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Package org.apache.hadoop.examples.pi

This package consists of a map/reduce application, distbbp, which computes exact binary digits of the mathematical constant π.

See: Description

Package org.apache.hadoop.examples.pi Description

This package consists of a map/reduce application, distbbp, which computes exact binary digits of the mathematical constant π. distbbp is designed for computing the nth bit of π, for large n, say n > 100,000,000. For computing the lower bits of π, consider using bbp.

The distbbp Program

The main class is DistBbp and the actually computation is done by DistSum jobs. The steps for launching the jobs are:
  1. Initialize parameters.
  2. Create a list of sums.
  3. Read computed values from the given local directory.
  4. Remove the computed values from the sums.
  5. Partition the remaining sums into computation jobs.
  6. Submit the computation jobs to a cluster and then wait for the results.
  7. Write job outputs to the given local directory.
  8. Combine the job outputs and print the π bits.

The Bits of π

The table on the right are the results computed by distbbp.

  • Row 0 to Row 7
    • They were computed by a single machine.
    • A single run of Row 7 took several seconds.
  • Row 8 to Row 14
    • They were computed by a 7600-task-capacity cluster.
    • A single run of Row 14 took 27 hours.
    • The computations in Row 13 and Row 14 were completed on May 20, 2009. It seems that the corresponding bits were never computed before.
  • The first part of Row 15 (6216B06)
    • The first 30% of the computation was done in idle cycles of some clusters spread over 20 days.
    • The remaining 70% was finished over a weekend on Hammer, a 30,000-task-capacity cluster, which was also used for the petabyte sort benchmark.
    • The log files are available here.
    • The result was posted in this YDN blog.
  • The second part of Row 15 (D3611)
    • The starting position is 1,000,000,000,000,053, totally 20 bits.
    • Two computations, at positions n and n+4, were performed.
    • A single computation was divided into 14,000 jobs and totally 7,000,000 tasks. It took 208 years of CPU-time or 12 days of cluster (with 7600-task-capacity) time.
    • The log files are available here.
    • The computations were completed on June 30, 2009. The last bit, the 1,000,000,000,000,072nd bit, probably is the highest bit (or the least significant bit) of π computed ever in the history.
Position nπ bits (in hex) starting at n
01243F6A8885A3*
111FDAA22168C23
21013707344A409
31,001574E69A458F
410,00144EC5716F2B
5100,001944F7A204
61,000,0016FFFA4103
710,000,0016CFDD54E3
8100,000,001A306CFA7
91,000,000,0013E08FF2B
1010,000,000,0010A8BD8C0
11100,000,000,001B2238C1
121,000,000,000,0010FEE563
1310,000,000,000,001896DC3
14100,000,000,000,001C216EC
151,000,000,000,000,0016216B06 ... D3611

* By representing π in decimal, hexadecimal and binary, we have

    π=3.1415926535 8979323846 2643383279 ...
    =3.243F6A8885 A308D31319 8A2E037073 ...
    =11.0010010000 1111110110 1010100010 ...
The first ten bits of π are 0010010000.

Command Line Usages

The command line format is: And the parameters are: Note that it may take a long time to finish all the jobs when <b> is large. If the program is killed in the middle of the execution, the same command with a different <remoteDir> can be used to resume the execution. For example, suppose we use the following command to compute the (10^15+57)th bit of π. It uses 20 threads to summit jobs so that there are at most 20 concurrent jobs. Each sum (there are totally 14 sums) is partitioned into 1000 jobs. The jobs will be executed in map-side or reduce-side. Each job has 500 parts. The remote directory for the jobs is remote/a and the local directory for storing output is local/output. Depends on the cluster configuration, it may take many days to finish the entire execution. If the execution is killed, we may resume it by
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