list items must be specified for this parameter as are specified for the PREFICMD parameter. If you want several commands to be prefetched or multifetched for a single file, repeat the same file number in the PREFIFIL parameter.

The values for this parameter are used in conjunction with the value of the PREFICMD parameter to customize prefetch and multifetch processing during the session. You cannot specify this parameter in the same session as the PREFXFIL parameter; if you do, the values of the PREFXFIL parameter are used and the values for this parameter are ignored.

1 - 5000 ---
PREFNrec Specify the number records that can be prefetched or multifetched. The maximum number of records that can be multifetched depends on the maximum that can be held by the record and ISN buffers. 0 - * 0
PREFSBl Specify the size, in bytes, of the internal buffer used by multifetch/prefetch processes, which determines how much record data is prefetched. 1024 - <PREFTBL value> 3000
PREFSTdd Specify the job statement label (DD name) in the nucleus startup job that defines the location to which multifetch statistics should be written. ddname ---
PREFTbl Specify the size, in bytes, of the total prefetch buffer area. 6144 - 2147483647 30000
PREFXCmd Identify the commands that should be excluded in prefetch or multifetch processing.

To specify multiple values for this parameter, list the values separated by forward slashes (/). For example: PREFXCMD=L3/L9. The maximum number of entries is 50. The same number of list items must be specified for this parameter as are specified for the PREFXFIL parameter. If you want several commands to be prefetched or multifetched for a single file, repeat the same file number in the PREFXFIL parameter.

The values for this parameter are used in conjunction with the value of the PREFXFIL parameter to customize prefetch and multifetch processing during the session. You cannot specify this parameter in the same session as the PREFICMD parameter; if you do, the values of this parameter are used and the values for the PREFICMD parameter are ignored.

L1 - L9 ---
PREFXFil Identify the files that should be excluded in prefetch or multifetch processing. To specify multiple values for this parameter, list the values separated by commas. The maximum number of entries is 50. The same number of list items must be specified for this parameter as are specified for the PREFXCMD parameter. If you want several commands to be prefetched or multifetched for a single file, repeat the same file number in the PREFXFIL parameter.

The values for this parameter are used in conjunction with the value of the PREFICMD parameter to customize prefetch and multifetch processing during the session. You cannot specify this parameter in the same session as the PREFXFIL parameter; if you do, the values of the PREFXFIL parameter are used and the values for this parameter are ignored.

1 - 5000 ---
PROGram Identify the program to be run. ADACOM | ADANUC | ADAREV | NETWRK | RENTUSER | USER | utility-name USER
QBlksize Specify the block size, in bytes, for sequential data sets used by ADAIOR, the Adabas I/O component. A value of "0" does not indicate that 0-byte block sizes should be used, but that the block size should be determined by the media type. For more information, read the detailed QBLKSIZE documentation. 0 - 262144 0
REAdonly Indicate whether the Adabas session is a read-only session or it should permit database updates. YES | NO NO
REFstprt Indicate whether statistics should be printed after they are refreshed after an ADADBS REFRESHSTATS utility function run or after interval statistics have been refreshed using Adabas Online System (option R in Session Monitoring). YES | NO YES
REPlication Indicate whether replication should be activated for the Adabas nucleus.

(Event Replicator for Adabas)

YES | NO NO
REVBUFMB

Specify the size of the Review Buffer Pool used as temporary storage when sending the CLOG records via Network (ADALNK) to the Review Hub.

(Adabas Review)

1 - 1024 10
REVFilter Indicate whether Adabas Review record filtering should be allowed during the session.

(Adabas Review)

YES | NO YES
REVIew Indicate whether Adabas Review should be run in local mode, hub mode (specifying the hub ID), or not at all.

(Adabas Review)

NO | LOCAl | hubid NO
REVLOGBmax Specify the maximum allowable number of bytes of a logged buffer for Adabas Review.

(Adabas Review)

0 - 30000 5120
REVLOGMax Specify the maximum size of all of the logged buffers allowed for an Adabas Review command.

(Adabas Review)

2000 - 32764 (32K - 4) 16384
REVLOGNR

Hub mode:

Specify whether the CLOG records are sent as buffered records or as single records via Network (ADALNK) to the Review Hub.

Local mode:

Specify the CLOG record after which the REVIEW subtask is posted for processing.

0 - 64

Hub mode:0

Local mode: 16

REVSTHMV Specify whether the ADARMT/ADRST interface or the ADARMX/ADARSX interface is used to send data via Network (ADALNK) to the Review Hub.

V52

V53

V52
REVTIMER

Hub mode:

Specify the largest delay for sending buffered CLOG records via Network (ADALNK) in case of low database activity.

Local mode:

Send the CLOG records to the Review hub after no later than N seconds.

1 - 60 1
RIafterupdate Indicate whether Adabas should suppress the response code 113 (ADARSP113) subcode 5 and response code 2 (ADARSP002) subcode 5 that are returned when an application issues an RI command for a record that has been updated in the current transaction. The RI command returns response code 0 instead, but does not release any updated records from hold. YES | NO NO
RPLCONNECTCount Specify the number of connection attempts made for the Adabas or Event Replicator Server nucleus after an attempt fails. 0 - 2147483647 0
RPLCONNECTInterval Specify the interval (in seconds) between connection attempts made for the Adabas or Event Replicator Server nucleus after an attempt fails. 0 - 2147483647 0
RPLParms Identify the location where your replication definitions (initialization parameters) should be read from. Replication definitions can be read from the Replicator system file (FILE), from DDKARTE (PARMS), both the Replicator system file and from DDKARTE (where the DDKARTE specifications override any duplicates with the Replicator system file), or not at all (NONE).

(Event Replicator for Adabas)

BOTH | FILE | NONE | PARMS If the Replicator system file resides on the Event Replicator database, definitions are read first from the Replicator system file and then from DDKARTE. If the Replicator system file does not reside on the Event Replicator database, the definitions are read from DDKARTE.
RPLSort Indicate whether Event Replicator for Adabas transaction data sorting should occur.

(Event Replicator for Adabas)

YES | NO YES
RPWARNINCrement Specify the interval (in percentage of LRPL usage) at which warning messages should be sent indicating that the replication pool usage has exceeded the threshold set by the RPWARNPERCENT parameter.

(Event Replicator for Adabas)

1 - 99 10
RPWARNINTerval Specify the interval, in seconds, during which replication pool usage warning messages are suppressed on the console.

(Event Replicator for Adabas)

1 - 2147483647 60
RPWARNMessagelimit Specify the number of replication pool usage warning messages that can be issued to the console before message suppression begins.

(Event Replicator for Adabas)

1 - 2147483647 5
RPWARNPercent Specify the threshold for replication pool usage (expressed as a percentage of LRPL) at which replication pool usage warning messages should be sent. A value of 0 for this parameter indicates that no warning messages are issued.

(Event Replicator for Adabas)

.
0 - 99 0
RVclient Specify whether Adabas Review client reporting should be activated in batch environments.

Note:
This ADARUN parameter is valid only in z/OS environments and only when ADARUN PROGRAM=USER.

(Adabas Review)

ACTIVE | INACTIVE INACTIVE
SEcuid Specify the requirement level of security system user IDs for a database. Using it you can indicate how Adabas handles calls from users without a security system user ID or with a security system user ID that changed during the Adabas session. ALLOW | REQUIRE | WARN ALLOW
SMF Specify whether or not Adabas SMF recording should be enabled. YES | NO NO
SMF89 Specify whether or not the Adabas nucleus should register with z/OS for type 89 SMF records. YES | NO NO
SMFDETAIL Specify the type of detail sections in SMF Interval and Termination records (subtypes 2 and 3) that should be included in Adabas SMF records. All specifications (regardless of how many) for this parameter should be enclosed in parentheses.

When NONE or ALL are specified for this parameter, they should be specified alone; no other values can be combined with NONE or ALL.

Valid detail section names are ALL, CMD, FILE, IODD, NONE, PARM, SESS, STG, THRD, ZIIP and USER. List of section names must be separated by commas.

In cluster environments (Adabas Cluster Services and Adabas Parallel Services), additional detail section names can be specified: CSHB, CSHF, CSHG, CSHP, LOCK, MSGB, MSGC, and MSGH.

(NONE | ALL | section-name-list) (NONE)
SMFINTERVAL Specify whether SMF interval records should be generated and the interval at which they should be generated. NONE | GLOBAL | SUBSYS | minutes NONE
SMFRECNO Specify the Adabas SMF record number used for user-defined SMF records. 128 - 255 255
SMFSUBSYS Specify the name of the IBM or user-defined SMF subsystem from PARMLIB member SMFPRMxx. CURRENT | subsystem-name CURRENT
SMGt Indicate whether the error handling and message buffering facility should be enabled for the session. YES | NO NO
SOrtcache Indicate whether to enable (YES) or disable (NO) controller caching for the Adabas Sort data set. YES | NO YES
SPt Indicate whether use of Adabas triggers and stored procedures should be enabled for the session. YES | NO NO
SRlog Indicate how spanned records should be logged to the protection logs. ALL | UPD | PART UPD
SVc Specify the Adabas SVC number or Adabas Review hub SVC number to be used for the session. 200 - 255 249
TARgetid Specify the unique Entire Net-Work target ID for this node. 1 - 65535 1
TCPIp Indicate whether a direct TCP/IP link to the Adabas nucleus should be activated for this session. YES | NO NO
TCPUrl Identify the universal resource locator (URL) for the direct TCP/IP link to the Adabas nucleus (when TCPIP is set to "YES"). url ---
TEmpcache Indicate whether to enable (YES) or disable (NO) controller caching for the Adabas Temp data set. This parameter is valid only in z/OS environments. YES | NO YES
TFlush Specify the time, in seconds, to allow for a synchronous buffer flush. 1 - 30 1
TLscmd Specify the maximum time, in seconds, to be used to process a single Adabas S1, S2, or S4 command with complex search criteria. 1 - the setting of the ADARUN MXTSX parameter 300
TMDrq Set the number of entries allowed in the Adabas Transaction Manager's internal request queue.

(Adabas Transaction Manager)

10 - 32767 10
TMEtdata Identify the database or databases that will store Adabas Transaction Manager's ET data.

(Adabas Transaction Manager)

ATM | TARGETS TARGETS
TMGtt Set the time limit, in seconds, during which a global transaction can be open without being prepared.

(Adabas Transaction Manager)

1 - 16777215 720
TMLog Identify the logging option for the current execution of the Adabas Transaction Manager.

(Adabas Transaction Manager)

YES | NO | NEVER NO
TMMsgsev Set the severity threshold for the suppression of Adabas Transaction Manager warning messages. If this parameter is set to "0", no messages are suppressed.

(Adabas Transaction Manager)

0 | 4 | 8 0
TMRestart Identify how restart processing of problematic transactions should be handled.

(Adabas Transaction Manager)

NORMAL | FORCE | FORCEALL NORMAL
TMSyncmgr Indicate whether the Adabas Transaction Manager is to interact with an external transaction coordinator.

(Adabas Transaction Manager)

NONE | RRMS NONE
TMTcidpref Define the first one or two characters (the prefix) of dynamically allocated client IDs. Up to two alphanumeric characters can be specified.

(Adabas Transaction Manager)

prefix TM
TNAA Specify the maximum elapsed time, in seconds, that an access-only user may be considered active without issuing an Adabas command. 1 - 2147483647 900
TNAE Specify the maximum elapsed time, in seconds, that an ET logic user may be considered active without issuing an Adabas command. 1 - 2147483647 900
TNAX Specify the maximum elapsed time, in seconds, that an exclusive control user may be considered active without issuing an Adabas command. 1 - 2147483647 900
TT Specify the maximum elapsed time, in seconds, permitted for a logical transaction issued by an ET logic user. 1 - 2147483647 900
UEXnn Activate a user exit and specify the name of the user routine for the exit. The value of nn in the parameter name must be an integer in the range from 1 through 12, inclusive that identifies the number of the user exit. The value assigned the parameter must be a one to eight-character name of the corresponding user routine that gets control.

Note:
User exit 2 (UEX2) and user exit 12 (UEX12) are mutually exclusive.

user-routine-name ---
UEXSMF Specify the name of the SMF user exit module. module-name ---
UPdatecontrol Specify whether or not to shortly delay the scheduling of update commands at the end of buffer flushes. DELAY | NODELAY DELAY
UTIonly Indicate whether the session should be restricted to Adabas utilities only. YES | NO NO
V64bit Indicate whether the Adabas nucleus should use virtual storage above the 2 gigabyte bar. In order for the nucleus to use 64-bit virtual storage, the operating system must also support 64-bit virtual storage. YES | NO NO
VIsta Indicate whether support for Adabas Vista should be enabled.

(Adabas Vista)

YES | NO NO
WOrkcache Indicate whether to enable (YES) or disable (NO) controller caching for the Adabas Work data set. This parameter is valid only in z/OS environments. YES | NO YES
ZIIP Indicate whether or not to activate Adabas for zIIP. YES | NO NO

ALOGDEV Parameter: Multiple Audit Logs Device Type

Parameter Specify . . . Possible Values Default
ALOGDEV The device type to be used for multiple audit logs. See text value of DEVICE parameter

The ALOGDEV parameter specifies the type of external storage device used for multiple audit logs.

Note:
The ALOGDEV and ALOGSIZE parameters must be used together. If you specify one parameter, you must also specify the other parameter.

You must also specify the NALOG parameter to use multiple audit logs. If you specify a user exit, it must be UEX12.

Refer to the Adabas for Mainframes documentation > Reference > DBA Reference Summary > section Adabas Device Types and Blocks Sizes for information about the device types that Adabas supports.

All audit logging data sets must be formatted using the ADAFRM utility before they are used.

The maximum size of the data set depends on the limits of the operating system and on the requirements of the user.

Example

The following example runs the Adabas Audit Server with audit logging. It uses six audit log data sets and a device type 3390 for audit logging. The size of each audit log data set is 1500 blocks based on an allocation of 10 cylinders. Each cylinder of a 3390 device has 15 tracks, and each track can contain 10 blocks of audit log data. Thus, 10 cylinders = 10 x 15 x 10 = 1500 blocks.

ADARUN PROG=ADANUC,LOGGING=YES,NALOG=6,ALOGDEV=3390,ALOGSIZE=1500

ALOGSIZE Parameter: Multiple Audit Log Size

Parameter Specify . . . Minimum Maximum Default
ALOGSIZE The number of blocks available for each audit log. 16 16777215 none

The ALOGSIZE parameters specifies the number of blocks available for each audit log data set.

Note:
The ALOGDEV and ALOGSIZE parameters must be used together. If you specify one parameter, you must also specify the other parameter.

You must also specify the NALOG parameter to use multiple audit logs. If you specify a user exit, it must be UEX12.

Refer to the Adabas for Mainframes documentation > Reference chapter > DBA Reference Summary > section Adabas Device Types and Blocks Sizes for information about the device types that Adabas supports.

All audit logging data sets must be formatted using the ADAFRM utility before they are used.

The maximum size of the data set depends on the limits of the operating system and on the requirements of the user.

Example

The following example runs the Adabas Audit Server with audit logging. It uses six audit log data sets and a device type 3390 for audit logging. The size of each audit log data set is 1500 blocks based on an allocation of 10 cylinders. Each cylinder of a 3390 device has 15 tracks, and each track can contain 10 blocks of audit log data. Thus, 10 cylinders = 10 x 15 x 10 = 1500 blocks.

ADARUN PROG=ADANUC,LOGGING=YES,NALOG=6,ALOGDEV=3390,ALOGSIZE=1500

AOSLOG Parameter: Log Active Nucleus Update Commands

Parameter Specify . . . Possible Values Default
AOSLOG whether to log update commands from ADADBS OPERCOM or AOS that modify the active nucleus YES | NO NO
Value Meaning
YES Log to DDPRINT Adabas calls that modify the active nucleus (not read/display calls) issued by ADADBS OPERCOM or the equivalent Adabas Online System (AOS) functions.
NO The default setting. Commands are not logged.

Example

In the following example, Adabas calls that modify the nucleus are logged.

ADARUN PROG=ADANUC,AOSLOG=YES

AREXCLUDE Parameter: Exclude Files from Autorestart Processing

Parameter Specify . . . Possible Values Default
AREXCLUDE the file(s) to exclude from autorestart processing. 1-5000 none

The AREXCLUDE parameter is intended for use only when autorestart processing fails (abends) due to response codes on one or more Adabas files. In this case, excluding the problem file(s) from autorestart might allow for successful autorestart processing on the other files.

Excluded files are marked as "utility use only". Software AG recommends that you restore excluded files from the latest save tapes and regenerate them.

Multiple file numbers can be specified on the same parameter if separated by commas.

Example

The following example excludes files 199 and 231 from autorestart processing.

ADARUN PROG=ADANUC,AREXCLUDE=199,231

ARMNAME Parameter: Activate Automatic Restart Management (ARM) Program

Parameter Specify . . . Possible Values Default
ARMNAME and activate a particular automatic restart management (ARM) program. arm-pgm-name none

Automatic restart management (ARM) is used to automatically restart a nucleus when it abends. It is suppressed when the abend is intentional; for example, when it results from a parameter error.

ARM can be used in both cluster and noncluster nucleus environments.

ARM programs ('elements') are defined by the system programmer in the ARM 'policy'. They specify when, where, and how often a restart is to be attempted.

The ARMNAME parameter has no effect if an ARM policy has not been defined.

The name can be 1-16 characters long. In a cluster environment, the name must be unique across the cluster. Uppercase alphabetic characters, the numbers 0-9, and the special characters $, @, and #, and the underscore (_) may be used. The first character may not be numeric. Names that start with A through I and with SYS are reserved for use by IBM.

Example

The following example activates the automatic restart management program RESTART002.

ADARUN PROG=ADANUC,ARMNAME=RESTART002

ARNWORKBUFFERS Parameter: Autorestart WORK I/O Buffer Controls

Parameter Specify . . . Possible Values Default
ARNWORKBUFFERS the number of WORK I/O buffers allocated during autorestart processing after a failure. 0 - 2147483647 varies based on ADARUN V64BIT parameter setting.

When multiple WORK I/O buffers are allocated and used during autorestart processing, multiple WORK blocks may be read in each I/O. The use of multiple WORK buffers during autorestart processing may reduce the elapsed time needed to complete autorestart processing.

The buffers are allocated prior to the start of the backward repair phase of autorestart processing and deallocated at the end of autorestart processing.

If ARNWORKBUFFERS is set to zero or one, one WORK block will be read in each WORK read I/O during autorestart processing. The highest number of WORK I/O buffers allocated will be the number of WORK buffers in two cylinders.

In a noncluster nucleus, one set of buffers is allocated. In a cluster nucleus, one set of buffers is allocated for each cluster nucleus active at the time of the preceding failure. For example, if five cluster nuclei are active at the time all nuclei fail, five sets of WORK buffers are allocated.

When the ADARUN parameter V64BIT is set to YES, the autorestart WORK I/O buffers are allocated in virtual storage above the two gigabyte bar. When V64BIT=NO, the autorestart WORK I/O buffers are allocated in virtual storage above the 16 megabyte line and below the two gigabyte bar.

The default value for ARNWORKBUFFERS depends on the setting of the ADARUN V64BIT parameter.

  • If V64BIT=NO, the default value for ARNWORKBUFFERS is one track worth of buffers. For example, on a 3390 device, nine WORK blocks fit in one track; in this example, the default value is "9".

  • If V64BIT=YES, the default value for ARNWORKBUFFERS is two cylinders worth of buffers. For example, on a 3390 device, nine WORK blocks fit in one track and there are 15 tracks per cylinder. In this example, the default value is "270" (in other words, 9*15*2).

ASSOCACHE Parameter: Associator Controller Caching

This parameter applies to the z/OS operating system only.

Parameter Specify . . . Possible Values Default
ASSOCACHE whether to enable (YES) or disable (NO) controller caching for the Associator (ASSO) data set. YES | NO YES
Value Meaning
YES The default setting. ASSO blocks are preread and maintained as long as possible in the caching facilities of the disk controller.
NO ASSO blocks are not preread.

Notes:

  1. If ASSO blocks are highly scattered or the update frequency is low, controller caching can cause longer I/O response times.
  2. ADARUN caching control parameters also exist for Data Storage (DATACACHE), the work area (WORKCACHE), the sort area (SORTCACHE), and the temp area (TEMPCACHE).

Example

The following example runs the nucleus without controller caching for the ASSO data set.

ADARUN PROG=ADANUC,ASSOCACHE=NO

ASSOSPACEWARN Parameter: Associator Space Notifications

Parameter Specify . . . Possible Values Default
ASSOSPACEWARN Up to three pairs of threshold percentages and percentage change increments, expressed as percentages of the total Associator (ASSO) portion of the database. When ASSO space use reaches a specified threshold percentage, a space usage message is issued. In addition, when the ASSO space use changes by the increment specified for that threshold, additional space usage messages are issued.

The full syntax of the ASSOSPACEWARN parameter is given below.

0-100,1-99 0,5

Note:
For the purposes of database space notifications, the space used in the Adabas database comprises all database blocks that have been assigned either to some common purpose (for example, DSST, PPT, DLOG area) or to a file in the database. Only space listed in the free space table (FST) is not calculated as used. In particular, free space allocated for some file but not yet used is calculated as used.

The syntax of the ASSOSPACEWARN ADARUN parameter is:

graphics/adarun_assospacewarn.png

The following specifications can be made in the ASSOSPACEWARN parameter:

Parameter Description
threshold# A threshold, expressed as a percentage of the total Associator portion of the database. When ASSO space use exceeds or falls below any of the thresholds set, a space usage message is issued. The default is zero (0). If zero is specified for the first threshold setting, no space messages are issued.

When more than one threshold is specified, the second threshold specification must be greater than the first. Likewise, the third threshold specification (if made) must be greater than the second.

inc# An increment percentage, expressed as a percentage of the total ASSO portion of the database. When ASSO space use changes (increases or decreases) from the associated threshold by the amount given in this increment percentage, another space usage message is issued. The default is five percent (5).

Up to three threshold-increment pairs can be specified.

Example

In the following ADARUN parameter example, a space usage message is printed to the console when the percentage of ASSO space used is greater than or equal to 50%, 60%, 70%, 80%, 90% and 100% of the total ASSO space available. When ASSO space use increases from under 50% to 55%, a space usage message is printed specifying the used percentage of 55%. If the ASSO space use then decreases to less than 50% (for example, to a value of 38%), a space usage message is printed indicating that the ASSO space usage is now 38%.

ADARUN PROG=ADANUC,ASSOSPACEWARN=50,10

ASYTVS Parameter: Asynchronous Buffer Flush

Parameter Specify . . . Possible Values Default
ASYTVS whether to flush buffers asynchronously based on volume serial number. YES | NO YES

Specific Product Recommendations

Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

Example

The following example disables the asynchronous buffer flush based on volume.

ADARUN PROG=ADANUC,ASYTVS=NO

AUDITING Parameter: Enable Nucleus Auditing

Parameter Specify . . . Possible Values Default
AUDITING Enables or disables Adabas nucleus auditing. YES | NO NO

The AUDITING parameter enables auditing on Adabas nuclei.

Note:
For further information, refer to the documentation of Adabas Auditing > Installation chapter > Activating Auditing for Application Files.

Example

ADARUN PROG=ADANUC,AUDITING=YES

AUDITLOG Parameter: Audit of AOS and Utility Functions

Parameter Specify . . . Possible Values Default
AUDITLOG Whether auditing data of utility and AOS functions should be activated. CONSOLE | NO NO

This ADARUN parameter activates the writing of auditing data for utility and AOS functions. Specifying the option CONSOLE results in AAUD01 messages logged on the console for utility and AOS functions. The AAUD01 messages consist of the function and the user that initiated the call. AUDITLOG can be switched off by specifying NO or having no setting at all.

If a utility or AOS request affects multiple functions, the AAUD01 message mentions only the first requested function that is processed. For example, if your request is "reorder file", AAUD01 is going to consist of the first reordered ASSO. Look for additional console or output messages indicating what was performed by the action.

Example

In the following example, AUDITLOG is activated and Audit data (AAUD01 messages) pertaining to the utility and AOS functions will be written to the console.

ADARUN AUDITLOG=CONSOLE

AUTOCQENV Parameter: Environment Affected by Command Return from the Command Queue

Parameter Specify . . . Possible Values Default
AUTOCQENV the type of user affected by the AUTOCQTIME parameter setting. Only commands from users in the specified environment will be returned from the command queue if they meet the AUTOCQTIME criteria. ALL | CICS ALL

The AUTOCQENV parameter and its supplement, AUTOCQTIME, have an effect only in cluster databases (i.e., Adabas Cluster Services or Adabas Parallel Services). After the failure of a nucleus in the cluster, while online recovery is in progress, surviving Adabas cluster nuclei stop selecting user commands from the command queue. During this time, new commands issued by users accumulate in the command queue and wait to be processed. The AUTOCQENV and AUTOCQTIME parameters can be used to prevent overly long delays for many commands.

When set to ALL, unprocessed commands from all users in the command queue are reviewed during online recovery to determine if they meet the criteria specified by the AUTOCQTIME parameter. When set to CICS, only unprocessed commands from CICS sessions are reviewed.

When a command in the command queue is returned to the user, no related information is written to the CLOG data set.

The setting of this parameter is local and fixed. It applies only to the Adabas nucleus for which it is set and it retains its value for the entire nucleus session.

Example

The following example will review unprocessed commands from CICS sessions. If the reviewed commands meet the criteria specified by the AUTOCQTIME parameter, the commands are returned to the user with response code 22 (ADARSP022), subcode 55.

ADARUN PROG=ADANUC,AUTOCQENV=CICS

AUTOCQTIME Parameter: Wait Time Threshold for Commands in Command Queue during Online Recovery

Parameter Specify . . . Possible Values Default
AUTOCQTIME the timeout period, in seconds, after which an eligible unprocessed command in the command queue during online recovery will be returned to the user with response code 22 (ADARSP022), subcode 55. 0 (zero) | 1 - 86400 0

The AUTOCQTIME parameter and its supplement, AUTOCQENV, have an effect only in cluster databases (i.e., Adabas Cluster Services or Adabas Parallel Services). After the failure of a nucleus in the cluster, while online recovery is in progress, surviving Adabas cluster nuclei stop selecting user commands from the command queue. During this time, new commands issued by users accumulate in the command queue and wait to be processed. The AUTOCQTIME and AUTOCQENV parameters can be used to prevent overly long delays for many commands.

When this parameter is set to 0 (zero), command time spans are not reviewed and commands remain in the command queue until they are processed.

When this parameter is set to a positive value, Adabas will, during online recovery, regularly review the command queue for unprocessed commands that have been waiting for the specified number of seconds or longer and meet the AUTOCQENV parameter criteria. Eligible unprocessed commands will be automatically returned with response code 22 (ADARSP022), subcode 55

When a command in the command queue is returned to the user, no related information is written to the CLOG data set.

The setting of this parameter is local and fixed. It applies only to the Adabas nucleus for which it is set and it retains its value for the entire nucleus session.

Example

The following example will return unprocessed commands in the command queue to the issuing user with response code 22, subcode 55 after the commands have been in the command queue for at least 60 seconds during an online recovery process following the failure of a cluster nucleus.

ADARUN PROG=ADANUC,AUTOCQTIME=60

AUTOINCASSOSIZE Parameter: Associator Automatic Database Increase Size

Parameter Specify . . . Possible Values Default
AUTOINCASSOSIZE the size, in cylinders or blocks, by which the highest-numbered (last-defined) Associator (ASSO) data set will be increased by an automatic database increase process. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0

This parameter only has an effect if the AUTOINCASSOTHRESHOLD has a non-zero value. A numeric value followed by the letter B indicates the value specifies a number of blocks, which is then rounded up to the next highest amount that fills the final track or other platform-dependent minimum space allocation unit. A numeric value without the suffix B indicates the increment is in cylinders.

If an automatic database increase process is started to increase the ASSO component of the database, the last ASSO container data set will be increased by the number of cylinders or blocks specified by AUTOINCASSOSIZE. (The number of cylinders or blocks added may be less, however, if the limit set by the AUTOINCASSOTOTAL parameter is reached.)

If the last ASSO container data set cannot be increased by the specified size, but only by a lesser amount, the automatic increase process will increase the data set by the amount of space that it can get. Note that one data set can span at most 59 volumes with up to 16 extents on each volume. When these limits are reached, the database should be increased manually by adding a new container data set with the ADADBS ONLADD utility function.

When 4-byte RABNs are used, valid values for this parameter range from from zero (0) to 2147483647 blocks or the equivalent in cylinders. When 3-byte RABNs are used, the limits range from zero (0) to 16777215 blocks or the equivalent in cylinders. A value of "0" or "0B" means that no automatic increase will be performed for ASSO space. The default value for this parameter is zero, which functionally disables auto-increase for ASSO space.

If AUTOINCASSOSIZE is set to a small value, the automatic database increase process may be initiated multiple times and cause the container allocation to reach platform-dependent limits on extents and volumes. Once that occurs, there can be no more auto-increases until the container allocations are consolidated, which requires stopping all nuclei using the container. Alternatively, a manual increase can be used to add another container without stopping the Adabas nucleus.

This parameter can be changed at runtime via operator command or corresponding AOS and ADADBS functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

In the following example, the highest-numbered ASSO data set (the last) will be increased in size by 500000 blocks when the AUTOINCASSOTHRESHOLD is reached.

ADARUN PROG=ADANUC,AUTOINCASSOSIZE=500000B 

AUTOINCASSOTHRESHOLD Parameter: Associator Space Threshold

Parameter Specify . . . Possible Values Default
AUTOINCASSOTHRESHOLD the Associator space threshold at which Adabas automatically initiates a database increase process. This threshold is expressed as a percentage of used Associator space to total Associator space available in the database. ASSO space is considered used if it is not listed as free in the Free Space Table (FST). 0, 50 - 100 0

If the used Associator space matches or exceeds the percentage defined by the specified AUTOINCASSOTHRESHOLD setting, Adabas automatically initiates a database increase process for ASSO space.

Note that the database increase process may take some time, the length of which is related to the size by which the database is increased (the value of the AUTOINCASSOSIZE setting). The AUTOINCASSOTHRESHOLD setting should be configured so that the increase process is given sufficient time to complete before the database fills up, assuming a reasonable space consumption rate.

Once a database increase process has been initiated, another automatic increase for ASSO space may be started only after the first process has finished and the ASSO space usage again (or still) matches or exceeds the specified threshold.

Valid values for this parameter are either zero (0) or integers ranging from 50 through 100. A value of zero means that no automatic increase will be performed for ASSO space. A value of 100 means that an automatic increase process will be initiated only when the ASSO space grows full (i.e., no free space is left at all). The default value for this parameter is zero, which functionally disables auto-increase processes for ASSO space.

This parameter can be changed at runtime via operator command or corresponding AOS and ADADBS functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

In the following example, a database increase process for ASSO space will be initiated when the used ASSO space matches or exceeds 70% of the total ASSO space defined.

ADARUN PROG=ADANUC,AUTOINCASSOTHRESHOLD=70

AUTOINCASSOTOTAL Parameter: Associator Space Maximum Size

Parameter Specify . . . Possible Values Default
AUTOINCASSOTOTAL the maximum total size, in cylinders or blocks, of the entire Associator space of the database that is not to be exceeded by automatic database increase processes. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0

This parameter specifies the total maximum size, in cylinders or blocks, of the entire Associator space of the database. A numeric value followed by the letter B indicates the value specifies a number of blocks, which is then rounded up to the next highest amount that fills the final track or other platform-dependent minimum space allocation unit. A numeric value without a suffix B indicates the increment is in cylinders.

An automatic database increase process for ASSO space will not exceed the size specified by the AUTOINCASSOTOTAL parameter. This parameter can be used to limit the total amount of disk space used for the database, in order to protect the disk space remaining available for other databases and other users of the system. Note that this parameter limits only automatic increases by Adabas; it does not limit increasing the database manually using the ADADBS ADD, INCREASE, ONLADD or ONLINCREASE utility functions.

AUTOINCASSOTOTAL specifies the number of cylinders or blocks beyond which automatic database increase processes will not extend the ASSO space of the database. If AUTOINCASSOTOTAL is less than the current ASSO size plus AUTOINCASSOSIZE, an automatic increase will increase the ASSO space only by the difference between AUTOINCASSOTOTAL and the current size – that is, by less than the increase requested by the AUTOINCASSOSIZE parameter. If AUTOINCASSOTOTAL is not greater than the current ASSO size, no further automatic increases will be performed for ASSO space.

When 4-byte RABNs are used, valid values for this parameter range from from zero (0) to 2147483647 blocks or the equivalent in cylinders. When 3-byte RABNs are used, the limits range from zero (0) to 16777215 blocks or the equivalent in cylinders. A value of "0" or "0B" means that no automatic increase will be performed for ASSO space. The default value for this parameter is zero, which functionally disables auto-increase for ASSO space.

The total size of ASSO space may be constrained to less than the AUTOINCASSOTOTAL value for either of the following reasons.

  • There may not be enough storage resources to extend to the specified limit.

  • When using 4-byte RABNs, a component can have at most 2147483647 blocks, and for 3-byte RABNs the limit is 16777215 blocks.

This parameter can be changed at runtime via operator command or corresponding AOS and ADADBS functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

In the following example, the total ASSO space for a database is set to 16777215 blocks.

ADARUN PROG=ADANUC,AUTOINCASSOTOTAL=16777215B

AUTOINCDATASIZE Parameter: Data Storage Automatic Database Increase Size

Parameter Specify . . . Possible Values Default
AUTOINCDATASIZE the size, in cylinders or blocks, by which the highest-numbered (last-defined) Data Storage (DATA) data set will be increased by an automatic database increase process. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0

This parameter only has an effect if the AUTOINCDATATHRESHOLD has a non-zero value. A numeric value followed by the letter B indicates the value specifies a number of blocks, which is then rounded up to the next highest amount that fills the final track or other platform-dependent minimum space allocation unit. A numeric value without the suffix B indicates the increment is in cylinders.

If an automatic database increase process is started to increase the DATA component of the database, the last DATA container data set will be increased by the number of cylinders or blocks specified by AUTOINCDATASIZE. (The number of cylinders or blocks added may be less, however, if the limit set by the AUTOINCDATATOTAL parameter is reached.)

If the last DATA container data set cannot be increased by the specified size, but only by a lesser amount, the automatic increase process will increase the data set by the amount of space that it can get. Note that one data set can span at most 59 volumes with up to 16 extents on each volume. When these limits are reached, the database should be increased manually by adding a new container data set with the ADADBS ONLADD utility function.

Even though the increase is for the DATA component, a response 77 is still possible for ASSO if the increase requires an ASSO extent to be taken and no ASSO space is available. Therefore, it is suggested to make sure ASSO storage is available as well.

When 4-byte RABNs are used, valid values for this parameter range from from zero (0) to 2147483647 blocks or the equivalent in cylinders. When 3-byte RABNs are used, the limits range from zero (0) to 16777215 blocks or the equivalent in cylinders. A value of "0" or "0B" means that no automatic increase will be performed for DATA space. The default value for this parameter is zero, which functionally disables auto-increase for DATA space.

If AUTOINCDATASIZE is set to a small value, the automatic database increase process may be initiated multiple times and cause the container allocation to reach platform-dependent limits on extents and volumes. Once that occurs, there can be no more auto-increases until the container allocations are consolidated, which requires stopping all nuclei using the container. Alternatively, a manual increase can be used to add another container without stopping the Adabas nucleus.

This parameter can be changed at runtime via operator command or corresponding AOS and ADADBS functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

In the following example, the highest-numbered Data Storage data set (the last) will be increased in size by 5000 cylinders when the AUTOINCDATATHRESHOLD is reached.

ADARUN PROG=ADANUC,AUTOINCDATASIZE=5000

AUTOINCDATATHRESHOLD Parameter: Data Storage Space Threshold

Parameter Specify . . . Possible Values Default
AUTOINCDATATHRESHOLD the Data Storage space threshold at which Adabas automatically initiates a database increase process. This threshold is expressed as a percentage of used Data Storage space to total Data Storage space available in the database. DATA space is considered used if it is not listed as free in the Free Space Table (FST). 0, 50 - 100 0

If the used Data Storage space matches or exceeds the percentage defined by the specified AUTOINCDATATHRESHOLD setting, Adabas automatically initiates a database increase process for DATA space.

Note that the database increase process may take some time, the length of which is related to the size by which the database is increased (the value of the AUTOINCDATASIZE setting). The AUTOINCDATATHRESHOLD setting should be configured so that the increase process is given sufficient time to complete before the database fills up, assuming a reasonable space consumption rate.

Once a database increase process has been initiated, another automatic increase for DATA space may be started only after the first process has finished and the DATA space usage again (or still) matches or exceeds the specified threshold.

Valid values for this parameter are either zero (0) or integers ranging from 50 through 100. A value of zero means that no automatic increase will be performed for DATA space. A value of 100 means that an automatic increase process will be initiated only when the DATA space grows full (i.e., no free space is left at all). The default value for this parameter is zero, which functionally disables auto-increase processes for DATA space.

This parameter can be changed at runtime via operator command or corresponding AOS and ADADBS functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

In the following example, a database increase process for DATA space will be initiated when the used DATA space matches or exceeds 75% of the total DATA space defined.

ADARUN PROG=ADANUC,AUTOINCDATATHRESHOLD=75

AUTOINCDATATOTAL Parameter: Data Storage Space Maximum Size

Parameter Specify . . . Possible Values Default
AUTOINCDATATOTAL the maximum total size, in cylinders or blocks, of the entire Data Storage space of the database that is not to be exceeded by automatic database increase processes. 0 - 2147483647 (cylinders)

0B - 2147483647B (blocks)

0

This parameter specifies the total maximum size, in cylinders or blocks, of the entire Data Storage space of the database. A numeric value followed by the letter B indicates the value specifies a number of blocks, which is then rounded up to the next highest amount that fills the final track or other platform-dependent minimum space allocation unit. A numeric value without a suffix B indicates the increment is in cylinders.

