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I have MQ server 7.1 running in machine1. I have a java app running in machine 2, that uses JMS to write messages to a queue in machine 1. The java app handles hundreds of messages per second (data coming from else where). Currently it takes about 100ms for 200 text messages (average size 600 bytes) or 2000 messages per second to write messages to the queue. Is this reasonable performance. What are some of the things that one can do to improve the performance further. i.e. faster?

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2 Answers 2

up vote 7 down vote accepted

There are a number of detailed recommendations available in the WebSphere MQ Performance Reports. These are published as SupportPacs. If you start at the SupportPac landing page, the ones you want are all named MPxx and are available per-platform and per-version.

As you will see from the SupportPacs, WMQ out of the box is tuned for a balance of speed and reliability across a wide variation of message sizes and types. There is considerable latitude for tuning through configuration and through design/architecture.

From the configuration perspective, there are buffers for persistent and non-persistent messages, an option to reduce disk write integrity from triple-write to single-write, tuning of log file sizes and numbers, connection multiplexing, etc., etc. You may infer from this that the more the QMgr is tuned to specific traffic characteristics, the faster you can get it to go. The flip side of this is that a QMgr tuned that tightly will tend to react badly if a new type of traffic shows up that is outside the tuning specifications.

I have also seen tremendous performance improvement allocating the WMQ filesystems to separate spindles. When a persistent message is written, it goes both to queue files and to log files. If both of those filesystems are in contention for the same disk read/write heads, this can degrade performance. This is why WMQ can sometimes run slower on a high-performance laptop than on a virtual machine or server of approximately the same size. If the laptop has physical spinning disk where the WMQ filesystems are both allocated and the server has SAN, there's no comparison.

From a design standpoint, much performance can be gained from parallelism. The Performance reports show that adding more client connections significantly improves performance, up to a point where it then levels off and eventually begins to decline. Fortunately, the top number of clients before it falls off is VERY large and the web app server typically bogs down before WMQ does, just from the number of Java threads required.

Another implementation detail that can make a big difference is the commit interval. If the app is such that many messages can be put or got at a time, doing so improves performance. A persistent message under syncpoint doesn't need to be flushed to disk until the COMMIT occurs. Writing multiple messages in a single unit of work allows WMQ to return control to the program faster, buffer the writes and then optimize them much more efficiently than writing one message at a time.

The Of Mice and Elephants article contains additional in-depth discussion of tuning options. It is part of the developerWorks Mission:Messaging series which contains some other articles which also touch on tuning.

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Thanks much, this helped me a lot. Currently I am sending 100 messages in an XA transaction. I am able to insert 100 messages into the database as batch insert, thereby increasing performance. Is the commit interval approach for MQ something similar to batch insert for DB? This interests me and I will look into it. –  arrehman Feb 1 '12 at 19:56
By "commit interval" I'm just talking about how many messages the app reads and/or writes before issuing a COMMIT, not an MQ setting. Some applications (like request/reply) work best with one message in a unit of work. But for something like a batch load or a transformation, it's possible to read in a message, write out the resulting message and loop around, only issuing COMMIT for every x iterations. Since the DB is batching well @ 100 updates per transaction, the obvious thing is to include the WMQ messages in the XA transaction resulting in a WMQ commit interval of 100. –  T.Rob Feb 1 '12 at 21:01
Rob, this is precisely what I am doing now. 100 records db as batch insert and 100 messages to a queue (100 sends), all within XA transaction. The queue depth on the queue gets incremented by 100. So this is working for me. –  arrehman Feb 1 '12 at 23:33
Would you say 2000 messages (1k texts) per second is decent performance? As you suggested I can look into turning the queue to tweak out more performance. Thanks. –  arrehman Feb 1 '12 at 23:34
There's too many unknown variables to say if that's a good number. The most basic being whether these messages are persistent or not. The amount of CPU, memory and bandwidth would need to be considered. Because these are XA transactions, the latency of the DB and transaction coordination plays a large role. It would not surprise me if the bottleneck was actually the XA transaction, in which case WMQ tuning would not help much, if at all. One way to tell is to run a trace or the MA0W SupportPac and see where the latency is. On avg, 2k persistent mps with XA is very good. –  T.Rob Feb 2 '12 at 5:28

I recommend to see this: Configuring and tuning WebSphere MQ for performance on Windows and UNIX

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Note that link-only answers are discouraged, SO answers should be the end-point of a search for a solution (vs. yet another stopover of references, which tend to get stale over time). Please consider adding a stand-alone synopsis here, keeping the link as a reference. –  kleopatra Jan 13 '14 at 9:49

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