Interpreting SQL Server table statistics

Question

I write queries and procedures, I have no experience as a DB Admin and I am not in a position to be such. I work with hundreds of tables and certain older tables are difficult to work with. I suspect that statistics are a problem but the DBA states that isn't the case.

I don't know how to interpret statistics or even which ones I should look at. As an example, I am currently JOINing 2 tables, it is a simple JOIN that uses an index.

It returns just under 500 rows in 4 columns. It runs very quickly but not when in production with thousands of runs a day. My estimated and actual rows on this JOIN are off by 462%.

I have distilled this stored procedure down to a lot of very basic temp tables to locate the problem areas and it appears to be 2 tables, this example is one of them.

What I want is to know is which commands to run and what statistics to look at to take to the DBA to discuss the specific problem at hand. I do not want to be confrontational but informational. I have a very good professional relationship with this DBA but he is very black and white with his policies so I may not get anywhere with it in the end, but then I can also take that to my lead if I get stonewalled.

I ran a DBCC SHOW_STATISTICS on the table's index. I am not sure if this is the data I need or what I am really looking at. I would really like to know where to start with this. I have googled but all the pages I read are very geared towards DBAs and assume prior knowledge in areas I don't have.

Below is a sample of my JOIN obfuscated - my JOIN is on a temp table the first 2 conditions are needed for the Index, the date conditions when removed make the JOIN actually much worse with 10x the reads:

SELECT
    x.UniqueID,
    x.ChargeCode,
    x.dtDate,
    x.uniqueForeignID
INTO
    #AnotherTempTable
FROM
    Billing.dbo.Charges x
JOIN 
    #temptable y ON x.uniqueForeignID = y.uniqueID
                 AND x.ChargeCode = y.ChargeCode
                 AND @PostMonthStart <= x.dtDate 
                 AND x.dtDate < @PostMonthEnd

The JOIN above is part of a new plan where I have been dissecting all the data needed into temp tables to determine the root cause of the problem in high CPU and reads in production. Below is a list of all the statements that are executing, sorted by the number of reads. The second row is this example query but there are others with similar issues.

Below is the execution plan operations for the plan prior to my updates.

While the new plan has better run time and closer estimates, I worry that I am still going to run into issues if the statistics are off. If I am completely off-base, please tell me and point me in the right direction, I will gladly bark up a different tree if I am making incorrect assumptions.

Answer 1

The first table returned shows some general information. You can see the statistics on this index were last updated 12/25/2019 at 10:19 PM. As of the writing of this answer, that is yesterday evening, so stats were updated recently. That is likely to be some kind of evening maintenance, but it could also be a threshold of data modifications that triggered an automatic statistics update.

There were 222,596,063 rows in the table at the time the statistics were sampled. The statistics update sampled 626,452 of these rows, so the sample rate is 0.2%. This sample size was likely the default sample rate used by a simple update statistics MyTable command.

A sample rate of 0.2% is fast to calculate but can lead to very bad estimates-- especially if an index is being used to support a foreign key. For example, a parent/child relationship may have a ParentKey column on the child table. A low statistics sample rate will result in very high estimates per parent row which can lead to strange decisions in query plans.

Look at the third table (the histogram). The RANGE_HI_KEY corresponds to a specific key value of the first column in this index. The EQ_ROWS column is the histogram's estimate of the number of rows that correspond to this key. If you get a count of the rows in this table by one of these keys in the RANGE_HI_KEY column, does the number in the EQ_ROWS column look like an accurate estimate? If not, a higher sample rate may yield better query plans.

For example, take the value 1475616. Is the count of rows for this key close to the EQ_ROWS value of 3893?

select count(*) from MyTable where FirstIndexColumn = 1475616

If the estimate is very bad, the DBA may need to increase the sample size on this table:

update statistics MyTable with sample 5 percent

If the DBA uses Ola Hallengren's plan (an excellent choice, in my opinion), this can be done by passing the @StatisticsSample parameter to the IndexOptimize procedure.