An automatic database increase process for DATA space will not exceed the size specified by the AUTOINCDATATOTAL parameter. This parameter can be used to limit the total amount of disk space used for the database, in order to protect the disk space remaining available for other databases and other users of the system. Note that this parameter limits only automatic increases by Adabas; it does not limit increasing the database manually using the ADADBS ADD, INCREASE, ONLADD or ONLINCREASE utility functions.

AUTOINCDATATOTAL specifies the number of cylinders or blocks beyond which automatic database increase processes will not extend the DATA space of the database. If AUTOINCDATATOTAL is less than the current DATA size plus AUTOINCDATASIZE, an automatic increase will increase the DATA space only by the difference between AUTOINCDATATOTAL and the current size – that is, by less than the increase requested by the AUTOINCDATASIZE parameter. If AUTOINCDATATOTAL is not greater than the current DATA size, no further automatic increases will be performed for DATA space.

When 4-byte RABNs are used, valid values for this parameter range from from zero (0) to 2147483647 blocks or the equivalent in cylinders. When 3-byte RABNs are used, the limits range from zero (0) to 16777215 blocks or the equivalent in cylinders. A value of "0" or "0B" means that no automatic increase will be performed for DATA space. The default value for this parameter is zero, which functionally disables auto-increase for DATA space.

The total size of DATA space may be constrained to less than the AUTOINCDATATOTAL value for either of the following reasons.

  • There may not be enough storage resources to extend to the specified limit.

  • When using 4-byte RABNs, a component can have at most 2147483647 blocks, and for 3-byte RABNs the limit is 16777215 blocks.

This parameter can be changed at runtime via operator command or corresponding AOS and ADADBS functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

In the following example, the total DATA space for a database is set to 100000 cylinders.

ADARUN PROG=ADANUC,AUTOINCDATATOTAL=100000

CACHE Parameter: Adabas Caching Facility Control

CACHE (or CACH) specifies whether or not ADACSH is to be loaded during Adabas session initialization.

graphics/ccache.png

Value Description
YES ADACSH is loaded and available for operation.
NO ADACSH is not loaded. Caching is not available until the Adabas session is terminated and subsequently restarted with CACHE=YES.

Example

ADARUN CACHE=YES

ADACSH is loaded during the Adabas session initialization. ADACSH operator commands are accepted and caching is in effect.

CACTIVATE Parameter: Adabas Caching Facility RABN Activation

CACTIVATE (or CACT) specifies whether or not all RABN ranges are to be activated at session open.

graphics/ccact.png

Value Description
YES All RABN ranges are activated at session open. This provides for immediate use of the cache without consideration of the CDEMAND threshold level.
NO None of the RABN ranges is activated unless:
  • the CDEMAND threshold level is reached; or

  • the CENABLE operator command is accepted by ADACSH.

Example

ADARUN CACTIVATE=YES

All RABN ranges are made available for immediate use; that is, as soon as the Adabas nucleus needs to move a block from the Adabas buffer pool into a RABN range, the RABN range is allocated.

CASSODSP / CASSOEXT / CASSOHSP / CASSOG64 / CASSOL64 / CASSOP64 /CASSOV64 Parameters: Adabas Caching Facility Associator RABN Cache Space Control

{ CASSODSP | CASSOEXT | CASSOHSP | CASSOG64 | CASSOL64 |CASSOP64 | CASSOV64 }

Note:
CASSOxxx parameters are mutually exclusive with the CFILE and CXFILE parameters.

The CASSOxxx parameters identify one or more Associator RABNs to be cached where xxx indicates the type of cache space.

  • CASSODSP (or CASSOD) caches the Associator RABNs in data space.

  • CASSOEXT (or CASSOE) caches the Associator RABNs in extended memory.

  • CASSOHSP (or CASSOH) caches the Associator RABNs in hiperspace.

  • CASSOG64 (or CASSOL) caches the Associator RABNs in virtual 64-bit storage backed by 2G large pages.

    Note:
    If "G64" is specified, we recommend you specify a cache space size (CASSOMAXS) that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

  • CASSOL64 (or CASSOL) caches the Associator RABNs in virtual 64-bit storage backed by fixed 1M large pages.

  • CASSOP64 (or CASSOP) caches the Associator RABNs in virtual 64-bit storage backed by pageable 1M large pages.

  • CASSOV64 (or CASSOV) caches the Associator RABNs in virtual 64-bit storage backed by pageable 4K pages.

Note:
Virtual 64-bit storage is only available in z/OS and z/VSE environments.

graphics/ccasso.png

Value Description
rabn The Associator RABN to be cached.
rabn - rabn The range of Associator RABNs to be cached. The range is specified as two numbers separated by a hyphen with no intervening spaces or special characters. More than one RABN range (separated by a comma) may be specified on the same line. There are no continuations. If more than one line is required, additional CASSOxxx parameters must be specified.

If CASSOxxx is specified, only the specified RABNs are cached. Unspecified RABNs are not cached and are subject to normal Adabas I/O operations.

Associator RABNs 1 through 30 are not cached; they are ignored if specified by the user.

Notes:

  1. If an invalid RABN range is specified in the CASSOxxx parameter, subsequent RABN ranges for the CASSOxxx parameter are ignored. The ignored parameters can be added after initialization by using an operator command.
  2. The CSTORAGE parameter overrides any CASSOxxx parameter and ADACSH will cache all Associator RABNs as defined for the database.

RABNs for the ranges specified are cached in the cache space indicated by the parameter suffix. RABN ranges defined with this parameter must therefore compete for the space available in a given cache space. When the maximum is allocated, RABNs are purged from the cache space based on a first-in-first-out (FIFO) mechanism and are reused to accommodate the latest RABNs being purged from the Adabas buffer pool.

Example

 ADARUN CASSODSP=1330-2349,126-187,124-125,205-216 
ADARUN CASSOHSP=218-252,203-204,260-275,277-335

ADACSH caches the specified RABN ranges. No other Associator RABNs are cached.

The first four RABN ranges defined are cached in the Associator cache space allocated in data space (suffix DSP). The second four RABN ranges defined are cached in the Associator cache space allocated in hiperspace (suffix HSP).

CASSOMAXS Parameter: Associator Cache Space Unit Size

The CASSOMAXS (or CASSOM) parameter specifies the unit size in which areas are allocated for Associator cache space.

graphics/cassomaxs_syntax.png

Value Description
n

The unit size in which areas are allocated for Associator cache space. Size may be specified in bytes, in kilobytes (K), in megabytes (M) or in gigabytes (G).

For extended memory, data spaces, and hiperspaces:

  • the minimum unit size is 81920 bytes (or 80K);

  • the maximum unit size is 2147475456 bytes (or 2097144K; or 2047M); and

  • the default unit size is 1048576 bytes (or 1024K; or 1M).

  • In these cases, CASSOMAXS is always rounded up to the nearest 4-kilobyte boundary.

For virtual 64 memory and virtual 64 backed by large pages, virtual storage above the 2G bar is allocated in terms of memory objects, each of which comprises one or more virtual segments or pages of one megabyte each. In essence, CASSOMAXS determines the number of 1-megabyte segments to be allocated for the memory object:

  • the minimum unit size and the default unit size is 1M (1048576 bytes or 1024K).

  • the maximum unit size depends on the limit set for your installation.

  • For memory objects, CASSOMAXS is rounded up to the nearest megabyte boundary. For cache spaces for which storage is backed by 2G large pages ("G64"), CASSOMAXS is rounded up to the nearest multiple of two gigabytes.

    Note:
    If "G64" is specified for a cache space, we recommend that you specify a CASSOMAXS value that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

The total space available is equal to:

Maximum-ASSO-cache-space-size = CASSOMAXS x CMAXCSPS

Storage areas for a cache space are allocated when required. The Adabas nucleus informs ADACSH when a RABN is about to be purged from the buffer pool. If ADACSH determines that this RABN is being cached, it attempts to allocate space in the appropriate cache space.

When no space is available in the currently allocated areas for a cache space, or no areas are allocated, a new area of storage is allocated with the size specified by the CASSOMAXS parameter. For cache storage in

  • extended memory, additional storage is requested in this area;

  • data space, an additional data space is allocated;

  • hiperspace, an additional hiperspace is built; and

  • virtual 64 memory backed by large pages, an additional memory object is allocated; and

  • virtual 64 memory, an additional memory object is allocated.

This occurs until the maximum number of areas as determined by the CMAXCSPS parameter is reached. At this point, space is made for the latest RABNs to be purged from the Adabas buffer pool based on the aging algorithms.

The CASSOMAXS limit used for the allocation of new areas in a cache space is based on the last specification for this value. If no operator or Adabas Online System command is issued, this is the value specified in the startup parameters. If this value is specified by an operator command or through Adabas Online System, it takes effect the next time an additional area is allocated in an ASSO cache space.

Example

ADARUN CASSOMAXS=15000000

Cache space areas for ASSO RABNs are allocated in units of 15003648 bytes (or 14652K; or approximately 14M).

CBUFNO Parameter: Number of Read-Ahead Buffers for Concurrent I/O Processing

CBUFNO specifies the number of read-ahead buffers available for concurrent I/O processing.

CBUFNO is one of two parameters (CBUFNO and CEXCLUDE) used for read-ahead caching. Read-ahead caching performs a read-ahead of consecutive Associator and/or Data Storage blocks when processing serial Adabas commands (Read Logical, Read Physical, Histogram), and when searching using nondescriptors.

The read-ahead is performed by issuing a single EXCP to read all the consecutive Associator or Data Storage blocks that reside on a single track of the disk device. The blocks are kept in cache and are immediately available when the nucleus requests the next block in a sequence.

This feature may enhance performance by reducing the number of physical read I/Os. For example, for a 3380 Associator, a reduction factor of 18:1 may be achieved.

graphics/cbufno_syntax.png

Value Description
n

The number of read-ahead buffers available for concurrent I/O processing.

The recommended setting is a value that accommodates the expected number of concurrent L2, L3, and L9 commands.

The minimum number of read-ahead buffers is 0 (the default). If CBUFNO=0 is specified, no read-ahead caching is performed.

The maximum number is the same as the number of threads specified for the nucleus parameter NT, because there cannot be more than NT number of commands active at any time.

During normal cache processing, if a read I/O request qualifies for read-ahead processing but no read-ahead buffer is available, the read I/O is satisfied with a single block EXCP. In other words, no optimization is done to issue an EXCP to read the entire track.

Note:
Read-end-of-track processing is not available in Cluster and SMP environments.

Example

ADARUN CBUFNO=5,CEXCLUDE=FIND/HIST

Five buffers are available for read-ahead caching. No read-ahead processing is performed for S1 (nondescriptor search) and L9 (histogram) commands.

CCTIMEOUT Parameter: Cache Space Area or RABN Inactivity Time

The CCTIMEOUT (or CC) parameter specifies the amount of time (in seconds) a cache space area can remain inactive before it is released back to the system.

If demand caching (CDEMAND) is in effect, CCTIMEOUT specifies the number of seconds a RABN range, file, or file range can remain inactive before it is disabled.

graphics/cctimeout_syntax.png

Value Description
n

The amount of time (in seconds) a cache space area can remain inactive before it is released back to the system.

If demand caching (CDEMAND) is in effect, CCTIMEOUT specifies the number of seconds a RABN range, file, or file range can remain inactive before it is disabled.

The minimum number of seconds is 60; the maximum is 2147483647.

The default number of seconds is 7200 (2 hours).

If a cache space area has not been accessed for the specified period of time, ADACSH releases the storage associated with the area back to the operating system. A message is displayed on the operator console indicating that the cache space area was timed out. The cache space area can be re-allocated immediately by the caching system when required.

If a RABN range, file, or file range is not referenced for the specified period of time, and demand caching is in effect, the RABN range, file, or file range is disabled. A message is displayed on the operator console informing the user that the RABN range, file, or file range was timed out. No further caching occurs for that RABN range, file, or file range until the Adabas buffer efficiency goes below the level specified by CDEMAND. Once this occurs, the RABN range, file, or file range is enabled again and begins caching its associated RABNs.

Activity is checked at an interval of one half of the CCTIMEOUT value. For example, if CCTIMEOUT=3600 is specified, the allocated cache space areas, RABN ranges, files, or file ranges are checked every 1800 seconds (30 minutes).

A change to CCTIMEOUT using an operator command causes the check to be performed immediately, and subsequently at intervals of one half of the new CCTIMEOUT value.

Example

ADARUN CCTIMEOUT=3600

A cache space area is released (or a RABN range/file/file range is disabled if demand caching is in effect) if there is no activity associated with it for a continuous period of 1 hour (3600 seconds).

CDATADSP / CDATAEXT / CDATAHSP / CDATAG64 / CDATAL64 / CDATAP64 / CDATAV64 Parameter: Adabas Caching Facility Data Storage RABN Cache Space Control

{ CDATADSP | CDATAEXT | CDATAHSP | CDATAG64 | CDATAL64 |CDATAP64 | CDATAV64 }

Note:
CDATAxxx parameters are mutually exclusive with the CFILE and CXFILE parameters.

The CDATAxxx parameters identify one or more Data Storage RABNs to be cached where xxx indicates the type of cache space.

  • CDATADSP (or CDATAD) caches the Data Storage RABNs in data space.

  • CDATAEXT (or CDATAE) caches the Data Storage RABNs in extended memory.

  • CDATAHSP (or CDATAH) caches the Data Storage RABNs in hiperspace.

  • CDATAG64 (or CDATAL) caches the Data Storage RABNs in virtual 64-bit storage backed by 2G large pages.

    Note:
    If "G64" is specified, we recommend you specify a cache space size (CDATAMAXS) that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

  • CDATAL64 (or CDATAL) caches the Data Storage RABNs in virtual 64-bit storage backed by fixed 1M large pages.

  • CDATAP64 (or CDATAP) caches the Data Storage RABNs in virtual 64-bit storage backed by pageable 1M large pages.

  • CDATAV64 (or CDATAV) caches the Data Storage RABNs in virtual 64-bit storage backed by pageable 4K pages.

Note:
Only extended memory is available for BS2000 RISC machines. Hiperspace is an option only in z/OS environments. Virtual 64-bit storage is available only in z/OS and z/VSE environments.

graphics/ccdata.png

Value Description
rabn The Data Storage RABN to be cached.
rabn - rabn The range of Data Storage RABNs to be cached. The range is specified as two numbers separated by a hyphen with no intervening spaces or special characters. More than one RABN range (separated by a comma) may be specified on the same line. There are no continuations. If more than one line is required, additional CDATAxxx parameters must be specified.

If CDATAxxx is specified, only the specified RABNs are cached. Unspecified RABNs are not cached and are subject to normal Adabas I/O operations.

Notes:

  1. If an invalid RABN range is specified in the CDATAxxx parameters, subsequent RABN ranges for the CDATAxxx parameters will be ignored. The ignored parameters can be added after initialization by using an operator command.
  2. The CSTORAGE parameter overrides any CDATAxxx parameter and ADACSH will cache all Data Storage RABNs as defined for the database.

RABNs for the ranges specified are cached in the cache space indicated by the parameter suffix. RABN ranges defined with this parameter must therefore compete for the space available in a given cache space. When the maximum is allocated, RABNs are purged from the cache space based on a first-in-first-out (FIFO) mechanism and are reused to accommodate the latest RABNs being purged from the Adabas buffer pool.

Example

 ADARUN CDATADSP=1-4900,6523-7853 
ADARUN CDATAHSP=5032-6204,8123-10382

ADACSH caches the specified RABN ranges. No other DATA RABNs are cached.

The first two RABN ranges defined are cached in the Data Storage cache space allocated in data space (suffix DSP). The second two RABN ranges defined are cached in the Data Storage cache space allocated in hiperspace (suffix HSP).

CDATAMAXS Parameter: Data Storage Cache Space Unit Size

The CDATAMAXS (or CDATAM) parameter specifies the unit size in which areas are allocated for Data Storage cache space.

graphics/cdatamaxs_syntax.png

Value Description
n

The unit size in which areas are allocated for Data Storage cache space. Size may be specified in bytes, in kilobytes (K), in megabytes (M) or in gigabytes (G).

For extended memory, data spaces, and hiperspaces:

  • the minimum unit size is 81920 bytes (or 80K);

  • the maximum unit size is 2147475456 bytes (or 2097144K; or 2047M); and

  • the default unit size is 1048576 bytes (or 1024K; or 1M).

  • In these cases, CDATAMAXS is always rounded up to the nearest 4-kilobyte boundary.

Note:
When using data space storage on BS2000 systems, allocation units are rounded to one-megabyte units. The Adabas Caching Facility may extend data space storage and deliver the message ADAN8M ddddd area-type (stg-type) size extended by nnnnnn bytes. However, if the megabyte limit is reached, it will deliver the message: ADAN8S area-type (stg-type) Allocate failed. Retcode=64. We recommend that you set the ADARUN parameters CASSOMAXS and CDATAMAXS high enough (in the megabyte range) to prevent repeated expansion. It may be necessary to set the BS2000 user attribute ADDRESS-SPACE-LIMIT high enough to accommodate this.

For virtual 64 memory and virtual 64 backed by large pages, virtual storage above the 2G bar is allocated in terms of memory objects, each of which comprises one or more virtual segments or pages of one megabyte each. In essence, CDATAMAXS determines the number of 1-megabyte segments to be allocated for the memory object:

  • the minimum unit size and the default unit size is 1M (1048576 bytes or 1024K).

  • the maximum unit size depends on the limit set for your installation.

  • For memory objects, CDATAMAXS is rounded up to the nearest megabyte boundary. For cache spaces for which storage is backed by 2G large pages ("G64"), CDATAMAXS is rounded up to the nearest multiple of two gigabytes.

    Note:
    If "G64" is specified for a cache space, we recommend that you specify a CDATAMAXS value that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

The total space available is equal to:

Maximum-DATA-cache-space-size = CDATAMAXS x CMAXCSPS

Storage areas for a cache space are allocated when required. The Adabas nucleus informs ADACSH when a RABN is about to be purged from its buffer pool. If ADACSH determines that this RABN is being cached, it attempts to allocate space in the appropriate cache space.

When no space is available in the currently allocated areas for a cache space, or no areas are allocated, a new area of storage is allocated with the size specified by the CASSOMAXS parameter. For cache storage in

  • extended memory, additional storage is requested in this area;

  • data space, an additional data space is allocated;

  • hiperspace, an additional hiperspace is built; and

  • virtual 64 memory backed by large pages, an additional memory object is allocated; and

  • virtual 64 memory, an additional memory object is allocated.

This occurs until the maximum number of areas as determined by the CMAXCSPS parameter is reached. At this point, space is made for the latest RABNs to be purged from the Adabas buffer pool based on the aging algorithms.

The CDATAMAXS limit used for the allocation of new areas in a cache space is based on the last specification for this value. If no operator or Adabas Online System command is issued, this is the value specified in the startup parameters. If this value is specified by an operator command or through Adabas Online System, it takes effect the next time an additional area is allocated in a Data Storage cache space.

Example

ADARUN CDATAMAXS=15000000

Cache space areas for Data Storage RABNs are allocated in units of 15003648 bytes (or 14652K; or approximately 14M).

CDEMAND Parameter: Lowest Adabas Buffer Efficiency for Caching

The CDEMAND (or CDE) parameter specifies the lowest Adabas buffer efficiency level accepted before caching is activated.

Calculated by the nucleus, Adabas buffer efficiency is the number of read requests divided by the actual number of reads to storage. If the Adabas buffer efficiency level drops below the specified CDEMAND level, ADACSH activates all disabled RABN ranges. In this way, RABN ranges are dynamically activated as demand on the Adabas buffer pool increases.

The CDEMAND parameter should be used in conjunction with the CCTIMEOUT parameter to establish resource usage boundaries that permit the timely acquisition and release of system resources. In other words, CDEMAND may be used to activate RABN ranges when the demand load on Adabas is high, and CCTIMEOUT may be used to deactivate RABN ranges when Adabas is idle.

graphics/cdemand_syntax.png

Value Description
0

If CDEMAND=0 (the default), no demand-level caching occurs.

n

Demand-level caching is to be activated whenever the Adabas buffer efficiency drops below the value specified.

An integer value between 1 and 2147483647 is permitted.

If CDEMAND is not zero, the Adabas buffer efficiency is first checked approximately 30 minutes after the Adabas nucleus is initialized. Thereafter, the Adabas buffer efficiency is checked at intervals of approximately 15 minutes.

CDEMAND does not affect the activation of caching for Work parts 2 and 3 because these areas do not influence the Adabas buffer efficiency. Only Associator and Data Storage blocks reside in the Adabas buffer pool and, consequently, only the cache spaces for the Associator and Data Storage serve to increase the Adabas buffer efficiency level.

Example

ADARUN CDEMAND=7

ADACSH activates the RABN ranges if the Adabas buffer efficiency level drops below 7.

CDISPSTAT Parameter: Adabas Caching Facility RABN Range Statistics Display Control

The CDISPSTAT (or CDI) parameter specifies whether the RABN range statistics are to be displayed on both the operator console and DDPRINT, or only on DDPRINT.

The individual RABN range statistics are displayed whenever a RABN range is released due to a parallel utility operation or an inactivity timeout, or when a RABN range is dynamically added or deleted.

graphics/ccdisp.png

Value Description
YES RABN range statistics are to be displayed on both the operator console and DDPRINT.
NO RABN range statistics are to be displayed only on DDPRINT.

Example

ADARUN CDISPSTAT=NO

When the status of a RABN range is changed due to a parallel utility operation, a timeout, or an operator command to add or delete, the individual RABN range statistics are to be displayed on DDPRINT only.

CDXnn Parameter: Collation Descriptor User Exit

Parameter Specify . . . Possible Values Default
CDXnn the collation descriptor exit and the user routine to be used with it. see text none

Used in conjunction with the universal encoding subsystem (UES), the format of the collation descriptor user exit parameter is

CDXnn=exit-name

where

nn is the number of the collation descriptor exit, a two-digit decimal integer in the range 01-08 inclusive.
exit-name is the name of the user routine that gets control at the collation descriptor exit; the name can be up to 8 characters long.

Only one program may be specified for each collation descriptor exit. Up to 8 collation descriptor exits may be specified (in any order). See the Adabas User, Hyperdescriptor, Collation Descriptor, and SMF Exits Manual for more information.

Example

The following example runs the Adabas nucleus using collation descriptor exits 1 and 2. It also gives control to the user routine UCOLDE1 at collation descriptor exit 1 and gives control to the user routine UCOLDE2 at collation descriptor exit 2.

ADARUN PROG=ADANUC,CDX01=UCOLDE1,CDX02=UCOLDE2

CEXCLUDE Parameter: Adabas Caching Facility Excluded Command Types

CEXCLUDE specifies the command types to be excluded from read-ahead caching.

CEXCLUDE is one of two parameters (CBUFNO and CEXCLUDE) used for read-ahead caching. Read-ahead caching performs a read-ahead of consecutive Associator and/or Data Storage blocks when processing serial Adabas commands (Read Logical, Read Physical, Histogram), and when searching using nondescriptors.

The read-ahead is performed by issuing a single EXCP to read all the consecutive Associator or Data Storage blocks that reside on a single track of the disk device. The blocks are kept in cache and are immediately available when the nucleus requests the next block in a sequence.

This feature may enhance performance by reducing the number of physical read I/Os. For example, for a 3380 Associator, a reduction factor of 18:1 may be achieved.

graphics/ccexcl.png

Value Description
PHYS Exclude L2 and L5 (physical sequence) commands.
LOGI Exclude L3 and L6 (logical sequence) commands.
HIST Exclude L9 (histogram) command.
FIND Exclude S1 (nondescriptor search) command.

The exclusion list must be specified with each four-byte name separated by a slash ( / ). No intervening spaces or special characters, such as commas, are permitted.

The exclusion is made globally; for example, if CEXCLUDE=PHYS is specified, all L2 and L5 commands are excluded from read-ahead processing, regardless of the file to which the command was directed.

The exclusion list may be changed during the nucleus session using the CEXCLUDE and CINCLUDE operator commands.

Example

ADARUN CBUFNO=5,CEXCLUDE=FIND/HIST

Five buffers are available for read-ahead caching. No read-ahead processing is performed for S1 (nondescriptor search) and L9 (histogram) commands.

CFILE Parameter: Adabas Caching Facility File Range

Note:
CFILE is mutually exclusive with the CASSOxxx, CDATAxxx, and CSTORAGE parameters. If any of these parameters is used with CFILE, they will be ignored.

The CFILE parameter defines a file or file range to be cached. It is also used to provide the settings used to control how caching is to be implemented for the file or file range.

graphics/ccfile.png

Value Description
fnr The file number of the file to be cached. The minimum value is 0; the maximum is the actual number of files in the database. File number 0 may be specified to cache RABNs that are not associated with any given file. Currently, this is only the DSST on the Associator data set.
fnr - fnr Range of files to be cached specified by two file numbers (the lower number first) separated by a hyphen with no intervening spaces or special characters.
cls Class of service. The percentage of available cache space that can be used to cache RABNs associated with the specified file(s). This term effectively assigns a priority to the file(s). RABNs belonging to the file(s) with the lowest priority are purged first. Valid values are:
  • 1: 100% (highest priority)

  • 2: 75%

  • 3: 50%; the default

  • 4: 25%

  • 5: 10% (lowest priority)

scope

Caching scope. Valid values are:

  • ASSO (or A) : Caching is to be used only for Associator for the file

  • DATA (or D) : Caching is to be used only for Data Storage for the file

  • BOTH (or B) : Caching is to be used for both Associator and Data Storage for the file

The default is BOTH.
cache

Specifies the type of cache storage in which RABNs for the file will be cached. Valid values are:

  • DATASPACE (or D)

  • EXTENDED (or E)

  • G64 (or G)

  • HIPERSPACE (or H)

  • L64 (or L)

  • P64 (or P)

  • VIRTUAL64 (or V)

The default is DATASPACE.

Notes:

  1. Option "VIRTUAL64" is only available in z/OS and z/VSE environments; options "G64"; "L64"; and "P64" are available only in z/OS environments.
  2. Specify "VIRTUAL64" to request that cache storage be virtual storage above the 2G bar; specify "L64" to request that cache storage be virtual storage above the 2G bar backed by page-fixed 1M large pages; specify "P64" to request that cache storage be virtual storage above the 2G bar backed by pageable 1M large pages; specify "G64" to request that cache storage be virtual storage above the 2G bar backed by page-fixed 2G large pages.
  3. If "G64" is specified, we recommend you specify a cache space size (CASSOMAXS/CDATAMAXS) that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

Within the parentheses, the value terms are positional. This means that you can omit a term if you want to accept the default value for it, but you must enter a comma to identify the position if you are specifying a subsequent term within the parentheses.

Multiple CFILE parameters may be specified.

CFILE and CXFILE parameters together are processed in order from left to right (or top to bottom if different ADARUN statements are used). Parameters or statements that specify file ranges are processed before those that specify specific files.

Examples

ADARUN CACHE=YES,CFILE=(7,2)

File-level caching is active for file number 7. The file is permitted to use up to 75% of the maximum total available cache space (class of service 2). Both Associator and Data Storage RABNS are cached (the default) and the type of cache space used is data space (the default).

ADARUN CACHE=YES,CFILE=(3-6,,DATA,HIPERSPACE)

File-level caching is active for file numbers 3 through 6. The files are permitted to use up to 50% of the maximum total available cache space (class of service 3, the default). Only Data Storage RABNS are cached, and the type of cache space used is hiperspace.

ADARUN CACHE=YES,CFILE=(14-17,,,HIPERSPACE)

File-level caching is active for file numbers 14 through 17. The files are permitted to use up to 50% of the maximum total available cache space (class of service 3, the default). Both Associator and Data Storage RABNs are cached (the default), and the type of cache space used is hiperspace.

CLOGBMAX Parameter: Logged Buffer Size Limit

Parameter Specify . . . Possible Values Default
CLOGBMAX the maximum allowable number of bytes of a logged buffer. 368 - 2147483647 4096

If a buffer is longer than this value, the logged buffer is truncated from the point at which its size exceeds the setting of the CLOGBMAX parameter. The CLOGBMAX setting affects the ADARUN LOGGING parameter specifications for CLOGLAYOUT=8. The minimum value (368) is the size of the length of the CLOGLAYOUT=8 basic record plus the length of the extended Adabas control block (ACBX).

Example

The following example runs the Adabas nucleus using a logged buffer size limit of 512. Individual logged buffers for an Adabas command cannot exceed 512 bytes.

ADARUN PROG=ADANUC,CLOGB=512

CLOGDEV Parameter: Multiple Command Log Device Type
CLOGSIZE : Multiple Command Log Size

Parameter Specify . . . Possible Values Default
CLOGDEV the device type to be used for multiple command logs. see text value of DEVICE parameter
CLOGSIZE the number of blocks available for each command log. Min 16, Max 16777215 none

The CLOGDEV and CLOGSIZE parameters specify the type of external storage device used for multiple command logs and the number of blocks available for each command log data set. These parameters must be used together; if you specify one parameter, you must also specify the other parameter.

You must also specify the NCLOG parameter to use multiple command logs. If you specify a user exit, it must be UEX12.

The section Adabas Device Types and Blocks Sizes in the Adabas Installation documentation specifies the device types that Adabas supports.

All command logging data sets must be formatted using the ADAFRM utility before they are used.

The maximum size of the data set depends on the limits of the operating system and on the requirements of the user.

Example

The following example runs the Adabas nucleus with command logging. It uses six command log data sets and a model 3380 device for command logging. The size of each command log data set is 1350 blocks, based on an allocation of 10 cylinders. (Each cylinder of a 3380 device has 15 tracks, and each track can contain 9 blocks of command log data. Thus, 10 cylinders = 10 x 15 x 9 = 1350 blocks).

ADARUN PROG=ADANUC,LOGGING=YES,NCLOG=6,CLOGDEV=3380,CLOGSIZE=1350

CLOGLAYOUT Parameter: Command Logging Format

Parameter Specify . . . Possible Values Default
CLOGLAYOUT the command log format. 8 8

This parameter specifies the format of the Adabas command log. User programs designed for Adabas 8 or later should specify CLOGLAYOUT=8.

Use the command log format from Adabas 8. Both ACB and ACBX control blocks are converted to a common format. This format includes the corresponding Adabas buffer descriptions (ABDs) as well. Each segmented buffer (format, record, or multifetch) is written separately and uniquely identified.

The format of CLOGLAYOUT=8 records is described in the LORECX DSECT distributed with Adabas 8.

Note:
Timestamps in an Adabas 8 command log created using CLOGLAYOUT=8 are stored in machine time (GMT). The LORECX record layout that describes the CLOGLAYOUT=8 command log includes a differential time field that stores the difference between machine time and local time at the time the CLOG record is written. This field allows you to calculate the local time of a command log record.

Example

The following example uses the Adabas 8 format of the command log.

ADARUN PROG=ADANUC,CLOGLAYOUT=8

CLOGMAX Parameter: Total Logged Buffer Size Limit for a Command

Parameter Specify . . . Possible Values Default
CLOGMAX the maximum size of all of the logged buffers allowed for an Adabas command. 368 - 2147483647 16384

When the sum of sizes of the logged buffers for an Adabas command reaches the value of the CLOGMAX parameter, the buffer exceeding the limit is truncated and all following buffers are omitted. The size of CLOGMAX must at least be as large as the ADARUN CLOGBMAX parameter setting in order to accommodate the largest buffer of the Adabas command. The minimum value (368) is the size of the length of the CLOGLAYOUT=8 basic record plus the length of the extended Adabas control block (ACBX).

The CLOGMAX setting affects the ADARUN LOGGING parameter specifications for the ADARUN CLOGLAYOUT=8 parameter setting.

Example

The following example runs the Adabas nucleus using a command logged buffer size limit of 32K. The sum of all logged buffers for an Adabas command to this nucleus cannot exceed 32K.

ADARUN PROG=ADANUC,CLOGMAX=32768

CLOGMRG Parameter: Cluster Command Log Merge

Parameter Specify . . . Possible Values Default
CLOGMRG whether the Adabas cluster is to run with automatic CLOG merge. YES | NO NO

An automatic CLOG merge process provides a single cluster-wide command log containing, in chronological order, all Adabas commands executed by any of the cluster nuclei in the time period covered by the log.

CLOGMRG specifies whether the Adabas cluster is to run with the automatic CLOG merge:

Value Action
YES enables an automated process that copies dual or multiple command logs to sequential data sets and merges those data sets across a cluster into a single cluster-wide command log. This process automatically merges command logs when an ADARES CLCOPY is submitted from user exit 2/12 and executed. The cluster nuclei and the ADARES utility perform coordinated CLOG switches and CLCOPY functions with merging of CLOG records, much the same way the PLOG merge process works. For the automated CLOG MERGE to synchronize correctly, ADARES must be invoked from the exit.
NO (the default), each nucleus produces its own CLOG, independent of any other nucleus in the cluster; dual or multiple CLOGs can be manually copied using ADARES CLCOPY to a sequential data set; and the resulting sequential CLOGs can be manually merged across a cluster using the ADARES MERGE CLOG function.

Note:
If CLOGMRG=NO is specified, at the end of an ADARES CLCOPY job no additional invocations of the ADARES CLCOPY will occur. The additional invocations only occur in a CLOGMRG=YES environment.

CLOGMRG is a global (that is, a cluster-wide) parameter, which means that the setting of this parameter in the first cluster nucleus to become active is propagated to all nuclei that subsequently become active.

Parameter Dependencies

It is possible to specify both LOGGING=NO and CLOGMRG=YES. In a cluster environment, it is also possible that a CLOG will be written to even if LOGGING=NO. As long as CLOGMRG=NO, nothing will be written to the CLOG if LOGGING=NO. However, if LOGGING=NO and CLOGMRG=YES, control records necessary for ADARES CLCOPY will be written to the CLOG.

CLOGMRG is effective only in an Adabas cluster environment; that is, when CLUSTER is specified with a value other than NO and NUCID is specified with a nonzero value.

Dynamic Modification

The setting of the CLOGMRG parameter can be changed dynamically using the CLOGMRG command from the operator console, the ADADBS OPERCOM CLOGMRG function, or the Modify Parameter function of Adabas Online System.

Because CLOGMRG is a global parameter, the change request to one nucleus is automatically propagated to all nuclei in the cluster.

CLUCACHEEXTRA Parameter: Adjust Shared Cache Vector Size

Parameter Specify . . . Possible Values Default
CLUCACHEEXTRA the additional vector size, in blocks, required to allow Adabas Cluster Services and Adabas Parallel Services to track the blocks held by Adabas Caching Facility in the different cluster nuclei. 0 - 2147483647 1000

This parameter is local and unchangeable. It has effect only if both a cluster product (Adabas Cluster Services or Adabas Parallel Services) and Adabas Caching Facility are active.

If Adabas Cluster Services or Adabas Parallel Services are running on the same system as the Adabas Caching Facility, use the CLUCACHEEXTRA parameter to adjust the vector size of the shared cache. This ensures that Adabas Cluster Services and Adabas Parallel Services can track all of the blocks held privately by the Adabas Caching Facility.

Set the value to the maximum number of blocks expected to be cached by the Adabas Caching Facility. This number can be derived from the CASSOMAXS, CDATAMAXS, and CMAXCSPS parameter settings of the Adabas Caching Facility and the ASSO and DATA block sizes of the database.

CLUCACHENAME Parameter: Cluster Cache Structure/Area Name

Parameter Specify . . . Possible Values Default
CLUCACHENAME the name of the cache structure/area of the Adabas cluster in which the current nucleus participates. text none

For Adabas Cluster Services, the CLUCACHENAME identifies the particular sysplex cache structure (defined in the CFRM policy) associated with a particular Adabas sysplex nucleus cluster. The same name must be set in each nucleus in the cluster. CLUCACHENAME must be unique for each cluster; that is, each database.

Adabas Parallel Services automatically creates a default name for each global cache area allocated by ADACOM. However, if you wish to control the name of the global cache area, you can set this parameter.

Note:
Software AG recommends that you allow the system to build the default name.

For Adabas Parallel Services, the CLUCACHENAME identifies a particular global cache area associated with all cluster nuclei that have the same SVC/DBID set as the current nucleus. The same name must be set in each cluster nucleus that has the same SVC/DBID set. CLUCACHENAME must be unique for each SVC/DBID set.

In all cases, the name can be 1-16 characters long. Valid characters are numeric, uppercase alphabetic, the special characters $, @, and #. The name must begin with an alphabetic character (A-Z). IBM names begin with SYS, UNDESIG, or the characters A through I (these characters are not reserved).

Note:
Additionally, the special character underscore (_) is allowed in Adabas Cluster Services; that is, sysplex environments.

Example

In the following example, the sysplex cache structure name is defined as "SAG1SMP#CACHE1".

ADARUN PROG=ADANUC, CLUCACHENAME=SAG1SMP#CACHE1

CLUCACHESIZE Parameter: Size of the Global Cache Area

Parameter Specify . . . Minimum Maximum Default
CLUCACHESIZE the amount of storage to allocate for the global cache area that services the Adabas Parallel Services cluster in which the current nucleus participates. 128K depends on the type of cache (CLUCACHETYPE parameter) none

The CLUCACHESIZE parameter specifies the amount of storage to be allocated for the global cache area which all nuclei in the Adabas Parallel Services cluster use to share Associator and Data blocks from the database. It has an effect only if CLUSTER=LOCAL is also specified.

The location and maximum size of the global cache area depends on the CLUCACHETYPE parameter. If CLUCACHETYPE=DSP, the global cache is kept in a dataspace shared between the Adabas Parallel Services nuclei. Otherwise, the cache is kept in shared 64-bit virtual storage (z/OS systems only).

