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annotate fft/fftw/fftw-3.3.4/tools/fftw-wisdom.1 @ 40:223f770b5341 kissfft-double tip

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Try a double-precision kissfft
author Chris Cannam
date Wed, 07 Sep 2016 10:40:32 +0100
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Chris@19 1 .\"
Chris@19 2 .\" Copyright (c) 2003, 2007-14 Matteo Frigo
Chris@19 3 .\" Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
Chris@19 4 .\"
Chris@19 5 .\" This program is free software; you can redistribute it and/or modify
Chris@19 6 .\" it under the terms of the GNU General Public License as published by
Chris@19 7 .\" the Free Software Foundation; either version 2 of the License, or
Chris@19 8 .\" (at your option) any later version.
Chris@19 9 .\"
Chris@19 10 .\" This program is distributed in the hope that it will be useful,
Chris@19 11 .\" but WITHOUT ANY WARRANTY; without even the implied warranty of
Chris@19 12 .\" MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
Chris@19 13 .\" GNU General Public License for more details.
Chris@19 14 .\"
Chris@19 15 .\" You should have received a copy of the GNU General Public License
Chris@19 16 .\" along with this program; if not, write to the Free Software
Chris@19 17 .\" Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Chris@19 18 .\"
Chris@19 19 .TH FFTW-WISDOM 1 "February, 2003" "fftw" "fftw"
Chris@19 20 .SH NAME
Chris@19 21 fftw\-wisdom \- create wisdom (pre-optimized FFTs)
Chris@19 22 .SH SYNOPSIS
Chris@19 23 .B fftw\-wisdom
Chris@19 24 [\fIOPTION\fR]... [\fISIZE\fR]...
Chris@19 25 .SH DESCRIPTION
Chris@19 26 .PP
Chris@19 27 .\" Add any additional description here
Chris@19 28 .I fftw\-wisdom
Chris@19 29 is a utility to generate FFTW
Chris@19 30 .B wisdom
Chris@19 31 files, which contain saved information about how to optimally compute
Chris@19 32 (Fourier) transforms of various sizes. FFTW is a free library to
Chris@19 33 compute discrete Fourier transforms in one or more dimensions, for
Chris@19 34 arbitrary sizes, and of both real and complex data, among other
Chris@19 35 related operations. More information on FFTW can be found at the FFTW
Chris@19 36 home page:
Chris@19 37 .I http://www.fftw.org
Chris@19 38
Chris@19 39 Programs using FFTW can be written to load wisdom from an arbitrary file,
Chris@19 40 string, or other source. Moreover, it is likely that many FFTW-using
Chris@19 41 programs will load the \fBsystem wisdom\fR file, which is stored in
Chris@19 42 .I /etc/fftw/wisdom
Chris@19 43 by default.
Chris@19 44 .I fftw\-wisdom
Chris@19 45 can be used to create or add to such wisdom files. In its most
Chris@19 46 typical usage, the wisdom file can be created to pre-plan a canonical
Chris@19 47 set of sizes (see below) via:
Chris@19 48
Chris@19 49 .ce
Chris@19 50 fftw\-wisdom \-v \-c \-o wisdom
Chris@19 51
Chris@19 52 (this will take many hours, which can be limited by the
Chris@19 53 .B \-t
Chris@19 54 option) and the output
Chris@19 55 .I wisdom
Chris@19 56 file can then be copied (as root) to
Chris@19 57 .I /etc/fftw/
Chris@19 58 or whatever.
Chris@19 59
Chris@19 60 The
Chris@19 61 .I fftw\-wisdom
Chris@19 62 program normally writes the wisdom directly to standard output, but this
Chris@19 63 can be changed via the
Chris@19 64 .B \-o
Chris@19 65 option, as in the example above.
