Event processing order for queries
Note:
Apama queries are deprecated and will be removed in a future release.
Unlike EPL monitors, the order in which queries process events is not necessarily the order in which they were sent into the correlator. In particular, if two events that will be processed by the same query with the same key value are sent very close together in time (both events received less than about .1 seconds of each other) then they may be processed as if they had been sent in a different order. For example, consider a query that is looking for an A event followed by an A event. If two A events with the same key arrive 1 millisecond apart then the events might not be processed in the order in which they were sent.
Queries use multiple threads to process events and to scale across multiple correlators on multiple machines. To do this efficiently, there is no enforcement that the events are processed in order. However, when events that have the same key arrive roughly about .5 seconds apart or more then out-of-order processing is typically avoided provided the system can keep up with the load. Therefore, you want to specify a query so that it operates on partitions in which the arrival of consecutive events is spaced far enough apart. For example, consider a query that operates on credit card transaction events, which could mean thousands of events per second. You want to partition this query on the credit card number so that there is one event or less per partition per second. By following this recommendation, it becomes possible to process events that are generated at rates of up to 10,000 events per second.
When creating an
evt file for testing purposes, the recommendation is to begin the file with a
&FLUSHING(1) line to cause more predictable and reliable event-processing behavior. See
Event timing.