CLUCACHESIZE must be specified for Adabas Parallel Services nuclei; there is no default.

Each Adabas Parallel Services nucleus has its own buffer pool sized by the ADARUN parameter LBP. Optionally, it may also have one or more local cache spaces administered by the Adabas Caching Facility (refer to the description of the ADARUN parameter CACHE). In addition, Adabas Parallel Services uses a global cache area to ensure that current images of Associator and Data blocks from the database are available to all Adabas Parallel Services cluster nuclei.

The global cache area must be large enough to retain:

  • directory elements for all blocks that reside in all buffer pools and the global cache itself; and

  • enough data elements to keep changed blocks between buffer flushes (cast-outs).

The ADARUN parameters DIRRATIO and ELEMENTRATIO determine the ratio between the number of directory and data elements.

CLUCACHESIZE may be specified in bytes, in kilobytes followed by a "K", in megabytes followed by an "M", or in gigabytes followed by a "G":

  • the minimum size is 131072 bytes (or 128K);

  • for CLUCACHETYPE=DSP, the maximum size is 2147483147 bytes (or 2097152K; or 2048M; or 2G); and

  • the maximum allowed numeral is 2147483147; for CLUCACHETYPE=V64, use the K, M or G suffix (for example, 10G or 10240M or 10485760K for a global cache of 10 gigabytes size).

The value is rounded up to the nearest four-kilobyte boundary. If CLUCACHETYPE=L64, the value is rounded up to the nearest one-megabyte boundary. If CLUCACHETYPE=G64, the value is rounded up to the nearest two-gigabyte boundary.

Note:
If "G64" is specified for a cache space, we recommend that you specify a CLUCACHESIZE value that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

Appropriate sizes for the global cache area depend very much on the application load in the cluster. For more details about these calculations, read Global Cache Area Size in the Adabas Parallel Services Operations Guide. You can use the Adabas Online System cache structure size calculator described in Estimating Sizes for the Cache Structure in a Cluster Environment in the Adabas Parallel Services Operations Guide to determine appropriate global cache area sizes.

Example

In the following example, the global cache area allocated is 500 M.

ADARUN PROG=ADANUC,CLUCACHESIZE=500M

CLUCACHETYPE Parameter: Global Cache Area Storage Type Option

Parameter Specify . . . Valid Values Default
CLUCACHETYPE the virtual storage type for the global cache area DSP | G64 | L64 | P64 | V64 DSP

The CLUCACHETYPE parameter specifies the type of virtual storage to be used for the global cache of an Adabas Parallel Services cluster. It has an effect only if CLUSTER=LOCAL is also specified. Valid values are "DSP" (available on all supported operating systems), "V64" (available on z/OS and z/VSE systems), "G64" (available only on z/OS systems), "L64" (available only on z/OS systems), and "P64" (available only on z/OS systems).

The size of the global cache is specified in the CLUCACHESIZE parameter.

CLUCACHETYPE Value Description
DSP This is the default value. It indicates that a shared dataspace will be used for the global cache. In this case, the maximum cache size is two gigabytes (2G).
G64 If "G64" is specified (on z/OS 2.1 or later systems running on IBM zEC12 machines), the global cache space shared by the cluster nuclei will reside in 64-bit virtual storage that is backed by page-fixed 2G large pages (provided the large page pool has been configured to a sufficient size and is available in the system). If the system cannot satisfy the allocation request with storage backed by 2G large pages, storage backed by pageable 4K pages will be allocated instead.

Note:
Allocation requests for storage to be backed by 2G large pages will be rounded up to the nearest multiple of two gigabytes. Any difference between the specified size and the allocated size will remain unused. To avoid leaving a potentially large amount of allocated storage unused when specifying CLUCACHETYPE=G64, we recommend that you supply a multiple of two gigabytes for the CLUCACHESIZE parameter. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

L64 If "L64" is specified (on z/OS 1.9 or later systems running on IBM z10 machines), the global cache space shared by the cluster nuclei will reside in 64-bit virtual storage that is backed by page-fixed one-megabyte (1M) large pages (provided the large page pool has been configured to a sufficient size and is available in the system). If the system cannot satisfy the allocation request with storage backed by 1M large pages, storage backed by pageable four-kilobyte (4K) pages will be allocated instead.
P64 If "P64" is specified on a z/OS system with Virtual Flash Memory, the global cache space shared by the cluster nuclei will reside in 64-bit virtual storage that is backed by pageable one-megabyte (1M) large pages. If the system cannot satisfy the allocation request with storage backed by pageable 1M large pages, storage backed by pageable four-kilobyte (4K) pages will be allocated instead.
V64 If "V64" is specified (on z/OS or z/VSE systems), a storage area in 64-bit virtual storage will be used for the global cache. Users in z/OS environments should note that the cache can be made much larger than 2G, but is still subject to the MEMLIMIT value in effect for the ADACOM job for the Adabas Parallel Services database.

Notes:

  1. If one ADACOM job is used to hold the shared cache and lock spaces for multiple Adabas Parallel Services clusters, L64 and G4 cache spaces of different clusters are slightly less isolated from one another than DSP or V64 cache spaces, creating a marginally higher risk that a cache-related error in one cluster might induce an error in a different cluster. This very small risk can be avoided altogether by using different ADACOM jobs for different Adabas Parallel Services clusters that use L64 or G64 cache spaces, but this is not mandatory.
  2. Virtual 64-bit storage backed by page-fixed 1M large pages can only be used on IBM z10 mainframes running z/OS Version 1.9 or above and for which IBM large page support has been enabled via IBM APAR OA20902. You must also allocate the size of the large page pool (use the LFAREA parameter in the IEASYSxx member of SYS1.PARMLIB). The LFAREA parameter allows you to specify the amount of real storage to be used for page-fixed 1M large pages; this parameter cannot be changed dynamically and, if it is not set, page frames will remain allocated at a size of 4K.
  3. Virtual 64-bit storage backed by page-fixed 2G large pages can only be used on IBM zEC12 mainframes running z/OS version 2.1 or above or an earlier z/OS version for which 2G large page support has been enabled via IBM APAR. You must also allocate the size of the large page pool (use the LFAREA parameter in the IEASYSxx member of SYS1.PARMLIB). The LFAREA parameter is extended to allow you to specify the amount of real storage to be used for page-fixed 1M and 2G large pages; this parameter cannot be changed dynamically and, if it is not set, page frames will remain allocated at a size of 4K.

Example

In the following example, the global cache area will be allocated in shared 64-bit virtual storage:

ADARUN PROG=ADANUC,CLUCACHETYPE=V64

CLUCACHEUNCHANGED Parameter: Global Cache Unchanged Block Option

Parameter Specify . . . Possible Values Default
CLUCACHEUNCHANGED whether unchanged blocks are written to global cache during Adabas Parallel Services processing. YES | NO NO

The CLUCACHEUNCHANGED parameter specifies whether an Adabas Parallel Services nucleus should write unchanged blocks to the global cache. It has an effect only if CLUSTER=LOCAL is also specified. Valid values are "YES" and "NO".

  • The default value is "NO", which indicates that the nucleus will write only changed (updated) Associator and Data blocks from the database to the global cache.

  • If "YES" is specified, the nucleus will write changed and unchanged Associator and Data blocks to the global cache.

Recommendation

If a lot of virtual storage can be made available for local and global caching by the Adabas Parallel Services cluster (where local caching is controlled by the ADARUN LBP parameter and possibly the Adabas Caching Facility add-on product), assigning the bulk of the available storage to the global cache (ADARUN CLUCACHESIZE parameter), which is shared by all Adabas Parallel Services nuclei for the database, provides for more economic use of the storage than assigning it to the local caches of the individual cluster nuclei (ADARUN LBP parameter and the Adabas Caching Facility ADARUN CASSOMAXS and CDATAMAXS parameters), which are private to each nucleus. However, each cluster nucleus requires sufficient local buffer pool space (LBP parameter) to hold the entire working set of Associator and Data blocks needed for parallel command processing.

In cases where the global cache size (CLUCACHESIZE parameter) is set to a large value, CLUCACHEUNCHANGED should be set to "YES", so that the global cache achieves a better hit rate (efficiency).

Example

In the following example, the CLUCACHEUNCHANGED parameter is set to that both changed and unchanged Associator and Data blocks are written to the global cache.

ADARUN PROG=ADANUC, CLUCACHEUNCHANGED=YES

CLUGROUPNAME Parameter: Cluster Group Name

Parameter Specify . . . Possible Values Default
CLUGROUPNAME the name of the XCF messaging group in Adabas Cluster Services. text none
the name of the messaging group in Adabas Parallel Services. text the router name

The CLUGROUPNAME parameter need not be specified for Adabas Parallel Services except when Adabas Parallel Services is used to recover an Adabas Cluster Services database after a failure that resulted in a remnant DIB entry. In this case, the CLUGROUPNAME parameter for Adabas Parallel Services must be set to the same value as it was for the failed Adabas Cluster Services nuclei.

For Adabas Cluster Services, the CLUGROUPNAME parameter provides the XCF group name to be used by the cluster nuclei for their communication using XCF.

All nuclei in the same cluster must have the same CLUGROUPNAME. Nuclei belonging to different clusters must have different CLUGROUPNAMEs.

In addition, the CLUGROUPNAME must be different from the XCF group names used by other subsystems that communicate using XCF.

The name can be 1-8 characters long. Valid characters are numeric, uppercase alphabetic, and the special characters $, @, and #. The name must begin with an alphabetic character (A-Z). IBM names begin with SYS, UNDESIG, or the characters A through I (these characters are not reserved).

Example

The following examples specifies the name of the XCF messaging group as "SAG1CLU".

ADARUN PROG=ADANUC,CLUGROUPNAME=SAG1CLU

CLULOCKNAME Parameter: Cluster Lock Structure/Area Name

Parameter Specify . . . Possible Values Default
CLULOCKNAME the name of the lock structure defined in the coupling facility's CFRM policy or the global lock area in which the current nucleus participates text none

For Adabas Cluster Services, CLULOCKNAM identifies a particular sysplex lock structure (defined in the CFRM policy) associated with a particular Adabas nucleus cluster. The same name must be set in each nucleus in the cluster. CLULOCKNAME must be unique for each cluster; that is, each database.

Adabas Parallel Services automatically creates a default name for each global lock area allocated by ADACOM. However, if you wish to control the name of the global lock area, you can set this parameter.

Note:
Software AG recommends that you allow the system to build the default name.

For Adabas Parallel Services, the CLULOCKNAME identifies a particular global lock area associated with all Adabas Parallel Services cluster nuclei that have the same SVC/DBID set as the current nucleus. The same name must be set in each cluster nucleus that has the same SVC/DBID set. CLULOCKNAME must be unique for each SVC/DBID set.

In all cases, the name can be 1-16 characters long. Valid characters are numeric, uppercase alphabetic, the special characters $, @, and #. The name must begin with an alphabetic character (A-Z). IBM names begin with SYS, UNDESIG, or the characters A through I (these characters are not reserved).

Note:
Additionally, the special character underscore (_) is allowed in Adabas Cluster Services; that is, sysplex environments.

Example

The following example set the name of the lock structure or global lock area as "SAG1SMP#LOCK1".

ADARUN PROG=ADANUC,CLULOCKNAME=SAG1SMP#LOCK1

CLULOCKSIZE Parameter: Size of the Global Lock Area

Parameter Specify . . . Minimum Maximum Default
CLULOCKSIZE the amount of storage allocated for the global lock area 128K 2G none

The CLULOCKSIZE parameter specifies the amount of storage to be allocated for the global lock area which all nuclei in the Adabas Parallel Services cluster use to synchronize their processing. It has an effect only if CLUSTER=LOCAL is also specified.

CLULOCKSIZE must be specified for Adabas Parallel Services nuclei; there is no default.

CLULOCKSIZE may be specified in bytes, in kilobytes followed by a "K", in megabytes followed by an "M", or in gigabytes followed by a "G".

  • The minimum size is 131072 bytes (or 128K)

  • The maximum size is 2147483147 bytes (or 2097152K, 2048M, or 2G).

The value is rounded up to the nearest 4-kilobyte boundary.

Appropriate sizes for the global lock area depend on the expected amount of parallel command processing in the cluster. For more details about these calculations, read Global Cache Area Size in the Adabas Parallel Services Operations Guide. You can use the Adabas Online System lock structure size calculator described in Estimating Sizes for the Lock Structure in a Cluster Environment in the Adabas Parallel Services Operations Guide to determine appropriate global lock area sizes.

CLUPUBLPROT Parameter: Publishing of Protection Data

Parameter Specify . . . Possible Values Default
CLUPUBLPROT whether or not cluster nuclei make their protection data available within the cluster before they make the related updates available to the other nuclei. YES | NO NO

The optional CLUPUBLPROT parameter specifies whether or not cluster nuclei make their protection data available within the cluster before they make the related updates available to the other nuclei. Valid values are YES and NO. The default value is NO. CLUPUBLPROT is a global, modifiable parameter - that is, all active nuclei in the cluster run with the same setting and this setting can be changed at runtime. When a starting nucleus joins a cluster, it takes over the current setting of the nuclei that are already active.

If CLUPUBLPROT is specified as YES, each nucleus in the cluster writes updated ASSO and DATA blocks to the global cache only after it has first written the protection data for the latest updates to these blocks either to its WORK dataset or to the global cache. With this setting, when one nucleus in the cluster performs a buffer flush, the other nuclei need not be able to participate in the execution of the flush - the nuclei are more independent of one another.

If CLUPUBLPROT is not specified or is specified as NO, the nuclei in the cluster do not write protection data to the global cache. They continue to write protection data to their respective WORK datasets when this is necessary to provide for the recovery of the database after any failure of a nucleus. With this setting, when one nucleus in the cluster performs a buffer flush, all other nuclei must also take a few actions required for the execution of the flush (such as writing out their latest protection data to their WORK datasets).

Setting CLUPUBLPROT=YES is performance-sensitive for update-intensive workloads. The related CLUWORK1CACHE parameter should be configured suitably for all nuclei in the cluster before CLUPUBLPROT is set to YES before or during a nucleus session.

CLUSTER Parameter: Adabas Nucleus Cluster Session Control

Parameter Specify . . . Possible Values Default
CLUSTER whether the Adabas nucleus will participate in a cluster of nuclei working on the same Adabas database, and, if so, the type of cluster (Adabas Parallel Services or Adabas Cluster Services) in which it will participate. NO | SYSPLEX | LOCAL NO

The CLUSTER parameter specifies whether the Adabas nucleus will participate in a cluster of nuclei working on the same Adabas database, and if so, which type of cluster:

  • If CLUSTER=NO (the default), the nucleus will not participate in an Adabas cluster. If CLUSTER=NO, the NUCID parameter must be set (or default) to 0.

  • If CLUSTER=LOCAL, the nucleus will participate in a cluster where all nuclei run on the same operating system image. The add-on product Adabas Parallel Services is required to run in this mode.

  • If CLUSTER=SYSPLEX, the nucleus will participate in a cluster where the nuclei may run on different systems within a parallel sysplex. This is supported only for z/OS systems. The add-on product Adabas Cluster Services is required to run in this mode.

If CLUSTER=LOCAL or SYSPLEX, the NUCID parameter must be set to a nonzero value that identifies the individual cluster nucleus. Also, the parameter settings MODE=SINGLE, READONLY=YES, LFIOP=0 and DTP=TM, and the use of sequential protection log data sets (DD-name/link name DDSIBA) are not allowed for cluster nuclei.

Example

The following example includes the nucleus in a cluster run with Adabas Cluster Services:

ADARUN DBID=53,CLUSTER=SYSPLEX,NUCID=5301

CLUWORK1CACHE Parameter: Number of WORK Blocks in Global Cache

Parameter Specify . . . Possible Values Default
CLUWORK1CACHE

the maximum number of WORK blocks that the cluster nucleus should keep in the global cache at a time.

If the specified value for CLUWORK1CACHE is larger than NWORK1BUFFERS+1 or LP / 20, the smaller of these two values is taken as the effective CLUWORK1CACHE value.

If the effective CLUWORK1CACHE value is equivalent to more than 1% of the total size of the data elements in the global cache, it is reduced to 1% of that size, in order to limit the portion of the cache that may be used for protection data.

0 - 32767 0

The optional CLUWORK1CACHE parameter specifies how a cluster nucleus should make its latest protection data available within the cluster, if the CLUPUBLPROT parameter is set to YES. Valid values are integers in the range 0 through 32,767. The default value is 0. CLUWORK1CACHE is a local, unmodifiable parameter — that is, different nuclei in the same cluster may run with different CLUWORK1CACHE values and the value for a nucleus cannot be changed while that nucleus is running.

If the specified value for CLUWORK1CACHE is larger than NWORK1BUFFERS+1 or LP / 20, the smaller of these two values is taken as the effective CLUWORK1CACHE value. If the effective CLUWORK1CACHE value is equivalent to more than 1% of the total size of the data elements in the global cache, it is reduced to 1% of that size, in order to limit the portion of the cache that may be used for protection data. Any reductions of the CLUWORK1CACHE value to these boundaries are reported in the ADAX5E and ADAX5F messages.

CLUWORK1CACHE specifies the maximum number of WORK blocks that the cluster nucleus should keep in the global cache at a time. It also defines the size of an extension of the area on the WORK dataset where the nucleus stores protection data. Another nucleus in the cluster may copy protection data to this extension area from the global cache if this nucleus is slow or unable to participate in a buffer flush.

Apart from defining the size of the protection data extension area on WORK, the CLUWORK1CACHE parameter has an effect only when the related CLUPUBLPROT parameter is set to YES.

If CLUWORK1CACHE is specified as or defaults to zero and CLUPUBLPROT=YES, the nucleus always writes protection data directly to its WORK dataset before it writes updated ASSO and DATA blocks to the global cache, if the protection data relates to updates to those blocks. The nucleus does not write protection data to the global cache.

If CLUWORK1CACHE is specified greater than zero and CLUPUBLPROT=YES, the nucleus writes protection data to the global cache that is not yet present on WORK and relates to updates to be written to the cache. At most the number of WORK blocks specified by CLUWORK1CACHE will be stored in the cache. If further protection data needs to be made available within the cluster before updates can be written to the cache, older protection data is written to WORK first to make space for new WORK blocks in the cache.

When CLUPUBLPROT=YES, the setting of the CLUWORK1CACHE parameter is performance-sensitive for update-intensive workloads. Setting CLUWORK1CACHE=0 may lead to a significant number of additional WORK writes. Setting the parameter to a large value may lead to a significant number of additional cache writes. Any number in-between may lead to some additional WORK writes and some additional cache writes. Trials with different settings may be necessary to find the right balance that is best for the overall performance of the cluster for a given workload.

CMAXCSPS Parameter: Adabas Caching Facility Storage Area Quantities

The CMAXCSPS (or CM) parameter specifies the number of storage areas that can be allocated for an ADACSH cache space in data spaces, hiperspaces, or memory objects (64-bit virtual storage). It has no effect on a cache space in extended memory, where only one Associator and one Data Storage area are allowed.

In conjunction with the CASSOMAXS and CDATAMAXS parameters, this parameter is used to control both the total amount of space that can be allocated for a cache space and the granularity with which it is allocated.

Value Description
n

The number of storage areas that can be allocated for an ADACSH cache space in data spaces, hiperspaces, or memory objects (64-bit virtual storage). It has no effect on a cache space in extended memory, where only one ASSO and one DATA storage area are allowed.

The minimum value permitted is 1; the maximum is 16, the default is 8.

This means that a potential maximum of 34 storage areas can be allocated for each type of cache space used: 16 for Associator RABNs, 16 for Data Storage RABNs, and 1 each for Work parts 2 and 3.

Note:
Increasing the value of CMAXCSPS can increase the overall CPU load used by ADACSH as more storage areas must be searched when allocating storage. This value must be carefully selected in association with the CASSOMAXS and CDATAMAXS values to obtain the correct mix of granularity and CPU overhead. Experience indicates that the default CMAXCSPS setting (8) usually provides an appropriate mix.

Example

ADARUN CMAXCSPS=6

Up to six Associator cache space areas of size CASSOMAXS and up to six Data Storage cache space areas of size CDATAMAXS can be allocated for a particular type of cache space.

CRETRY Parameter: Adabas Caching Facility Retry Time

The CRETRY (or CR) parameter specifies the amount of time (in seconds) between attempts to acquire an area of cache space if the previous GETMAIN or space allocation failed.

graphics/cretry_syntax.png

Value Description
n The number of seconds between attempts to acquire an area of cache space if the previous GETMAIN or space allocation failed.

The minimum number of seconds is 60; the maximum is 2147483647.

The default number of seconds is 900 (15 minutes).

If an area of cache space cannot be allocated, ADACSH waits for the specified number of seconds before attempting to allocate the area of cache space again. During this period of time, caching continues in the other areas of the cache space already allocated, but the maximum allowed cache space is not available. If, after the time period has elapsed, there is a request to cache a RABN and no space is available in the current allocation, ADACSH attempts to allocate the area of cache space again. These attempts continue until the cache space is successfully allocated.

Note:
CRETRY does not apply to an area of cache space that was released due to a timeout (see CCTIMEOUT).

Example

ADARUN CRETRY=500

If an attempt to allocate an additional area of a cache space fails, another attempt to cache a RABN in the cache space in question is made after 500 seconds. If the currently allocated space is still full, the attempt is again made to allocate an additional area of cache space.

CSTORAGE Parameter: Adabas Caching Facility Override Cache Type

The CSTORAGE parameter can be used to indicate that all RABNs for the database are to be cached using the system defaults and the type of cache specified by this parameter.

The CSTORAGE (or CS) parameter overrides any CASSOxxx or CDATAxxx parameter that may be specified. If the CSTORAGE parameter is specified, all RABNs for the database are cached using the system defaults and the type of cache space specified by CSTORAGE.

Note:
This parameter is mutually exclusive with the CFILE and CXFILE parameters.

CSTORAGE={DATASPACE | EXTENDED | HIPERSPACE | G64 | L64 | P64 | VIRTUAL64}
Value Description
DATASPACE Data space
EXTENDED Extended memory
HIPERSPACE Hiperspace
G64 Virtual 64-bit storage backed by 2G large pages

Note:
If "G64" is specified, we recommend you specify a cache space size (CASSOMAXS/CDATAMAXS) that is a multiple of two gigabytes. The specified size will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. In this case, specifying a multiple of two gigabytes avoids leaving a potentially large amount of storage unused. If "G64" is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

L64 Virtual 64-bit storage backed by fixed 1M large pages
P64 Virtual 64-bit storage backed by pageable 1M large pages
VIRTUAL64 Virtual 64-bit storage

Extended memory is the only option available on BS2000 RISC machines. Hiperspace is an option only in z/OS environments. Virtual 64-bit storage ("VIRTUAL64") is available in z/OS and z/VSE environments only. Large page support ("G64", "L64", and "P64" options) is available in z/OS environments only.

Example

ADARUN CASSOHSP=1-1795
ADARUN CDATAHSP=81-135,1140-1298,136-170,181-230 
ADARUN CSTORAGE=EXTENDED

ADACSH caches all Associator and Data Storage RABNs in extended memory (above the 16 megabyte line). All CASSOHSP and CDATAHSP RABN ranges are ignored.

CT Parameter: Command Timeout Limit

Parameter Specify . . . Minimum Maximum Default
CT the maximum time (seconds) for interregion communication of results from Adabas to the user. 1 2147483647 60

For Adabas Review, this is the maximum number of seconds (more precisely, units of 1.048576 seconds) that can elapse from the time an Adabas Review hub command has been completed until the results are returned to the user through the interregion communication (operating-system-dependent).

This parameter is used to prevent a command queue element and attached buffer from being held for a long period of time for a user who has terminated abnormally.

Possible causes of a command timeout are

  • user region is swapped out or cannot be dispatched;

  • user is canceled;

  • user has low priority in high activity system.

If the CT limit is exceeded,

  • the command queue element and attached buffer are released;

  • a message ADAM93 is printed; and

  • if the user has not terminated, response code 254 (ADARSP254) is returned to the user program.

Example

The following example permits about 30 seconds to obtain a result through interregion communication from the Adabas Review hub

ADARUN PROG=ADAREV,CT=30

CWORKSTORAGE Parameter: Adabas Caching Facility Work Area Cache Type

The CWORKSTORAGE (or CWORKS) parameter specifies the type of cache space to use for the CWORK2FAC and/or CWORK3FAC areas.

CWORKSTORAGE={DATASPACE | EXTENDED | HIPERSPACE | G64 | L64 | P64 | VIRTUAL64}
Value Description
DATASPACE Data space
EXTENDED Extended memory
HIPERSPACE Hiperspace
G64 Virtual 64-bit storage backed by 2G large pages

Note:
'If "G64" is specified, the sizes of the cache spaces for Work parts 2 and 3 will be rounded up to the nearest multiple of two gigabytes and any difference between the specified size and the allocated size will remain unused. To avoid leaving a large amount of cache storage unused, we recommend you use "G64" only if the sizes of the Work part 2 and Work part 3 cache spaces (as per the CWORK2FAC and CWORK3FAC parameters) will not be much smaller than a multiple of two gigabytes. If “G64” is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

L64 Virtual 64-bit storage backed by fixed 1M large pages
P64 Virtual 64-bit storage backed by pageable 1M large pages
VIRTUAL64 Virtual 64-bit storage

Extended memory is the only option available on BS2000 RISC machines. Hiperspace is an option only in z/OS environments. Virtual 64-bit storage ("VIRTUAL64") is available in z/OS and z/VSE environments only. Large page support ("G64", "L64" and "P64") is available in z/OS environments only.

If CWORKSTORAGE is not specified, but the CWORK2FAC and/or CWORK3FAC parameters are specified, then the default CWORKSTORAGE is as follows:

  • DATASPACE for BS2000 (except RISC machines), z/OS, z/VSE

  • EXTENDED for BS2000 RISC machines

Example

ADARUN CWORKSTORAGE=HIPERSPACE

For Work parts 2 and/or 3, cache space is allocated in hiperspace.

CWORK2FAC Parameter: Adabas Caching Facility Work Part 2 Percentage

The CWORK2FAC (or CWORK2) parameter specifies the percentage of Work part 2 to be cached.

Value Description
n The percentage of Work part 2 to be cached.

The minimum and the default is 0; the maximum is 100.

If CWORK2FAC=0 is specified, Work part 2 is not cached.

The number of Work part 2 RABNs to be cached is computed by multiplying the specified percentage factor by the number of RABNs allocated for Work part 2.

The cache space allocation is based on the number of RABNs and the device block size, rounded up to the nearest 4-kilobyte boundary.

cache size = int ( ( ( #RABNs x blksize) + 4095) ÷ 4096) x 4096

- where

#RABNs = int ( ( ( WORK part 2 size x CWORK2FAC ) +50) ÷ 100)

The RABN index table is allocated to obtain space for #RABN blocks.

If the specified CWORK2FAC cannot accommodate the working set of Work part 2 RABNs, the RABNs beyond the computed CWORK2FAC are not cached. Normal I/O operations are performed for the non-cached Work part 2 RABNs.

For any percentage less than 100, the writes to Work are still done; however, RABNs read from Work will be obtained from the cache if the RABN is available.

Example

ADARUN CWORK2FAC=50

ADACSH caches 50 percent of Work part 2, beginning from the first block. If Work part 2 contains 1000 blocks, a cache space is allocated for 500 blocks. If the Work device type is a 3380, the cache space size required is

cache size = int ( ( ( #RABNs x blksize ) + 4095 ) ÷ 4096 ) x 4096 
               = int ( ( ( 500 x 5492 ) + 4095 ) ÷ 4096) x 4096 
               = 2,748,416

The RABN index table is allocated to obtain space for 500 blocks.

CWORK3FAC Parameter: Adabas Caching Facility Work Part 3 Percentage

The CWORK3FAC (or CWORK3) parameter specifies the percentage of Work part 3 to be cached.

Value Description
n The percentage of Work part 3 to be cached.

The minimum and the default is 0; the maximum is 100.

If CWORK3FAC=0 is specified, Work part 3 is not cached.

The number of Work part 3 RABNs to be cached is computed by multiplying the specified percentage factor by the number of RABNs allocated for Work part 3.

The cache space allocation is based on the number of RABNs and the device block size, rounded up to the nearest 4-kilobyte boundary.

cache size = int ( ( ( #RABNs x blksize ) + 4095 ) ÷ 4096 ) x 4096

- where

#RABNs = int ( ( ( WORK part 3 size x CWORK3FAC ) + 50 ) ÷ 100)

The RABN index table is allocated to obtain space for all blocks of WORK part 3.

If the cache space, specified by CWORK3FAC cannot accommodate the working set of Work part 3 RABNs, an aging process similar to ASSO/DATA RABNs is etablished. In case of a "short on storage" situation, the oldest RABN, i.e. the RABN in cache space which was the longest time not accessed, will be reused.

For any percentage less than 100, the writes to Work are still done; however, RABNs read from Work will be obtained from the cache if the RABN is available.

Example

ADARUN CWORK3FAC=50

ADACSH caches 50 percent of Work part 3. If Work part 3 contains 1000 blocks, a cache space is allocated for 500 blocks. If the Work device type is a 3380, the cache space size required is

cache size = int ( ( ( #RABNs x blksize ) + 4095 ) ÷ 4096 ) x 4096 
               = int ( ( ( 500  5492 ) + 4095 ) ÷ 4096 ) x 4096 
               = 2,748,416

The RABN index table is allocated to obtain space for 1000 blocks.

CXFILE Parameter: Adabas Caching Facility Excluded Files

The CXFILE parameter is used to exclude files from caching.

Note:
CXFILE is mutually exclusive with CASSOxxx, CDATAxxx, and CSTORAGE parameters. If any of these parameters is used with CXFILE, they will be ignored.

graphics/ccxfile.png

Value Description
fnr The file to be excluded specified by file number. The minimum value is 0; the maximum is the actual number of files in the database. File number 0 may be specified to exclude RABNs that are not associated with any given file. Currently, this is only the DSST on the Associator data set.
fnr - fnr A range of files to be excluded specified by two file numbers (the lower number first) separated by a hyphen with no intervening spaces or special characters.
scope Specifies the scope of exclusion:
  • ASSO (or A): Only Associator RABNs are to be excluded

  • DATA (or D): Only Data Storage RABNs are to be excluded

  • BOTH (or B): Both Associator and Data Storage RABNs are to be excluded

If the scope term is specified, it must be preceded by two commas to maintain its position within the parentheses. See the CFILE parameter for more information about the positional terms used within the parentheses. The cls and cache terms are not used for the CXFILE parameter but the position of the scope term is nevertheless maintained.

Multiple CXFILE parameters may be specified.

CFILE and CXFILE parameters together are processed in order from left to right (or top to bottom if different ADARUN statements are used).

Examples

ADARUN CACHE=YES,CFILE=(13-19),CXFILE=(17)

Files 13 through 19 are cached using the standard defaults for class of service (3), scope (BOTH), and cache (DATASPACE) with the exception of file 17, which is not cached.

ADARUN CACHE=YES,CFILE=(13-19),CXFILE=(17),CXFILE=(16,,DATA)

Files 13 through 19 are cached using the standard defaults; however, file 17 is not cached and only the associated Associator RABNs are cached for file 16 since the Data Storage RABNs are excluded.

DATACACHE Parameter: Data Storage Controller Caching

This parameter applies to the z/OS operating system only.

Parameter Specify . . . Possible Values Default
DATACACHE whether to enable (YES) or disable (NO) controller caching for Data Storage (DATA) data set. YES | NO YES
Value Meaning
YES The default setting. Data Storage blocks are preread and maintained as long as possible in the caching facilities of the disk controller.
NO Data Storage blocks are not preread.

Notes:

  1. If Data Storage blocks are highly scattered or the update frequency is low, controller caching can cause longer I/O response times.
  2. ADARUN caching control parameters also exist for the Associator (ASSOCACHE), the work area (WORKCACHE), the sort area (SORTCACHE), and the temp area (TEMPCACHE).

Example

The following example runs the nucleus without controller caching for the Data Storage data set.

ADARUN PROG=ADANUC,DATACACHE=NO

DATASPACEWARN Parameter: Data Storage Space Notifications

Parameter Specify . . . Possible Values Default
DATASPACEWARN Up to three pairs of threshold percentages and percentage change increments, expressed as percentages of the total Data Storage (DATA) portion of the database. When Data Storage space use reaches a specified threshold percentage, a space usage message is issued. In addition, when the Data Storage space use changes by the increment specified for that threshold, additional space usage messages are issued.

The full syntax of the DATASPACEWARN parameter is given below.

0-100,1-99 0,5

Note:
For the purposes of database space notifications, the space used in the Adabas database comprises all database blocks that have been assigned either to some common purpose (for example, DSST, PPT, DLOG area) or to a file in the database. Only space listed in the free space table (FST) is not calculated as used. In particular, free space allocated for some file but not yet used is calculated as used.

The syntax of the DATASPACEWARN ADARUN parameter is:

graphics/adarun_dataspacewarn.png

The following specifications can be made in the DATASPACEWARN parameter:

Parameter Description
threshold# A threshold, expressed as a percentage of the total Data Storage (DATA) portion of the database. When DATA space use exceeds or falls below any of the thresholds set, a space usage message is issued. The default is zero (0). If zero is specified for the first threshold setting, no space messages are issued.

When more than one threshold is specified, the second threshold specification must be greater than the first. Likewise, the third threshold specification (if made) must be greater than the second.

inc# An increment percentage, expressed as a percentage of the total DATA portion of the database. When DATA space use changes (increases or decreases) from the associated threshold by the amount given in this increment percentage, another space usage message is issued. The default is five percent (5).

Up to three threshold-increment pairs can be specified.

Example

In the following example, the ADARUN parameter setting for DATASPACEWARN specifies that a space usage message is printed when the percentage of Data Storage space use is greater than or equal to 50%, 60%, 70%, 80%, 85%,90%, 95%, 96%, 97%, 98%, 99%, and 100% of the total DATA space available. So when DATA space use exceeds 50%, a space usage message is printed. Thereafter, a space usage message is printed for every 10% increase until the DATA space use reaches 80%. Once DATA space use reaches 80%, a space usage message is issued every time DATA space use increases 5% until DATA space use reaches 95%. Once DATA space use reaches 95%, a space usage message is printed every time DATA space use increases 1%.

Likewise, similar space usage messages are produced as DATA space use decreases from the percentages (50%, 80%, and 95%) listed and at the increments listed (10%, 5%, and 1%) in the DATASPACEWARN setting. In this case, space usage messages would be issued when DATA space use drops below 100%, 99%, 98%, 97%, 96%, 95%, 90%, 85%, 80%, 70%, 60%, and 50% of the total DATA space available.

ADARUN PROG=ADANUC,DATASPACEWARN=50,10,80,5,95,1

DBID Parameter: Database Identification

Parameter Specify . . . Minimum Maximum Default
DBID the physical ID of the database. 1 65535 1

Note:
If you specify the DBID parameter, you must also specify the ADARUN SVC parameter.

Example

The following example runs the ADAINV utility against physical database 2 using SVC 241.

ADARUN PROG=ADAINV,DBID=2,SVC=241

DEVICE Parameter: Device Type

Parameter Specify . . . Possible Values Default
DEVICE the device type on which the first block of the Associator is stored. see text 3390

The device type of the external storage device on which the first block of the Associator is stored.

This device type is also used as default for most device type parameters.

The Adabas Installation documentation specifies the device types supported by Adabas.

Example

The following example runs the ADALOD utility and stores the first block of the Associator on a 3390 device.

ADARUN PROG=ADALOD,DEVICE=3390

DIRRATIO / ELEMENTRATIO Parameters: Cluster Cache Directory-to-Data Elements Ratio

The DIRRATIO and ELEMENTRATIO parameters together define the ratio of directory elements to data elements in the Adabas Cluster Services coupling facility cache structure or the Adabas Parallel Services global cache area.

This ratio influences the allocation of the cache structure/area when the first cluster nucleus starts. It has no influence on the cache structure/area when a subsequent nucleus starts.

Parameter Specify . . . Minimum Maximum Default
DIRRATIO the directory portion of the directory-to-data element ratio 1 32767 4
ELEMENTRATIO the element portion of the directory-to-data element ratio 1 32767 1

The DIRRATIO / ELEMENTRATIO ratio is optionally used in Adabas cluster environments to tune the cache structure/area for better performance.

Directory elements are used to keep track of the cluster members that have individual blocks in their local caches (buffer pool and Adabas Caching Facility caches), so that the blocks can be invalidated should other members modify them.

Data elements are used to hold the contents of Associator and Data blocks from the database.

If the number of directory elements is insufficient, existing directory elements are reused and the blocks associated with those directory elements are invalidated and can then no longer be reused. When blocks become invalid even though they have not been modified, they must be reread and registered again the next time they are referenced and validated.

It is generally better to reassign storage for data elements to keep more Associator and Data blocks in the cache structure/area than to define too many directory elements in the cache. More data elements than necessary can be used to keep additional blocks to improve the cache efficiency.

The number of directory elements need not be greater than the sum of the sizes of all buffer pools plus the amount of space represented by data elements (number of data elements times data element size), divided by the smallest Associator block size.

You can use the Adabas Online System cache structure size calculator described in Estimating Sizes for the Cache Structure in a Cluster Environment in the Adabas Parallel Services Operations Guide or the Adabas Cluster Services Operations Guide to determine appropriate global cache area sizes and DIRRATIO/ELEMENTRATIO parameter values.

When connecting to the cache structure/area during startup, the ADAX57 message reports the number of directory and data elements allocated and the size of a data element.

DSF Parameter: Adabas Delta Save Facility Control

Parameter Specify . . . Possible Values Default
DSF whether to enable support for the (optional) Delta Save Facility. YES | NO NO

The DSF parameter controls the Adabas Delta Save Facility for an Adabas nucleus or utility. If Adabas Delta Save is not installed on your system, specifying this parameter may cause an error.