Chris@19 66
Chris@19 67 If the system wisdom file
Chris@19 68 .I /etc/fftw/wisdom
Chris@19 69 already exists, then
Chris@19 70 .I fftw\-wisdom
Chris@19 71 reads this existing wisdom (unless the
Chris@19 72 .B \-n
Chris@19 73 option is specified) and outputs both the old wisdom and any
Chris@19 74 newly created wisdom. In this way, it can be used to add new transform
Chris@19 75 sizes to the existing system wisdom (or other wisdom file, with the
Chris@19 76 .B \-w
Chris@19 77 option).
Chris@19 78 .SH SPECIFYING SIZES
Chris@19 79 Although a canonical set of sizes to optimize is specified by the
Chris@19 80 .B \-c
Chris@19 81 option, the user can also specify zero or more non-canonical transform
Chris@19 82 sizes and types to optimize, via the
Chris@19 83 .I SIZE
Chris@19 84 arguments following the option flags. Alternatively, the sizes to
Chris@19 85 optimize can be read from standard input (whitespace-separated), if a
Chris@19 86 .I SIZE
Chris@19 87 argument of "\-" is supplied.
Chris@19 88
Chris@19 89 Sizes are specified by the syntax:
Chris@19 90
Chris@19 91 .ce
Chris@19 92 <\fItype\fR><\fIinplace\fR><\fIdirection\fR><\fIgeometry\fR>
Chris@19 93
Chris@19 94 <\fItype\fR> is either \'c\' (complex), \'r\' (real, r2c/c2r), or
Chris@19 95 \'k\' (r2r, per-dimension kinds, specified in the geometry, below).
Chris@19 96
Chris@19 97 <\fIinplace\fR> is either \'i\' (in place) or \'o\' (out of place).
Chris@19 98
Chris@19 99 <\fIdirection\fR> is either \'f\' (forward) or \'b\' (backward). The
Chris@19 100 <\fIdirection\fR> should be omitted for \'k\' transforms, where it is
Chris@19 101 specified via the geometry instead.
Chris@19 102
Chris@19 103 <\fIgeometry\fR> is the size and dimensionality of the transform,
Chris@19 104 where different dimensions are separated by \'x\' (e.g. \'16x32\' for
Chris@19 105 a two-dimensional 16 by 32 transform). In the case of \'k\'
Chris@19 106 transforms, the size of each dimension is followed by a "type" string,
Chris@19 107 which can be one of f/b/h/e00/e01/e10/e11/o00/o01/o10/o11 for
Chris@19 108 R2HC/HC2R/DHT/REDFT00/.../RODFT11, respectively, as defined in the
Chris@19 109 FFTW manual.
Chris@19 110
Chris@19 111 For example, \'cif12x13x14\' is a three-dimensional 12 by 13 x 14
Chris@19 112 complex DFT operating in-place. \'rob65536\' is a one-dimensional
Chris@19 113 size-65536 out-of-place complex-to-real (backwards) transform
Chris@19 114 operating on Hermitian-symmetry input. \'ki10hx20e01\' is a
Chris@19 115 two-dimensional 10 by 20 r2r transform where the first dimension is a
Chris@19 116 DHT and the second dimension is an REDFT01 (DCT-III).
Chris@19 117
Chris@19 118 .SH OPTIONS
Chris@19 119 .TP
Chris@19 120 \fB\-h\fR, \fB\-\-help\fR
Chris@19 121 Display help on the command-line options and usage.
Chris@19 122 .TP
Chris@19 123 \fB\-V\fR, \fB\-\-version\fR
Chris@19 124 Print the version number and copyright information.
Chris@19 125 .TP
Chris@19 126 \fB\-v\fR, \fB\-\-verbose\fR
Chris@19 127 Verbose output. (You can specify this multiple times, or supply a numeric
Chris@19 128 argument greater than 1, to increase the verbosity level.) Note that the
Chris@19 129 verbose output will be mixed with the wisdom output (making it impossible
Chris@19 130 to import), unless you write the wisdom to a file via the
Chris@19 131 .B \-o
Chris@19 132 option.
