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Replace these with versions built using an older toolset (so as to avoid ABI compatibilities when linking on Ubuntu 14.04 for packaging purposes)
author Chris Cannam
date Fri, 07 Feb 2020 11:51:13 +0000
parents 37bf6b4a2645
children
rev   line source
Chris@10 1 <html lang="en">
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Chris@10 3 <title>Multi-threaded FFTW - FFTW 3.3.3</title>
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Chris@10 11 <!--
Chris@10 12 This manual is for FFTW
Chris@10 13 (version 3.3.3, 25 November 2012).
Chris@10 14
Chris@10 15 Copyright (C) 2003 Matteo Frigo.
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Chris@10 17 Copyright (C) 2003 Massachusetts Institute of Technology.
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Chris@10 47 <div class="node">
Chris@10 48 <a name="Multi-threaded-FFTW"></a>
Chris@10 49 <a name="Multi_002dthreaded-FFTW"></a>
Chris@10 50 <p>
Chris@10 51 Next:&nbsp;<a rel="next" accesskey="n" href="Distributed_002dmemory-FFTW-with-MPI.html#Distributed_002dmemory-FFTW-with-MPI">Distributed-memory FFTW with MPI</a>,
Chris@10 52 Previous:&nbsp;<a rel="previous" accesskey="p" href="FFTW-Reference.html#FFTW-Reference">FFTW Reference</a>,
Chris@10 53 Up:&nbsp;<a rel="up" accesskey="u" href="index.html#Top">Top</a>
Chris@10 54 <hr>
Chris@10 55 </div>
Chris@10 56
Chris@10 57 <h2 class="chapter">5 Multi-threaded FFTW</h2>
Chris@10 58
Chris@10 59 <p><a name="index-parallel-transform-326"></a>In this chapter we document the parallel FFTW routines for
Chris@10 60 shared-memory parallel hardware. These routines, which support
Chris@10 61 parallel one- and multi-dimensional transforms of both real and
Chris@10 62 complex data, are the easiest way to take advantage of multiple
Chris@10 63 processors with FFTW. They work just like the corresponding
Chris@10 64 uniprocessor transform routines, except that you have an extra
Chris@10 65 initialization routine to call, and there is a routine to set the
Chris@10 66 number of threads to employ. Any program that uses the uniprocessor
Chris@10 67 FFTW can therefore be trivially modified to use the multi-threaded
Chris@10 68 FFTW.
Chris@10 69
Chris@10 70 <p>A shared-memory machine is one in which all CPUs can directly access
Chris@10 71 the same main memory, and such machines are now common due to the
Chris@10 72 ubiquity of multi-core CPUs. FFTW's multi-threading support allows
Chris@10 73 you to utilize these additional CPUs transparently from a single
Chris@10 74 program. However, this does not necessarily translate into
Chris@10 75 performance gains&mdash;when multiple threads/CPUs are employed, there is
Chris@10 76 an overhead required for synchronization that may outweigh the
Chris@10 77 computatational parallelism. Therefore, you can only benefit from
Chris@10 78 threads if your problem is sufficiently large.
Chris@10 79 <a name="index-shared_002dmemory-327"></a><a name="index-threads-328"></a>
Chris@10 80
Chris@10 81 <ul class="menu">
Chris@10 82 <li><a accesskey="1" href="Installation-and-Supported-Hardware_002fSoftware.html#Installation-and-Supported-Hardware_002fSoftware">Installation and Supported Hardware/Software</a>
Chris@10 83 <li><a accesskey="2" href="Usage-of-Multi_002dthreaded-FFTW.html#Usage-of-Multi_002dthreaded-FFTW">Usage of Multi-threaded FFTW</a>
Chris@10 84 <li><a accesskey="3" href="How-Many-Threads-to-Use_003f.html#How-Many-Threads-to-Use_003f">How Many Threads to Use?</a>
Chris@10 85 <li><a accesskey="4" href="Thread-safety.html#Thread-safety">Thread safety</a>
Chris@10 86 </ul>
Chris@10 87
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Chris@10 90