Value Meaning
YES Loads certain Delta Save Facility program modules and runs the nucleus or utility (as specified in the ADARUN PROG parameter) in DSF mode. Delta Save functions are enabled: the DLOG area can be installed or removed, Delta Save operations can be performed, full and delta save tape can be merged. DSF=YES is required for Delta Save functions of the nucleus and the ADASAV, ADARES, and ADAULD utilities; it is optional for other functions and utilities. It is required for ADASAV SAVE database (if a DLOG area exists), SAVE DELTA, MERGE, and RESTORE DELTA; for ADARES PLCOPY (only if online saves are performed), for COPY (only for rebuilding the DSIM data set); and for ADAULD UNLOAD SAVETAPE, if the inputs are full and delta save tapes produced by DSF.
NO (default) Runs the nucleus or utility in non-DSF mode. If DSF=NO is specified or the parameter is omitted, Delta Save functions cannot be performed. Specifying DSF=NO after specifying DSF=YES switches the nucleus from DSF to non-DSF mode. If a DLOG area is defined when the nucleus is started and DSF=NO is specified, the nucleus removes the DLOG area. If a DLOG area is defined when the nucleus is started, the DSF parameter may not be omitted. You can manually remove the DSF logging area from the nucleus using the Remove DSF command through Adabas Online System.

Example

The following example runs the Adabas nucleus in DSF mode; performing Adabas Delta Save functions is possible for this nucleus.

ADARUN PROG=ADANUC,DSF=YES

DSFEX1 Parameter: Delta Save Facility Exit

Parameter Specify . . . Possible Values Default
DSFEX1 the user routine to be given control by the Delta Save Facility. see text none

Used in conjunction with the Adabas Delta Save Facility, the format of the user exit parameter is

DSFEX1=exit-name

where

exit-name is the name of the user routine that gets control at the DSF user exit; the name can be up to 8 characters long.

Only one program may be specified for the DSF user exit. Only one DSF user exit may be specified. See the Adabas Delta Save Facility documentation for more information.

Example

This example indicates that the Adabas nucleus should use the Delta Save Facility with the user exit routine DSAVEPGM.

ADARUN PROG=ADANUC,DSF=YES,DSFEX1=DSAVEPGM

DTP Parameter: Distributed Transaction Processing Control

Parameter Specify . . . Possible Values Default
DTP whether to enable distributed transaction processing and, if so, whether the nucleus is to be a resource or transaction manager. NO | RM | TM NO

The DTP parameter controls the distributed transaction processing status of the Adabas nucleus. If Adabas Transaction Manager is not installed on a separate nucleus in your system, specifying this parameter may cause an error.

Value Meaning
NO (default) The nucleus does not support distributed transaction processing.
RM
The nucleus is to participate in distributed transaction processing as a resource manager (RM) with other resource managers (databases) coordinated by a transaction manager. This setting is only possible when
- MODE=MULTI
- READONLY=NO

If you have Adabas Transaction Manager installed and if DTP=RM, the LDTP parameter specifies the size (in blocks) of the WORK4 index which is used to administer the data on DDWORKR4.

TM
The nucleus supports distributed transaction processing as a transaction manager (TM). Only one such nucleus is allowed per operating system instance. This setting is only possible when
- MODE=MULTI
- the nucleus is not part of a cluster (Parallel Services or Cluster Services)
- LOCAL=NO
- READONLY=NO

Example

The following example indicates that the nucleus will participate as a resource manager in a distributed transaction processing system coordinated by a transaction manager.

ADARUN PROG=ADANUC,DTP=RM

DUALALD Parameter: Dual Audit Log Device Type

Parameter Specify . . . Possible Values Default
DUALALD The device type to be used for dual audit logs. See text value of DEVICE parameter

The DUALALD parameter specifies the type of external storage device used for dual audit logging.

DUALALD and DUALALS parameters must be used together; if you specify one parameter, you must also specify the other parameter. If you specify a user exit, it must be UEX2.

Refer to the Adabas for Mainframes documentation > Reference chapter > DBA Reference Summary > section Adabas Device Types and Blocks Sizes for information about the device types that Adabas supports.

Both dual audit logging data sets must be formatted using the ADAFRM utility before they are used.

The maximum size of the data set depends on the limits of the operating system and on the requirements of the user.

Example

The following example runs the Adabas Audit Server with audit logging and uses a device type 3390 for dual audit logging. The size of each audit log data set is 1500 blocks based on an allocation of 10 cylinders. Each cylinder of a 3390 device has 15 tracks, and each track can contain 10 blocks of audit log data. Thus, 10 cylinders = 10 x 15 x 10 = 1500 blocks.

ADARUN PROG=ADANUC,LOGGING=YES,DUALALD=3390,DUALALS=1500

DUALALS Parameter: Dual Audit Log Size

Parameter Specify . . . Minimum Maximum Default
DUALALS The number of blocks available for each dual audit log. 16 16777215 none

The DUALALS parameter specifies the number of blocks available for each dual audit log data set.

DUALALD and DUALALS parameters must be used together; if you specify one parameter, you must also specify the other parameter. If you specify a user exit, it must be UEX2.

Refer to the Adabas for Mainframes documentation > Reference chapter > DBA Reference Summary > section Adabas Device Types and Blocks Sizes for information about the device types that Adabas supports.

Both dual audit logging data sets must be formatted using the ADAFRM utility before they are used.

The maximum size of the data set depends on the limits of the operating system and on the requirements of the user.

Example

The following example runs the Adabas Audit Server with audit logging and uses a device type 3390 for dual audit logging. The size of each audit log data set is 1500 blocks based on an allocation of 10 cylinders. Each cylinder of a 3390 device has 15 tracks, and each track can contain 10 blocks of audit log data. Thus, 10 cylinders = 10 x 15 x 10 = 1500 blocks.

ADARUN PROG=ADANUC,LOGGING=YES,DUALALD=3390,DUALALS=1500

DUALCLD Parameter: Dual Command Log Device Type
DUALCLS Parameter: Dual Command Log Size

Parameter Specify . . . Possible Values Default
DUALCLD the device type to be used for dual command logging. see text value of DEVICE parameter
DUALCLS the number of blocks available for each dual command log. Min 16, Max 16777215 none

The DUALCLD and DUALCLS parameters specify the type of external storage device used for dual command logging and the number of blocks available for each dual command log data set. These parameters must be used together; if you specify one parameter, you must also specify the other parameter. If you specify a user exit, it must be UEX2.

The Adabas Installation documentation specifies the device types that Adabas supports.

Both dual command logging data sets must be formatted using the ADAFRM utility before they are used.

The maximum size of the data set depends on the limits of the operating system and on the requirements of the user.

Example

The following example runs the Adabas nucleus with command logging and uses a model 3380 device for dual command logging. The size of each command log data set is 1350 blocks, based on an allocation of 10 cylinders. (Each cylinder of a 3380 device has 15 tracks, and each track can contain 9 blocks of command log data. Thus, 10 cylinders = 10 x 15 x 9 = 1350 blocks).

ADARUN PROG=ADANUC,LOGGING=YES,DUALCLD=3380,DUALCLS=1350

DUALPLD Parameter: Dual Protection Log Device Type
DUALPLS : Dual Protection Log Size

Parameter Specify . . . Possible Values Default
DUALPLD the device type to be used for dual protection logging. see text value of DEVICE parameter
DUALPLS the number of blocks available for each dual protection log. Min 16, Max 16777215 none

The DUALPLD and DUALPLS parameters specify the type of external storage device used for dual data protection logging and the number of blocks available for each log data set. These parameters must be used together; if you specify one parameter, you must also specify the other parameter. If you specify a user exit, it must be UEX2.

When these parameters are specified, dual protection logging is activated for the session. See Adabas Restart and Recovery for information about dual protection logging.

The Adabas Installation documentation specifies the device types that Adabas supports.

Both dual protection log data sets must be formatted using the ADAFRM utility before they are used. The appropriate JCL for the data sets is required.

Example

The following example runs the Adabas nucleus with dual data protection logging and uses a model 3380 device; the size of each dual log data set is 1200 blocks, based on an allocation of 10 cylinders. (Each cylinder of a 3380 device has 15 tracks, and each track contains 8 blocks of protection log data. Thus, 10 cylinders = 10 * 15 * 8 = 1200 blocks).

ADARUN PROG=ADANUC,DUALPLD=3380,DUALPLS=1200

EXCPVR Parameter: Control EXCP or EXCPVR Use

Parameter Specify . . . Possible Values Default
EXCPVR whether EXCP or EXCPVR should be used when running APF-authorized, in z/OS environments. YES | NO YES

The EXCPVR parameter controls whether EXCP or EXCPVR should be used when from an APF-authorized load library in z/OS environments. If, EXCPVR=YES is specified, EXCPVR is used; if EXCPVR=NO is specified, EXCP is used.

Note:
If EXCPVR=YES is specified when running from a non-APF-authorized load library, this parameter is ignored.

Example

The following example runs Adabas APF-authorized using EXCP.

ADARUN PROG=ADANUC,EXCPVR=NO

FASTPATH Parameter: Adabas Fastpath Control

Parameter Specify . . . Possible Values Default
FASTPATH whether to enable Adabas Fastpath support. YES | NO NO

The FASTPATH parameter controls the optional Adabas Fastpath product. If Adabas Fastpath is installed on your system, FASTPATH=YES enables the full functionality of the product.

If Adabas Fastpath is not installed on your system, FASTPATH=YES invokes the Adabas Fastpath command analysis sampler AFPLOOK that is provided with Adabas.

The demo version of Adabas Online System that is supplied with Adabas provides access to the Adabas Fastpath online system SYSAFP so that the AFPLOOK sample can be viewed online exactly as it would appear if Adabas Fastpath were installed. For complete information about AFPLOOK, read AFPLOOK.

Example

The following example runs Adabas Fastpath with Adabas.

ADARUN PROG=ADANUC,FASTPATH=YES

FMXIO Parameter: Parallel LFIOP I/O Operations

Parameter Specify . . . ASYTVS= Minimum Maximum Default
FMXIO the maximum number of parallel I/O operations by LFIOP flush processing. YES 1 16 1
NO 1 100 60

The LFIOP parameter enables asynchronous buffer flush operation and sets the I/O pool size. The FMXIO parameter sets the limit on the number of I/O operations that can be started in parallel by LFIOP flush processing.

Parameter Dependencies

The precise meaning of the FMXIO parameter depends on the setting of the ASYTVS parameter):

  • When ASYTVS=YES (perform buffer flushes by volume), FMXIO specifies the number of I/Os to be started in parallel on each volume. The minimum and default number is 1; the maximum number is 16. If the specified number exceeds that, it is automatically reduced to 16.

  • When ASYTVS=NO (perform buffer flushes in ascending RABN sequence, without regard to the distribution of the blocks over volumes), FMXIO specifies the number of I/Os to be started in parallel overall. The minimum number is 1; the maximum value is 100; and the default is 60.

Dynamic Modification

The setting of FMXIO can be modified dynamically using the command FMXIO=nnn from the operator console or the Modify Parameter function of Adabas Online System.

Specific Product Recommendations

Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

Example

The following example specifies that a maximum of 30 I/O operations for asynchronous buffer flushes can be started in parallel:

ADARUN PROG=ADANUC,ASYTVS=NO,FMXIO=30

FORCE Parameter: Allow Nucleus Database ID or Review Hub Table Entry Overwrite

Parameter Specify . . . Possible Values Default
FORCE whether the nucleus or Adabas Review hub can overwrite an existing ID table entry. YES | NO NO

If running Adabas Review, this indicates whether the Adabas Review hub can overwrite an existing ID table entry. When a Review hub starts up, ADARUN scans the ID table to ensure that no entry exists for the Review hub. You can use the FORCE parameter to indicate whether the Review hub can overwrite an existing ID table entry.

The ID table entry is derived from the database ID and the job name. For Adabas Review, the ID table entry is derived from the Review hub ID (REVIEW=). The ID table entry is deleted when the nucleus terminates normally.

The FORCE parameter allows the nucleus or Adabas Review hub to overwrite the existing ID table entry and access the database.

Warning:
Do not use the FORCE parameter unless absolutely necessary, or the integrity of the database could be lost. Ensure that no nucleus or Review hub is active for the ID table entry being overwritten.
Value Meaning
YES The nucleus or Adabas Review hub that is starting can overwrite an existing ID table entry. FORCE=YES is required when restarting a session that terminated abnormally with an ADAM98 message. In this case, the ID table still contains an active entry for the nucleus or Review hub. Overwriting the existing entry by specifying FORCE=YES prevents further communication to the overwritten nucleus or hub and causes loss of cross-memory environment resources, which cannot be restored until the next IPL.
NO (default) If the ID table contains an entry for the nucleus or Adabas Review hub that is starting, the nucleus is denied access to the database or the Review hub is not permitted to start.

Note:
In an Adabas Cluster Services or Adabas Parallel Services environment, the FORCE parameter applies to the NUCID, rather than the database ID, because a cluster nucleus builds an ID table entry for the NUCID.

A data integrity block (DIB) entry will only be removed once the ID Table initialization has been successful. Therefore, you must set IGNDIB and FORCE both to "YES" if either of the following occur:

  • You receive a PARM ERROR 26 after parameter settings IGNDIB=NO and FORCE=YES were applied;

  • You receive a PARM ERROR 23 after parameter settings IGNDIB=YES and FORCE=NO were applied.

Examples

The following example specifies that if the ID table contains an active entry for DBID 7, overwrite the entry.

ADARUN PROG=ADANUC,FORCE=YES,DBID=7

The following example specifies that if the ID table contains an active entry for the Adabas Review hub, overwrite the entry.

ADARUN PROG=ADAREV,FORCE=YES,REVIEW=202

HEXnn Parameter: Hyperdescriptor User Exit

Parameter Specify . . . Possible Values Default
HEXnn the hyperdescriptor exit and the user routine to be used with it. see text none

Used in conjunction with the hyperdescriptor facility, the format of the parameter is

HEXnn=exit-name

where

nn is the number of the hyperdescriptor exit, a two-digit decimal integer in the range 01-31 inclusive.
exit-name is the name of the user routine that gets control at the hyperdescriptor exit; the name can be up to 8 characters long.

Only one program may be specified for each hyperdescriptor exit. Up to 31 hyperdescriptor exits may be specified (in any order). See the Adabas User, Hyperdescriptor, Collation Descriptor, and SMF Exits Manual for more information.

Example

The following example runs the Adabas nucleus using hyperdescriptor exits 1 and 2. It also gives control to the user routine UHYPER1 at hyperdescriptor exit 1 and gives control to the user routine UHYPER2 at hyperdescriptor exit 2.

ADARUN PROG=ADANUC,HEX01=UHYPER1,HEX02=UHYPER2

IGNDIB Parameter: Ignore DIB Entry for Adabas Nucleus

Parameter Specify . . . Possible Values Default
IGNDIB whether to ignore and delete an active nucleus entry in the data integrity block. YES | NO NO

The DIB is the data integrity block in the Associator. The DIB contains an entry that indicates whether an Adabas session is active for the database. This feature prevents an update nucleus session from being started while another one is running on the same database; it is especially important when several CPUs share the same database DASD devices. The DIB entry is automatically released when the Adabas session is terminated normally.

This parameter indicates whether this update nucleus session should ignore and delete the entry in the data integrity block (DIB) in the Associator.

Value Meaning
YES Adabas ignores and deletes the existing DIB entry and initiates a new session.
NO The default setting. If the DIB entry indicates that an Adabas session is already active for the database, Adabas rejects an attempt to start an update session against the database. This is true even when the session that the DIB indicates is active has terminated abnormally.

Note:
Software AG recommends that you use IGNDIB=YES only once and immediately remove it from the JCL. If no DIB entry exists when IGNDIB=YES is specified, the nucleus terminates abnormally.

A data integrity block (DIB) entry will only be removed once the ID Table initialization has been successful. Therefore, you must set IGNDIB and FORCE both to "YES" if either of the following occur:

  • You receive a PARM ERROR 26 after parameter settings IGNDIB=NO and FORCE=YES were applied;

  • You receive a PARM ERROR 23 after parameter settings IGNDIB=YES and FORCE=NO were applied.

Example

The following example runs an Adabas update session and ignores and deletes the DIB entry for an active Adabas update nucleus.

ADARUN PROG=ADANUC,IGNDIB=YES

IGNDTP Parameter: Ignore Two-Phase Commit Area (Work Part 4)

Parameter Specify . . . Possible Values Default
IGNDTP whether to ignore the two-phase commit area (Work part 4). YES | NO NO
Warning:
This parameter is for emergency use only; contact your Software AG technical support representative before using it. Whenever the information on Work part 4 is ignored, the integrity of the incomplete global transactions that are related to that information cannot be guaranteed.

IGNDTP=YES can be specified with DTP=NO or DTP=RM.

When DTP=NO, the nucleus will not start if there is data in Work part 4 related to the recovery of previously incomplete global transactions. In this situation, specifying IGNDTP=YES forces the nucleus to ignore the data in Work part 4 and start anyway.

When DTP=RM, the nucleus also ignores any data on Work part 4 and reinitializes the area. This can be useful during a recovery when the state and correctness of the incomplete global transactions that are stored on Work part 4 has already been established.

Example

The following example runs an Adabas update session without support for distributed transactions; it ignores data in the Work part 4 area left over from the previous session with support for distributed transaction processing.

ADARUN PROGRAM=ADANUC,DTP=NO,LDTP=8,IGNDTP=YES

INDEXCROSSCHECK Parameter: Data Storage Record Validation

Parameter Specify . . . Possible Values Default
INDEXCROSSCHECK whether index cross-checking should be turned on or off. YES | NO YES

This parameter controls whether index cross-checking is turned on or off. Index cross-checking is a process Adabas uses to ensure that a data storage record it is reading actually matches the descriptor value in the index by which the record was found. When index cross-checking is turned on, Adabas extracts the descriptor value from the record being read and compares it to the value used for positioning in the index. If there is a mismatch, Adabas returns response code 175 (ADARSP175).

If "YES" is specified (the default value), Adabas extracts the descriptor value from the record being read and compares it to the value used for positioning in the index. If the two values are not equal, Adabas checks for a parallel update command on the same record and retries after that update has finished. If there is no parallel update command, Adabas returns response code 175 (ADARSP175) to indicate an inconsistency between the data storage and the index.

If "NO" is specified, Adabas does not extract the descriptor value from the record, but immediately checks for a parallel update command on the same record. If there is one, even if it does not update the descriptor in question, Adabas waits until the update has finished and then retries. With this parameter setting, Adabas does not validate the index against the data storage record and does not return response code 175 (ADARSP175).

Note:
In a cluster nucleus (CLUSTER=SYSPLEX or CLUSTER=LOCAL), Adabas sets INDEXCROSSCHECK to "YES", overriding any user-specified INDEXCROSSCHECK value, and validates the descriptor value from the index against the corresponding value from the data storage.

Setting INDEXCROSSCHECK to "NO" may, under certain circumstances, reduce the CPU time required for ensuring that the Data Storage record being read matches the descriptor value by which the record was found. This applies in particular to cases where neither the descriptor itself nor (if it is a special descriptor) its parent field(s) occur in the format buffer specifying the fields to be returned and where the descriptor or one of its parents were defined near the end of the FDT.

Example

The following example specifies that Adabas should not extract the descriptor value from the record being read. The index is not validated against the data storage record.

ADARUN PROGRAM=ADANUC,INDEXCROSSCHECK=NO

INDEXUPDATE Parameter: Index Update Processing Control

Parameter Specify . . . Possible Values Default
INDEXUPDATE whether to use the original or advanced index update processing rules. ORIGINAL | ADVANCED ORIGINAL

This parameter controls which index structure rules the Adabas nucleus uses to perform index updates. For each file in the database, the file's index stores the descriptor values from the file's data storage records in a tree structure. Adabas can use two very similar, but slightly different sets of rules that govern the tree structure. The advanced rules are less strict than the original ones and allow Adabas to perform certain types of index updates more efficiently than the original rules do.

When INDEXUPDATE is set to "ORIGINAL", Adabas uses the original, strict rules for the structure of the index trees in the database. This is the default value

When INDEXUPDATE is set to "ADVANCED", Adabas uses modified, less strict rules for the index tree structure for certain types of index updates. For these index updates, efficiency gains are expected and less protection data will be written to the WORK dataset.

The INDEXUPDATE setting cannot be changed at runtime. In a cluster, INDEXUPDATE should (but need not) be set to the same value in all nuclei in the cluster. It is possible to set INDEXUPDATE back to "ORIGINAL" after Adabas has been performing updates with INDEXUPDATE=ADVANCED. In this case, the index structure established with the advanced rules will stay in effect and the nucleus will perform further index updates according to the original index structure rules.

Note:
It is recommended to set INDEXUPDATE to "ADVANCED" only when it is expected that the Adabas version will be kept at the then current version or higher. If it becomes necessary to downgrade Adabas to version 8.3 SP1 or lower after index updates have been performed with the ADVANCED setting, the indexes of the affected files must first be rebuilt using the ADALOD or ADAORD utilities. For more information see the section Reversion Considerations for the ADACNV REVERT function.

Note:
The ICHECK functions of the ADACHK utility check that the index of each file adheres to the advanced, less strict rules for the index structure.

INFOBUFFERSIZE Parameter: Information Buffer Pool (Adabas Event Log) Size

Parameter Specify . . . Possible Values Default
INFOBUFFERSIZE the size of the information buffer pool, in bytes. The information buffer pool is also known as the Adabas event log. 0 or 1024 - 2147483647 0 (no buffer pool is allocated)

The information buffer pool is a wraparound buffer in memory that represents the size of the new Adabas event log. At this time, the Adabas event log is used to log each response code 145 (ADARSP145) event. The INFOBUFFERSIZE parameter identifies the size of the Adabas event log. Each entry in the event log is currently 128 bytes, although this may change in later Adabas releases. When the Adabas event log fills up, the oldest entries in the log are overwritten.

Setting INFOBUFFERSIZE to zero (0) indicates that no buffer pool (Adabas event log) is allocated. The minimum size of the pool is 1024 bytes.

Note:
Each response code 145 (ADARSP145) event is logged to the command log, if CLOGLAYOUT=8 is specified, regardless of the setting of the INFOBUFFERSIZE parameter.

The information in the Adabas event log can be printed using the ADADBS DEVENTLOG utility function. For more information, refer to the Adabas Utilities Manual.

Example

The following example specifies an information buffer pool (Adabas event log) that is 50,000 bytes in size.

ADARUN PROGRAM=ADANUC,INFOBUFFERSIZE=50000

INTAUTO Parameter: Time Interval Between Autorestart Progress Messages

Parameter Specify . . . Minimum Maximum Default
INTAUTO the time interval (in seconds) between autorestart progress messages. 1 2147483647 0

When performing session autorestart to recover from a preceding failure, Adabas prints autorestart progress messages (in message ADAN56) to indicate how much repair and recovery work has already been done and how much remains to be done. By default, these messages occur when each phase of the autorestart (backward repair, forward repair, autobackout) completes.

The INTAUTO parameter allows you to set the time interval (in seconds) at which autorestart progress messages will be printed, in addition to the standard messages printed at the end of each phase (assuming a phase takes longer than the specified time interval). The default (0 seconds) indicates that autorestart progress messages should only be printed at the completion of each autorestart phase.

Example

The following ADARUN INTAUTO parameter indicates that Adabas should print progress messages every ten seconds when performing session autorestart processing.

ADARUN PROGRAM=ADANUC,INTAUTO=10

INTNAS Parameter: Time Interval Between SYNS 60 Checkpoints

Parameter Specify . . . Minimum Maximum Default
INTNAS the time interval between SYNS 60 checkpoints. 1 2147483647 3600

The SYNS 60 statistic checkpoint is generated by the Adabas nucleus and written to the Adabas Checkpoint system file. It may be displayed using the CPLIST function of the ADAREP utility or Adabas Online System. For more information about checkpoints see the ADAREP utility discussion in the Adabas Utilities Manual.

INTNAS allows you to set the time interval (in units of 1.048576 seconds) between SYNS 60 checkpoints. The default (3600) is approximately 1 hour meaning that nucleus statistics will be recorded once each hour.

Example

The following example sets Adabas so that nucleus statistics are recorded every 30 minutes.

ADARUN PROGRAM=ADANUC,INTNAS=1800

LAP Parameter: Adabas Auditing Pool Size

Parameter Specify . . . Possible Values Default
LAP The size of the Adabas Auditing pool. minimum 20000 100000 (if AUDITING=YES) or 0 (if AUDITING=NO)

Notes:

  1. The LAP parameter should be specified for an Adabas nucleus running with ADARUN parameter AUDITING=YES. In addition, the Auditing pool will be allocated in 64-bit virtual storage when an Adabas nucleus runs with ADARUN parameters AUDITING=YES and V64BIT=YES.
  2. The LAP parameter should be specified for an Adabas Audit Server.
  3. The LAP parameter values in the Adabas nucleus and the Adabas Audit Server may be different.
  4. Software AG recommends setting LAP to a relatively large value (e.g. LAP=40M or greater). To determine what this setting should be for your site, you could run Adabas in a test environment with auditing turned on, simulate the activity in the production environment on this test system, and use the Adabas DRES operator command to view the current and high-water mark of auditing pool usage.
  5. If an Adabas nucleus with AUDITING=YES is run with V64BIT=YES and LARGEPAGE=G64, the allocation request for the Auditing pool will be rounded up to the nearest multiple of two gigabytes. Any difference between the specified size and the allocated size will remain unused. For this reason, we recommend that if LARGEPAGE=G64, you specify the LAP value as a multiple of two gigabytes to avoid leaving a potentially large amount of allocated storage unused. If LARGEPAGE=G64 is specified and 2GB large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

Example

ADARUN PROG=ADANUC,AUDITING=YES,LAP=50000K

LARGEPAGE Parameter: Large Page Support Option

Parameter Specify . . . Possible Values Default
LARGEPAGE whether or not the Adabas nucleus should use page-fixed one-megabyte (1M) large pages of real storage above the two-gigabyte (2G) bar (LARGEPAGE=L64), page-fixed 2G large pages above the 2G bar (LARGEPAGE=G64), or pageable one-megabyte (1M) large pages of 64-bit real storage (LARGEPAGE=P64). A value of "YES" is equivalent to specifying a value of L64. Large pages can only be used if your operating system supports them and 64-bit virtual storage. G64 | L64 | P64 | NO | YES NO

This parameter indicates whether or not the Adabas nucleus should use large pages. The default is NO.

Note:
At this time, this parameter is applicable only to z/OS systems.

Value Meaning
G64 The Adabas nucleus will attempt to acquire virtual storage above the 2G bar backed by page-fixed 2G large pages. The virtual storage will be backed by large pages if the operating system supports them and if sufficient large pages are available in the system. If insufficient large pages are available, the virtual storage above the 2G bar will be backed by pageable four-kilobyte (4K) pages.

You can specify LARGEPAGE=G64 only if the ADARUN V64BIT parameter is set to "YES".

The LARGEPAGE=G64 setting does not apply to the flush I/O pool, Work and PLOG I/O buffers, or cast-out directory buffer (in a cluster environment). At this time, it applies only to ADARUN parameter LRPL (in an Adabas replication environment) in the Adabas nucleus (but not in the Event Replicator Server).

Note:
Allocation requests for storage to be backed by 2G large pages are rounded up to the nearest multiple of two gigabytes. Any difference between the specified size and the allocated size will remain unused. For this reason, we recommend that you specify a multiple of two gigabytes for any storage area to which the LARGEPAGE=G64 setting applies, to avoid leaving a potentially large amount of allocated storage unused. If LARGEPAGE=G64 is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

L64 or YES The Adabas nucleus will attempt to acquire virtual storage above the 2G bar backed by page-fixed 1M large pages. The virtual storage will be backed by large pages if the operating system supports them and if sufficient large pages are available in the system. If insufficient large pages are available, the virtual storage above the 2G bar will be backed by pageable 4K pages. A value of "YES" is equivalent to specifying a value of "L64".

You can specify LARGEPAGE=L64 or LARGEPAGE=YES only if the ADARUN V64BIT parameter is set to "YES".

P64 Where appropriate, the Adabas nucleus will attempt to acquire virtual storage above or below the 2G bar backed by pageable 1M large pages in 64-bit real storage. The virtual storage will be backed by large pages if the operating system supports them and if sufficient large pages are available in the system. If insufficient large pages are available, the virtual storage above the 2G bar will be backed by pageable 4K pages.

LARGEPAGE=P64 can be specified with the ADARUN V64BIT parameter set to "NO" or to "YES".

NO Virtual storage above the 2G bar will be backed by 4K pages. This is the default value.

The amount of storage in your operating system available for page-fixed 1M or 2G large pages is set using the LFAREA parameter in PARMLIB member IEASYSxx. For complete information on the LFAREA parameter, refer to the IBM z/OS Extended Addressability Guide.

Example

The following example requests that the Adabas nucleus should make use of virtual storage above the 2G bar and should use 1M large pages.

ADARUN PROG=ADANUC,LARGEPAGE=YES,V64BIT=YES

LBP Parameter: Length of Buffer Pool

Parameter Specify . . . Minimum Maximum Default
LBP the maximum size of the Adabas buffer pool. 80 000 2147483647 350000

The maximum number of bytes to be used for the Adabas buffer pool during a session.

Adabas allocates the number of bytes specified to the Adabas buffer pool if sufficient memory is available. A minimum of 80000 bytes must be available to successfully initiate a session. For performance reasons, however, Software AG recommends that you specify at least 50000 bytes per thread. Ensure that sufficient memory is available to accommodate the LBP size specified. If asynchronous buffer flush management is used (that is, the LFIOP parameter specifies a nonzero value), the LBP value must be greater than that specified by LFIOP.

In environments running in 31-bit addressing mode, the buffer pool space is allocated above the 16-megabyte line.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

The buffer efficiency statistic can be used to determine the optimal size of the parameter.

Specific Product Recommendations

  • Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example allocates a maximum of 800000 bytes to the Adabas buffer pool for this session.

ADARUN PROG=ADANUC,LBP=800000

LCP Parameter: Length of Security Pool

Parameter Specify . . . Minimum Maximum Default
LCP the maximum size of the Adabas security pool. 2000 2147483647 10000

The maximum number of bytes to be used for the Adabas security pool during a session. The pool is used to keep security information in memory in order to optimize performance.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

Example

The following example allocates a maximum of 50000 bytes to the Adabas security pool for this session.

ADARUN PROG=ADANUC,LCP=50000

LDEUQP Parameter: Length of Unique Descriptor Pool

Parameter Specify . . . Minimum Maximum Default
LDEUQP the size of the unique descriptor pool. 5000 2147483647 5000

The unique (UQ) descriptor pool comprises elements that are the length of a unique descriptor value plus 14 bytes. The UQ descriptor pool should be large enough to hold all unique descriptor values that are being changed by all transactions at any point in time.

Adabas will make an entry in this pool every time a unique descriptor value is deleted from or inserted into a file's index. A full update of a unique descriptor value produces two entries: one for the deletion of the old value and one for the insertion of the new value. The entry for an insertion is normally removed as soon as the index update has been performed. The entry for a deletion is removed when the current transaction ends. However, Adabas Cluster Services and Adabas Parallel Services nuclei always keep entries for insertions until the end of the transaction too.

Specific Product Recommendations

  • Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

For example, assuming that the average length of unique descriptor values is about 16 bytes, the following Adabas session can process a maximum of about 1000 unique descriptors at one time.

ADARUN PROG=ADANUC,LDEUQP=30000

LDTP Parameter: Length of Distributed Transaction Processing Area (Work Part 4)

Parameter Specify . . . Minimum Maximum Default
LDTP the size (in blocks) of the WORK4 index which is used to administer the data on DDWORKR4 if you have Adabas Transaction Manager installed. 8 one eighth of the WORK4 size 8

If you have Adabas Transaction Manager installed, this parameter specifies the size (in blocks) of the WORK4 index which is used to administer the data on DDWORKR4:

  • If DTP=RM and LDTP is either unspecified or specified as "0", a default of 8 blocks is used.

  • If specified, the ADARUN LDTP must be at least 8 blocks. The maximum size that can be specified is the size of the DDWORK4 data set divided by 8.

DDWORKR4 is a container data set used for the same purpose as Work part 4 of DDWORKR1 was used previously, with the difference that DDWORKR4 can be used in parallel by all members in a cluster. The DDWORKR4 data set should be allocated and formatted in the normal way, using a block size greater than or equal to DDWORKR1. It should be at least as large as the cluster’s LP parameter of the database or cluster.

Example

In the following example, the LP parameter specifies 2000 blocks for the data protection area (Work part 1). This example also uses 2500 blocks for the distributed transaction processing area on the Adabas Work data set (part 4).

ADARUN PROG=ADANUC,DTP=RM,LP=2000,LDTP=2500

LFIOP Parameter: Asynchronous Buffer Pool Control

Parameter Specify . . . Minimum Maximum Default
LFIOP whether to enable asynchronous buffer flush operation and set the I/O pool size. 0 | 1 | 80000 18446744073709551615 (although this is really limited by the available amount of virtual and real memory) 0

The asynchronous buffer flush I/O pool enables asynchronous Adabas buffer flush operation and defines the size of the related buffer. Specifying a non-zero value for LFIOP enables asynchronous buffer flush operation; the value specified determines the buffer size, in bytes.

If LFIOP is not specified or zero is specified (the default), synchronous buffer flushing is performed. Note that flushing is always synchronous in single-user mode (MODE=SINGLE).

Value Meaning
0 No asynchronous buffer flush (the default); flushing is synchronous.
1 Asynchronous buffer flush operations occur. The flush pool is sized at 25% of the buffer pool (LBP=) size.
n (minimum of 80000) Asynchronous buffer flush operations occur. The flush pool size is defined by the LFIOP setting (in bytes).

When LFIOP=1 or LFIOP=n and the specified or calculated flush pool size is less than 80000 bytes, Adabas uses a size of 80000 bytes.

In environments running in 31-bit addressing mode, the I/O pool is allocated above the 16-megabyte line.

In environments supporting 64-bit virtual storage, the flush I/O pool is allocated above the 2 gigabyte bar when the V64BIT ADARUN parameter is set to "YES".

Specific Product Recommendations

  • Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server causing replication data to be written and read from the SLOG file.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1") consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example enables asynchronous buffer flush operation for this session and allocates an I/O pool of 200000 bytes (25% of the LBP size).

ADARUN PROG=ADANUC,LFIOP=1,LBP=800000

LFP Parameter: Length of Internal Format Buffer Pool

Parameter Specify . . . Minimum Maximum Default
LFP the size of the Adabas internal format buffer pool. 6000 2147483647 12 000

This pool stores internal format buffers used with Adabas read and update commands as described in the Adabas Command Reference Guide.

Each internal format buffer pool entry requires approximately 60 + (64 * n) bytes, where n equals the number of fields referenced in the command.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

In environments running in 31-bit addressing mode, the LFP pool is allocated above the 16-megabyte line.

Specific Product Recommendations

If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example allocates 8000 bytes for the Adabas internal format buffer pool for this session.

ADARUN PROG=ADANUC,LFP=8000

LI Parameter: Length of Table of ISNs (TBI)

Parameter Specify . . . Minimum Maximum Default
LI the size of the TBI. 2000 2147483647 10000

LI specifies the number of bytes allocated for the table of ISNs (TBI), which is used to store ISN lists (overflow ISNs or saved ISN lists). Each ISN list is identified by a command ID (CID) and stored in a TBI element.

You must also specify a value for the NSISN parameter, which sets the maximum number of ISNs per TBI element. Each TBI element has a length of 64 + ( NSISN * 4 ) bytes.

The number of TBI elements required determines the length of the TBI. For complex searches, the Adabas nucleus builds temporary TBI elements in addition to the permanent TBI element; for example, for holding the results of descriptor searches, for reading the result records in Data Storage and collecting matches, or for holding the results of the partial criteria associated with the R operator. Although the temporary TBI elements are deleted at the end of a search, the TBI must be large enough to hold all of the temporary and permanent TBI elements in parallel during search processing.

The Adabas session statistics or Adabas Online System can be used to set this parameter for the next session.

When running with Adabas expanded files, a larger-than-normal LI value is recommended.

In environments running in 31-bit addressing mode, the LI pool is allocated above the 16-megabyte line.

Example

The following example allocates 30000 bytes for the table of ISN list IDs for this session.

ADARUN PROG=ADANUC,LI=30000

LNKGNAME Parameter: Link Globals Table Name

Parameter Specify . . . Possible Values Default
LNKGNAME the module name of the link globals table to be employed by an Adabas 8 batch/TSO link routine. The link globals table is used to obtain default information and for invoking any linked exits. valid module name for an IBM z/OS or z/VSE operating system, or for a BS2000 module LNKGBLS

The parameter name LNKGNAME may be abbreviated to LGN.

Notes:

  1. If you specify the LNKGNAME parameter, you must also specify the ADARUN DBID and SVC parameters.
  2. To use this and other keywords for a batch or TSO job step, the application must be linked with the ADAUSER load module and call Adabas to invoke the ADAUSER load module.
  3. If the job step specifies PROG=USER or PROG=RENTUSER with no LNKGNAME keyword, either the ADALNK or ADALNKR module will be loaded by ADARUN. This is intended to allow the Adabas 7 batch/TSO link routines to be loaded and executed for the job step. Take care to ensure the proper load library concatenation is provided on the job step so the Adabas 7 ADALNK or ADALNKR module will be loaded. This should allow gradual migration of job steps from Adabas 7 to Adabas 8 as required.

Example:

In the following example, the link globals table in module MYGBLS is used.

