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Single-threaded version description:

  1. Program gathers a list of questions.
  2. For each question, get model answers, and run each one through a scoring module.


  • Scoring module makes a number of (read-only) database queries.
  • Serial processing, single database connection.

I decided to multi-thread the above described program by splitting the question list into chunks and creating a thread for each one.

Each thread opens it's own database connection and works on it's own list of questions (about 95 questions on each of 6 threads). The application waits for all threads to finish, then aggregates the results for display.

To my surprise, the multi-threaded version ran in approximately the same time, taking about 16 seconds instead of 17.

Questions:

Why am I not seeing the kind of gain in performance I would expect from executing queries concurrently on separate threads with separate connections? Machine has 8 processors.

Will SQL Server process queries concurrently when they are coming from a single application, or might it (or .net itself) be serializing them?

Might there be something misconfigured, that would make it go faster, or might I just be pushing SQL Server to its computational limits?

Current configuration:

Microsoft SQL Server Developer Edition 9.0.1406 RTM
OS: Windows Server 2003 Standard
Processors: 8
RAM: 4GB

share|improve this question

This is just a shot in the dark, but I bet you are not seeing the performance gain because they serialize themselves in the database due to locking of shared resources (records). Now for the small print.

I assume your C# code is actually correct and you actually do start separate threads and issue each query in parallel. No offense, but I've seen many making that claim and the code being actually serial in the client, for various reasons. You should validate this by monitoring the server (via Profiler, or use the sys.dm_exec_requests and sys.dm_exec_sessions).

Also I assume that your queries are of similar weight. i.e., you do not have one thread that lasts 15 seconds and 5 that 100 ms.

The symptoms you describe, in lack of more details, would point that you have a write operation at the beginning of each thread that takes an X lock on some resource. First thread starts and locks the resource, other 5 wait. 1st thread is done, releases the resource then the next one grabs it, other 4 wait. So last thread has to wait for the execution of all other 5. This would be extremely easy to troubleshoot by looking at sys.dm_exec_requests and monitor what blocks the requests.

BTW you should consider using Asynchronous Processing=true and rely on the async methods like BeginExecuteReader to launch your commands in execution in parallel w/o the overhead of client side threads.

share|improve this answer
    
I'm sure the code is correct. Each of the threads is sent an initialization object that contains a unique connection object along with a unique list of items to process. The loop that starts the threads completes in 5.4875 ms. There are no write operations -- only select queries. The queries are of similar weights, as demonstrated by the similar running times of each thread (16.639s, 16.481s, 16.544, 16.712). Total running time of multithreaded application is approx 16s, compared to 17s for the single-threaded version. – Triynko May 23 '09 at 19:26
    
So, really, I've already thought about all that. What I don't understand is why SQL Server is taking the same amount of time to process hundreds of queries, regardless of whether they're sent in parallel or not. Indeed, some sort of serialization seems to be taking place within SQL Server, but why? With read-only queries, do I seriously have to specify 'nolock', as some have suggested? SQL Server should be able to handle read-only (select) queries concurrently without the 'nolock' syntax. – Triynko May 23 '09 at 19:32
    
With the 'nolock' option specified for all query strings (3 total), the running times for each thread drops by about 2 seconds (14.398, 14.213, 14.212, 14.475). The single-threaded running time drops as well though, still just a second behind the multi-threaded version. I ran a trace in profiler, and there are just under 5000 queries execute, all of which have a zero for the 'Writes' column. – Triynko May 23 '09 at 20:02
    
You're not going to discover the answer by guessing. Use the sys.dm_exec_requests view to see what are your queries doing. – Remus Rusanu May 23 '09 at 20:02
    
I already ran dm_exec_requests, and I'm not guessing. The trace shows the start and end times of all queries, and a graph on all 5000 values shows that they are executing concurrently (i.e. start/end segments clearly overlap for different spids). – Triynko May 23 '09 at 20:19

How large is your database? How fast are your HDDs / Raid / Other storage

Perhaps your DB is I/O bound?

share|improve this answer
    
The DB is a few GB. There are 5 drives, (four 73GB and one 300GB), Serial Attached SCSI, 3, 15K, 3.5, SG2, 15K5. The raid is a mystery honestly (haven't restarted server to check), and I wasn't here when it was set up. They show up as a single 135GB drive in windows. Is there a way to determine if the DB is I/O bound? – Triynko May 26 '09 at 13:45

My first inclination is that you're trying to solve an IO problem with threads, which almost never works. IO is IO, and more threads doesn't increase the pipe. You'd be better off downloading all questions and their answers in one batch and processing the batch locally with multiple threads.

