I've got a procedure exhibiting performance issues due to parameter sniffing. The procedure is costly but generally executes in an acceptable amount of time amid typical load. However, it will periodically perform poorly. When this happens, we see sessions executing the procedure go parallel. We'll see the number of sessions executing the routine start to pile up. We resolve the issue by pulling the procedure's plan from the cache, killing the active sessions, and monitoring for an immediate re-occurrence (like when a bad plan ends up back in the cache).
The procedure is in a typical OLTP database (lots of small DML queries).When the subject query performs poorly, it causes a CPU spike and degrades performance of the associated service. During business hours, the procedure is executed more than 5 times a minute (don't have an exact count). The plan for the procedure is here:
All columns in the query (join and projected columns), are covered by indexes.
Here are the options I'm weighing:
- We can apply Option Recompile to the problematic select statement inside the routine.
- We could do a little research and find a parameter value that generates a plan that is generally good for "everything". We'd then add the following OPTIMIZE FOR to the function. This will incur a little technical debt as we may need to adjust this value overtime.
- We could introduce branching logic in the procedure. If the parameter value were X or in range-X, we'd execute sproc, and if not, we'd run sproc. Again, incurs a little technical debt.
- We could change the problematic statement to dynamic SQL. This will cause a plan to be generated for each unique SQL statement. If we get tons of unique calls of this procedure, it could bloat the plan cache.
- Slap a MAXDOP of "1" on the problematic select statement.
Options I've factored out:
- We can optimize for unknown. This will change record estimates the density vector, and optimize operations for that.
Have I missed any sensible options? What options make the most sense?