ADARUN PROG=USER,LNKGNAME=MYGBLS

LOCAL Parameter: Local Adabas Review Hub

Parameter Specify . . . Possible Values Default
LOCAL whether an Adabas nucleus or Adabas Review hub is isolated and available for local use only. YES | NO YES

Defines an isolated Adabas nucleus or Adabas Review hub that is only available locally. The nucleus or hub is unreachable to Entire Net-Work. A nucleus or Adabas Review hub specifying LOCAL=YES (the default) can have the same database ID or hub ID as another database nucleus or Review hub on another network node.

Value Meaning
YES Isolates this nucleus or Adabas Review hub (that is, makes it unaddressable) from other Entire Net-Work nodes.
NO Allows the nucleus or Adabas Review hub to receive calls from other Entire Net-Work nodes.

Examples

In the following example, the Adabas nucleus is not isolated and can be addressed by other Entire Net-Work nodes.

ADARUN PROG=ADANUC,LOCAL=NO

In the following example, the Review hub is isolated and cannot be addressed by other Entire Net-Work nodes.

ADARUN PROG=ADAREV,LOCAL=YES

LOGGING / LOGxxxx Parameters: Command Logging Control

Parameter Specify . . . Possible Values Default
LOGGING whether to log Adabas commands. YES | NO NO

The LOGGING parameter specifies whether to use command logging for the Adabas session. The LOGxxxx parameters specify the type of information to be logged. Valid values are YES and NO for all of these parameters.

Note:
User exit 4 is still called even if ADARUN LOGGING=NO and REVIEW is specified. User exit 4 will not be invoked if LOGGING=NO and REVIEW is not active. If REVIEW is specified, the only way to disable user exit 4 is to remove the ADARUN UEX4 parameter from the Adabas run.

If you specify LOGGING=YES, you must also specify YES for one or more of the following ADARUN LOGxxxx parameters. By default, each type of information is not logged.

Parameter Specify whether to log the ... Possible Values Default
LOGABDX Adabas buffer descriptions (ABDs) YES | NO NO
LOGCB extended Adabas control block YES | NO NO
LOGCLEX command log extension (CLEX) 1 YES | NO NO
LOGFB format buffer YES | NO NO
LOGIB ISN buffer YES | NO NO
LOGIO I/O activity YES | NO NO
LOGMB multifetch buffer YES | NO NO
LOGRB record buffer YES | NO NO
LOGSB search buffer YES | NO NO
LOGUX user exit B data YES | NO NO
LOGVB value buffer YES | NO NO
LOGVOLIO extended I/O list 2 YES | NO NO

1LOGCLEX=YES requires that Adabas Review modules must be available. The data provided in command log records with CLEX can be viewed using the batch program REVIEWB. For more information review the Field Reference in the Adabas Review Reference Guide.

2 If the LOGIO parameter is set to "NO", no I/O buffer element is logged at all. If LOGIO is set to "YES" but LOGVOLIO is set to "NO", only the standard I/O buffer element is logged. The extended I/O list is only logged if both the LOGIO and LOGVOLIO parameter are set to "YES".

You can use Adabas operator commands or Adabas Online System to modify logging parameters during session execution.

Example

The following example runs the Adabas nucleus with command logging and logs the Adabas control block.

ADARUN PROG=ADANUC,LOGGING=YES,LOGCB=YES

LOGSIZE Parameter: Maximum Command Log Size

Parameter Specify . . . Minimum Maximum Default
LOGSIZE the maximum block size for the sequential command log DD/LOG. 100 32760 value of QBLKSIZE

This parameter controls the maximum block size for the sequential command log DD/LOG. The default value is identical to the value of the QBLKSIZE parameter. If dual or multiple command logging is used, this parameter is ignored.

Example

In the following example, the block size of the command log is set as 2000 bytes.

ADARUN PROG=ADANUC,LOGSIZE=2000

LOGWARN Parameter: CLOG and PLOG Alert Message Interval

Parameter Specify . . . Minimum Maximum Default
LOGWARN the frequency, in seconds, at which the PLOG and CLOG status is checked and resulting alert messages are produced. 0 2147483647 0

This parameter is optional, but a valid user exit 2 (ADARUN parameter UEX2) or user exit 12 (ADARUN parameter UEX12) must also be specified when this parameter is set to any value other than zero (0). A value of zero (0), the default, indicates that no CLOG and PLOG status checks should occur and that no alert messages should be produced. Any other valid LOGWARN value represents the interval (in seconds) at which the PLOG and CLOG status is checked and resulting alert messages are produced.

After checking the status of the CLOG and PLOG data sets, alert messages are written when Adabas detects that a PLOG or CLOG data set has not been copied within a specified time interval. Thereafter, an alert message is written at regular intervals as long as there is a PLOG or CLOG data set waiting to be copied. These alert messages are issued until the PLOG or CLOG data set is copied or until no logs remain to be copied. Your user exits 2 or 12 can be set up so that the messages appear providing a comprehensive trace of activity so you can resolve and problems with the PLOG or CLOG.

This feature helps you prevent the potential problem of Adabas overwriting an older CLOG or PLOG data set without waiting for direction from the user. Ordinarily, when a PLOG or CLOG data set fills up, the Adabas nucleus examines the return code from user exit 2 or user exit 12 to determine whether it should wait before overwriting an older PLOG or CLOG data set with new information. If there is no user exit 2 or 12, Adabas does not wait, but simply overwrites the older log. If this LOGWARN parameter is set to a value other than zero, the statuses of the CLOG and PLOG data sets are analzed at the frequency specified by this parameter, warning about their status and providing you with the information you need to prevent any overwriting of older logs.

Example

In the following example, the CLOG and PLOG statuses are checked every hour.

ADARUN PROG=ADANUC,LOGWARN=3600,UEX2=SUBR2

LP Parameter: Length of Data Protection Area (Work Part 1)

Parameter Specify . . . Minimum Maximum Default
LP the number of blocks to allocate to Work part 1. 200 see text 1000

The LP parameter specifies the number of blocks to allocate to the Work data protection area, which is part 1 of the Work data set. This area must be large enough to accommodate the data protection information for the current transaction for all ET logic users. Details can be found in Adabas Restart and Recovery.

The LP parameter is no longer limited to 65535 blocks; however, it is still limited by the size of the Work data set and the sizes of Work parts 2, 3, and 4.

Note:
For any pending autorestart processing, Adabas retains and uses the value of the LP parameter from the previous session. If the LP parameter for the new session is specified with a different value than in the previous session, the nucleus will process any autorestart using the old value of LP, and establish the new LP size at the end of the autorestart.

Specific Product Recommendations

  • Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example uses 2,000 blocks to store data protection information on the Adabas Work data set.

ADARUN PROG=ADANUC,LP=2000

LQ Parameter: Length of Sequential Command Table

Parameter Specify . . . Minimum Maximum Default
LQ the size of the table of sequential commands. 2000 2147483647 10 000

The table of sequential commands contains internal entries required during the processing of the Adabas read sequential (L2/L5, L3/L6, and L9) commands.

Each sequential pass of an Adabas file requires one entry in this table. Each table entry requires approximately 60-100 bytes, depending on the command type. Additionally, a variable portion (descriptor value) is required in the table entry for the L3/L6/L9 commands. An entry is deleted when an end-of-file condition is detected during sequential processing or when an RC or CL command is issued.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session. If using expanded files, the LQ value may need to be set to a higher-than-normal value.

The LQ value also determines the maximum number of command IDs that each user can specify. See the NQCID parameter description, later in this chapter, for more information.

In environments running in 31-bit addressing mode, the LQ pool is allocated above the 16-megabyte line.

Example

The following example allocates 30000 bytes for the table of sequential commands for this session.

ADARUN PROG=ADANUC,LQ=30000

LRDP Parameter: Length of the Redo Pool

Parameter Specify . . . Minimum Maximum Default
LRDP the size (in bytes) of the redo pool. 0; or 80000 2147483647 For Adabas Parallel Services 8.2 or later, the default is 0 (zero).

For Adabas Cluster Services 8.2 or later, the default is either the value of the ADARUN LFIOP parameter or 10 megabytes (10M), whichever is smaller.

For earlier releases of Adabas Parallel Services and Adabas Cluster Services, the default is the value of the ADARUN LFIOP parameter.

The LRDP parameter specifies the size of the redo pool in an Adabas Cluster Services or Adabas Parallel Services nucleus. It has an effect only when CLUSTER=SYSPLEX or LOCAL has also been specified. For Adabas Parallel Services 8.2 or later, its default is zero (0). For Adabas Cluster Services 8.2 or later, its default is either 10 megabytes (10M) or the value of the ADARUN LFIOP parameter, whichever is smaller. For earlier releases of Adabas Parallel Services and Adabas Cluster Services, the default is the value of the ADARUN LFIOP parameter.

  • If LRDP is set to zero, the cluster nucleus performs immediate publishing: Updated database blocks are always written to the global cache at the time each update takes place.

  • If LRDP is set to (or defaults to) a nonzero value, the cluster nucleus performs deferred publishing: The writing of updated database blocks to the global cache is deferred until later. However, updates are always published in the global cache before the transactions they belong to are committed (by ET commands). The redo pool is used to maintain descriptions of all unpublished updates, in case they need to be redone due to concurrent updates to the same blocks by other nuclei in the cluster.

By combining multiple updates to the same block into a single write-to-cache operation, deferred publishing tends to result in fewer read and write operations from and to the global cache than immediate publishing. Depending on the type of application workload, this may have a large positive effect on performance. This is especially the case for Adabas Cluster Services, where frequent communication with the cache in the coupling facility may cause a high overhead.

Recommendation: For Adabas Cluster Services, specify a nonzero LRDP parameter (or use the default).

Different nuclei in the same cluster can have different settings of LRDP. It is also possible, although not recommended, to run one nucleus with LRDP=0 and another one with LRDP>0.

If the redo pool specification is too small and the pool runs full, the nucleus will write additional updated blocks to the global cache before the surrounding transactions end. Such additional cache writes may hurt system performance. To obtain more information about the current usage of the redo pool, review the redo high-water mark in the output of the DRES operator command and in the cluster nucleus shutdown statistics. This information is also available in corresponding Adabas Online System (AOS) displays and in the output of the ADADBS OPERCOM function. Please note that if a non-zero value is specified, the redo pool size will be rounded down to the nearest full-word boundary.

LRPL Parameter: Adabas or Event Replicator Replication Pool Size

Parameter Specify . . . Possible Values Default
LRPL The size of the Adabas or Event Replicator replication pools. minimum 20000 100000 (if REPLICATION=YES) or 0 (if REPLICATION=NO)

Notes:

  1. The LRPL parameter should be specified for an Adabas nucleus running with ADARUN parameter REPLICATION=YES. In addition, the replication pool will be allocated in 64-bit virtual storage when an Adabas nucleus runs with ADARUN parameters REPLICATION=YES and V64BIT=YES.
  2. The LRPL parameter should be specified for an Event Replicator Server.
  3. The LRPL parameter values in the Adabas nucleus and the Event Replicator Server may be different.
  4. Software AG recommends setting LRPL to a relatively large value (e.g. LRPL=40M or greater). To determine what this setting should be for your site, you could run Adabas in a test environment with replication turned on, simulate the activity in the production environment on this test system, and use the Adabas DRES operator command to view the current and high-water mark of replication pool usage.
  5. If an Adabas nucleus with replication or Event Replicator Server is run with V64BIT=YES and LARGEPAGE=G64, the allocation request for the replication pool will be rounded up to the nearest multiple of two gigabytes. Any difference between the specified size and the allocated size will remain unused. For this reason we recommend that if LARGEPAGE=G64, you specify the LRPL value as a multiple of two gigabytes to avoid leaving a potentially large amount of allocated storage unused. If LARGEPAGE=G64 is specified and 2G large pages are not available for allocation, the specified size will be rounded up to the nearest multiple of one megabyte, and the storage will not be backed by large pages. A console message will report on this case.

Example:

ADARUN PROG=ADANUC,REPLICATION=YES,LRPL=50000K

LS Parameter: Length of Internal Sort Area

Parameter Specify . . . Minimum Maximum Default
LS the maximum number of bytes to be used for internal sort processing. 19968 see note 49920

Note:
To ensure that a single search command does not use too much of the work pool space, the maximum LS value must be less than or equal to the LWP (work pool length) divided by two minus the minimum LS value (19968) (LS = LWP/2 - 19968). See the LWP parameter.

The LS parameter specifies the maximum number of bytes within the Work pool to be used for sort work space during the processing of a single command of the following type:

  • S2 and S9 commands;

  • complex search commands, which require the storage of bit strings.

The following formula may be used to estimate the number of Adabas ISNs that may be sorted in the work space provided (S2 or S9 commands):

If the TOPISN in the file is less than 65536:

Using Formula to determine the number of Adabas ISNs that may be sorted in the work space provided
using 1 descriptor LS/12
using 2 descriptors LS/16
using 3 descriptors LS/20

Notes:

  1. TOPISN is the highest ISN currently in use for the file, less (MINISN - 1). TOPISN is not controlled by a parameter.
  2. 4-byte ISNs are used for the internal sort area, regardless of the ISNSIZE specified for the file.

If the TOPISN in the file is greater than 65536:

Using Formula to determine the number of Adabas ISNs that may be sorted in the work space provided
using 1 descriptor LS/14
using 2 descriptors LS/20
using 3 descriptors LS/26

For complex searches, it is desirable for performance reasons to set LS value to the next integer multiple of 256 bytes greater than TOPISN / 8. For example, if TOPISN = 480000, then TOPISN / 8 = 60000, so LS should be set to the next higher multiple of 256, namely 60160.

Example

In the following example, the maximum amount of internal sort space during this session is set at 60160 bytes.

ADARUN PROG=ADANUC,LS=60160

LSF Parameter: Logical Save Facility

Parameter Specify . . . Possible Values Default
LSF whether Logical Save Facility should be enabled (YES) or disabled (NO) for the nucleus. YES | NO NO

The LSF parameter enables the nucleus to support Logical Save Facility processing. In the majority of sites Logical Save Facility will not be installed and this parameter should be set to NO (or allowed to default).

Value Meaning
YES Logical Save Facility processing is to be enabled.
NO The default setting. Logical Save Facility processing is to be disabled.

LTZ Parameter: Time Zone Pool Size

Parameter Specify . . . Minimum Maximum Default
LTZ the size of the time zone pool (in bytes) where time zone information is kept for each time zone used in a user session. 0, 12288 2147483647 32768

Note:
You can specify values for this parameter with a "K" to indicate that the number you specify is in kilobytes. For example, a specification of LTZ=32K is a valid specification.

When LTZ=0 is specified, no time zone pool is allocated. This disables the use of time zones for user sessions. The minimum, non-zero allocation is 12288 (12K).

Time zone information varies in size with an average of 1000 bytes. So the default of 32768 (32K) allows for approximately 32 time zones.

Finally, while the maximum value that can be specified for the LTZ parameter is 2147483647 bytes, only 491520 bytes (480K) is required to load all available time zones.

Example

In the following example, the minimum size (12288 bytes) is set for the time zone pool.

ADARUN PROG=ADANUC,LTZ=12288

LU Parameter: Length of Intermediate User Buffer Area

Parameter Specify . . . Minimum Maximum Default
LU the size of the intermediate user buffer area. none none (see note 1) 65535 (see note 2)

The LU parameter is optional. The size specified must be large enough to accommodate all Adabas control information (204 bytes), all user buffers (format, record, search, value, ISN) that may be required for any given Adabas command, plus any user information passed from Adabas link routines to nucleus user exits. If the ADALNK has user exits, the addresses of the ACB and each buffer passed will be stored in this space. Also, if the ADALNK has declared LUSIZE and has user exits, this buffer size plus 64 bytes will also be stored in this space.

If the multifetch/prefetch option or a utility that needs large record/ISN buffers is to be used during the session, the setting of LU must be large enough to contain the buffers needed.

If you are using the ADARPD IQETBBROKERID NET communication (used with Event Replicator for Adabas), make sure that the webMethods EntireX Broker NET definition parameter IUBL is set to a value as large as the setting of this LU ADARUN parameter.

Notes:

  1. An error occurs if the LU parameter specifies a value greater than the byte count implied by the NAB (number of attached buffers) parameter. On z/OS systems, LU cannot exceed a value greater than that produced by the following calculation: (NABvalue x 4096); on z/VSE and BS2000 systems, LU cannot exceed a value greater than that produced by the following calculation: (NABvalue x 4096) – 256. For more information about the NAB parameter, read NAB: Number of Attached Buffers.
  2. Due to the length of the record buffer of the utilities that need the nucleus, e.g., ADAULD, the default value is set to 65,535. If the value of LU is less than 65,535 for an Adabas session, a response code will occur when such a utility is running.

The LU parameter syntax is:

LU={ n | 65535 }

Specific Product Recommendations

  • For Event Replicator Server databases running with Adabas 8, the LU parameter must be greater than or equal to 167,000.

    In addition, if data is sent through Entire Net-Work from one or more Adabas nuclei to an Event Replicator Server, the Entire Net-Work LU parameter must be greater than or equal to the LU parameter setting for the Event Replicator Server itself (greater than or equal to 167,000).

  • The ADACHK utility can use large record buffer lengths when making nucleus calls to verify spanned Data Storage records or an index structure with many levels. If this is the case, the settings of your LU and NAB ADARUN parameters may need to be increased.

  • For an Adabas nucleus running with the ADARUN REPLICATION=YES parameter, ensure the LU ADARUN parameter is set to a value greater than or equal to 70000.

  • For an Adabas Audit Server, the LU parameter must be greater than or equal to 167,000.

    In addition, if audit data is sent through Entire Net-Work from one or more Adabas nuclei to an Adabas Audit Server, the Entire Net-Work LU parameter must be greater than or equal to the LU parameter setting for the Adabas Audit Server itself (greater than or equal to 167,000).

Example

The following example runs the Adabas nucleus with an Adabas intermediate user buffer area of 20,000 bytes.

ADARUN PROG=ADANUC,LU=20000

LWKP2 Parameter: Length of ISN List Processing Area (Work Part 2)

Parameter Specify . . . Minimum Maximum Default
LWKP2 the number of Work blocks to use for intermediate ISN lists. 0 16777215 0

This parameter specifies the size (in blocks) of the Adabas Work part 2, which holds intermediate ISN lists during Sx commands.

If LWKP2=0 (the default), Adabas calculates the Work part 2 size automatically using the following formula:

WORK2 = 22 + 2 * (4 * RECORDS / (BLKSIZE - 16))

where

WORK2 is the Work part 2 space requirement in blocks.
RECORDS is the number of records in the file with the most records. This number equals TOPISN - MINISN + 1, where TOPISN is the highest ISN currently used in the file. MINISN is the lowest ISN used in the file. The MINISN value is specified with the ADACMP/ADALOD parameter MINISN; 1 is the default. You can use the ADAREP utility to display the TOPISN and MINISN values for the files in a database.
BLKSIZE is the block size of the device where the Work data set is stored (see the Adabas Installation documentation).

If you choose not to use LWKP2=0, the minimum value is LWKP2=20 blocks.

Note:
An Adabas internal table requires one byte of storage for each Work part 2 block.

Example:

For example, for the following Adabas session, the size of the Adabas Work part 2 is 50000 blocks.

ADARUN PROG=ADANUC,LWKP2=50000

LWP Parameter: Length of Adabas Work Pool

Parameter Specify . . . Minimum Maximum Default
LWP the size of the Adabas work pool. 80000 but not less than NT * 25000 2147483647 150000

Note:
The LWP (work pool length) parameter value must be equal to or greater than the LS (internal sort area length) value plus its minimum value (19968) multiplied by 2; that is, (LS + 19968) * 2.

The Adabas work pool area is used to store the following:

  • descriptor value tables (DVT);

  • intermediate user buffer areas (see parameter LU);

  • sort work space areas (see parameter LS);

  • work space during session and command execution.

In environments running in 31-bit addressing mode, the work pool space is allocated above the 16-megabyte line.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session. If expanded files are being used, the LWP value may need to be increased above the normal setting.

Specific Product Recommendations

If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example runs the Adabas nucleus with a work pool of 900000 bytes.

ADARUN PROG=ADANUC,LWP=900000

MLWTO Parameter: Multi-Line Console Message Control

Note:
At this time, this parameter only affects the appearance of replication-related and cluster-related messages (messages with prefixes ADAF*, ADAX*, PLI*, and PLX*).

Parameter Specify . . . Possible Values Default
MLWTO Whether multi-line messages that are normally written to the operator console as a series of single-line write-to-operator (WTO) messages should instead appear as multi-line WTO messages. YES | NO NO

To activate multi-line console messages, set MLWTO to YES in the nucleus startup job. When MLWTO is set to NO (or is allowed to default), no multi-line console messages will appear.

Multi-line console messages are only supported in z/OS and z/VSE environments. Specifying MLWTO=YES in BS2000 environments has no effect on the console messages.

Example:

ADARUN PROG=ADANUC,MLWTO=YES

MODE Parameter: Mode of Operation

Parameter Specify . . . Possible Values Default
MODE the Adabas operating mode. SINGLE | MULTI MULTI
Value Meaning
SINGLE Run in single-user mode: Load the Adabas nucleus and the user program or Adabas utility into the same region.
MULTI Run in multiuser mode: Load only the ADALNK routine into the same region as the program/utility. Load the Adabas nucleus into a different region. ADALNK will manage all interregion communication between the program or utility and the nucleus.

Note the following:

  1. The MODE parameter does not affect parallel utility execution.

  2. The nucleus cannot run in single-user mode (MODE=SINGLE cannot be specified) if it is to run

    • with Adabas Parallel Services or Adabas Cluster Services (NUCID 1)

    • with support for distributed transactions (DTP=RM)

    • as an Adabas Transaction Manager (DTP=TM)

    In addition, a valid Adabas SVC should be specified when running in single-user (MODE=SINGLE) mode.

  3. When running several nuclei against the same database, only one update nucleus can be used.

Example

The following example runs the ADAINV utility in single-user mode.

ADARUN PROG=ADAINV,MODE=SINGLE,SVC=234

MSGBUF Parameter: Size of Message Buffer

Parameter Specify . . . Minimum Maximum Default
MSGBUF the size of the message buffer area. 0 128 0

MSGBUF specifies the size (in kilobytes) of the area used to buffer messages for use for performance and tuning and problem analysis. Adabas messages buffered in this area can be reviewed even when online access to the console or DDPRINT messages is unavailable. While the buffer is intended for messages written to the system log or DDPRINT, it can be used for any purpose by any caller.

MSGBUF presupposes that ADARUN SMGT=YES.

MSGBUF=0 (the default) means that message buffering is not active for the session.

To activate message buffering, set MSGBUF to a value greater than 0. Software AG recommends setting MSGBUF to 10 (kilobytes).

Message buffering can be temporarily disabled and subsequently reactivated using the SMGT operator command.

See the Adabas DBA Tasks Manual for more information about message buffering.

Example

The following example activates message buffering when the Adabas nucleus is initialized with a message buffer size of 10 KB.

ADARUN PROGRAM=ADANUC
  ADARUN SMGT=YES
  ADARUN MSGBUF=10

MSGCONSL Parameter: Case of Messages Sent to the Console
MSGDRUCK Parameter: Case of Messages Sent to DD/DRUCK
MSGPRINT Parameter: Case of Messages Sent to DD/PRINT

Parameter Specify the case of Adabas . . . Possible Values Default
MSGCONSL messages sent to the console UPPER | MIXED MIXED
MSGDRUCK messages sent to the DD/DRUCK data set
MSGPRINT messages sent to the DD/PRINT data set

Adabas messages are displayed in mixed upper and lowercase. You can use one or more of these ADARUN parameters to display different message types in all uppercase.

Notes:

  1. The first message line in DDPRINT will not be influenced by the value of parameter MSGPRINT.
  2. Lowercase fields will not display correctly (they will be converted to uppercase) if you use the ADARUN parameter settings MSGCONSL=U, MSGDRUCK=U, or MSGPRINT=U.

Example

The following example will display messages in the DDDRUCK and DDPRINT data sets in all uppercase:

ADARUN MSGDRUCK=U,MSGPRINT=U

MXCANCEL Parameter: Timeout Threshold for Canceled Peer Nucleus

Parameter Specify . . . Minimum Maximum Default
MXCANCEL the timeout threshold, in seconds, in which the processing of an intracluster cancellation request must occur. 15 2147483647 MXMSG parameter value

The optional MXCANCEL parameter specifies the maximum number of seconds for which one cluster nucleus (the sending nucleus) waits for the termination of another nucleus (the peer nucleus) in the cluster that it has canceled for not responding to an internal, intracluster command. If a value for MXCANCEL is not specified, the value specified for the ADARUN MXMSG parameter is used. Values from zero through 14 are not valid MXCANCEL values.

If the sending nucleus does not receive notification that the canceled nucleus has terminated within the MXCANCEL timeout period, it does one of the following things:

  • It returns response code 124 (ADARSP124), subcode 28 (no reply) to the user on whose behalf the intracluster command was issued.

  • It terminates itself abnormally if the communication occurred on behalf of an internal process that must not fail.

When a cluster nucleus fails, the other nuclei in the cluster can recover from the failure only once they know for sure that the first nucleus has disconnected from the shared structures and is no longer writing to the database. When an unresponsive cluster nucleus has been canceled, it is important that it terminate quickly, so that it does not hold up the recovery process performed by the other nuclei in the cluster.

Note:
Do not specify an MPMDUMP JCL statement for a cluster nucleus. An MPMDUMP is written before the failing nucleus disconnects from the shared structures and may significantly delay the start of the online recovery process performed by the other nuclei in the cluster. Instead, on z/OS systems, consider specifying a //SVCDUMP DD DUMMY statement, which usually produces a very quick dump prior to disconnecting. On other systems, and as a backup method on z/OS, specify a regular system dump statement (e.g., SYSUDUMP on z/OS) for a dump that is produced after disconnecting.

The value for MXCANCEL can be changed dynamically (for the time the Adabas nucleus is running) using the MXCANCEL operator command.

MXCANCELWARN Parameter: Timeout Threshold for Canceled Peer Nucleus Warning

Parameter Specify . . . Minimum Maximum Default
MXCANCELWARN the timeout threshold, in seconds, for an intracluster cancellation request to occur before an early warning about the failure of the cancellation request is issued. 0 (no warning) or 4 MXCANCEL – 1 MXCANCEL / 4

The optional MXCANCELWARN parameter specifies the number of seconds after an intracluster cancellation request is made when the cluster nucleus requesting the cancellation should issue warnings about the inability of the canceled peer nucleus to terminate. If no value is specified for the MXCANCELWARN parameter, the value used is calculated as the value of the ADARUN MXCANCEL parameter divided by four. When dividing by four to determine the default value, the quotient is rounded up to the next integer value.

The value of MXCANCELWARN must be less than the value of MXCANCEL. If MXCANCELWARN is set to a value greater than or equal to the value specified for MXCANCEL, the value is rejected. If MXCANCELWARN is set to a value of zero (0), no warnings are issued about canceled cluster nuclei that are slow to terminate.

If the target nucleus does not terminate within the time period set by MXCANCELWARN, the nucleus that issued the cancellation request writes message ADAX9G to the operator console, identifying the target nucleus by its nucleus ID, job name, and system name. This message indicates that the nucleus writing the message may be in danger of terminating itself if the canceled peer nucleus does not terminate within the timeout period defined by the MXCANCEL parameter. You can use the ADAX9G message to trigger an alert or take other appropriate action before the MXCANCEL timeout period expires.

If the peer nucleus targeted for cancellation terminates after the ADAX9G message is written, the nucleus that issued the cancellation request writes message ADAX9K to the operator console, indicating that the cancellation occurred and the requesting nucleus is no longer in danger of terminating itself as a result of this particular incident.

The value for MXCANCELWARN can be changed dynamically (for the time the Adabas nucleus is running) using the MXCANCELWARN operator command.

Note:
If the value of the MXCANCEL parameter is dynamically changed using the MXCANCEL operator command while the nucleus is running, but its new value is less than or equal to the current MXCANCELWARN setting, the value of MXCANCELWARN is automatically set to zero. You can then use the MXCANCELWARN operator command to dynamically set the MXCANCELWARN parameter to a new value that is less than the new MXCANCEL value.

MXMSG Parameter: Timeout Threshold for Internucleus Command Processing

Parameter Specify . . . Minimum Maximum Default
MXMSG the timeout threshold, in seconds, in which the processing of an intracluster command must occur. 15 32767 300

The optional MXMSG parameter specifies the maximum number of seconds in which one cluster nucleus waits for the response of another nucleus in the cluster to an internal, intracluster command. If a value for MXMSG is not specified, a value of 300 seconds (5 minutes) is used.

If the receiving nucleus does not respond to the intracluster command within the time period set by the MXMSG parameter, the requesting cluster nucleus issues a cancellation request for the unresponsive nucleus. The cancellation is requested to preserve the ability of all of the other active nuclei in the cluster to process user commands.

Adabas nuclei working on the same cluster database must collaborate to keep the database physically and logically consistent while processing user commands. To do this, they intermittently submit internal, intracluster commands to one another. If a nucleus in the cluster does not respond to these intracluster requests in a timely manner, the other nuclei in the cluster may quickly or gradually become unable to continue processing user commands.

Problems that may prevent a cluster nucleus from responding to intracluster commands fall into two broad categories:

  • Problems have occurred in the cluster nucleus, such as a CPU loop or a resource deadlock. In such cases, the nucleus experiencing the problem must be terminated to resolve the problem and the sooner this happens, the sooner the other cluster nuclei can recover from the failure and get back to normal processing.

  • Problems have occurred outside the cluster nucleus, such as CPU starvation or a problem in the host system. In such cases, the cause of the delayed response might possibly be removed by system measures unrelated to the cluster database, and letting the other cluster nuclei wait some time for a resolution might prevent an unnecessary abnormal termination of a cluster member.

The value of MXMSG should strike a balance between these two categories, so that faulty cluster nuclei that cannot possibly stay active are canceled reasonably quickly while cluster nuclei that are victims of temporary system problems are not unnecessarily terminated. For assistance in setting the value of the MXMSG parameter, review the statistics provided on the messaging performance reports produced at termination or by the DXMSG operator command.

The value for MXMSG can be changed dynamically (for the time the Adabas nucleus is running) using the MXMSG operator command.

MXMSGWARN Parameter: Timeout Threshold for Internucleus Command Processing Warning

Parameter Specify . . . Minimum Maximum Default
MXMSGWARN the timeout threshold, in seconds, for a response to an intracluster command to occur before an early warning about the failure of the intracluster request is issued 0 (no warning) or 4 MXMSG – 1 MXMSG / 4

The optional MXMSGWARN parameter specifies the number of seconds after an intracluster request is made when the cluster nucleus issuing the intracluster request should issue warnings about the failure of the target cluster nucleus to respond. If no value is specified for the MXMSGWARN parameter, the value used is calculated as the value of MXMSG divided by four. When dividing by four to determine the default value, the quotient is rounded up to the next integer value.

The value of MXMSGWARN must be less than the value of MXMSG. If MXMSGWARN is set to a value greater than or equal to the value specified for MXMSG, the value is rejected. If MXMSGWARN is set to zero, no warnings are issued about cluster nuclei that are slow to respond.

If the target nucleus does not respond within the time period set by MXMSGWARN, plus any extra time allowed for some types of requests (such as ET synchronization), the nucleus that issued the request writes message ADAX9C to the operator console, identifying the target nucleus by its nucleus ID, job name, and system name. This message indicates that the target nucleus may be in danger of being canceled by the nucleus that issued the request if it does not respond within the timeout period defined by the MXMSG parameter. You can use the ADAX9C message to trigger an alert or take other appropriate action before the MXMSG timeout period expires.

If the target nucleus responds to the intracluster command after the ADAX9C message is written, the nucleus that issued the intracluster-command writes message ADAX9D to the operator console, indicating that a response was given and the target nucleus is no longer in danger of being canceled as a result of this particular incident.

The value for MXMSGWARN can be changed dynamically (for the time the Adabas nucleus is running) using the MXMSGWARN operator command.

Note:
If the value of the MXMSG parameter is dynamically changed using the MXMSG operator command while the nucleus is running, but its new value is less than or equal to the current MXMSGWARN setting, the value of MXMSGWARN is automatically set to zero. You can then use the MXMSGWARN operator command to dynamically set the MXMSGWARN parameter to a new value that is less than the new MXMSG value.

MXSTATUS Parameter: Member-Level XCF Status Monitoring Heartbeat Interval

Parameter Specify . . . Minimum Maximum Default
MXSTATUS the interval, in seconds, at which the member-level XCF status monitoring heartbeat should occur. 0 (no member-level status monitoring) or 15 21474836 15

The optional MXSTATUS parameter specifies the number of seconds between member-level XCF status monitoring heartbeats. If no value is specified for the MXSTATUS parameter, a value of "15" is used.

Note:
Note: The MXSTATUS parameter is only used by Adabas Cluster Services and not by Adabas Parallel Services. Adabas Parallel Services does not use XCF and ignores this parameter when it is set.

If MXSTATUS is set to zero, member-level status monitoring will not occur. However, system-level status monitoring always occurs.

The value for MXSTATUS can be changed dynamically (for the time the Adabas nucleus is running) using the MXSTATUS operator command.

XCF status monitoring provides a second method by which Adabas Cluster Services can warn you that a cluster nucleus might be unable to respond in a timely way to intracluster commands. The first method is, of course, via the normal intracluster communication that occurs between cluster members. If a nucleus has heartbeat exceptions (as determined by XCF status monitoring), it most likely will be unable to process and respond to an intracluster command; if a nucleus is slow to respond to an intracluster command, it might or might not have a heartbeat monitor exception (a nucleus may appear to be active to XCF but be unable to respond to an intracluster command). If the ADARUN MXMSGWARN parameter for a cluster nucleus is nonzero, it produces warning messages (ADAX9B or ADAX9C) when intracluster communication with other nuclei in the cluster is too slow; likewise, when XCF status monitoring determines that a nucleus is missing its heartbeat updates, it produces warning messages (ADAX22 and ADAX04). You can use an automated mechanism set up at installation to raise an alert or take other appropriate action based on the existence of these messages, as they identify existing or potential problems in the cluster.

MXTNA Parameter: Maximum Non-activity Time

Parameter Specify . . . Minimum Maximum Default
MXTNA the maximum non-activity time limit that can be specified in the OP command for an individual user. 1 65535 3600

The TNAx parameter specifies the maximum elapsed time (in units of 1.048576 seconds) that users may be considered active without issuing an Adabas command. Limits may be set for three types of user:

You can override these parameter settings for an individual user by specifying a different value in the Adabas control block of an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

For these parameters, the MXTNA parameter sets a limit on the amount of time that can be specified in the OP command for an individual user.

If the nonactivity time limit is exceeded, action is taken as described in Adabas Timeout Feature.

The value of the MXTNA parameter can only be set when the nucleus is started. It cannot be changed using operator commands or the ADADBS OPERCOM utility function.

Example

For example, during the following Adabas session, the nonactivity time limit for exclusive control users is about 5 minutes (300 seconds). This limit cannot be extended for an individual user beyond 8 minutes (480 seconds).

ADARUN PROG=ADANUC,TNAX=300,MXTNA=480

MXTSX Parameter: Maximum Sx Command Execution Time

Parameter Specify . . . Minimum Maximum Default
MXTSX the maximum execution time (in seconds) that can be specified for the ADARUN TLSCMD parameter and for any override execution time setting that might be specified in the Adabas control block of an OP command. 1 65535 3600

The TLSCMD parameter specifies the maximum time (in units of 1.048576 seconds) to be used to process a single Adabas S1, S2, or S4 command with a complex search criterion.

If the estimated time to process a command exceeds the TLSCMD time limit, the command is not processed and the user who issued the command receives a nonzero response code.

If the estimated time to process a command does not exceed the time limit, the command is processed to completion, whether the actual time required exceeds the time limit specified by the TLSCMD or not.

You can override the TLSCMD parameter setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

The MXTSX parameter sets the maximum time that can be specified for the TLSCMD parameter, including any override execution time setting specified in the Adabas control block of an OP command.

The value of the MXTSX parameter can only be set when the nucleus is started. It cannot be changed using operator commands or the ADADBS OPERCOM utility function.

Example

For example, during the following Adabas session, the Sx command execution time limit is about 1 hour 20 minutes (4800 seconds). This limit cannot be extended for an individual user beyond 2 hours (7200 seconds).

ADARUN PROG=ADANUC,TLSCMD=4800,MXTSX=7200

MXTT Parameter: Maximum Transaction Time

Parameter Specify . . . Minimum Maximum Default
MXTT the maximum transaction time limit that can be specified in the OP command for an individual user. 1 65535 3600

The TT parameter specifies the maximum elapsed time (in units of 1.048576 seconds) permitted for a logical transaction issued by an ET logic user. See ADARUN parameter TT for more information.

You can override this parameter setting for an individual user by specifying a different value in the Adabas control block of an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

The MXTT parameter sets a limit on the amount of time that can be specified in the OP command for an individual user.

The time measurement for a logical transaction starts when the first command that results in a record being placed in hold status is issued. It ends when an ET, BT, or CL command is issued.

If the transaction time limit is exceeded, action is taken as described in Adabas Timeout Feature.

The value specified for MXTT directly influences the required size of the Adabas parameter LP (length of the data protection area).

Software AG recommends that you set the MXTT parameter lower than the MXTNA parameter.

The value of the MXTT parameter can only be set when the nucleus is started. It cannot be changed using operator commands or the ADADBS OPERCOM utility function.

Example

For example, during the following Adabas session, the transaction time limit for ET logic users is about 3 minutes (180 seconds) and cannot be extended for an individual user beyond 5 minutes (300 seconds).

ADARUN PROG=ADANUC,TT=180,MXTT=300

MXWTOR Parameter: Self-Termination Operator Query Interval

Parameter Specify . . . Minimum Maximum Default
MXWTOR the timeout interval, in seconds, in which an operator response to a self-termination operator query must occur. 0 (no warning) or 15 64800 0

The optional MXWTOR parameter specifies the maximum number of seconds that a cluster nucleus should wait for an operator response to a self-terminating operator query. If no value is specified for the MXWTOR parameter, a value of zero is used. Values from 1 through 14 are not valid MXWTOR values.