Having said that, you're probably experiencing some db locking that is causing slowness. Since you're talking about read-only queries, try using the with (nolock) hint on your queries to see if that helps.

Regarding SQL server processing, it is my understanding that SQL Server will try to process as many connections concurrently as possible (one statement at a time per connection), up to the max connections allowed by configuration. The kind if issue you're seeing is almost never a thread issue and almost always a locking or IO problem.

share|improve this answer
    
The threads were introduced specifically to allow processing while database transactions are going on and to attempt to ensure queries are running in parallel to take advantage of the multiple processors, because without multi-threading, each question would block waiting for database activity. Threads definitely help in that area, but the IO is indeed a separate factor among others. – Triynko May 21 '09 at 22:05
    
While using nolock may boost overall query performance (for both serial and parallel runtime), I'm not interested in that; I'm interested in why the parallel version isn't running a lot faster. The queries involve accessing 'tree' structures, so I can't risk reading uncommitted rows with nolock, since other utilities may modify the scoring trees at any time. – Triynko May 21 '09 at 22:15
    
The point of nolock is to avoid locking operations that may be delaying your queries. If query1 is accessing 15 records, it may lock several more than that. If query2 attempts to access any of the nearby locked records, it won't be able to run in parallel - it has to wait for the lock to free up. – Chris May 21 '09 at 23:53
    
Read-only queries shouldn't interfere with each other by default; a read-lock shouldn't prevent another query from reading the same rows, only writing to them. Avoiding the read-lock altogether with 'nolock' does reduce the overall running time by a couple seconds, but that's still not the kind of performance gain I'm expecting for parallelizing things on an 8 processor machine. Perhaps this is just an I/O problem. – Triynko May 23 '09 at 20:42

is it possible that the the threads share a connection? did you verify that multiple SPIDs are created when this runs (sp_who)?

share|improve this answer
    
Each thread calls a method which constructs a new SqlConnection object and opens it; so unless the framework is doing something goofy with connection pooling (maybe it is?), then the threads do not share a connection. – Triynko May 21 '09 at 21:56
    
@Triynko, unless you check, you can't be sure what is happening. run sp_who, then run your program, and while it is running run sp_who again, you can then see if you have 4 processes running in the database. – KM. May 22 '09 at 18:27
    
@KM, I ran sp_who before/during execution, and new spids equal to the number of running threads appear. Each spid has 9 entries, with ecids of 0 through 8. They all are all 'select' commands. So it appears that there are indeed multiple simultaneous connections being made as expected. – Triynko May 23 '09 at 18:44
    
@Triynko, so you can now concentrate on the database, you have 4 "users" hitting the same tables at the same time. you can use traditional DB techniques to make sure they are not slowing down each other. – KM. May 26 '09 at 16:00

I ran a join query across sys.dm_os_workers, sys.dm_os_tasks, and sys.dm_exec_requests on task_address, and here are the results (some uninteresting/zero-valued fields excluded, others prefixed with ex or os to resolve ambiguities):

