I have an interesting delimma. I have a very expensive query that involves doing several full table scans and expensive joins, as well as calling out to a scalar UDF that calculates some geospatial data.
The end result is a resultset that contains data that is presented to the user. However, I can't return everything I want to show the user in one call, because I subdivide the original resultset into pages and just return a specified page, and I also need to take the original entire dataset, and apply group by's and joins etc to calculate related aggregate data.
Long story short, in order to bind all of the data I need to the UI, this expensive query needs to be called about 5-6 times.
So, I started thinking about how I could calculate this expensive query once, and then each subsequent call could somehow pull against a cached result set.
I hit upon the idea of abstracting the query into a stored procedure that would take in a CacheID (Guid) as a nullable parameter.
This sproc would insert the resultset into a cache table using the cacheID to uniquely identify this specific resultset.
This allows sprocs that need to work on this resultset to pass in a cacheID from a previous query and it is a simple SELECT statement to retrieve the data (with a single WHERE clause on the cacheID).
Then, using a periodic SQL job, flush out the cache table.
This works great, and really speeds things up on zero load testing. However, I am concerned that this technique may cause an issue under load with massive amounts of reads and writes against the cache table.
So, long story short, am I crazy? Or is this a good idea.
Obviously I need to be worried about lock contention, and index fragmentation, but anything else to be concerned about?