A cluster nucleus issues a self-terminating operator query to the console via message ADAX9J if a canceled peer nucleus remains active after the time period defined by the MXCANCEL parameter. The MXWTOR parameter specifies how long the nucleus should wait for a response to this query.

One way that the operator may reply to the ADAX9J message is to make sure that the canceled cluster nucleus mentioned in the message actually terminates; once this happens, the ADAX9J message is retracted automatically, an online recovery process is performed, and the nucleus that issued the ADAX9J message remains active.

If the operator does not respond to the ADAX9J message within the time period set by the MXWTOR parameter and the canceled peer nucleus has not terminated in the meantime, the nucleus that requested the operator response and printed message ADAX9J terminates itself with message ADAX99.

If MXWTOR is set to zero (the default), the operator query does not occur (no ADAX9J messages are written) and no operator intervention is expected. Instead, the nucleus terminates itself immediately with the ADAX99 message and user abend code 79.

Some installations may want to specify MXWTOR value long enough to allow the operator a good opportunity to bring down the canceled peer nucleus. Other installations may prefer not to get such operator queries at all.

The value for MXWTOR can be changed dynamically (for the time the Adabas nucleus is running) using the MXWTOR operator command.

NAB Parameter: Number of Attached Buffers

Parameter Specify . . . Minimum Maximum Default
NAB the number of attached buffers to be used. 1 varies, depending on the amount of available virtual storage 16

The NAB parameter defines the number of attached buffers to be used during the session. An attached buffer is an internal buffer used for interregion communication. It is required in all environments. Adabas allocates an attached buffer pool with a size equal to the value of NAB multiplied by 4096 bytes.

Note:
The allocation for buffers in the attached buffer pool is done in 256 byte slots; this means that each allocation is rounded to a multiple of 256. For example, if a size of 300 bytes is needed, the allocated space is 512 bytes.

You may specify as many attached buffers as fit into the available virtual storage.

In environments running in 31-bit addressing mode, the attached buffer pool space is allocated above the 16-MB line.

The NAB parameter syntax is:

NAB={ n | 16 }

Specific Product Recommendations

  • For Event Replicator Server databases, set parameter NAB to a value greater than or equal to: 41 * 10 * the-number-of-Adabas-nuclei-sending-data-to-the-Event-Replicator-Server.

    For example, if one Adabas nucleus will be sending data to the Event Replicator Server, set the NAB parameter greater than or equal to 410 (for example NAB=420).

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

  • If data is sent through Entire Net-Work from one or more Adabas nuclei to an Event Replicator Server, the Entire Net-Work NAB parameter must also be set to a value greater than or equal to: 41 * 10 * the-number-of-Adabas-nuclei-sending-data-to-the-Event-Replicator-Server.

  • Users of the Adabas Review hub should read Storage Requirements in the Adabas Review Concepts Manual for more information about the space requirements of the Command Queue for Adabas Review.

  • The ADACHK utility can use large record buffer lengths when making nucleus calls to verify spanned Data Storage records or an index structure with many levels. If this is the case, the settings of your LU and NAB ADARUN parameters may need to be increased.

  • For an Adabas Audit Server, set parameter NAB to a value greater than or equal to:

    41 * 10 * the-number-of-Adabas-nuclei-sending-data-to-the-Adabas-Audit-Server

    For example, if one Adabas nucleus will be sending data to the Adabas Audit Server, set the NAB parameter greater than or equal to 410 (e.g. NAB=420).

    If data is sent through Entire Net-Work from one or more Adabas nuclei to an Adabas Audit Server, the Entire Net-Work NAB parameter must also be set to a value greater than or equal to:

    41 * 10 * the-number-of-Adabas-nuclei-sending-data-to-the-Adabas-Audit-Server

Example

The following example runs the Adabas Review hub nucleus with 50 attached buffers.

ADARUN PROG=ADAREV,NAB=50

NALOG Parameter: Number of Audit Log Data Sets

Parameter Specify . . . Minimum Maximum Default
NALOG the maximum number of audit log data sets to be opened and logged in the PPT. 2 8 0

This parameter specifies the maximum number of audit log data sets to be opened and logged in the parallel participant table (PPT) for the current Audit Server. Valid values are 0 (the default) and 2-8. Other values produce a parameter error. A zero value disables the parameter.

If more than the number of log data sets specified in the NALOG parameter are allocated in the startup JCL, only the number specified in the NALOG parameter are opened and logged; any additional allocated data sets are activated using the dynamic allocation process.

NALOG must be specified with a nonzero value in conjunction with the ALOGDEV, ALOGSIZE, and UEX12 parameters.

NALOG is not valid if DUALALD, DUALALS, or UEX2 are specified.

UEX2 and UEX12 are mutually exclusive.

If a nonzero NALOG, ALOGDEV, and ALOGSIZE are specified, but LOGGING=NO, Adabas attempts to open and log the number of data sets specified by NALOG; however, no logging occurs until the LOGGING parameter has been set to YES using either an operator command or Adabas Online System.

Example

The following example runs the Adabas Audit Server with audit logging. It uses six audit log data sets and a device type 3390 for audit logging. The size of each audit log data set is 1500 blocks, based on an allocation of 10 cylinders. Each cylinder of a 3390 device has 15 tracks, and each track can contain 10 blocks of audit log data. Thus, 10 cylinders = 10 x 15 x 10 = 1500 blocks.

ADARUN PROG=ADANUC,LOGGING=YES,NALOG=6,ALOGDEV=3390,ALOGSIZE=1500

NC Parameter: Number of Command Queue Elements

Parameter Specify . . . Minimum Maximum Default
NC the maximum number of command queue elements. 20 32767 200

The number of command queue elements (CQEs) established for the Adabas or Review hub session determines the maximum number of Adabas commands that may be queued or be in process at any one time during the session.

Each call from the Adabas nucleus is assigned a CQE. The CQE is released when the user receives the results of the command, the Adabas Review hub has processed the command, or the user has been timed out..

192 bytes are required for each CQE.

Software AG recommends that you set NC high enough to allow one command per active user for possible synchronization during execution of the online SAVE database function of the ADASAV utility.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

For more information about the space requirements of the Command Queue for Adabas Review, refer to Storage Requirements in the Adabas Review Concepts Manual.

Specific Product Recommendations

  • For Event Replicator Server databases, set parameter NC to a value greater than or equal to: 10 * the-number-of-Adabas-nuclei-sending-data-to-the-Event-Replicator-Server. For example, if one Adabas nucleus will be sending data to the Event Replicator Server, set the NC parameter greater than or equal to 10 (for example NC=20).

  • If data is sent through Entire Net-Work from one or more Adabas nuclei to an Event Replicator Server, the Entire Net-Work NC parameter must also be set to a value greater than or equal to: 10 * the-number-of-Adabas-nuclei-sending-data-to-the-Event-Replicator-Server.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

  • For an Adabas Audit Server, set parameter NC to a value greater than or equal to:

    10 * the-number-of-Adabas-nuclei-sending-data-to-the-Adabas-Audit-Server

    For example, if one Adabas nucleus will be sending data to the Adabas Audit Server, set the NC parameter greater than or equal to 10 (e.g. NC=20).

    If data is sent through Entire Net-Work from one or more Adabas nuclei to an Adabas Audit Server, the Entire Net-Work NC parameter must also be set to a value greater than or equal to:

    10 * the-number-of-Adabas-nuclei-sending-data-to-the-Adabas-Audit-Server

Example:

Run the Adabas nucleus with a maximum of 500 elements in the command queue.

ADARUN PROG=ADANUC,NC=500

The following example runs the Adabas Review hub nucleus with a maximum of 500 elements in the command queue.

ADARUN PROG=ADAREV,NC=500

NCLOG Parameter: Number of Command Log Data Sets

Parameter Specify . . . Minimum Maximum Default
NCLOG the maximum number of command log data sets to be opened and logged in the PPT. 0, 2 8 0

This parameter specifies the maximum number of command log data sets to be opened and logged in the parallel participant table (PPT) for the current nucleus. Valid values are 0 (the default) and 2-8. Other values produce a parameter error. A zero value disables the parameter.

If more than the number of log data sets specified in the NCLOG parameter are allocated in the startup JCL, only the number specified in the NCLOG parameter are opened and logged; any additional allocated data sets are activated using the dynamic allocation process.

NCLOG must be specified with a nonzero value in conjunction with the CLOGDEV, CLOGSIZE, and UEX12 parameters.

NCLOG is not valid if DUALCLD, DUALCLS, DUALPLD, DUALPLS, or UEX2 are specified.

UEX2 and UEX12 are mutually exclusive.

If a nonzero NCLOG, CLOGDEV, and CLOGSIZE are specified, but LOGGING=NO, Adabas attempts to open and log the number of data sets specified by NCLOG; however, no logging occurs until the LOGGING parameter has been set to YES using either an operator command or Adabas Online System.

Example

The following example runs the Adabas nucleus with command logging, uses six command log data sets, and uses a model 3380 device for command logging. The size of each command log data set is 1350 blocks, based on an allocation of 10 cylinders. (Each cylinder of a 3380 device has 15 tracks, and each track can contain 9 blocks of command log data. Thus, 10 cylinders = 10 15 9 = 1350 blocks).

ADARUN PROG=ADANUC,LOGGING=YES,NCLOG=6,CLOGDEV=3380,CLOGSIZE=1350

NH Parameter: Number of Hold Queue Elements

Parameter Specify . . . Minimum Maximum Default
NH the maximum number of hold queue elements. 20 16777215 500

One hold queue element is required for each record (ISN) placed in hold status. A hold queue element is released when the record is released from hold status.

The hold queue is normally used to hold ISNs for the duration of a transaction. Therefore NH should be large enough to contain at least the average number of ISNs held per transaction multiplied by the maximum number of transactions running in parallel.

One hold queue element takes 52 bytes of storage. In environments running in 31-bit addressing mode, the hold queue is allocated above the 16-megabyte line.

Each shared hold request with a different command ID (CID), as well as a (shared or exclusive) hold request without a CID, is counted against the NH limit.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

Specific Product Recommendations

  • Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example runs the Adabas nucleus with a maximum of 2000 elements in the hold queue.

ADARUN PROG=ADANUC,NH=2000

NISNHQ Parameter: Number of ISNs in Hold Queue per User

Parameter Specify . . . Minimum Maximum Default
NISNHQ the maximum number of records that can be placed in hold status at the same time by one user. 1 16777215 (NH parameter maximum) (NH / NU) * 2 or 20, whichever is larger

NISNHQ determines the maximum number of held ISNs the hold queue (see the NH parameter description) can contain from one user. The maximum value allowed for this parameter is the value set for the NH ADARUN parameter (which has a maximum value of 16777215). The default is the greater of either 20 or the number of ISNs the hold queue can contain divided by the number of users, multiplied by two.

A user who attempts to place more records in hold status than permitted receives response code 47 (ADARSP047), subcode 1.

Each shared hold request with a different command ID (CID), as well as a (shared or exclusive) hold request without a CID, is counted against the NISNHQ limit.

Specific Product Recommendations

Consider adjusting the value of this parameter when the SLOG file is defined for use on the Event Replicator Server, causing replication data to be written and read from the SLOG file.

Overriding the Parameter Setting

You can override this parameter setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

Examples

In the following example, the maximum number of records that may be in hold status for a single user is set at 100.

ADARUN PROG=ADANUC,NISNHQ=100,NH=450...

In the following example, NISNHQ is not specified. The maximum number of records that may be in hold status for a single user is 80 (the NISNHQ default of (NH / NU) * 2, which is greater than the alternative default of 20).

ADARUN PROG=ADANUC,NU=50,NH=2000...

NONDES Parameter: Nondescriptor Searches

Parameter Specify . . . Possible Values Default
NONDES whether to allow (YES) or disallow (NO) searches using nondescriptors in search buffers. YES | NO YES

By default, you can perform searches on Adabas fields that have not been defined as descriptors. However, nondescriptor searches carry significant overhead.

NONDES=NO prevents searches on nondescriptors. An attempt to search on a nondescriptor field produces response code 68 (ADARSP068).

Note:
The behavior of nondescriptor searches in Adabas databases differs between mainframe and open systems in regards to null suppression in the fields. In open systems, nondescriptor searches do not return records with null values in a field if the field is null-suppressed (NU); on mainframe systems, the null-suppression (NU) of fields is ignored during nondescriptor searches. At this time, to resolve this problem, we recommend that you remove the null suppression option (NU) for open systems fields, if the fields must be used for a nondescriptor search.

Example

The following example disallows searches using nondescriptors.

ADARUN PROG=ADANUC,NONDES=NO

NPLOG Parameter: Number of Protection Log Data Sets

Parameter Specify . . . Minimum Maximum Default
NPLOG the maximum number of protection log data sets to be opened and logged in the PPT. 0, 2 8 0

This parameter specifies the maximum number of protection log data sets to be opened and logged in the parallel participant table (PPT) for the current nucleus. Valid values are 0 (the default) and 2-8. Other values produce a parameter error. A zero value disables the parameter.

If more than the number of log data sets specified in the NPLOG parameter are allocated in the startup JCL, only the number specified in the NPLOG parameter are opened and logged; any additional allocated data sets are activated using the dynamic allocation process.

NPLOG must be specified with a nonzero value in conjunction with the PLOGDEV, PLOGSIZE, and UEX12 parameters.

NPLOG is not valid if DUALCLD, DUALCLS, DUALPLD, DUALPLS, or UEX2 are specified.

UEX2 and UEX12 are mutually exclusive.

Example

The following example runs the Adabas nucleus with six data protection log data sets and uses a model 3380 device. The size of each log data set is 1200 blocks, based on an allocation of 10 cylinders. (Each cylinder of a 3380 device has 15 tracks, and each track contains 8 blocks of protection log data. Thus, 10 cylinders = 10 * 15 * 8 = 1200 blocks).

ADARUN PROG=ADANUC,NPLOG=6,PLOGDEV=3380,PLOGSIZE=1200

NPLOGBUFFERS Parameter: PLOG Protection I/O Buffer Control

Parameter Specify . . . Minimum Maximum Default
NPLOGBUFFERS the number of PLOG protection I/O buffers allocated in the Adabas nucleus session 1 2147483687 1

PLOG protection I/O buffers are only allocated when ADARUN parameter LFIOP is set to a nonzero value. The realistic maximum setting of the NPLOGBUFFERS parameter is limited by the available amount of virtual and real memory. The number of protection I/O buffers allocated is limited to the number of PLOG blocks available on the dual/OCTO PLOG data sets (see the related ADARUN parameters DUALPLS and PLOGSIZE).

To determine the setting for NPLOGBUFFERS, look at the related high-water mark shown in the output of the DRES operator command or in the nucleus shutdown statistics. If the related high-water mark hits 100%, consider increasing the size of NPLOGBUFFERS

The use of the NPLOGBUFFERS parameter may considerably improve performance in update intensive applications that were formerly constrained by writes to the PLOG. When NPLOGBUFFERS is greater than 1, multiple PLOG blocks may be written in one write I/O to the PLOG.

In environments running in 31-bit addressing mode, the PLOG protection I/O buffers are allocated above the 16-megabyte line.

In environments supporting 64-bit virtual storage, the PLOG protection I/O buffers are allocated above the 2 gigabyte bar when the V64BIT ADARUN parameter is set to "YES".

Example

The following example sets the number of PLOG protection I/O buffers to 5.

ADARUN PROG=ADANUC,NPLOGBUFFERS=5

NQCID Parameter: Number of Active Command IDs per User

Parameter Specify . . . Minimum Maximum Default
NQCID the maximum number of active command IDs per user. 1 65535 20

The table of sequential commands contains the control blocks for sequential read operations. Each operation is identified by a command ID (CID). NQCID defines the total number of CIDs allowed per user, and therefore the maximum number of table elements the user has available at any point in time.

Note:
The NQCID value specified does not ensure that all users have the specified count of CIDs available at all times. The actual number of CIDs available to a single user depends on the totals of table elements available and sequential operations active at a given time. Also note that NQCID does not pertain to internal CIDs.

Overriding the Parameter Setting

You can override this parameter setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

Example

The following example sets the maximum number of parallel sequential processes per user to 25.

ADARUN PROG=ADANUC,NQCID=25,NU=200,LQ=3000

Since one element in the sequential command table occupies approximately 100 bytes (varies depending on the command type; see the description of the LQ parameter), NQCID=25 limits each user to approximately 2500 bytes of the table.

NSISN Parameter: Number of ISNs per ISN Table Element

Parameter Specify . . . Minimum Maximum Default
NSISN the maximum number of ISNs per element in the table of ISNs (TBI). 7 see text 51

The parameter NSISN specifies the maximum number of ISNs kept in a TBI element in memory (list of resulting ISN lists). The more ISNs that are kept in memory, the fewer the Work I/Os needed to read additional resulting ISN lists from the Work data set. This parameter influences the performance of the L1/4 command with the N (GET NEXT) option.

The highest value that can be specified for NSISN depends on the Work device. For Adabas-specified Work block sizes, the maximum values are shown in the device tables provided later in this section. However, the tables do not apply to user-defined Work block sizes; in this case, the maximum is determined as follows, where WORK is the block size of the Work data set:

  • (WORK - 6) / 4

  • The TBI element has a length of 64 + (NSISN * 4) bytes in the TBI pool (see the LI parameter).

IBM and Compatible Devices

Device Type Max. Value
3380 1371
3390 1429
8345 5728
8380 2267
8381 2867
8385 5865
8390 2674
8391 3418
8392 4611
8393 6995
9345 2785

Overriding the Parameter Setting

You can override this parameter setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

Example

In the following example, the maximum number of ISNs per TBI element during the Adabas session is set to 400.

ADARUN PROG=ADANUC,NSISN=400

NT Parameter: Number of Threads

Parameter Specify . . . Minimum Maximum Default
NT the number of user threads to be used during the Adabas session. 4 250 5

A thread is used to execute a single command for any user (access or update). Each thread requires 8192 bytes.

In environments running in 31-bit addressing mode, the threads are allocated above the 16-megabyte line.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

For Event Replicator Server databases, this parameter must be greater than or equal to 15.

Specific Product Recommendations

  • For Event Replicator Server databases, the NT parameter must be greater than or equal to 15.

  • If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

  • For an Adabas Audit Server, the NT parameter must be greater than or equal to 15.

Example

The following example runs the Adabas nucleus with six (6) user threads.

ADARUN PROG=ADANUC,NT=6

NU Parameter: Number of User Queue Elements

Parameter Specify . . . Minimum Maximum Default
NU the maximum number of user queue elements. 20 16777215 200

Adabas assigns a user queue element (UQE) to each active user when the user issues an OP command or (if the user did not issue an OP command) the first Adabas command.

Adabas releases the UQE when the user issues a CL command or when there is a timeout for an ET logic user who did not specify a restart ID in the control block (Additions 1 field) for the OP command.

Currently, 272 * (NU + 4) bytes are allocated to the user queue. The length of each UQE is 288 bytes.

In environments running in 31-bit addressing mode, the user queue is allocated above the 16-megabyte line.

Because each user's file list can be a different size, the number of users who can be active at the same time may be less than the NU value. Therefore, you may need to specify an NU value that is greater than the maximum number of users desired.

The Adabas session statistics or Adabas Online System can be used to tune this parameter for the next session.

Specific Product Recommendations

If the Event Replicator Server is set to support updates by multiple concurrent users to Adabas targets (when the NPADACALLS initialization parameter is set to any value greater than "1"), consider adjusting the value of this parameter in the target Adabas nucleus to ensure the target nucleus can handle updates from multiple concurrent users.

Example

The following example runs the Adabas nucleus with a maximum of 500 elements in the user queue.

ADARUN PROG=ADANUC,NU=500

NUCID Parameter: Adabas Cluster Nucleus ID

Parameter Specify . . . Possible Values Default
NUCID the ID for a nucleus in an Adabas cluster. 0-65000 0

NUCID identifies an Adabas cluster nucleus. The cluster may span operating system images under Adabas Cluster Services, or it may be confined to a single operating system image under Adabas Parallel Services. A value greater than 0 (the default) identifies this nucleus as an Adabas cluster nucleus.

Value Meaning
0 The default setting. This is not an Adabas cluster nucleus.
1-65000 This is an Adabas cluster nucleus. This value must be unique among all target IDs declared to the Adabas router (ADASVC): Adabas databases (DBID), cluster nuclei (NUCID), Natural buffer pools and other MPM servers, Entire Net-Work, and internal targets used by Adabas Cluster Services and Adabas Parallel Services (restricted range 65001-65479). Nucleus IDs for the same cluster need not be specified contiguously.

Guidelines

  • Each nucleus being run must have its own Work data set.

  • All nuclei in a cluster must be run against the same database.

  • Software AG strongly recommends that you run utilities or user applications against a nucleus in the local z/OS image. Although a remote open nucleus may be used, performance degradation due to network overhead is likely.

Example

The following example starts an Adabas cluster session with the specified cluster nuclei:

ADARUN PROG=ADANUC,NUCID=1, ...

NWORK1BUFFERS Parameter: Work Part 1 Protection I/O Buffer Control

Parameter Specify . . . Minimum Maximum Default
NWORK1BUFFERS the number of Work part 1 protection I/O buffers allocated in the Adabas nucleus session. 1 2147483687 1

Work part 1 protection I/O buffers are only allocated when ADARUN parameter LFIOP is set to a nonzero value. The realistic maximum setting of the NWORK1BUFFERS parameter is limited by the available amount of virtual and real memory. The number of protection I/O buffers allocated is limited to the number of Work part 1 blocks available (see the related ADARUN LP parameter).

To determine the setting for NWORK1BUFFERS, look at the related high-water mark shown in the output of the DRES operator command or in the nucleus shutdown statistics. If the related high-water mark hits 100%, consider increasing the size of NWORK1BUFFERS

The use of the NWORK1BUFFERS parameter may considerably improve performance in update intensive applications that were formerly constrained by writes to Work part 1. When NWORK1BUFFERS is greater than 1, multiple Work part 1 blocks may be written in one write I/O to the Work data set.

In environments running in 31-bit addressing mode, the Work part 1 protection I/O buffers are allocated above the 16-megabyte line.

In environments supporting 64-bit virtual storage, the Work part 1 protection I/O buffers are allocated above the 2 gigabyte bar when the V64BIT ADARUN parameter is set to "YES".

Example

The following example sets the number of Work part 1 protection I/O buffers to 5.

ADARUN PROG=ADANUC,NWORK1BUFFERS=5

OPENRQ Parameter: Open Command Required

Parameter Specify . . . Possible Values Default
OPENRQ whether an open command is required. YES | NO YES

This parameter may be used to indicate whether an open (OP) command must be issued as the first command of a user session.

Value Meaning
YES The default setting. Any user attempting to issue commands to Adabas without previously issuing an OP command receives a response code.
NO Users are not required to issue an OP as the first command of the session.

Example

The following example specifies that the first session command issued by users does not have to be an OP command.

ADARUN PROG=ADANUC,OPENRQ=NO

PAMREQS Parameter: Maximum PAM Blocks for One PAM Macro

This parameter is valid on BS2000 systems only.

Parameter Specify . . . Possible Values Default
PAMREQS the maximum number of PAM blocks that can be transferred in one PAM macro request. This parameter is valid on BS2000 systems only. 1 - 1024 80

Using this parameter, you can set a reduced default to avoid the receipt of I/O errors DMS09AC (too many simultaneous I/O requests on some machines).

Example

The following example specifies that the maximum number of PAM blocks that can be transferred in a PAM macro request is 50.

ADARUN PROG=ADANUC,PAMREQS=50

PGFIX Parameter: EXCPVR Page Fixing Control

Parameter Specify . . . Possible Values Default
PGFIX whether pages containing I/O control blocks are released after I/O processing is completed or after the job has ended when using EXCPVR on z/OS systems. YES | NO NO

This parameter is only valid for z/OS users using EXCPVR (for example, when running the Adabas nucleus or utility jobs APF-authorized). It allows you to control how page-fixing occurs when EXCPVR is in use. When PGFIX=NO is specified, pages containing the I/O control blocks are fixed only for the duration of the I/O processing. When PGFIX=YES is specified, pages containing the I/O control blocks are fixed for the duration of the job.

PLOGDEV Parameter: Multiple Protection Log Device Type
PLOGSIZE Parameter: Multiple Protection Log Size

Parameter Specify . . . Possible Values Default
PLOGDEV the device type to be used for multiple protection logs. see text value of DEVICE parameter
PLOGSIZE the number of blocks available for each protection log data set. Min 16, Max 16777215 none

The PLOGDEV and PLOGSIZE parameters specify the type of external storage device used for multiple data protection log data sets and the number of blocks available for each log data set. These parameters must be used together; if you specify one parameter, you must also specify the other parameter.

You must also specify the NPLOG parameter to use multiple protection logs. If you specify a user exit, it must by UEX12. See Adabas Restart and Recovery, for information about multiple data set protection logging.

The Adabas Installation documentation specifies the device types that Adabas supports.

All protection log data sets must be formatted using the ADAFRM utility before they are used. The appropriate JCL for the data sets is required.

Example

The following example runs the Adabas nucleus with six (6) data protection log data sets and uses a model 3380 device. The size of each log data set is 1200 blocks, based on an allocation of 10 cylinders. (Each cylinder of a 3380 device has 15 tracks, and each track contains 8 blocks of protection log data. Thus, 10 cylinders = 10 * 15 * 8 = 1200 blocks).

ADARUN PROG=ADANUC,NPLOG=6,PLOGDEV=3380,PLOGSIZE=1200

PLOGRQ Parameter: Protection Log Required

Parameter Specify . . . Possible Values Default
PLOGRQ whether a protection log is required for this session. YES | NO | SEL | FORCE YES

The valid values are as follows:

Value Meaning
YES The default setting. Any attempt to start an Adabas nucleus without a protection log causes the Adabas initialization to terminate with an error message.
NO
In this Adabas session:
- multiple PLOG data sets are used if a PLOGSIZE parameter is provided;
- dual PLOG data sets are used if a DUALPLS parameter is provided;
- a SIBA data set is used if JCL for a SIBA data set is provided;
- otherwise, no protection log data set is used.
SEL Selective protection logging is switched on only when running an ADASAV SAVE (database) or SAVE FILE= ... utility operation with an active nucleus. Protection logging is switched off when the ADASAV SAVE operation completes successfully.
FORCE Any attempt to start an Adabas nucleus without UEX2 or UEX12, or without a protection log causes the Adabas initialization to terminate with an error message. Additionally, an error occurs if the initialization process determines that different PLOG data sets have been specified for the session and the old PLOG data sets have not yet been copied.

Example

The following example indicates that a data protection log (SIBA or PLOG) is not mandatory during the Adabas session but will be used if provided.

ADARUN PROG=ADANUC,PLOGRQ=NO

PREFETCH Parameter: Activate Prefetch Feature

Parameter Specify . . . Possible Values Default
PREFETCH whether to enable a prefetch option automatically. YES | OLD | NO NO

This parameter determines whether the Adabas prefetch feature is enabled automatically; if it is, execution is transparent to the user program.

There are two Adabas prefetch options: the multifetch option is supported across Adabas platforms; the prefetch option is available only on mainframe Adabas. For information about these two options, see the Adabas Command Reference Guide.

Records can be prefetched and stored in a prefetch buffer for the following commands:

  • L1/L4 with I or N option (read by ISN, find with GETNEXT)

  • L2/L5 (read physical)

  • L3/L6 (read logical by descriptor)

  • L9 (histogram)

Sequential commands of the types listed above can retrieve the next record from the prefetch buffer, which saves cross-region/cross-network calls to the nucleus.

The PREFETCH parameter has the following values:

Value Meaning
YES Adabas enables the command-level multifetch (M) option.
OLD Adabas enables the command-level prefetch (P) option.
NO Adabas does not enable the prefetch feature.

Note:
Specify PREFETCH=YES or PREFETCH=OLD only when MODE=MULTI (multiuser mode). Do not specify these settings when running Adabas utilities. Dynamic reversal of read direction for L3/L6/L9 is not supported with these settings.

Examples

The following example runs a user program using multifetch.

ADARUN PROG=USER,PREFETCH=YES

The following example runs a user program using prefetch.

ADARUN PROG=USER,PREFETCH=OLD

PREFICMD Parameter: Include Commands in Prefetch/Multifetch Processing
PREFIFIL Parameter: Include Files in Prefetch/Multifetch Processing

Parameter Specify . . . Possible Values Default
PREFICMD the commands to include in prefetch processing. L1-L9 none
PREFIFIL the files to include in prefetch processing. 1-5000 none

Together, PREFIFIL and PREFICMD specify one or more files to be included in prefetch/multifetch processing. PREFIFIL specifies one or more files by file number; PREFICMD specifies a command for each file number.

You can either include list of files using PREFIFIL/PREFICMD or exclude lists of files using the parameters PREFXFIL/PREFXCMD), depending on which list is shorter. You cannot both include and exclude files at the same time.

If prefetching/multifetching has been specified and

  • files/commands have been neither included nor excluded, the prefetching/multifetching applies to all files by default.

  • files/commands have been included using the ADARUN parameters PREFIFIL/PREFICMD, the prefetching/multifetching applies only to the files on the inclusion list.

  • both PREFIFIL/PREFICMD and PREFXFIL/PREFXCMD are specified, Adabas recognizes the exclusion parameters PREFXFIL/PREFXCMD and ignores the inclusion parameters PREFIFIL/PREFICMD.

Multiple Inclusions

Specify multiple file numbers in multiple PREFIFIL statements or in a list, separated by commas. Specify multiple commands in multiple PREFICMD statements or in a list, separated by slashes (/). The maximum number of entries for each is 50.

If you use lists, they must have the same number of entries. There is a one-to-one correspondence, by position, between a file number in the PREFIFIL list and a command in the PREFICMD list.

Eligible Commands and Command Pairs

The following commands can be included in prefetch/multifetch processing for a file:

  • L1/L4

  • L2/L5

  • L3/L6

  • L9

If either command in one of the pairs above is specified in a PREFICMD statement, both commands are included. For example, if PREFICMD=L1 is specified, both L1 and L4 are included.

Examples

The following example includes the L3 command for file 8 in prefetch processing.

ADARUN PREFIFIL=8,PREFICMD=L3

The following example includes the L3 command for file 8 and the L3 and L9 commands for file 12 in prefetch/multifetch processing. As this example shows, you can specify the same file number several times, with a different command each time. Likewise, you can specify the same command code several times, with a different file number each time.

ADARUN PREFIFIL=8,12,12,PREFICMD=L3/L3/L9

or

ADARUN PREFIFIL=8,PREFICMD=L3
  ADARUN PREFIFIL=12,PREFICMD=L3
  ADARUN PREFIFIL=12,PREFICMD=L9

The following example executes a user program with multifetch and allocates 20000 bytes for the total prefetch buffer area. It includes the L3 and L6 commands for files 8 and 12 in multifetch processing and it includes all commands for file 7. No PREFSBL value is specified, so the buffer length for a single prefetch sequence defaults to 3000 bytes; up to 6 prefetch sequences can be handled.

ADARUN PROG=USER,PREFETCH=YES,PREFTBL=20000
  ADARUN PREFIFIL=8,12,PREFICMD=L3/L3
  ADARUN PREFIFIL=7,7,7,7,PREFICMD=L1/L2/L3/L9

PREFNREC Parameter: Multifetch Record Count

Parameter Specify . . . Minimum Maximum Default
PREFNREC the maximum number of records that can be prefetched. 0 see text 0

This parameter specifies the maximum number of records that the multifetch feature (specified by the PREFETCH=YES parameter) obtains.

In mode PREFETCH=YES the maximum that can be specified depends on the maximum that can be held by the record and multifetch buffers.

In mode PREFETCH=OLD the maximum that can be specified depends on the maximum that can be held by the record and ISN buffers, each of which is assumed to be less than 32 kilobytes.

If no value or zero (the default) is specified, the sizes of the ISN and record buffers determine the number of records that are prefetched. Specifying zero (0) does not disable multifetch operation.

Example

The following example enables the multifetch feature and allows a maximum of 32 records to be prefetched.

ADARUN PROG=USER,PREFETCH=YES,PREFNREC=32

PREFSBL Parameter: Prefetch Buffer Length per Call

Parameter Specify . . . Minimum Maximum Default
PREFSBL the prefetch/multifetch buffer length (in bytes) for one prefetch. 1024 <PREFTBL value> 3000

The PREFSBL parameter specifies the size of an internal buffer that the multifetch/prefetch feature uses to prefetch data for a single sequential read command. By setting of this buffer size you control the maximum amount record data that is prefetched. See also the description of the PREFTBL parameter, which specifies the total buffer space used by prefetch/multifetch.

When prefetch or multifetch is active, Adabas makes a buffer available to the user program for storing prefetched records on the client side. If a required record is already in a prefetch buffer, the record is taken directly from the buffer.

Note:
Do not specify this operand unless PREFETCH=YES or PREFETCH=OLD also is specified.

The following formula can be used to estimate the approximate maximum number of records (n) that will be prefetched.

In mode PREFETCH=OLD:

600 + FBL + ((RBL * 3) * n) = PREFSBL

In this calculation, FBL is the length of the format buffer and RBL is the length of the record buffer.

The 32K buffer size limit will limit the maximum number of prefetched records to:

MAX(n) = 32768 / RBL 

In mode PREFETCH=YES:

1400 + FBL + ((RBL * 3) * n) = PREFSBL

In this calculation, FBL is the length of the format buffer and RBL is the length of the record buffer.

For long sequential processes, this parameter should be as large as possible unless the sequential processes are frequently interrupted with value start (L3/L6) or RC commands; in that case, a large value often causes records to be prefetched needlessly.

Example

The following example executes a user program using multifetch and uses a 15000-byte prefetch buffer.

ADARUN PROG=USER,PREFETCH=YES,PREFSBL=15000

PREFSTDD Parameter: Multifetch Statistics DD Name

Parameter Specify . . . Valid Values Default
PREFSTDD the job control statement label (DD name) in the JCL that defines the location to which multifetch statistics should be written when a CL command is issued. DD name or other job statement label none

The PREFSTDD parameter specifies the job control statement label (DD name) in the nucleus startup job that defines the location to which multifetch statistics should be written when multifetch statistics are printed. The length of the job statement label (DD name) is limited to seven (7) characters.

When PREFSTDD is specified, the ADARUN PREFETCH parameter must be set to "YES".

Note:
Any data set defined by the job statement label referenced by PREFSTDD must have an LRECL of at least 80 bytes and must be a fixed block data set. If it does not, the PREFSTDD setting is ignored and not statistics are printed.

Multifetch statistics are written when a CL command is issued. If no CL command is issued, no multifetch statistics are produced. If multiple CL commands are issued, multiple multifetch statistics are produced. The first multifetch statistics contains the values cumulated since start of job. The second and following multifetch statistics contain the values cumulated since start of job and the interval from the last Close command.

Example 1

The following example executes a user program using multifetch, uses a 15,000-byte prefetch buffer, and writes multifetch statistics to the output location identified by the STATDD job control statement:

ADARUN PROG=USER,PREFETCH=YES,PREFSBL=15000,PREFSTDD=STATDD

On z/OS, the STATDD job control statement that accompanies these ADARUN parameters might simply indicate that multifetch statistics should be written to SYSOUT:

//STATDD    DD SYSOUT=*

Alternatively, the STATDD job control statement on z/OS that accompanies these ADARUN parameters might specify a specific data set:

//STATDD    DD DISP=(NEW,CATLG),DSN=ADABAS.MLF.STATS,
//             UNIT=SYSDA,SPACE=(TRK,(1,1),RLSE),
//             DCB=(RECFM=FB,LRECL=121,BLKSIZE=1210)

On BS2000, the STATDD must be a file. This would be defined in the job as follows:

/DELETE-FILE ADABAS.MLF.STATS
 /SET-JOB-STEP
 .
 .
 /SET-FILE-LINK STATDD,ADABAS.MLF.STATS,REC-FORM=F(REC-SIZE=80) 

The following is an example of the multifetch statistics output produced:

ADAML1 +--------------------------------------------------------+
ADAML1 +                                                         
ADAML1 + A D A M L F   V833   S T A T I S T I C S                
ADAML1 +                                                         
ADAML1 + Cumulated since start of Job                            
ADAML1 +--------------------------------------                   
ADAML1 + Percentage of PREFTBL used          :        50.00      
ADAML1 + Number of calls to ADAMLF           :         2007      
ADAML1 + Number of cmds to ADABAS            :           43      
ADAML1 + Number of cmds returned from ADAMLF :         1998      
ADAML1 + Number of over reads                :            0      
ADAML1 +                                                         
ADAML1 +--------------------------------------------------------+

On VSE, multifetch statistics are written to SYSLST. Users should specify ADARUN parameter PREFSTDD=STATDD. No job control statement changes are required.

Example 2

The following example executes a user program issuing three Close commands, using multifetch, uses a 15,000-byte prefetch buffer, and writes multifetch statistics to the output location identified by the STATDD job control statement (like Example 1):

ADARUN PROG=USER,PREFETCH=YES,PREFSBL=15000,PREFSTDD=STATDD

Note:
When the STATDD job control statement specifies a data set, it must be declared with the DISP=MOD parameter as shown in the following syntax example.

