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  • TEST_RUNS (ID int, Date_Time datetime, Row1 int, Row2 int, Row3 int, Row4 int)
  • ADMIN_TIME_FILTER (ID int, Name varchar(20), Start_Date datetime, End_Date datetime)

ADMIN_TIME_FILTER holds a small list of shifting date ranges that get updated frequently via automation. We have common date ranges (ThisYear, ThisDay, etc) and some more esoteric ranges. This table exists strictly as a way to filter data out of TEST_RUNS in a join.

TEST_RUNS holds actual data we care about, and has millions of rows. We have a bunch of defined views joining these two tables together, so we can just update the ADMIN_TIME_FILTER table and have the changes propagate to the views. Aside from date, there are no rows that link these two tables together.


The problem is that the estimated row count is widly off, resulting in poor performing queries. Here's a simple query the exhibits the bad estimate:

with test as (
    INNER JOIN ADMIN_TIME_FILTER b ON b.ID = 5 -- ID for ThisYear range
       AND a.date_time BETWEEN b.start_date AND b.end_date
select count(*) from test 

Here's the query plan:


Statistics aren't the problem. I can run the following query and get an accurate row estimate

with test as (
    select tr.* from test_runs tr
    where tr.date_time between '2012-01-01 00:00:00' and '2012-12-31 00:00:00'
select count(*) from test


Switching away from our join methodology isn't a simple task, so I'm looking for an alternative to improve the row estimate.

Indexed views don't appear to be a viable option due to the performance implications.

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1 Answer 1

up vote 2 down vote accepted

The problem isn't the row count. Your query is set up as a non-equijoin. There is really no other way for SQL Server to handle the join other than by using nested loops.

If you have an id in the "a" table, the following might help:

with test as (
    SELECT a.*
         ON a.id = b.id and b.ID = 5 and -- ID for ThisYear range
            a.date_time BETWEEN b.start_date AND b.end_date
select count(*) from test 

By matching on the "id" between the tables, SQL Server can consider other join algorithms, such as merge joins or hash joins.

I suspect that there might be another way to fix this. What is the index on B using? I would suggest (id, start_date, end_date). The engine might be deciding to using an index on the dates to satisfy the query.

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Yes, the non equi-join was what I suspected. There's no real relation between the tables, so there's no other column I can join them on. I am using an index with ID, start_date, end_date. –  jhsheets Oct 5 '12 at 22:18
You could also fix this by changing the ADMIN_TIME_FILTER table. Instead of having a date range, you would a separate row for each date. This would make the table much bigger, but the join much more efficient. –  Gordon Linoff Oct 6 '12 at 15:52

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