NAME

MCE - Many-Core Engine for Perl providing parallel processing capabilities

VERSION

This document describes MCE version 1.889

Many-Core Engine (MCE) for Perl helps enable a new level of performance by maximizing all available cores.

MCE

DESCRIPTION

MCE spawns a pool of workers and therefore does not fork a new process per each element of data. Instead, MCE follows a bank queuing model. Imagine the line being the data and bank-tellers the parallel workers. MCE enhances that model by adding the ability to chunk the next n elements from the input stream to the next available worker.

Bank Queuing Model

SYNOPSIS

This is a simplistic use case of MCE running with 5 workers.

 # Construction using the Core API

 use MCE;

 my $mce = MCE->new(
    max_workers => 5,
    user_func => sub {
       my ($mce) = @_;
       $mce->say("Hello from " . $mce->wid);
    }
 );

 $mce->run;

 # Construction using a MCE model

 use MCE::Flow max_workers => 5;

 mce_flow sub {
    my ($mce) = @_;
    MCE->say("Hello from " . MCE->wid);
 };

The following is a demonstration for parsing a huge log file in parallel.

 use MCE::Loop;

 MCE::Loop->init( max_workers => 8, use_slurpio => 1 );

 my $pattern  = 'something';
 my $hugefile = 'very_huge.file';

 my @result = mce_loop_f {
    my ($mce, $slurp_ref, $chunk_id) = @_;

    # Quickly determine if a match is found.
    # Process the slurped chunk only if true.

    if ($$slurp_ref =~ /$pattern/m) {
       my @matches;

       # The following is fast on Unix, but performance degrades
       # drastically on Windows beyond 4 workers.

       open my $MEM_FH, '<', $slurp_ref;
       binmode $MEM_FH, ':raw';
       while (<$MEM_FH>) { push @matches, $_ if (/$pattern/); }
       close   $MEM_FH;

       # Therefore, use the following construction on Windows.

       while ( $$slurp_ref =~ /([^\n]+\n)/mg ) {
          my $line = $1; # save $1 to not lose the value
          push @matches, $line if ($line =~ /$pattern/);
       }

       # Gather matched lines.

       MCE->gather(@matches);
    }

 } $hugefile;

 print join('', @result);

The next demonstration loops through a sequence of numbers with MCE::Flow.

 use MCE::Flow;

 my $N = shift || 4_000_000;

 sub compute_pi {
    my ( $beg_seq, $end_seq ) = @_;
    my ( $pi, $t ) = ( 0.0 );

    foreach my $i ( $beg_seq .. $end_seq ) {
       $t = ( $i + 0.5 ) / $N;
       $pi += 4.0 / ( 1.0 + $t * $t );
    }

    MCE->gather( $pi );
 }

 # Compute bounds only, workers receive [ begin, end ] values

 MCE::Flow->init(
    chunk_size  => 200_000,
    max_workers => 8,
    bounds_only => 1
 );

 my @ret = mce_flow_s sub {
    compute_pi( $_->[0], $_->[1] );
 }, 0, $N - 1;

 my $pi = 0.0;  $pi += $_ for @ret;

 printf "pi = %0.13f\n", $pi / $N;  # 3.1415926535898

CORE MODULES

Four modules make up the core engine for MCE.

MCE::Core

This is the POD documentation describing the core Many-Core Engine (MCE) API. Go here for help with the various MCE options. See also, MCE::Examples for additional demonstrations.

MCE::Mutex

Provides a simple semaphore implementation supporting threads and processes. Two implementations are provided; one via pipes or socket depending on the platform and the other using Fcntl.

MCE::Signal

Provides signal handling, temporary directory creation, and cleanup for MCE.

MCE::Util

Provides utility functions for MCE.

MCE EXTRAS

There are 5 add-on modules for use with MCE.

MCE::Candy

Provides a collection of sugar methods and output iterators for preserving output order.

MCE::Channel

Introduced in MCE 1.839, provides queue-like and two-way communication capability. Three implementations Simple, Mutex, and Threads are provided. Simple does not involve locking whereas Mutex and Threads do locking transparently using MCE::Mutex and threads respectively.

MCE::Child

Also introduced in MCE 1.839, provides a threads-like parallelization module that is compatible with Perl 5.8. It is a fork of MCE::Hobo. The difference is using a common MCE::Channel object when yielding and joining.

MCE::Queue

Provides a hybrid queuing implementation for MCE supporting normal queues and priority queues from a single module. MCE::Queue exchanges data via the core engine to enable queuing to work for both children (spawned from fork) and threads.

MCE::Relay

Provides workers the ability to receive and pass information orderly with zero involvement by the manager process. This module is loaded automatically by MCE when specifying the init_relay MCE option.

MCE MODELS

The MCE models are sugar syntax on top of the MCE::Core API. Two MCE options (chunk_size and max_workers) are configured automatically. Moreover, spawning workers and later shutdown occur transparently behind the scene.

Choosing a MCE Model largely depends on the application. It all boils down to how much automation you need MCE to handle transparently. Or if you prefer, constructing the MCE object and running using the core MCE API is fine too.

MCE::Grep

Provides a parallel grep implementation similar to the native grep function.

MCE::Map

Provides a parallel map implementation similar to the native map function.

MCE::Loop

Provides a parallel for loop implementation.

MCE::Flow

Like MCE::Loop, but with support for multiple pools of workers. The pool of workers are configured transparently via the MCE user_tasks option.

MCE::Step

Like MCE::Flow, but adds a MCE::Queue object between each pool of workers. This model, introduced in 1.506, allows one to pass data forward (left to right) from one sub-task into another with little effort.

MCE::Stream

This provides an efficient parallel implementation for chaining multiple maps and greps transparently. Like MCE::Flow and MCE::Step, it too supports multiple pools of workers. The distinction is that MCE::Stream passes data from right to left and done for you transparently.

MISCELLANEOUS

Miscellaneous additions included with the distribution.

MCE::Examples

Describes various demonstrations for MCE including a Monte Carlo simulation.

MCE::Subs

Exports functions mapped directly to MCE methods; e.g. mce_wid. The module allows 3 options; :manager, :worker, and :getter.

REQUIREMENTS

Perl 5.8.0 or later.

SOURCE AND FURTHER READING

The source and examples are hosted at GitHub.

SEE ALSO

Refer to the MCE::Core documentation where the API is described.

MCE::Shared provides data sharing capabilities for MCE. It includes MCE::Hobo for running code asynchronously with the IPC handled by the shared-manager process.

AUTHOR

Mario E. Roy, <marioeroy AT gmail DOT com>

COPYRIGHT AND LICENSE

Copyright (C) 2012-2023 by Mario E. Roy

MCE is released under the same license as Perl.

See https://dev.perl.org/licenses/ for more information.