-COL_NAME-  -Thread_1-	-Thread_2-	-Thread_3-	-Thread_4-

task_state  SUSPENDED	SUSPENDED	SUSPENDED	SUSPENDED
context_switches_count  2	2	2	2
worker_address  0x3F87A0E8	0x5993E0E8	0x496C00E8	0x366FA0E8
is_in_polling_io_completion_routine 0	0	0	0
pending_io_count    0	0	0	0
pending_io_byte_count   0	0	0	0
pending_io_byte_average 0	0	0	0
wait_started_ms_ticks   1926478171	1926478187	1926478171	1926478187
wait_resumed_ms_ticks   1926478171	1926478187	1926478171	1926478187
task_bound_ms_ticks 1926478171	1926478171	1926478156	1926478171
worker_created_ms_ticks 1926137937	1923739218	1921736640	1926137890
locale  1033	1033	1033	1033
affinity    1	4	8	32
state   SUSPENDED	SUSPENDED	SUSPENDED	SUSPENDED
start_quantum   3074730327955210	3074730349757920	3074730321989030	3074730355017750
end_quantum 3074730334339210	3074730356141920	3074730328373030	3074730361401750
quantum_used    6725	11177	11336	6284
max_quantum 4	15	5	20
boost_count 999	999	999	999
tasks_processed_count   765	1939	1424	314
os.task_address 0x006E8A78	0x00AF12E8	0x00B84C58	0x00D2CB68
memory_object_address   0x3F87A040	0x5993E040	0x496C0040	0x366FA040
thread_address  0x7FF08E38	0x7FF8CE38	0x7FF0FE38	0x7FF92E38
signal_worker_address   0x4D7DC0E8	0x571360E8	0x2F8560E8	0x4A9B40E8
scheduler_address   0x006EC040	0x00AF4040	0x00B88040	0x00E40040
os.request_id   0	0	0	0
start_time  2009-05-26 19:39	39:43.2	39:43.2	39:43.2
ex.status   suspended	suspended	suspended	suspended
command SELECT	SELECT	SELECT	SELECT
sql_handle  0x020000009355F1004BDC90A51664F9174D245A966E276C61	0x020000009355F1004D8095D234D39F77117E1BBBF8108B26	0x020000009355F100FC902C84A97133874FBE4CA6614C80E5	0x020000009355F100FC902C84A97133874FBE4CA6614C80E5
statement_start_offset  94	94	94	94
statement_end_offset    -1	-1	-1	-1
plan_handle 0x060007009355F100B821C414000000000000000000000000	0x060007009355F100B8811331000000000000000000000000	0x060007009355F100B801B259000000000000000000000000	0x060007009355F100B801B259000000000000000000000000
database_id 7	7	7	7
user_id 1	1	1	1
connection_id   BABF5455-409B-4F4C-9BA5-B53B35B11062	A2BBCACF-D227-466A-AB08-6EBB56F34FF2	D330EDFE-D49B-4148-B7C5-8D26FE276D30	649F0EC5-CB97-4B37-8D4E-85761847B403
blocking_session_id 0	0	0	0
wait_type   CXPACKET	CXPACKET	CXPACKET	CXPACKET
wait_time   46	31	46	31
ex.last_wait_type   CXPACKET	CXPACKET	CXPACKET	CXPACKET
wait_resource   			
open_transaction_count  0	0	0	0
open_resultset_count    1	1	1	1
transaction_id  3052202	3052211	3052196	3052216
context_info    0x	0x	0x	0x
percent_complete    0	0	0	0
estimated_completion_time   0	0	0	0
cpu_time    0	0	0	0
total_elapsed_time  54	41	65	39
reads   0	0	0	0
writes  0	0	0	0
logical_reads   78745	123090	78672	111966
text_size   2147483647	2147483647	2147483647	2147483647
arithabort  0	0	0	0
transaction_isolation_level 2	2	2	2
lock_timeout    -1	-1	-1	-1
deadlock_priority   0	0	0	0
row_count   6	0	1	1
prev_error  0	0	0	0
nest_level  2	2	2	2
granted_query_memory    512	512	512	512

The query plan predictor for all queries shows a couple nodes, 0% for select, and 100% for a clustered index seek.

Edit: The fields and values I left out where (same for all 4 threads, except for context_switch_count): exec_context_id(0), host_address(0x00000000), status(0), is_preemptive(0), is_fiber(0), is_sick(0), is_in_cc_exception(0), is_fatal_exception(0), is_inside_catch(0), context_switch_count(3-89078), exception_num(0), exception_Severity(0), exception_address(0x00000000), return_code(0), fiber_address(NULL), language(us_english), date_format(mdy), date_first(7), quoted_identifier(1), ansi_defaults(0), ansi_warnings(1), ansi_padding(1), ansi_nulls(1), concat_null_yields_null(1), executing_managed_code(0)

share|improve this answer
    
You did not include the threads started by the parallel plan – Remus Rusanu May 27 '09 at 17:31
    
The other threads where all there before my four threads appeared, and they all have a status of 'background'. So there were 10 threads before my application started, and 14 threads while it was running. The original 10 threads had the following commands: RESOURCE MONITOR, LAZY WRITER, LOCK MONITOR, SIGNAL HANDLER, TRACE, QUEUE TASK, BRKR TASK, TASK MANAGER, BRKR EVENT HNDLR, BRKR TASK. My 4 threads all had the command: SELECT. – Triynko May 28 '09 at 13:01

You can simply check the task manager when the process is running. If it's showing 100% CPU usage then its CPU bound. Otherwise its IO Bound.

For hyperthreading 50% CPU usage is roughly equal to 100% usage!

Wow I didn't realize how old the thread was. I guess its always good to leave the response for others looking.

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