//STATDD    DD DISP=MOD,DSN=ADABAS.MLF.STATS

The following is an example of the multifetch statistics output produced:

ADAML1 +--------------------------------------------------------+
ADAML1 +                                                         
ADAML1 + A D A M L F   V833   S T A T I S T I C S                
ADAML1 +                                                         
ADAML1 + Cumulated since start of Job                            
ADAML1 +--------------------------------------                   
ADAML1 + Percentage of PREFTBL used          :        50.00      
ADAML1 + Number of calls to ADAMLF           :         2007      
ADAML1 + Number of cmds to ADABAS            :           43      
ADAML1 + Number of cmds returned from ADAMLF :         1998      
ADAML1 + Number of over reads                :            0      
ADAML1 +                                                         
ADAML1 +--------------------------------------------------------+
ADAML1 +--------------------------------------------------------+
ADAML1 +                                                         
ADAML1 + A D A M L F   V833   S T A T I S T I C S                
ADAML1 +                                                         
ADAML1 + Cumulated since start of Job                            
ADAML1 +--------------------------------------                   
ADAML1 + Percentage of PREFTBL used          :        50.00      
ADAML1 + Number of calls to ADAMLF           :         4015      
ADAML1 + Number of cmds to ADABAS            :           86      
ADAML1 + Number of cmds returned from ADAMLF :         3996      
ADAML1 + Number of over reads                :            0      
ADAML1 +                                                         
ADAML1 + Cumulated since last Close cmd (1)                      
ADAML1 +--------------------------------------                   
ADAML1 + Percentage of PREFTBL used          :        50.00      
ADAML1 + Number of calls to ADAMLF           :         2008      
ADAML1 + Number of cmds to ADABAS            :           43      
ADAML1 + Number of cmds returned from ADAMLF :         1998      
ADAML1 + Number of over reads                :            0      
ADAML1 +                                                         
ADAML1 +--------------------------------------------------------+
ADAML1 +--------------------------------------------------------+
ADAML1 +                                                         
ADAML1 + A D A M L F   V833   S T A T I S T I C S                
ADAML1 +                                                         
ADAML1 + Cumulated since start of Job                            
ADAML1 +--------------------------------------                   
ADAML1 + Percentage of PREFTBL used          :        50.00      
ADAML1 + Number of calls to ADAMLF           :         6023      
ADAML1 + Number of cmds to ADABAS            :          122      
ADAML1 + Number of cmds returned from ADAMLF :         5994      
ADAML1 + Number of over reads                :            0      
ADAML1 +                                                         
ADAML1 + Cumulated since last Close cmd (2)                      
ADAML1 +--------------------------------------                   
ADAML1 + Percentage of PREFTBL used          :        50.00      
ADAML1 + Number of calls to ADAMLF           :         2008      
ADAML1 + Number of cmds to ADABAS            :           36      
ADAML1 + Number of cmds returned from ADAMLF :         1998      
ADAML1 + Number of over reads                :            0      
ADAML1 +                                                         
ADAML1 +--------------------------------------------------------+

The following table describes these statistics:

Statistic Meaning
Percentage of PREFTBL used The percentage of the ADARUN parameter PREFTBL used for this execution.
Number of calls to ADAMLF The number of times that ADAMLF was entered from the client program.
Number of cmds to ADABAS The total number of commands that were passed to Adabas for this execution.
Number of cmds returned from ADAMLF The number of commands that were returned from the ADAMLF buffers.
Number of over reads The number of records that were prefetched that were not passed back to the caller.

The version is adapted with every change of the release.

PREFTBL Parameter: Total Size of Prefetch Buffer

Parameter Specify . . . Minimum Maximum Default
PREFTBL the size of the total prefetch buffer area. 6144 2147483647 30000

PREFTBL specifies the size of the total prefetch buffer area for this operation. This buffer length should be large enough to hold the PREFSBL-specified value, multiplied by the number of command-ID-controlled sequential prefetches for this operation. This allows a user program to perform multiple sequential operations requiring prefetches, each with a prefetch buffer of the size specified in the PREFSBL parameter.

If this user program has a single prefetch sequence only, the PREFTBL value must be equal to or greater than the PREFSBL value. The PREFTBL-specified space is always allocated to the program.

Note:
Do not specify this operand unless PREFETCH=YES or PREFETCH=OLD is also specified.

Example

The following example executes a user program using multifetch. No PREFSBL value is specified, so this example uses the default buffer length for a single prefetch (3,000 bytes). It also allocates 30000 bytes for the total prefetch buffer area; this size provides buffer space for up to 10 prefetch sequences.

ADARUN PROG=USER,PREFETCH=YES,PREFTBL=30000

PREFXCMD (PREFXFIL) Parameters: Exclude Commands (Files) from Prefetch/Multifetch Processing

Parameter Specify . . . Possible Values Default
PREFXCMD the commands to exclude from prefetch processing. L1-L9 none
PREFXFIL the files to exclude from prefetch processing. 1-5000 none

Together, PREFXFIL and PREFXCMD specify one or more files to be excluded from prefetch/multifetch processing. PREFXFIL specifies one or more files by file number; PREFXCMD specifies a command for each file number.

You can either include list of files using PREFIFIL/PREFICMD ) or exclude lists of files using the parameters PREFXFIL/PREFXCMD, depending on which list is shorter. You cannot both include and exclude files at the same time.

If prefetching/multifetching has been specified and

  • files/commands have been neither included nor excluded, the prefetching/multifetching applies to all files by default.

  • files/commands have been excluded using PREFXFIL/PREFXCMD, the prefetching/ multifetching applies only to the files on the exclusion list.

  • both PREFIFIL/PREFICMD and PREFXFIL/PREFXCMD are specified, Adabas recognizes the exclusion parameters PREFXFIL/PREFXCMD and ignores the inclusion parameters PREFIFIL/PREFICMD.

Multiple Exclusions

Specify multiple file numbers in multiple PREFXFIL statements or in a list, separated by commas. Specify multiple commands in multiple PREFXCMD statements or in a list, separated by slashes (/). The maximum number of entries for each is 50.

If you use lists, they must have the same number of entries. There is a one-to-one correspondence, by position, between a file number in the PREFXFIL list and a command in the PREFXCMD list.

Eligible Commands and Command Pairs

The following commands can be excluded from prefetch/multifetch processing for a file:

  • L1/L4

  • L2/L5

  • L3/L6

  • L9

If either command in one of the pairs above is specified in a PREFXCMD statement, both commands are excluded. For example, if PREFXCMD=L1 is specified, both L1 and L4 are excluded.

Examples

The following example excludes the L3 command for file 8 from prefetch processing.

ADARUN PREFXFIL=8,PREFXCMD=L3

The following example excludes the L3 command for file 8 and the L3 and L9 commands for file 12 from prefetch/multifetch processing. As this example shows, you can specify the same file number several times, with a different command each time. Likewise, you can specify the same command code several times, with a different file number each time.

ADARUN PREFXFIL=8,12,12,PREFXCMD=L3/L3/L9

or

ADARUN PREFXFIL=8,PREFXCMD=L3
  ADARUN PREFXFIL=12,PREFXCMD=L3
  ADARUN PREFXFIL=12,PREFXCMD=L9

The following example executes a user program with multifetch and allocates 20000 bytes for the total prefetch buffer area. It excludes the L3 and L6 commands for files 8 and 12 from multifetch processing and it excludes all commands for file 7. No PREFSBL value is specified, so the buffer length for a single prefetch sequence defaults to 3000 bytes; up to 6 prefetch sequences can be handled.

ADARUN PROG=USER,PREFETCH=YES,PREFTBL=20000
  ADARUN PREFXFIL=8,12,PREFXCMD=L3/L3
  ADARUN PREFXFIL=7,7,7,7,PREFXCMD=L1/L2/L3/L9

PROGRAM Parameter: Program to Run

Parameter Specify: Possible Values Default
PROGRAM the program to be executed. see table below USER

This parameter specifies what to execute. The possible values are described in the following table:

Specify: To start:
ADACOM an ADACOM task (used in Adabas Cluster Services and Adabas Parallel Services environments)

For more information, refer to your Adabas Cluster Services and Adabas Parallel Services documentation.

ADANUC an Adabas nucleus

For more information about executing an Adabas nucleus, read Adabas Session Execution, in the Adabas Operations Manual.

ADAREV an Adabas Review hub. Specify this in conjunction with the ADARUN REVIEW parameter.

For more information, refer to your Adabas Review documentation.

NETWRK an Entire Net-Work node

For more information, refer to your Entire Net-Work documentation.

RENTUSER a user program to be run using a reentrant Adabas batch/TSO link routine.

For more information, refer to description of the Adabas TP monitor installation in your Adabas installation documentation.

USER a user program to be run using a non-reentrant Adabas batch/TSO link routine.

For more information, read Linking Applications to Adabas, in the Adabas Operations Manual

utility-name an Adabas utility

Specify an Adabas utility for utility-name. For more information, refer to the Adabas Utilities Manual.

Examples

The following example specifies that an Adabas nucleus is running.

ADARUN PROGRAM=ADANUC

The following example specifies that an Adabas Review hub is running.

ADARUN PROGRAM=ADAREV, REVIEW=202

The following example specifies that an Entire Net-Work node is running.

ADARUN PROGRAM=NETWRK

QBLKSIZE Parameter: Block Size for Sequential Data Sets

Parameter Specify . . . Minimum Maximum Default
QBLKSIZE the block size for sequential data sets used by ADAIOR. 0 262144 0 (see text)

QBLKSIZE specifies the block size, in bytes, for the sequential data sets used by ADAIOR, the Adabas I/O component. Use this parameter to override the default block sizes. For more information about sequential files used by Adabas utilities and their operating system dependencies, read Adabas Sequential Files.

Warning:
If you choose to write tape files with large block sizes, for example for database backups, these files will not be transportable to systems where support for large blocks is not available. This might include a site being used as a backup facility for disaster recovery.

If QBLKSIZE=0 (the default), the following default block sizes are used:

Data Set Block Size
Tape the optimum selected for the device by the operating system
ECKD-Disk track-size / k, where k = smallest value such that track-size / k <= 32760
FBA-Disk 32760

For ECKD disks, the block size selected will typically result in 2 blocks per track.

Under all operating systems except z/VSE, this block size may be provided in the JCL or data set label.

Under BS2000, disk block sizes are always rounded up to the next integer multiple of 2048 bytes.

Examples

For example, a block size of 65536 bytes for the Adabas sequential data sets is used by the ADAULD utility:

ADARUN PROG=ADAULD,QBLKSIZE=65536

In the following example, a block size of 32760 bytes for the Adabas sequential data sets is used by the ADAORD utility:

ADARUN PROG=ADAORD,QBLKSIZE=32760

READONLY Parameter: Read-Only Session Control

Parameter Specify . . . Possible Values Default
READONLY whether to permit database updates during this session. YES | NO NO

READONLY determines whether the Adabas session is a read-only or a read/write session.

Value Meaning
YES All database update commands issued by this nucleus are rejected.
NO The default setting. The session allows both reading and updating of the database.

Guidelines

  • When executing the ADAREP (database report) utility, you can specify READONLY=YES to issue an access OPEN instead of an update OPEN.

  • When using READONLY=YES, ensure that the Work data set does not contain a pending autorestart; otherwise, the nucleus cannot start.

  • Each nucleus being run must have its own Work data set.

  • When a nucleus is started with READONLY=YES, it is not possible to switch the nucleus to READONLY=NO mode later in the session. When a nucleus is started with READONLY=NO, it can be switched back and forth between the READONLY=YES and READONLY=NO modes.

  • A database save performed while the nucleus is in read-only mode is equivalent to an offline save (which is taken while the nucleus is down). You can avoid shutting down the nucleus for an offline save by switching the nucleus into read-only mode before the save and back to update mode after the save.

Example

The following example starts an Adabas session as read-only.

ADARUN PROG=ADANUC,READONLY=YES

REFSTPRT Parameter: Print Statistics before Refresh Statistics

Parameter Specify . . . Possible Values Default
REFSTPRT whether statistics should be printed before they are refreshed by an ADADBS REFRESHSTATS utility function run or before interval statistics have been refreshed using Adabas Online System (option R in Session Monitoring). YES | NO YES

REFSTPRT determines whether statistics are printed before they are refreshed.

Value Meaning
YES Adabas prints the statistics before an ADADBS REFRESHSTATS utility function run or before interval statistics have been refreshed using Adabas Online System. This is the default.
NO Adabas does not print the statistics before an ADADBS REFRESHSTATS utility function run or before interval statistics have been refreshed using Adabas Online System.

Example

The following example indicates that Adabas should not print the statistics before an ADADBS REFRESHSTATS utility function run or before interval statistics have been refreshed using Adabas Online System.

ADARUN PROG=ADANUC,REFSTPRT=NO

REPLICATION Parameter: Replication Control

Parameter Specify . . . Possible Values Default
REPLICATION Whether to activate replication for the Adabas nucleus. YES | NO NO

Valid values are described in the following table.

Value Meaning
YES Activate replication for the Adabas nucleus.
NO

The default setting. Do not activate replication for the Adabas nucleus.

When REPLICATION=NO is specified and there are replicated files on the database, replication will be turned off for all replicated files. A message is issued during nucleus initialization indicating which files were defined with replication.

The REPLICATION parameter should not be specified for the Event Replicator Server. REPLICATION=NO must be explicitly specified if:

  • You want to start the Adabas nucleus without replication active, and

  • REPLICATION=YES was specified in the previous Adabas nucleus session, and

  • Replication has been defined for one or more files on the database.

REPLICATION=NO must be explicitly specified for utility execution if:

  • A utility requiring an active nucleus is executed with MODE=SINGLE, and

  • REPLICATION=YES was specified in the previous Adabas nucleus session, and

  • Replication has been defined for one or more files on the database.

Note:
The replication pool will be allocated in 64-bit virtual storage when an Adabas nucleus runs with ADARUN parameters REPLICATION=YES and V64BIT=YES.

Example

The following example activates replication for an Adabas session.

ADARUN PROG=ADANUC,REPLICATION=YES

REVBUFMB Parameter: Buffer Pool Size in Megabytes

Parameter Use Possible Values Default
REVBUFMB Specify the size of the Review Buffer Pool used as temporary storage when sending the CLOG records via Network (ADALNK) to the Review Hub. 1-1024 10

Use the REVBUFMB parameter only when REVSTHMV is set to V53 and REVLOGNR is set to a value higher than 0.

The REVBUFMB parameter may be activated during the Adabas nucleus session.

The possible values for this paramater are:

Value Meaning
N A temporary buffer with a size of N megabytes is allocated.

Example

The following example temporarily saves CLOG records in a buffer pool with a size of 32MB and then sends the records in packages of maximum 12 records via Network to the Review hub.

ADARUN PROG=ADANUC,REVSTHMV=V53,REVLOGNR=12,REVBUFMB=32

REVFILTER Parameter: Review Record Filtering Control

Parameter Specify . . . Possible Values Default
REVFILTER whether to allow Adabas Review record filtering during the session. YES | NO YES

REVFILTER determines whether command log record filtering may be activated. Filtering can decrease the number of command log records passed to Review for report processing.

Value Meaning
YES The default setting. Database command log records may be filtered from report processing, depending upon Review report rules.
NO All command log records will be passed to Review for report processing.

Examples

In the following example, Adabas Review's record filtering may be activated during the Adabas nucleus session.

ADARUN PROG=ADANUC,REVFILTER=YES

In the following example, Adabas Review's record filtering will not be in effect for the Adabas nucleus session.

ADARUN PROG=ADANUC,REVFILTER=NO

REVIEW Parameter: Adabas Review Control

Parameter Specify . . . Possible Values Default
REVIEW whether to run Adabas Review in local or hub mode specifying the hub ID, or not at all. NO | LOCAL | dbid NO

Note:
The parameter name REVIEWHUBID is a synonym for REVIEW, provided to ensure downward compatibility with past Adabas releases. We recommend that you use the parameter name REVIEW instead, wherever possible.

REVIEW controls the use of the Adabas Review product:

Value Meaning
NO The default setting. Adabas Review is not started.

Client report data collection cannot occur if REVIEW=NO is specified.

LOCAL Adabas Review is started in local mode running as an extension to ADALOG.

In local mode, Adabas Review job control statements should be added to the Adabas nucleus startup JCL.

Note:
If an Adabas Review load library is not included in the startup JCL, the REVIEW parameter is automatically changed from LOCAL to NO.

dbid Adabas Review is started in hub mode. The physical database ID that you specify for the hub identifies
  • the hub (server) itself (with PROGRAM=ADAREV) that is being started; or

  • from an Adabas nucleus (client), the hub that is the target for Adabas Review processing for that nucleus (with PROGRAM=ADANUC).

In hub mode, Adabas Review job control statements should be added to the Adabas Review hub startup JCL.

Dynamic Modification

The setting of the ADARUN PROG=ADANUC,REVIEW=dbid parameter can be changed dynamically using the REVIEWHUBID command from the operator console, the ADADBS OPERCOM REVIEWHUBID function, or the Modify Parameter function of Adabas Online System.

Note:
The value of the REVIEW parameter is not changed in the Adabas ID table. A REVIEW hub coming up with TARGET=ALL checks the ID table but does not find the dynamic changes of the REVIEW parameter.

Examples

The following example starts hub 202 for the Adabas Review hub (server) installation.

ADARUN PROGRAM=ADAREV,REVIEW=202

The following example starts the Adabas nucleus that will log to Adabas Review hub 202 for the Adabas Review (client) installation.

ADARUN PROGRAM=ADANUC,REVIEW=202

REVLOGBMAX Parameter: Logged Buffer Size Limit for Review

Parameter Use Values Default
REVLOGBMAX Specify the maximum allowable number of bytes of a logged buffer for Review. Any integer ranging from 0 to 30000 5120

If a buffer is longer than this value, the logged buffer is truncated from the point at which its size exceeds the setting of the REVLOGBMAX parameter. The REVLOGBMAX setting affects the ADARUN LOGGING parameter specifications only for both CLOGLAYOUT=8. The minimum value (368) is the size of the length of the CLOGLAYOUT=8 basic record plus the length of the extended Adabas control block (ACBX).

Example

The following example runs the Adabas nucleus using a logged buffer size limit of 512. Individual logged buffers, such as the format buffer for an Adabas command, will be truncated if they exceed 512 bytes.

ADARUN PROG=ADAREV,LOGBMAX=512

REVLOGMAX Parameter: Total Logged Buffer Size Limit for a Review Command

Parameter Use Values Default
REVLOGMAX Specify the maximum size of all of the logged buffers allowed for an Adabas Review command. Any integer ranging from 2000 to 32764 (32K - 4). 16384

When the sum of sizes of the logged buffers for an Adabas Review command reaches the value of the REVLOGMAX parameter, the buffer exceeding the limit is truncated and all following buffers are omitted. The size of REVLOGMAX must at least be as large as the REVLOGBMAX + 2000 in order to accommodate the largest buffer of the Adabas command. The minimum value (2000) is the size of the length of the CLOGLAYOUT=8 basic record plus the length of the extended Adabas control block (ACBX) and the CLEX information.

The CLOGMAX setting affects the ADARUN LOGGING parameter specifications only for CLOGLAYOUT=8.

Example

In the following example, the sum of all logged buffers for an Adabas Review command to the Adabas nucleus cannot exceed 10000 bytes.

ADARUN PROG=ADAREV,REVLOGMAX=10000

REVLOGNR Parameter: Maximum Number of Records per Buffer

Parameter Use Possible Values Default
REVLOGNR

Hub mode:

Specify whether the CLOG records are sent as buffered records or as single records via Network (ADALNK) to the Review Hub.

0-64 0

Local mode:

Specify the CLOG record after which the REVIEW subtask is posted for processing.

0-64 16

Use the REVLOGNR parameter in Hub mode only when REVSTHMV is set to V53.

The REVLOGNR parameter may be activated during the Adabas nucleus session.

The possible values for this paramater in Hub mode are:

Value Meaning
0 The CLOG records are sent as single records.
N, where 1<=N<=64 The CLOG records are buffered with a maximum of N records per buffer. The size of this buffer is 32K-1 bytes.

The possible values for this paramater in Local mode are:

Value Meaning
0 N is set to the default (16).
N, where 1<=N<=64 After the Nth CLOG record is sent, post the REVIEW subtask for processing.

Examples

The following example temporarily saves CLOG records in a buffer pool with a size of 32MB and then sends the records in packages of maximum 12 records via Network to the Review hub.

ADARUN PROG=ADANUC,REVSTHMV=V53,REVLOGNR=12,REVBUFMB=32

The following example sends single CLOG records via Network to the Review hub immediately after the records are created.

ADARUN PROG=ADANUC,REVSTHMV=V53,REVLOGNR=0

REVSTHMV Parameter: Send to HUB Mode Version

Parameter Use Possible Values Default
REVSTHMV Specify whether the ADARMT/ADRST interface or the ADARMX/ADARSX interface is used to send data via Network (ADALNK) to the Review Hub.

V52

V53

V52

The REVSTHMV parameter may be activated during the Adabas nucleus session.

The possible values for this paramater are:

Value Meaning
V52 The CLOG records are sent via the ADARMT/ADARST interface.
V53 The CLOG records are sent via the ADARMX/ADARSX interface.

Examples

See the examples of the REVBUFMB, REVLOGNR and REVTIMER parameters.

REVTIMER Parameter: Send Interval in Seconds

Parameter Use Possible Values Default
REVTIMER

Hub mode:

Specify the largest delay for sending buffered CLOG records via Network (ADALNK) in case of low database activity.

1-60 1

Local mode:

Send the CLOG records to the Review hub after no later than N seconds.

Use the REVTIMER parameter in Hub mode only when REVSTHMV is set to V53 and REVLOGNR is set to a value higher than 0..

The REVTIMER parameter may be activated during the Adabas nucleus session.

The possible values for this paramater are:

Value Meaning
N The maximum delay in seconds after which to send the CLOG records to the Review hub.

Example

The following example sends the CLOG records in packages of maximum 12 records via Network to the Review hub. In case of low activity, send the records with a maximum delay of 5 seconds (even if the buffer is not filled completely).

ADARUN PROG=ADANUC,REVSTHMV=V53,REVLOGNR=12,REVTIMER=5

RIAFTERUPDATE Parameter: Controlling RI Command Behavior

Parameter Use Values Default
RIAFTERUPDATE Indicate whether Adabas should suppress the response code 113 (ADARSP113) subcode 5 and response code 2 (ADARSP002) subcode 5 that are returned when an application issues an RI command for a record that has been updated in the current transaction. YES | NO NO

Normally, the RI command releases ISNs for records being held by the issuing user. The selected ISN for a single database file, or all ISNs held by the issuing user in all files can be released.

However, the records are not released unconditionally. If your application issues an RI command for a record that has been updated in the current transaction, Adabas normally returns response code 113 (ADARSP113), or if ISN=0 was specified, response code 2 (ADARSP002). With the RIAFTERUPDATE parameter set to "YES", these response codes are suppressed. Instead, a response code of zero (0) is returned, and only records that have not been updated in the current transaction are released from hold. Updated records continue to be protected from concurrent updates by other users that might otherwise introduce inconsistencies.

This logic is made configurable for customers with old COBOL applications that are exposed to response code 113 (subcode 5) responses.

Example

The following example indicates that any RI commands for records that have been updated in the current transaction return should not be released from hold and a response code of zero should be returned.

ADARUN PROG=ADANUC,RIAFTERUPDATE=YES

RPLCONNECTCOUNT Parameter: Replication Connection Attempt Count

Parameter Specify . . . Possible Values Default
RPLCONNECTCOUNT the number of connection attempts made for the Adabas or Event Replicator Server nucleus after an attempt fails with an unexpected response code. 0 - 2147483647 0

A value of zero indicates that no connection attempts should occur; a value of zero makes the most sense in situations where the Adabas database and the Event Replicator Server execute together on the same logical partition (LPAR). If the Adabas database and the Event Replicator Server execute on different LPARs, however, setting a real value using this command helps avoid errors that might arise if network problems occur because the network is not started or a network connection between the Adabas database and the Event Replicator Server is lost.

RPLCONNECTINTERVAL Parameter: Replication Connection Attempt Interval

Parameter Specify . . . Possible Values Default
RPLCONNECTINTERVAL the interval (in seconds) between connection attempts made for the Adabas or Event Replicator Server nucleus after an attempt fails with an unexpected response code. 0 - 2147483647 0

A value of zero indicates that no connection attempts should occur; a value of zero makes the most sense in situations where the Adabas database and the Event Replicator Server execute together on the same logical partition (LPAR). If the Adabas database and the Event Replicator Server execute on different LPARs, however, setting a real value using this command helps avoid errors that might arise if network problems occur because the network is not started or a network connection between the Adabas database and the Event Replicator Server is lost.

RPLPARMS Parameter: Replication Parameter Location

Parameter Specify . . . Possible Values Default
RPLPARMS Where your replication definitions (initialization parameters) should be read from. BOTH | FILE |NONE | PARMS See below.

This parameter is only used when starting the Event Replicator database.

If the RPLPARMS parameter is not specified, the following logic is used to determine where to read the replication definitions:

  • If the Replicator system file is loaded on the Event Replicator database, the replication definitions are read from that file.

  • If the Replicator system file is not loaded on the Event Replicator database, the replication definitions are read from DDKARTE.

Valid values are described in the following table.

Value Meaning
BOTH The replication definitions are read first from the Replicator system file and secondly from DDKARTE. Separate entries are built for each and errors are generated if there are duplicate entries.
FILE The replication definitions are read from the Replicator system file, which is maintained using the Adabas Event Replicator Subsystem in Adabas Online System (AOS).
NONE No replication definitions are read. The Event Replicator Server will establish itself with a null set of replication definitions and will not communicate or handshake with related Adabas nuclei. This mode allows maintenance to occur to the Replicator system file, without the Event Replicator Server communicating with related Adabas nuclei.
PARMS The replication definitions are read from DDKARTE.

RPLSORT Parameter: Event Replicator for Adabas Transaction Data Sorting Control

Parameter Specify . . . Possible Values Default
RPLSORT Whether Event Replicator for Adabas transaction data sorting should occur or not. YES | NO YES

This parameter is only used for the Adabas database from which transactions will be replicated. It should not be used for the Event Replicator Server database.

By default (RPLSORT=YES), Event Replicator for Adabas sorts transaction data by a key consisting of the file number, ISN, and relative update number. If you do not want this sort to occur, specify RPLSORT=NO.

It is important to note that the RPLSORT setting will affect how the Event Replicator consolidates transaction modifications and the order in which they are replicated. When RPLSORT=YES, all modifications for a given ISN in a file are consolidated before replication occurs. For complete information on regular modification consolidation, read Detailed Adabas Nucleus Processing in the Event Replicator for Adabas Concepts Manual. When RPLSORT=NO is specified, the modifications are still consolidated, but their referential integrity is maintained. In other words, the chronological order of the updates is maintained for each ISN in a file.

Note:
If one or more source files with unique descriptors are replicated to an Adabas target file also with unique descriptors, you may need to run with RPLSORT set to "NO" to prevent an invalid response code198 (ADARSP198) from occurring when replicating the data.

Example

For example, assume the following modifications occur, in the following order:

Insert File 77 ISN 80 Seq 1
Update File 77 ISN 80 Seq 2
Insert File 77 ISN 1010 Seq 3
Update File 77 ISN 80 Seq 4
Update File 77 ISN 1010 Seq 5

If RPLSORT=YES, these modifications are consolidated and replicated as follows:

Insert File 77 ISN 80 Seq 1 + Seq 2 + Seq 4
Insert File 77 ISN 1010 Seq 3 + Seq 5

If RPLSORT=NO, these modifications are consolidated and replicated as follows:

Insert File 77 ISN 80 Seq 1 + Seq 2 
Insert File 77 ISN 1010 Seq 3
Update File 77 ISN 80 Seq 4
Update File 77 ISN 1010 Seq 5

The end result is the same, regardless of whether RPLSORT is set to YES or NO, but multiple modifications to the same ISN in a file may be necessary when RPLSORT is set to NO.

RPWARNINCREMENT Parameter: Replication Pool Warning Message Interval

Parameter Specify . . . Possible Values Default
RPWARNINCREMENT The interval (in percent of LRPL usage) at which warning messages should be sent that indicate that the replication pool usage has exceeded the threshold set by the RPWARNPERCENT parameter. 1-99 10

This ADARUN parameter applies to both the Adabas and Event Replicator Server replication pools.

RPWARNINTERVAL Parameter: Replication Pool Usage Interval

Parameter Specify . . . Possible Values Default
RPWARNINTERVAL The interval, in seconds, during which replication pool usage warning messages are suppressed on the console. 1-2147483647 60

This ADARUN parameter applies to both the Adabas and Event Replicator Server replication pools.

When the number of replication pool usage warning messages sent to the console exceeds the limit specified by the RPWARNMESSAGELIMIT parameter, all such messages are suppressed for the interval of time specified by this parameter. When the interval specified by the RPWARNINTERVAL parameter has passed, warning messages resume.

This parameter, along with the RPWARNMESSAGELIMIT parameter, is provided to avoid flooding the console with replication pool usage warning messages.

RPWARNMESSAGELIMIT Parameter: Replication Pool Usage Warning Message Count

Parameter Specify . . . Possible Values Default
RPWARNMESSAGELIMIT The number of replication pool usage warning messages that can be issued to the console before message suppression begins. 1-2147483647 5

This ADARUN parameter applies to both the Adabas and Event Replicator Server replication pools.

When the threshold specified by this parameter is reached, all replication pool usage warning messages are suppressed until the message interval specified by the RPWARNINTERVAL parameter has passed.

This parameter, along with the RPWARNINTERVAL parameter, is provided to avoid flooding the console with replication pool usage warning messages.

RPWARNPERCENT Parameter: Replication Pool Usage Threshold

Parameter Specify . . . Possible Values Default
RPWARNPERCENT The threshold for replication pool usage (expressed as a percentage of LRPL) at which warning messages should be sent. If "0" is specified or taken as the default there are no warning messages 0-99 0

This ADARUN parameter applies to both the Adabas and Event Replicator Server replication pools.

The usage level should be expressed as a percentage. Warning messages will be printed when usage of the replication pool exceeds this percentage (threshold).

RVCLIENT Parameter: Adabas Review Client Reporting Activation

Parameter Specify . . . Possible Values Default
RVclient whether Adabas Review client reporting should be activated in batch environments. ACTIVE | INACTIVE INACTIVE

This ADARUN parameter allows you to activate Adabas Review client reporting when you want to run client reports in batch environments. Specify "ACTIVE" to activate it; specify "INACTIVE" (or specify no setting, since INACTIVE is the default) if you do not want client reporting activated.

Note:
This ADARUN parameter is valid only in z/OS environments and only when ADARUN PROGRAM=USER and only when LGBLSET RVCLNT=YES. For more information, read about the RVCLNT parameter in your Adabas or Adabas Review z/OS installation documentation.

Example

In the following example, client reporting is activated.

ADARUN PROGRAM=USER,RVCLIENT=ACTIVE

SECUID Parameter: Security System User ID Requirement Level

Parameter Specify . . . Possible Values Default
SEcuid the requirement level of security system user IDs for a database. Using this parameter, you can indicate how Adabas handles calls from a user without a security system user ID or with a security system user ID that has changed during the Adabas session. ALLOW | REQUIRE | WARN ALLOW

Valid values are ALLOW, REQUIRE, and WARN; ALLOW is the default.

Value Description Recommended for installations that...
ALLOW Indicates that the user can continue working with the database when they have no security system user ID or when the security system user ID changes during their Adabas session. This is the default.

Note:
This is the same as working with Adabas in past releases.

will not make use of the security system user ID support provided with Adabas and that want to limit the possibility of any failures occurring with existing application programs due to the implementation of security system user IDs.
REQUIRE Indicates that the user must have a nonblank security system user ID and that it must remain unchanged for the entire Adabas session. If the Adabas caller's security system user ID is blank or invalid, Adabas will reject the call and issue response code 200, subcode 21; if the Adabas caller's security system user ID changes during the Adabas session, Adabas will reject the call and issue response code 200, subcode 22. make use of the security system user ID support provided with Adabas (for example, store it in a system field) and require that it be consistent for every user.
WARN Indicates that a warning message will be issued but that the user can continue working with the database when they have no security system user ID or when their security system user ID changes during their Adabas session. These users are reported on, but Adabas allows their calls to be processed normally. plan to require that all Adabas users have a consistent security system user ID, but that first want to verify that implementing security system user IDs will not break their existing applications.

Note:
Various reports or displays about Adabas settings (such as the output of the DPARM operator command) include the current SECUID setting.

This parameter can be changed at runtime via operator command or corresponding Adabas Online System (AOS) and ADADBS utility functions. In a cluster, this is a global parameter; its setting is the same for all nuclei in the cluster.

Example

The following example indicates that Adabas will issue a warning message when a call is received from a user without a security system user ID or with a security system user ID that changed during the user's Adabas session.

ADARUN PROG=ADANUC,SECUID=WARN

SMF Parameter: Enable Adabas SMF Recording

Parameter Specify . . . Valid Values Default
SMF whether or not Adabas SMF recording should be enabled. YES | NO NO

This parameter allows you to enable and disable Adabas SMF recording. SMF is available only in z/OS environments.

  • NO is the default and disables all SMF processing for the duration of the nucleus.

  • YES enables all SMF processing for the duration of the nucleus. Adabas SMF records will be generated and written when the SMF parameter is set to YES.

This parameter cannot be altered by operator commands while the nucleus is running. If you specify SMF=YES, note that APF authorization is required to write to system SMF files.

Example

In the following example, the Adabas SMF records are generated and written.

ADARUN PROG=ADANUC,SMF=YES

SMF89 Parameter: Enable SMF Type 89 Records

Parameter Specify . . . Valid Values Default
SMF89 whether or not the Adabas nucleus should register with z/OS for type 89 SMF records. YES | NO NO

This allows you to have the Adabas nucleus register with z/OS for type 89 SMF records. SMF89 is available only in z/OS environments.

  • NO is the default and prevents registration.

  • YES causes the nucleus to register with z/OS for type 89 SMF records..

This parameter cannot be altered by operator commands while the nucleus is running.

Example

In the following example, the nucleus will register with z/OS for type 89 SMF records.

ADARUN PROG=ADANUC,SMF89=YES

SMFDETAIL Parameter: Selecting Detail SMF Record Sections

Parameter Specify . . . Valid Values Default
SMFDETAIL the type of detail sections in SMF Interval and Termination records (subtypes 2 and 3) that should be included in Adabas SMF records. All specifications (regardless of how many) for this parameter should be enclosed in parentheses. NONE

ALL

comma-delimited list of detail section names

NONE

Adabas SMF records can contain a variable set of detail sections in Interval and Termination records (subtypes 2 and 3). This parameter allows you to select the detail section types in Interval and Termination records that should be included in the Adabas SMF records. The value or values you specify for this parameter must be enclosed in parentheses. If you specify NONE or ALL, they should be specified alone. However, you can specify one or more of the other detail section names (CMD, CSHB, CSHF, CSHG, CSHP, FILE, IODD, LOCK, MSGB, MSGC, MSGH, PARM, STG, THRD, ZIIP or USER) in one SMFDETAIL parameter, separating each value with a comma.

Note:
The CSHB, CSHF, CSHG, LOCK, MSGB, MSGC, and MSGH detail section names apply only to cluster environments (Adabas Cluster Services or Adabas Parallel Services must be installed). In addition, the CSHP detail section name only applies in cluster environments with Adabas Parallel Services installed.

The following table describes the meaning of the possible detail section names that can be used in the SMFDETAIL parameter:

Detail Section Name Description
ALL Generate all possible detail sections in the Adabas SMF records. If this value is specified, no others can be specified on the SMFDETAIL parameter.
CMD Generate Adabas command activity detail sections in the Adabas SMF records.
CSHB1 Generate global cache activity by block detail sections in the Adabas SMF records.
CSHF1 Generate global cache activity by Adabas file number detail sections in the Adabas SMF records.
CSHG1 Generate global cache activity detail sections in the Adabas SMF records.
CSHP2 Generate Adabas Parallel Services cache activity detail sections in the Adabas SMF records.
FILE Generate Adabas file activity detail sections in the Adabas SMF records.
IODD Generate I/O activity by DD statement detail sections in the Adabas SMF records.
LOCK1 Generate global lock activity detail sections in the Adabas SMF records.
MSGB1 Generate internucleus messaging control block activity detail sections in the Adabas SMF records.
MSGC1 Generate internucleus messaging count detail sections in the Adabas SMF records.
MSGH1 Generate internucleus messaging service time histogram detail sections in the Adabas SMF records.
NONE Generate no detail sections in the Adabas SMF records. If this value is specified, no others can be specified on the SMFDETAIL parameter.
PARM Generate ADARUN parameter value detail sections in the Adabas SMF records.
SESS Generate Adabas session statistics sections in the Adabas SMF records.
STG Generate Adabas storage pool detail sections in the Adabas SMF records.
THRD Generate thread activity detail sections in the Adabas SMF records.
ZIIP Generate zIIP statistics detail sections in the Adabas SMF records.
USER Generate user-defined details sections in the Adabas SMF records. If USER is specified, a value for the UEXSMF parameter should also be specified to identify the user exit to be invoked to generate the user-defined detail section.
1 Available only in cluster environments (Adabas Cluster Services or Adabas Parallel Services must be installed).

2 Available only in cluster environments with Adabas Parallel Services installed.

This parameter can be altered by operator commands while the nucleus is running.

Example

In the following example, detail sections for Adabas command, file, and thread activity are generated and written in the Adabas SMF records.

ADARUN PROG=ADANUC,SMFDETAIL=(CMD,FILE,THRD)

In the following example, all detail sections are generated and written in the Adabas SMF records.

ADARUN PROG=ADANUC,SMFDETAIL=(ALL)

SMFINTERVAL Parameter: Enabling Adabas SMF Interval Records

Parameter Specify . . . Valid Values Default
SMFINTERVAL whether SMF interval records should be generated and the interval at which they should be generated. NONE

GLOBAL

SUBSYS

minutes

NONE

Adabas SMF records can be generated at specific intervals. This parameter enables and disables interval recording and specifies the interval or the source from which the interval can be derived.

The interval can be one of several values from z/OS specifications or an explicit interval in minutes. Interval records contain a product detail section and whatever detail sections are selected in the SMFDETAIL parameter, except for the ADARUN parameter detail section which are not included in SMF interval records.

