SQL Server 2014 performance - parameterized SQL vs. literals

Question

I have a simple query like

select count(distinct key) 
from table 
where date between '2014-01-01' and '2014-12-31'

It's fast (about 1 second), but becomes much slower (about 4 seconds) when I try to parameterize it within sp_executesql:

exec sp_executesql 
     N'select count(distinct key) from table where date between @start and @end', 
     N'@start date, @end date',
     @start = '2014-01-01', @end='2014-12-31'

Why the difference in performance?

UPDATE The plan difference appears to be because of type conversion. When I change the parameter types to N'@start datetime, @end datetime', to match the columns exactly, the discrepancy disappears, and the plans for parameters vs. constants are practically identical (same costs, etc.) (Facepalm.)

I'll accept an answer that explains why the type conversion results in such a dramatic plan difference rather than just converting the parameters up front and proceeding as usual.

END UPDATE

The plans are very similar - same index, same estimated cardinalities, same row counts, and same I/O - although the CPU cost estimates in the parameterized version are higher.

Specific discrepancies:

• The same Index Seek appears in both plans, but it is parallel in the (fast) version with literals, and NOT parallel in the (slow) version with parameters. The non-parallel one has higher CPU estimate.
• The version with parameters has an Nested Loop join connecting the index scan with some logic around parameters. This appears to add some CPU overhead of its own (CPU estimate = 7.6 on the nested loop).
• Both versions have "Parallelism" as a child of the Hash Match; in the parameterized version it is Distribute Streams (CPU estimate = 16.5) but in the literal version it is Repartition Streams (CPU estimate = 8.3)

How can I get the parameterized version to perform similarly as the version with literals?

All I could find in my research about performance of parameterized queries has to do with estimates -- either plans cached with different parameter values, or local variables being treated as unknowns. Neither is a factor here; my estimates are correct.

Answer 1

Why the difference in performance?

Because you have two different queries and they have two different execution plans (even though they are similar).

Why do you have two different plans?

There is a great detailed article by Erland Sommarskog Slow in the Application, Fast in SSMS? Understanding Performance Mysteries, where he explains how query optimizer works. The key points applicable to your example are:

• A constant is a constant, and when a query includes a constant, SQL Server can use the value of the constant with full trust, and even take such shortcuts to not access a table at all, if it can infer from constraints that no rows will be returned.

• For a parameter, SQL Server does not know the run-time value, but it "sniffs" the input value when compiling the query.

• For a local variable, SQL Server has no idea at all of the run-time value, and applies standard assumptions. (Which the assumptions are depends on the operator and what can be deduced from the presence of unique indexes.)

And there is a corollary of this: if you take out a query from a stored procedure and replace variables and parameters with constants, you now have quite a different query.

As shown in the article quick answer to:

How can I get the parameterized version to perform similarly as the version with literals?

is to use OPTION(RECOMPILE) / OPTIMIZE FOR.

RECOMPILE

Instructs the SQL Server Database Engine to discard the plan generated for the query after it executes, forcing the query optimizer to recompile a query plan the next time the same query is executed. Without specifying RECOMPILE, the Database Engine caches query plans and reuses them. When compiling query plans, the RECOMPILE query hint uses the current values of any local variables in the query and, if the query is inside a stored procedure, the current values passed to any parameters.

So, option RECOMPILE behaves as if query had literal values instead of parameters.

OPTIMIZE FOR

Instructs the query optimizer to use a particular value for a local variable when the query is compiled and optimized. The value is used only during query optimization, and not during query execution.