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We have huge record set on AIX box that we send over network to Linux box and process it. Each record is about 277 bytes in size.

complete flow is like:

i) Program A sends records to java process B (both on AIX box).

ii) Java process B on AIX sends the records to java Program C on linux. Both are communicating through java sockets where B is client and C is server.

iii) Program C processes each record and sends an ACK back to Program B.

iv) Program B sends ACK back to Program A, which then sends next record.

I tihnk all these ACKs eat up the network and overall process is becoming very slow. For eg. in latest run, it processed 330,000 records in 4 hours and then we got a socket reset and client failed.

I was trying to find out that what would be better protocol in this case to have less network traffic and finish up faster. 330,000 records in 4 hours is really slow as processing each record on Program C takes less than 5-10 seconds but over-all flow is such that we are facing this slowness issue.

Thanks in advance,


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why are you sending the records one by one? –  Mat Apr 26 '11 at 17:31
@Mat - This is limitation of the client. The client will send records one by one only. I cannot control it. –  user656189 Apr 27 '11 at 18:30

2 Answers 2

up vote 1 down vote accepted

Waiting for the ack to go all the way back to A before sending the next record will definitely slow you down because C is essentially idle while this is happening. Why don't you move to a queuing architecture? Why not create a persistent queue on C which can receive the records from A (via B) and then have one (or many) processors for this queue sitting on C.

This way you decouple how fast A can send from how fast C can process them. A's ack becomes the fact that the message was delivered to the queue successfully. I would use HornetQ for this purpose.


The HornetQ getting-started guide is here.

If you can't use this, for the simplest non-persistent in-memory queue, simply use a ThreadPoolExecutor from Java's concurrency libraries. You create a ThreadPoolExecutor like this:

new ThreadPoolExecutor(
    threadPoolSize, threadPoolSize, KEEP_ALIVE, MILLISECONDS,
    new LinkedBlockingQueue<Runnable>(queueSize), ThreadPoolExecutor.DiscardOldestPolicy.discardOldest());

Where queueSize can be MAX_INT. You call execute() with a Runnable on the ThreadPool to get tasks to be carried out. So your receiving code in C can simply pop these Runnables created and parameterized with the Record on to the ThreadPool and then return the ack immediately to A (via B).

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@alpian - good advice. If B sends ACK back to A and then sends all recors to B, would C be able to handle and process so many records that B is sending to it ? Could you point to some example of presistent queue at C to deal with this situation so that C is able to receive all messages from B and not drop anything. Just bit confused how C will handle a huge load of messages coming from B. Also I cannot use any open-saource or third party tools. So, I have to restrict myself to what java provides.. –  user656189 Apr 26 '11 at 18:08
@user656189: C's persistent queue would be handled by a HornetQ server. Basically, HornetQ would write them to disk (a journal) on C and the processor on C would pick them up and process them. All this is handled by the API - you just need to write a MessageConsumer. Therefore as long as you have enough disk space on C there's no theoretical limit to the number of messages you can receive. If the acks aren't critical and you want it to go faster, you could just have a non-persistent queue instead. –  alpian Apr 26 '11 at 18:27
@alpian - appreciate your response ! I cannot go outside Java for any open source/thrid party tool. Could you point me to some non-persistent queue example. –  user656189 Apr 26 '11 at 19:06
HornetQ is an open-source Java tool/library. I'm not sure if you can use it - it's open source. If you can only use the JDK then you can easily implement a non-persistent queue by using Java concurrency. I'll add the link and example to the answer. –  alpian Apr 26 '11 at 21:24
@alpian - I got it working without any queue. But just sending one ack after few thousand records rather than 1 ack after every record. –  user656189 Apr 27 '11 at 16:23

If each record takes 5 seconds, and there are 330,000 record, this should take 1,650,000 seconds which is 19 days. If you are taking 4 hours to process 330,000 records, are they not taking 43 ms.

One reason they might take 43 ms per request is if you are creating a closing a connection for each request. It could be sending most of its time creating/closing rather than doing. A simple way around this is to create a connection once, and only reconnect if there is an error.

If you use a persistent connection your overhead could drop below 100 micro-seconds per request.

Is there any reason you cannot send a batch of data of say 1000 records to process, which would return 1 ACK and cut the overhead by a factor of 1000?

share|improve this answer
We have one persistent connection for this transaction as you pointed out. Also your calculation for each record time is correct. It is not 5-10 sec but few micro seconds. I was also thinking of lines of 1 ACK for few thousand records, was just trying to verify it here. Thanks for the response ! –  user656189 Apr 26 '11 at 18:03

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