The following table describes the meaning of the specifictions that can be used in the SMFINTERVAL parameter:

Valid Value Description
GLOBAL Generate all interval SMF records at the rate established by the INTVL and SYNCVAL SMF parameters in PARMLIB member SMFPRMxx.
NONE Generate no interval SMF records. This is the default.
SUBSYS Generate interval SMF records at the rate specified in PARMLIB member SMFPRMxx for the subsystem identified in the ADARUN SMFSUBSYS parameter.
minutes Generate interval SMF records at the specified interval, in minutes. Valid minute values can range from 1 through 9999..

This parameter can be altered by operator commands while the nucleus is running.

Example

In the following example, interval SMF records are generated at the rate specified in PARMLIB member SMFPRMxx for the subsystem identified in the ADARUN SMFSUBSYS parameter.

ADARUN PROG=ADANUC,SMFINTERVAL=SUBSYS

In the following example, interval SMF records are generated every 6 hours (3600 minutes)

ADARUN PROG=ADANUC,SMFINTERVAL=3600

SMFRECNO Parameter: Selecting User-Defined Adabas SMF Record Number

Parameter Specify . . . Valid Values Default
SMFRECNO the Adabas SMF record number used for user-defined SMF records. 128 - 255 255

IBM designates the range of SMF numbers from 128 through 255 for user-defined records.

This parameter can be altered by operator commands while the nucleus is running.

Example

In the following example, user-defined SMF records will be assigned number 200.

ADARUN PROG=ADANUC,SMFRECNO=200

SMFSUBSYS Parameter: Specifying SMF Subsystem Name

Parameter Specify . . . Valid Values Default
SMFSUBSYS the name of the IBM or user-defined SMF subsystem from PARMLIB member SMFPRMxx. CURRENT | subsystem-name CURRENT

This parameter associates the Adabas SMF records with an IBM or user-defined subsystem. The z/OS systems staff can provide different sets of SMF system parameters for IBM-defined subsystems. Up to eight user-specified subsystems can be defined, each with their own set of system parameters. This parameter allows you to optionally identify one of these subsystem names to be used with Adabas SMF recording, if the one you want is different from the current one.

The possible values for this parameter are:

  • CURRENT: This is the default value and associates the Adabas SMF record with the IBM-defined subsystem under which the Adabas nucleus is active. The subsystem may be TSO for a nucleus running in a TSO session, STC for a starting task or the name of the job entry subsystem under which a batch job is running, JES2 or JES3.

  • An explicit subsystem name can be specified. It may be either an IBM-defined name or a user-defined name from PARMLIB member SMFPRMxx. The subsystem name is one to four characters long. The first character must be alphabetic or national (#, @, or $) and the remaining characters can be either alphanumeric or national characters. Contact your z/OS administrator for more information about the subsystem names available in your z/OS environment.

This parameter can be altered by operator commands while the nucleus is running.

SMGT Parameter: Error Handling and Message Buffering Facility

Parameter Specify . . . Possible Values Default
SMGT whether to enable the error handling and message buffering facility. YES | NO NO

Note:
This parameter is not available on BS2000 systems.

The meanings of the possible values are described below:

Value Meaning
YES ADARUN loads the module ADAMXI during initialization. If you want to use the message buffering functions, you must also specify the ADARUN MSGBUF parameter with a value greater than zero.
NO (default) Error handling and message buffering is not enabled for the session.

This parameter can only be used when starting the nucleus. It cannot be used in utilities or user programs.

For more information about the error handling and message buffering facility, see the Adabas DBA Tasks Manual.

For information about temporarily turning the facility off and back on, see the SMGT operator command.

Example

The following example activates the error handling and message buffering facility with a buffer size of 36 kilobytes when the Adabas nucleus is initialized.

ADARUN PROGRAM=ADANUC
  ADARUN SMGT=YES
  ADARUN MSGBUF=36

SORTCACHE Parameter: Sort Area Controller Caching

This parameter is valid for the z/OS operating environment only.

Parameter Specify . . . Possible Values Default
SORTCACHE whether to enable (YES) or disable (NO) controller caching for the Adabas Sort data set. YES | NO YES

SORTCACHE controls caching for the sort area component of Adabas.

Value Meaning
YES The default setting. Sort blocks are preread and maintained as long as possible in the caching facilities of the disk controller.
NO Sort blocks are not preread or stored.

Guidelines

  • If sort blocks are highly scattered or the update frequency is low, controller caching can cause longer I/O response times.

  • ADARUN caching control parameters also exist for the Associator (ASSOCACHE), Data Storage (DATACACHE), the work area (WORKCACHE), and the temp area (TEMPCACHE).

Example

The following example runs the nucleus without controller caching for the sort data set.

ADARUN PROG=ADANUC,SORTCACHE=NO

SPT Parameter: Activate Adabas Triggers and Stored Procedures

Parameter Specify . . . Possible Values Default
SPT whether to enable use of triggers and stored procedures. YES | NO NO

When the Adabas nucleus starts and SPT=YES has been specified, it passes control to the Adabas trigger driver (ADATSP) to allow it to initialize.

This parameter can only be used when starting the nucleus and only in multiuser mode. It cannot be used for utilities or user programs and it cannot be used in single-user mode.

For more information, see the Adabas Triggers and Stored Procedures Manual.

Example

The following example sets Adabas to use the triggers and stored procedures functions.

ADARUN PROGRAM=ADANUC,MODE=MULTI,SPT=YES

SRLOG Parameter: Controlling Spanned Record Logging

Parameter Specify . . . Possible Values Default
SRLOG how spanned records should be logged to the protection logs. ALL | UPD | PART UPD

When SRLOG=ALL is specified, the entire spanned record is written to the PLOG. When SRLOG=UPD is specified, only the modified spanned record segments are written to the PLOG. When SRLOG=PART is specified, all spanned records up to and including the modified segments are written to the PLOG; the remainder of the spanned record segments are not written to the PLOG.

Spanned records are logical records that are segmented into two to five data storage records and chained together. Spanned records may be segmented at the field or byte level.

Note:
Standalone secondary spanned records encountered in the PLOG will be rejected from further processing. A warning message is issued. Likewise, decompression of a partial field at the end of a spanned record will be skipped. All fields up to the partial field will be decompressed and the remaining fields on the spanned record are not available.

Examples

The following example requests complete spanned records should be logged to the PLOGs.

ADARUN PROGRAM=ADANUC,SRLOG=ALL

The following example requests that the complete spanned record, up to and including the modified segments, should be logged to the PLOGs.

ADARUN PROGRAM=ADANUC,SRLOG=UPD

SVC Parameter: SVC Number

This parameter applies to the operating environments z/OS and z/VSE only.

Parameter Specify . . . Possible Values Default
SVC the Adabas SVC number or Adabas Review hub SVC number to be used for the session. see text 45 (z/VSE)
249 (z/OS)

The SVC number is specified as an integer. It must correspond to the number used for the Adabas SVC at your installation.

The Adabas SVC or Adabas Review hub SVC are used to perform various Adabas internal functions under z/OS and z/VSE.

Valid SVC values are as follows:

z/OS 200-255
z/VSE 45 is recommended; any free SVC value can be used. See the Adabas Installation documentation for information about finding free values for z/VSE.

Example

The following example runs an Adabas session under z/OS using SVC 202 for the Adabas SVC.

ADARUN PROG=ADANUC,SVC=202

The following example runs an Adabas Review hub session under z/VSE using SVC 45 for the Adabas Review hub SVC.

ADARUN PROG=ADAREV,SVC=45

TARGETID Parameter: Entire Net-Work Target ID

Parameter Specify . . . Minimum Maximum Default
TARGETID the unique Entire Net-Work target ID for this node. 1 65535 1

The TARGETID parameter is an optional ADARUN parameter that specifies the unique Entire Net-Work target ID of a node. It is synonymous with the Adabas ADARUN DBID parameter.

All target IDs used by Entire Net-Work, Adabas (database IDs), Natural global buffer pools, etc., must be unique throughout all Entire Net-Work nodes. In particular, the Entire Net-Work target ID must not coincide with any database ID used in the network, with the exception of isolated databases that are defined for local availability only and are therefore unknown to Entire Net-Work. For more information about global target IDs, read Target ID Handling in the Network, in the Entire Net-Work Administration Guide.

Example

The following example specifies an Entire Net-Work target ID of 12 for a node.

ADARUN TARGETID=12

TCPIP Parameter: TCP/IP Access Control

Parameter Specify . . . Possible Values Default
TCPIP whether to activate a direct TCP/IP link to the Adabas nucleus. YES | NO NO

For UES-enabled databases, Adabas supports a direct TCP/IP link to the Adabas nucleus from web-based applications or from PC-based applications such as Natural for Windows.

See the Adabas Installation documentation for information about installing direct TCP/IP database access.

The TCPIP parameter is used to activate a direct TCP/IP link to the Adabas nucleus.

If TCPIP=YES, you can specify the universal resource locator (URL) required to activate the direct TCP/IP link in the ADARUN parameter TCPURL.

Example

The following example runs Adabas with a direct TCP/IP link to the nucleus.

ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=HPS://TCPLPAR1:12345

TCPURL Parameter: TCP/IP Universal Resource Locator

Parameter Specify . . . Possible Values Default
TCPURL the universal resource locator (URL) for the TCP/IP link. (see text) none

If TCPIP=YES, you can specify the information required to activate the direct TCP/IP link to the Adabas nucleus. The parameter value is a 20-byte address that conforms to the RFC specification for universal resource locators (URLs):

TCPURL=api-name:[//]stackid:port-number[:logging-setting[:allowipv6-setting]]

where:

api-name A required three-character value identifying the application programming interface (API) to use. APIs BS2, HPS, CNS, EZA, and OES are currently supported.
stackid A one to eight-character value identifying the stack to use:
  • For BS2, no value is needed.

  • For CNS, no value is needed.

  • For EZA, specify the TCPI stack ID of the VSE TCP/IP job.

  • For HPS, specify the name of the TCP/IP started task or job.

  • For OES on systems running a single TCP/IP stack, no value is needed. On systems running multiple TCP/IP stacks, specify the name of the TCP/IP started task or job. (No value is needed on systems with only one TCP/IP stack.)

port-number A one to five-digit number in decimal notation.
logging-setting A one-character setting indicating whether or not logging should be performed. Valid values are "Y" or "N"; a setting of "Y" turns logging on.
allowipv6-setting A one-character setting indicating whether or not IPv6 addresses can be used. Valid values are "Y" or "N"; a setting of "Y" indicates that IPv6 addresses can be used.

Note:
The forward slashes ("//") are optional and cannot be specified in z/VSE environments.

Example 1

The following examples run Adabas with a direct TCP/IP link to the nucleus.

ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=OES://:12216 
ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=HPS://TCPLPAR1:12213 
ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=EZA://66:2112:N:Y

Example 2

The following example runs Adabas with a direct TCP/IP link to the nucleus and with logging turned on.

ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=OES://:12216:Y 

Example 3

The following example runs Adabas with a direct TCP/IP link to the nucleus and with logging turned on for a system with multiple TCP/IP stacks. In this example, the TCP/IP stack with the started task or job name of TCPIPMVS is requested.

ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=OES://TCPIPMVS:12216 

Example 4

The following example runs Adabas with a direct TCP/IP link to the nucleus and allows IPv6 addresses to be used.

Note:
Note if you choose not to specify the logging setting (logging-setting), but to specify the IPv6 setting (allowipv6-setting), you must still specify the colons for both the logging and IPv6 settings. This is why there are two colons between "12216" and "Y" in the following example.

 ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=OES://:12216::Y

Example 5

The following example runs Adabas with a direct TCP/IP link to the nucleus in a z/VSE environment.

 ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=CNS::12217

Example6

The following example runs Adabas with a direct TCP/IP link to the nucleus in a BS2000 environment.

 ADARUN PROG=ADANUC,TCPIP=YES,TCPURL=BS2://:12217

TEMPCACHE Parameter: Temp Area Controller Caching

This parameter is valid for z/OS operating environments only.

Parameter Specify . . . Possible Values Default
TEMPCACHE whether to enable (YES) or disable (NO) controller caching for the Adabas Temp data set. YES | NO YES
Value Meaning
YES The default setting. Temp blocks are preread and maintained as long as possible in the caching facilities of the disk controller.
NO Temp blocks are not preread or stored.

Guidelines

  • If temp blocks are highly scattered or the update frequency is low, controller caching can cause longer I/O response times.

  • ADARUN caching control parameters also exist for the Associator (ASSOCACHE), Data Storage (DATACACHE), the work area (WORKCACHE), and the sort area (SORTCACHE).

Example

The following example runs the nucleus without controller caching for the temp data set.

ADARUN PROG=ADANUC,TEMPCACHE=NO

TFLUSH Parameter: Synchronous Buffer Flush Duration

Parameter Specify . . . Minimum Maximum Default
TFLUSH the time allowed for a synchronous buffer flush. 1 30 1

The TFLUSH value specifies the time allowed for a synchronous buffer flush, in seconds.

If the LFIOP parameter specifies a non-zero value, the TFLUSH value has no effect because asynchronous buffer flush control is active.

If LFIOP=0 (the default) and if TFLUSH is not specified or has the value 1, one second is allowed for each synchronous buffer flush.

Example

For example, during the following Adabas session, 6 seconds are allowed for each synchronous buffer flush.

ADARUN PROG=ADANUC,TFLUSH=6,LFIOP=0, ...

TLSCMD Parameter: Time Limit for S1, S2, and S4 Complex Searches

Parameter Specify . . . Minimum Maximum Default
TLSCMD the time limit (in seconds) for executing a single S1, S2, or S4 command with complex search criteria. 1 the setting of the ADARUN MXTSX parameter 300

The TLSCMD parameter specifies the maximum time (in units of 1.048576 seconds) to be used to process a single Adabas S1, S2, or S4 command with complex search criteria.

If the estimated time to process a command exceeds the TLSCMD time limit, the command is not processed and the user who issued the command receives a nonzero response code.

If the estimated time to process a command does not exceed the time limit, the command is processed to completion, whether the actual time required exceeds the time limit specified by the TLSCMD or not.

If the TLSCMD setting exceeds the maximum time permitted by the ADARUN MXTSX parameter, the maximum MXTSX time is used.

Overriding the Parameter Setting

You can override this parameter setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

Example

For example, during the following Adabas session, the time limit for an S1, S2, or S4 command with a complex search criterion is about 50 minutes.

ADARUN PROG=ADANUC,TLSCMD=3000

TMDRQ Parameter: Size of ATM Request Queue

Parameter Type Use Possible Values Default
Runtime

Sets the number of entries allowed in the transaction manager’s internal request queue.

10 - 32767 10

The ATM transaction manager uses an internal request queue for scheduling some of the tasks it needs to perform. The TMDRQ parameter determines the total number of entries in the queue that is used to service certain incoming, asynchronous requests. This queue is currently used only when the ATM RRMS interface is active.

RRMS Considerations

When the RRMS interface is in use, the ATM dynamic request queue (DRQ) is used for communication between ATM RRMS exits and the ATM manager. The value specified for the TMDRQ parameter should therefore be increased if RRMS is to be used. Consider the number of global transactions that may reach a syncpoint at the same time, and increase TMDRQ by this number. You can specify a higher value, for safety, without incurring any performance degradation.

You can use Online Services to monitor usage of the DRQ. If you specify too small a value and the DRQ becomes full, backouts resulting in response code 9 (ADARSP009) are likely to occur.

TMETDATA Parameter: ET Data Control

Parameter Type Use Possible Values Default
Runtime

Location of ET data

ATM | TARGETS TARGETS

The TMETDATA parameter determines the database or databases that will store ET data. The same TMETDATA parameter value must be specified for all Adabas Transaction Manager (ATM) instances on the network.

Possible values:

Value Explanation
ATM

ET data is always stored in and read from the ATM transaction manager’s recovery file, without regard to the database ID indicated by the Adabas command.

  • treats ET data as belonging to a global transaction rather than to a database;

  • there is just one copy of a client’s ET data in a system;

  • eliminates confusion resulting from the existence of different ET data in different databases under the same ETID;

  • overrides the Natural ETDB parameter;

  • should not be used if the EmergencySerialETs runtime control will be set to YES or FORCE for any client environment in which ET data is stored or read.

TARGETS

ET data is stored during the commit process in all changed databases that are running with DTP=RM.

ET data that is stored by an ET or CL command is always stored in the database that is the target of the command, whether or not that database runs with DTP=RM. It the database runs with DTP=NO, the ET data is written to the database only after any open global transaction has been committed.

If the client storing ET data is at global transaction status, ATM is not required to carry out any commit processing; the data is simply stored in the database indicated by the Adabas command. ET data is always read from the database specified in the Adabas command.

  • treats ET data as belonging to a database or a local database transaction rather than to a global transaction;

  • a client’s ET data might exist in several databases in a system;

  • a client can have several different ET data values in different databases at the same time;

  • means that 3GL application programs using ET data must have knowledge of the database that holds ET data for a given transaction;

  • honors the Natural ETDB parameter.

Notes:

  1. The recommended setting for this parameter is the default, TARGETS. This setting eliminates the dangers associated with running in serial mode when the transaction manager is unavailable.
  2. See also the section entitled ET Data Storage in your Adabas Transaction Manager operations documentation.

TMGTT Parameter: Global Transaction Time Limit

Parameter Type Use Possible Values Default
Runtime

Sets time limit during which a global transaction can be open without being prepared.

1 - 16777215 720

The TMGTT parameter approximately specifies the maximum elapsed time, in units of 1.048576 seconds, that a global transaction can remain open without being prepared. If the limit is exceeded, ATM automatically backs out the global transaction from all affected databases. The next time the client issues a transactional Adabas command, a response code 9 (ADARSP009) is returned.

It is recommended that TMGTT be smaller than the lowest TT parameter of any database running with DTP=RM.

The TMGTT parameter does not supersede the TT parameter settings of other databases. If a database times out a client who has an unprepared global transaction open, the global transaction is subsequently backed out. A response code 9 (ADARSP009) is returned if the client then issues a transactional command.

Note:
Transaction timeout can happen when a client session stops issuing commands for a period of time. In these circumstances the transaction manager has no opportunity to give a response code to the client, to indicate that the timeout has taken place. In such cases, the pending response code will be preserved and returned to the client at the first possible opportunity. For further details, please refer to Pending Response Codes in the Adabas Transaction Manager introduction.

TMLOG Parameter: ATM Manager Logging Control

Parameter Type Use Possible Values Default
Runtime Controls the logging option for the current execution of the ATM manager. YES | NO | NEVER NO

The ATM manager can log internal events for diagnostic purposes using a dual logging system. It can

  • maintain a log buffer area in memory that contains details of the latest logged events;

  • maintain transaction-related event details in storage areas related to specific global transactions;

  • write every log record to dual sequential ATMLOG data sets.

Possible values:

Value Description
YES The ATM manager writes every record to an ATMLOG data set. The ATM manager keeps a record of the latest internal events in its global log buffer area. It also maintains the contents of log buffer areas related to open global transactions. Logging to the ATMLOG data sets can be deactivated at any time using the operator command ATM NOLOG.
NO The ATM manager will not write log records to the ATMLOG data sets. Logging to the ATMLOG data sets can be activated at any time using the operator command ATM LOG. The ATM manager keeps a record of the latest internal events in its global log buffer area; it also maintains the contents of log buffer areas related to open global transactions.
NEVER ATM logging is disabled for the duration of this execution of the ATM manager.

On z/OS and VSE systems, if the ATM manager writes log records to the ATMLOG (TMLOG=YES or ATM LOG issued) and the data set currently in use becomes full, the manager closes that data set and switches to the other data set. Automatic log switching currently does not take place on BS2000 systems. A system message might appear in the console log, indicating that the first log data set has become full. You may also switch between the two ATMLOG data sets by using the operator command ATM FEOFLOG. Whenever the ATMLOG data sets are switched, a message is displayed on the console indicating the data set that is currently in use.

TMMSGSEV Parameter: Severity Threshold for Warning Messages

Parameter Type Use Possible Values Default
Runtime Sets severity threshold for the suppression of warning messages. 0 | 4 | 8 0

Every message that the ATM manager sends to the console has a severity level. Message severity levels are explained in the Adabas Transaction Manager Messages and Codes.

Using the TMMSGSEV parameter, you can prevent messages with low severity levels from being written to the console by the ATM manager. This parameter has no effect on messages that are issued by the ATM client proxy, or during the early part of the transaction manager’s initialization.

Possible values:

Value Description
0 No messages are suppressed.
4 Messages of severity less than 4 are not sent to the console.
8 Messages of severity less than 8 are not sent to the console.

TMRESTART Parameter: ATM Restart Control

Parameter Type Use Possible Values Default
Runtime Controls restart handling of problematic transactions. NORMAL | FORCE | FORCEALL NORMAL

When an ATM manager restarts, it rebuilds its global transaction list as nearly as possible to its latest state when it was last executing. It then attempts to complete or back out any incomplete global transactions. The TMRESTART parameter determines the manager’s restart action with regard to global transactions and transaction branches that remain incomplete at the end of this process.

Possible values:

Value Description
NORMAL Any incomplete transactions remain in an incomplete state until such time as they can be completed.
FORCE ATM transfers to the suspect transaction journal (STJ) the details of every incomplete global transaction that has its root local to this ATM manager. The details of these transactions are deleted from ATM’s recovery information, the originating clients are closed, and any related internal resources are freed. ATM can no longer guarantee integrity for such global transactions.
FORCEALL Details of all unresolved global transactions and transaction branches are transferred to the STJ. The details are deleted from ATM’s recovery information, the originating clients are closed, and any related internal resources are freed. ATM can no longer guarantee integrity for the affected global transactions.

TMSYNCMGR Parameter: Support for External Transaction Coordinators

Parameter Type Use Possible Values Default
Runtime Indicates whether or not the ATM manager is to interact with an external transaction coordinator. NONE | RRMS NONE

The TMSYNCMGR parameter determines whether or not the ATM manager registers and interacts with an external transaction coordinator.

Possible values:

Value Description
NONE The ATM manager will not interact proactively with an external transaction coordinator. This setting does not preclude the use of the CICS Syncpoint Manager, which interfaces directly with the ATM’s client proxy component and not with the ATM manager.
RRMS The ATM manager will register with the IBM Recoverable Resource Management Services so that it can participate in transactions that involve other RRMS-enabled resource managers. This parameter value is valid only for z/OS systems in which RRS (a component of RRMS) is active. The current version of ATM offers participation in RRMS-coordinated two-phase commit for single-user, single-TCB batch applications and for applications running under Com-plete or IMS TM.

TMTCIDPREF Parameter: Dynamic Client ID Prefix

Parameter Type Use Possible Values Default
Runtime Defines the first one or two characters of dynamically allocated Client IDs. up to 2 alphanumeric characters TM

To aid interpretation of Adabas Online Services displays and diagnostic logs, the ATM manager dynamically allocates an 8-byte client identifier (TCID) for each client session that engages in transactional activity. These client identifiers are simply labels, and have no operational significance.

The format of a dynamically allocated TCID is

ppnnxxxx

—where

pp is the value of the TMTCIDPREF parameter, left-justified and with trailing blanks if required.

nn is the 2-byte binary Node ID of the Adabas System Coordinator daemon within which the ATM transaction manager is running as a service.

xxxx is a 4-byte binary suffix. Suffixes are allocated in sequence and are reused. The first TCID to be allocated has a suffix of zeros.

TNAA Parameter: Nonactivity Time Limit for Access-Only Users

Parameter Specify . . . Minimum Maximum Default
TNAA the nonactivity time limit for access-only users. 1 2147483647 900

The TNAA parameter specifies the maximum elapsed time (in units of 1.048576 seconds) that an access-only user may be considered active without issuing an Adabas command.

If an access-only user exceeds the nonactivity time limit, action is taken as described in Adabas Timeout Feature.

If the NUCID parameter specifies a value greater than zero (that is, a multiprocessing nucleus), you may have to specify a larger TNAA value than for a normal nucleus. The chances of data contention are greater, and therefore more time should be allowed.

Overriding the Parameter Setting

You can override this parameter setting for an individual user or for all users:

  • Override the setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

  • Override the setting for all users with an Adabas TNAA operator command or with the OPERCOM function of the ADADBS utility (described in the Adabas Utilities Manual).

Example

For example, during the following Adabas session, the nonactivity time limit for access-only users is about 30 minutes.

ADARUN PROG=ADANUC,TNAA=1800

TNAE Parameter: Nonactivity Time Limit for ET Logic Users

Parameter Specify . . . Minimum Maximum Default
TNAE the nonactivity time limit for ET logic users. 1 2147483647 900

The TNAE parameter specifies the maximum elapsed time (in units of 1.048576 seconds) an ET Logic user may be considered active without issuing an Adabas command.

If an ET logic user exceeds the nonactivity time limit, action is taken as described in Adabas Timeout Feature.

If the NUCID parameter specifies a value greater than zero (that is, a multiprocessing nucleus), you may have to specify a larger TNAE value than for a normal nucleus. The chances of data contention are greater, and therefore more time should be allowed.

Overriding the Parameter Setting

You can override this parameter setting for an individual user or for all users:

  • Override the setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

  • Override the setting for all users with an Adabas TNAE operator command or with the OPERCOM function of the ADADBS utility (described in the Adabas Utilities Manual).

Example

For example, during the following Adabas session, the nonactivity time limit for ET logic users is about 30 minutes.

ADARUN PROG=ADANUC,TNAE=1800

TNAX Parameter: Nonactivity Time Limit for Exclusive Control Users

Parameter Specify . . . Minimum Maximum Default
TNAX the nonactivity time limit for exclusive control users. 1 2147483647 900

The TNAX parameter specifies the maximum elapsed time (in units of 1.048576 seconds) an exclusive control user (EXU) may be considered active without issuing an Adabas command.

If an exclusive control user exceeds the nonactivity time limit, action is taken as described in Adabas Timeout Feature.

If the NUCID parameter specifies a value greater than zero (that is, a multiprocessing nucleus), you may have to specify a larger TNAX value than for a normal nucleus. The chances of data contention are greater, and therefore more time should be allowed.

Overriding the Parameter Setting

You can override this parameter setting for an individual user or for all users:

  • Override the setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

  • Override the setting for all users with an Adabas TNAX operator command or with the OPERCOM function of the ADADBS utility (described in the Adabas Utilities Manual).

Example

For example, during the following Adabas session, the nonactivity time limit for exclusive control users is about 30 minutes.

ADARUN PROG=ADANUC,TNAX=1800

TT Parameter: Transaction Time Limit

Parameter Specify . . . Minimum Maximum Default
TT the transaction time limit for ET logic users. 1 2147483647 900

The TT parameter specifies the maximum elapsed time (in units of 1.048576 seconds) permitted for a logical transaction issued by an ET logic user.

The time measurement for a logical transaction starts when the first command that results in a record being placed in hold status is issued. It ends when an ET, BT, or CL command is issued.

If the transaction time limit is exceeded, action is taken as described in Adabas Timeout Feature.

The value specified for TT directly influences the required size of the Adabas parameter LP (length of the data protection area).

Software AG recommends that you set the TT parameter lower than the TNAE parameter.

Overriding the Parameter Setting

You can override this parameter setting for an individual user or for all users:

  • Override the setting for an individual user by specifying a different value in the Adabas control block for an OP command. See the discussion of the OP command in the Adabas Command Reference Guide.

  • Override the setting for all users with an Adabas TT operator command or with the OPERCOM function of the ADADBS utility (described in the Adabas Utilities Manual).

Example

For example, during the following Adabas session, the transaction time limit for ET logic users is about 5 minutes (300 seconds).

ADARUN PROG=ADANUC,TT=300

UEXn Parameter: User Exit

Parameter Specify . . . Possible Values Default
UEXn the user exit and the user routine to be given control. see text none

This parameter is used in conjunction with the user exit facility. It specifies one or more optional user exits and their names in the following format:

UEXn=exit-name

where

n is a digit in the range 1-12 inclusive
exit-name is the name of a user routine that gets control at the user exit; the name can be up to 8 characters long.

Note:
User exit 2 and user exit 12 are mutually exclusive; if you specify one, you may not specify the other. Either UEX2 or UEX12 is required if the ADARUN LOGWARN parameter is specified.

The specified user exit routine(s) must be loadable at execution time.

The Adabas user exits discussion describes the purpose and function of each user exit as well as the calling sequence.

Examples

In the following example, control is given to the user routine SECURE at user exit 11 during the Adabas session.

ADARUN PROG=ADANUC,UEX11=SECURE

During the following Adabas session, control is given to the user routine SUBR2 at user exit 2 and to the user routine SUBR4 at user exit 4.

ADARUN PROG=ADANUC,UEX2=SUBR2,UEX4=SUBR4

The following example runs the ADACMP utility and gives control to the user routine SUBR6 at user exit 6.

ADARUN PROG=ADACMP,UEX6=SUBR6

UEXSMF Parameter: Specifying SMF User Exit Module Name

Parameter Specify . . . Valid Values Default
UEXSMF the name of the SMF user exit module. module-name ---

If user details sections are to be generated in the Adabas SMF record (if the ADARUN parameter SMFDETAIL is set to USER or if USER is added as a detail section via the SMFDETAIL operator command), this parameter can be used to identify the name of the SMF user exit that should be used to generate the user detail sections. This exit will be invoked for each Adabas SMF record.

This parameter cannot be altered by operator commands while the nucleus is running.

Example

In the following example, the SMF user exit name is SMFEXIT

ADARUN PROG=ADANUC,UEXSMF=SMFEXIT

UPDATECONTROL Parameter: Control Scheduling of Update Commands During Buffer Flush

Parameter Specify . . . Possible Values Default
UPDATECONTROL whether or not to shortly delay the scheduling of update commands at the end of buffer flushes. DELAY | NODELAY DELAY

The UPDATECONTROL parameter controls how the nucleus schedules update commands at the end of a buffer flush. Its setting influences the techniques that Adabas uses to recover the database in a session autorestart, in the case that this nucleus session terminates abnormally.

When UPDATECONTROL is set to DELAY, at the end of every buffer flush the nucleus delays the start of new update commands until all active update commands have finished. In a cluster, this happens in all nuclei in the cluster at the same time. Normal update command scheduling resumes once all previously active update commands have ended. In the case that the nucleus terminates abnormally, the following session autorestart recovers the database by making use of the presence of a point in time before the failure where no update processing was in progress.

When UPDATECONTROL is set to NODELAY, the nucleus does not delay the start of new update commands at the end of buffer flushes. The buffer flushes do not impact normal update command scheduling. In the case that the nucleus terminates abnormally, the following session autorestart recovers the database even if update commands were in progress continually before the failure. Omitting the suspension of update commands after buffer flushes avoids the related short delays in update processing and, in a cluster, eliminates a category of periodic processes where all nuclei in the cluster must collaborate.

The default value of UPDATECONTROL is DELAY. The UPDATECONTROL setting cannot be changed at runtime. In a cluster, UPDATECONTROL must be set to the same value in all nuclei in the cluster. If the UPDATECONTROL setting is to be changed, all nuclei in the cluster must be shut down before the first one can be restarted with the new setting.

If UPDATECONTROL is set to NODELAY, the INDEXUPDATE parameter must be set to ADVANCED.

Note:
If an Adabas nucleus running with UPDATECONTROL=NODELAY terminates abnormally, the UPDATECONTROL setting in the restarted nucleus does not matter for the autorestart.

UTIONLY Parameter: Utilities-Only Session Control

Parameter Specify . . . Possible Values Default
UTIONLY whether to restrict the session to Adabas utilities. YES | NO NO

Use this parameter to restrict an Adabas session to the execution of Adabas utilities.

Value Meaning
YES Any attempt to execute a program other than an Adabas utility is rejected.
NO (default) The session is available for both utilities and user programs.

If you specify UTIONLY=YES to reserve the session for a utility program, you can use the operator command UTIONLY=NO to make the nucleus available for user programs again when the utility is completed.

Example

In the following example, only utilities can be run during this Adabas session.

ADARUN PROG=ADANUC,UTIONLY=YES

V64BIT Parameter: 64-Bit Virtual Storage Option

Note:
This parameter is applicable only to z/OS and z/VSE systems.

Parameter Specify . . . Possible Values Default
V64bit whether or not the Adabas nucleus should use virtual storage above the two gigabyte bar (64-bit virtual storage). In order for the nucleus to use 64-bit virtual storage, the operating system must also support 64-bit virtual storage. YES | NO NO

This parameter indicates whether or not the Adabas nucleus should use 64-bit virtual storage. The default is NO.

Currently, the following storage areas will be allocated above the two gigabyte bar in an Adabas nucleus:

  • The flush I/O pool (see ADARUN parameter LFIOP)

  • The PLOG protection I/O buffers (see ADARUN parameter NPLOGBUFFERS)

  • The Work part 1 protection I/O buffers (see ADARUN parameter NWORK1BUFFERS)

  • The cast-out directory buffer, in cluster environments (automatically derived from the attributes of the global cache space for Adabas Cluster or Adabas Parallel Services).

The use of 64-bit virtual storage will help alleviate virtual storage constraints below the two gigabyte bar in installations that use large amounts of virtual storage in Adabas nucleus sessions (for example, nucleus sessions with ADARUN parameter settings of LBP=1200M and LFIOP=200M).

Value Meaning
YES The Adabas nucleus will use 64-bit virtual storage (storage above the two gigabyte bar).
NO The default setting. The Adabas nucleus will not use 64-bit virtual storage.

Users in z/OS environments should note that virtual storage above the two gigabyte bar (64-bit virtual storage) is shown in dumps to SVCDUMP or SYSMDUMP but not in dumps to MPMDUMP, SYSABEND, or SYSUDUMP. Therefore, we recommend that you use the SVCDUMP in the JCL of an Adabas nucleus running with ADARUN V64BIT=YES to ensure that 64-bit virtual storage is shown in any SVC dumps that are produced. If, for some reason, you do not want to produce SVC dumps, we recommend that you use SYSMDUMP to ensure 64-bit virtual storage is shown in a dump of the Adabas nucleus address space.

Specific Product Recommendations

  • The replication pool will be allocated in 64-bit virtual storage when an Adabas nucleus runs with ADARUN parameters REPLICATION=YES and V64BIT=YES.

  • The replication pool will be allocated in 64-bit virtual storage when the Event Replicator Server runs with ADARUN V64BIT=YES parameter.

  • The Auditing pool (LAP) will be allocated in 64-bit virtual storage when an Adabas nucleus runs with ADARUN parameters AUDITING=YES and V64BIT=YES.

Example

The following example indicates that the Adabas nucleus will make use of virtual storage above the two-gigabyte bar and should use 1M large pages.

ADARUN PROG=ADANUC,LARGEPAGE=YES,V64BIT=YES

VISTA Parameter: Adabas Vista Control

Parameter Specify . . . Possible Values Default
VISTA whether to enable support for Adabas Vista. YES | NO NO

The VISTA parameter enables the nucleus to support Adabas Vista processing. If Adabas Vista is not installed on your system, specifying this parameter invokes the AVILOOK analysis tool delivered with Adabas. For complete information about AVILOOK, read AVILOOK.

Example

The following example runs Adabas with Adabas Vista.

ADARUN PROG=ADANUC,VISTA=YES

WORKCACHE Parameter: Work Area Controller Caching

This parameter is valid for z/OS operating environments only.

Parameter Specify . . . Possible Values Default
WORKCACHE whether to enable (YES) or disable (NO) controller caching for the Adabas Work data set. YES | NO YES
Value Meaning
YES The default setting. Work blocks are preread and maintained as long as possible in the caching facilities of the disk controller.
NO Work blocks are not preread or stored.

Guidelines

  • If Work blocks are highly scattered or the update frequency is low, controller caching can cause longer I/O response times.

  • ADARUN caching control parameters also exist for the Associator (ASSOCACHE), Data Storage (DATACACHE), the sort area (SORTCACHE), and the temp area (TEMPCACHE).

Example

The following example runs the nucleus without controller caching for the Work data set.

ADARUN PROG=ADANUC,WORKCACHE=NO

ZIIP Parameter: Activate Usage of Adabas for zIIP

This parameter is valid for z/OS operating environments only.

The ZIIP parameter controls whether Adabas activates Adabas for zIIP (AZPAD).

Note:
Adabas for zIIP requires its own license file (AZPAD), in addition to the standard Adabas license file. If the AZPAD license file is missing or found invalid, Adabas will start but will run as if ZIIP=NO had been specified.

Parameter Specify . . . Possible Values Default
ZIIP whether or not to activate Adabas for zIIP. YES | NO NO
Value Meaning
YES Usage of Adabas for zIIP is enabled. Adabas offloads CPU time from the general processors to System z Integrated Information Processors (zIIP). The purpose of this configuration is to reduce the CPU consumption on the general processors.
NO The default setting. Usage of Adabas for zIIP is disabled. Adabas runs without the option to offload CPU time to zIIPs.

Dynamic Modification

If Adabas was started with ZIIP=YES, the setting of the ZIIP parameter can be changed at runtime - that is, set to NO and subsequently back to YES - using the ZIIP command from the operator console, the ADADBS OPERCOM ZIIP function, or the Modify Parameters menu of Adabas Online System.

If Adabas was started with ZIIP=NO, the setting of the ZIIP parameter cannot be changed to YES later in this session.

ZIIP may be set differently for different nuclei in a cluster (it is a local, modifiable parameter).

Specific Product Recommendations

  • Event Replicator Server databases and Adabas nuclei running with ADARUN REPLICATION=YES support the use of Adabas for zIIP subject to the availability of the appropriate license file (AZPAD).

  • The Adabas Audit Server and Adabas nuclei running with ADARUN AUDITING=YES support the use of Adabas for zIIP subject to the availability of the appropriate license file (AZPAD).

Example

The following example activates the use of Adabas for zIIP.

ADARUN PROG=ADANUC,ZIIP=YES