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So usually for 20 node cluster submitting job to process 3GB(200 splits) of data takes about 30sec and actual execution about 1m. I want to understand what is the bottleneck in job submitting process and understand next quote

Per-MapReduce overhead is significant: Starting/ending MapReduce job costs time

Some process I'm aware: 1. data splitting 2. jar file sharing

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How many files make up the 3GB of data? how many map tasks are utilized by jobtracker to run this job? – Chris White Jul 6 '12 at 21:40
@yura: 30 sec or 30 min? – FourOfAKind Jul 6 '12 at 23:17
30 sec and about 300 mappers i.e. splits – yura Jul 7 '12 at 0:18
@yura: 200 splits is the issue then. ideally you should have 30-35 splits for a 3 GB data. On a 20 node cluster with even 2 max parallel mappers, you would take 60 seconds to 90 seconds to compute the job – pyfunc Jul 7 '12 at 0:25
FYI .... input split calculation has been moved from the client to the MR cluster in the 0.23 release (YARN). There had been cases where the CPU on the client went like 100% for calculating the InputSplits and took a lot of time. – Praveen Sripati Jul 7 '12 at 3:27
up vote 11 down vote accepted

A few things to understand about HDFS and M/R that helps understand this latency:

  1. HDFS stores your files as data chunk distributed on multiple machines called datanodes
  2. M/R runs multiple programs called mapper on each of the data chunks or blocks. The (key,value) output of these mappers are compiled together as result by reducers. (Think of summing various results from multiple mappers)
  3. Each mapper and reducer is a full fledged program that is spawned on these distributed system. It does take time to spawn a full fledged programs, even if let us say they did nothing (No-OP map reduce programs).
  4. When the size of data to be processed becomes very big, these spawn times become insignificant and that is when Hadoop shines.

If you were to process a file with a 1000 lines content then you are better of using a normal file read and process program. Hadoop infrastructure to spawn a process on a distributed system will not yield any benefit but will only contribute to the additional overhead of locating datanodes containing relevant data chunks, starting the processing programs on them, tracking and collecting results.

Now expand that to 100 of Peta Bytes of data and these overheads looks completely insignificant compared to time it would take to process them. Parallelization of the processors (mappers and reducers) will show it's advantage here.

So before analyzing the performance of your M/R, you should first look to benchmark your cluster so that you understand the overheads better.

How much time does it take to do a no-operation map-reduce program on a cluster?

Use MRBench for this purpose:

  1. MRbench loops a small job a number of times
  2. Checks whether small job runs are responsive and running efficiently on your cluster.
  3. Its impact on the HDFS layer is very limited

To run this program, try the following (Check the correct approach for latest versions:

hadoop jar /usr/lib/hadoop-0.20/hadoop-test.jar mrbench -numRuns 50

Surprisingly on one of our dev clusters it was 22 seconds.

Another issue is file size.

If the file sizes are less than the HDFS block size then Map/Reduce programs have significant overhead. Hadoop will typically try to spawn a mapper per block. That means if you have 30 5KB files, then Hadoop may end up spawning 30 mappers eventually per block even if the size of file is small. This is a real wastage as each program overhead is significant compared to the time it would spend processing the small sized file.

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Look at the small files problem article when there are too many small files. – Praveen Sripati Jul 7 '12 at 3:30
is it possible to use my own mapreduce job jar file for mrbench? – Pa Rö Jun 18 '15 at 8:36

As far as I know, there is no single bottleneck which causes the job run latency; if there was, it would have been solved a long time ago.

There are a number of steps which takes time, and there are reasons why the process is slow. I will try to list them and estimate where I can:

  1. Run hadoop client. It is running Java, and I think about 1 second overhead can be assumed.
  2. Put job into the queue and let the current scheduler to run the job. I am not sure what is overhead, but, because of async nature of the process some latency should exists.
  3. Calculating splits.
  4. Running and syncronizing tasks. Here we face with the fact that TaskTrackes poll the JobTracker, and not opposite. I think it is done for the scalability sake. It mean that when JobTracker wants to execute some task, it do not call task tracker, but wait that approprieate tracker will ping it to get the job. Task trackers can not ping JobTracker to frequently, otherwise they will kill it in large clusters.
  5. Running tasks. Without JVM reuse it takes about 3 seconds, with it overhead is about 1 seconds per task.
  6. Client poll job tracker for the results (at least I think so) and it also add some latency to getting information that job is finished.
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