Chris@19 133 .TP
Chris@19 134 \fB\-c\fR, \fB\-\-canonical\fR
Chris@19 135 Optimize/pre-plan a canonical set of sizes: all powers of two and ten
Chris@19 136 up to 2^20 (1048576), including both real and complex, forward and
Chris@19 137 backwards, in-place and out-of-place transforms. Also includes two-
Chris@19 138 and three-dimensional transforms of equal-size dimensions
Chris@19 139 (e.g. 16x16x16).
Chris@19 140 .TP
Chris@19 141 \fB\-t\fR \fIhours\fR, \fB\-\-time\-limit\fR=\fIhours\fR
Chris@19 142 Stop after a time of
Chris@19 143 .I hours
Chris@19 144 (hours) has elapsed, outputting accumulated wisdom. (The problems are planned
Chris@19 145 in increasing order of size.) Defaults to 0, indicating no time limit.
Chris@19 146 .TP
Chris@19 147 \fB\-o\fR \fIfile\fR, \fB\-\-output-file\fR=\fIfile\fR
Chris@19 148 Send wisdom output to
Chris@19 149 .I file
Chris@19 150 rather than to standard output (the default).
Chris@19 151 .TP
Chris@19 152 \fB\-m\fR, \fB\-\-measure\fR; \fB\-e\fR, \fB\-\-estimate\fR; \fB\-x\fR, \fB\-\-exhaustive\fR
Chris@19 153 Normally,
Chris@19 154 .I fftw\-wisdom
Chris@19 155 creates plans in FFTW_PATIENT mode, but with these options you can instead
Chris@19 156 use FFTW_MEASURE, FFTW_ESTIMATE, or FFTW_EXHAUSTIVE modes, respectively,
Chris@19 157 as described in more detail by the FFTW manual.
Chris@19 158
Chris@19 159 Note that wisdom is tagged with the planning patience level, and a
Chris@19 160 single file can mix different levels of wisdom (e.g. you can mostly
Chris@19 161 use the patient default, but plan a few sizes that you especially care
Chris@19 162 about in
Chris@19 163 .B \-\-exhaustive
Chris@19 164 mode).
Chris@19 165 .TP
Chris@19 166 \fB\-n\fR, \fB\-\-no\-system\-wisdom\fR
Chris@19 167 Do not import the system wisdom from
Chris@19 168 .I /etc/fftw/wisdom
Chris@19 169 (which is normally read by default).
Chris@19 170 .TP
Chris@19 171 \fB\-w\fR \fIfile\fR, \fB\-\-wisdom\-file\fR=\fIfile\fR
Chris@19 172 Import wisdom from
Chris@19 173 .I file
Chris@19 174 (in addition to the system wisdom, unless
Chris@19 175 .B \-n
Chris@19 176 is specified). Multiple wisdom files can be read via multiple
Chris@19 177 .B \-w
Chris@19 178 options. If
Chris@19 179 .I file
Chris@19 180 is "\-", then read wisdom from standard input.
Chris@19 181 .TP
Chris@19 182 \fB\-T\fR \fIN\fR, \fB\--threads\fR=\fIN\fR
Chris@19 183 Plan with
Chris@19 184 .I N
Chris@19 185 threads. This option is only present if FFTW was configured with
Chris@19 186 thread support.
Chris@19 187 .SH BUGS
Chris@19 188 Send bug reports to fftw@fftw.org.
Chris@19 189 .SH AUTHORS
Chris@19 190 Written by Steven G. Johnson and Matteo Frigo.
Chris@19 191
Chris@19 192 Copyright (c) 2003, 2007-14 Matteo Frigo
Chris@19 193 .br
Chris@19 194 Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
Chris@19 195 .SH "SEE ALSO"
Chris@19 196 fftw-wisdom-to-conf(1)