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<head><title>
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FFTW FAQ - Section 3
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</title>
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<link rev="made" href="mailto:fftw@fftw.org">
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<link rel="Contents" href="index.html">
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<link rel="Start" href="index.html">
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<link rel="Next" href="section4.html"><link rel="Previous" href="section2.html"><link rel="Bookmark" title="FFTW FAQ" href="index.html">
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</head><body text="#000000" bgcolor="#FFFFFF"><h1>
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FFTW FAQ - Section 3 <br>
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Using FFTW
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</h1>
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<ul>
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<li><a href="#fftw2to3" rel=subdocument>Q3.1. Why not support the FFTW 2 interface in FFTW
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3?</a>
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<li><a href="#planperarray" rel=subdocument>Q3.2. Why do FFTW 3 plans encapsulate the input/output arrays and not just
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the algorithm?</a>
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<li><a href="#slow" rel=subdocument>Q3.3. FFTW seems really slow.</a>
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<li><a href="#slows" rel=subdocument>Q3.4. FFTW slows down after repeated calls.</a>
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<li><a href="#segfault" rel=subdocument>Q3.5. An FFTW routine is crashing when I call it.</a>
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<li><a href="#fortran64" rel=subdocument>Q3.6. My Fortran program crashes when calling FFTW.</a>
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<li><a href="#conventions" rel=subdocument>Q3.7. FFTW gives results different from my old
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FFT.</a>
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<li><a href="#nondeterministic" rel=subdocument>Q3.8. FFTW gives different results between runs</a>
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<li><a href="#savePlans" rel=subdocument>Q3.9. Can I save FFTW's plans?</a>
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<li><a href="#whyscaled" rel=subdocument>Q3.10. Why does your inverse transform return a scaled
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result?</a>
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<li><a href="#centerorigin" rel=subdocument>Q3.11. How can I make FFTW put the origin (zero frequency) at the center of
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its output?</a>
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<li><a href="#imageaudio" rel=subdocument>Q3.12. How do I FFT an image/audio file in <i>foobar</i> format?</a>
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<li><a href="#linkfails" rel=subdocument>Q3.13. My program does not link (on Unix).</a>
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<li><a href="#linkheader" rel=subdocument>Q3.14. I included your header, but linking still
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fails.</a>
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<li><a href="#nostack" rel=subdocument>Q3.15. My program crashes, complaining about stack
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space.</a>
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<li><a href="#leaks" rel=subdocument>Q3.16. FFTW seems to have a memory leak.</a>
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<li><a href="#allzero" rel=subdocument>Q3.17. The output of FFTW's transform is all zeros.</a>
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<li><a href="#vbetalia" rel=subdocument>Q3.18. How do I call FFTW from the Microsoft language du
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jour?</a>
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<li><a href="#pruned" rel=subdocument>Q3.19. Can I compute only a subset of the DFT outputs?</a>
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<li><a href="#transpose" rel=subdocument>Q3.20. Can I use FFTW's routines for in-place and out-of-place matrix
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transposition?</a>
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</ul><hr>
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<h2><A name="fftw2to3">
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Question 3.1. Why not support the FFTW 2 interface in FFTW
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3?
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</A></h2>
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FFTW 3 has semantics incompatible with earlier versions: its plans can
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only be used for a given stride, multiplicity, and other
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characteristics of the input and output arrays; these stronger
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semantics are necessary for performance reasons. Thus, it is
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impossible to efficiently emulate the older interface (whose plans can
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be used for any transform of the same size). We believe that it
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should be possible to upgrade most programs without any difficulty,
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however.
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<h2><A name="planperarray">
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Question 3.2. Why do FFTW 3 plans encapsulate the input/output arrays
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and not just the algorithm?
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</A></h2>
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There are several reasons:
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<ul>
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<li>It was important for performance reasons that the plan be specific to
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array characteristics like the stride (and alignment, for SIMD), and
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requiring that the user maintain these invariants is error prone.
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<li>In most high-performance applications, as far as we can tell, you are
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usually transforming the same array over and over, so FFTW's semantics
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should not be a burden.
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<li>If you need to transform another array of the same size, creating a
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new plan once the first exists is a cheap operation.
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<li>If you need to transform many arrays of the same size at once, you
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should really use the <code>plan_many</code> routines in FFTW's "advanced"
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interface.
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<li>If the abovementioned array characteristics are the same, you are
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willing to pay close attention to the documentation, and you really
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need to, we provide a "new-array execution" interface to
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apply a plan to a new array.
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</ul>
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<h2><A name="slow">
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Question 3.3. FFTW seems really slow.
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</A></h2>
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You are probably recreating the plan before every transform, rather
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than creating it once and reusing it for all transforms of the same
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size. FFTW is designed to be used in the following way:
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<ul>
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<li>First, you create a plan. This will take several seconds.
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<li>Then, you reuse the plan many times to perform FFTs. These are fast.
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</ul>
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If you don't need to compute many transforms and the time for the
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planner is significant, you have two options. First, you can use the
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<code>FFTW_ESTIMATE</code> option in the planner, which uses heuristics
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instead of runtime measurements and produces a good plan in a short
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time. Second, you can use the wisdom feature to precompute the plan;
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see <A href="#savePlans">Q3.9 `Can I save FFTW's plans?'</A>
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<h2><A name="slows">
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Question 3.4. FFTW slows down after repeated
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calls.
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</A></h2>
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Probably, NaNs or similar are creeping into your data, and the
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slowdown is due to the resulting floating-point exceptions. For
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example, be aware that repeatedly FFTing the same array is a diverging
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process (because FFTW computes the unnormalized transform).
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<h2><A name="segfault">
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Question 3.5. An FFTW routine is crashing when I call
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it.
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</A></h2>
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Did the FFTW test programs pass (<code>make check</code>, or <code>cd tests; make bigcheck</code> if you want to be paranoid)? If so, you almost
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certainly have a bug in your own code. For example, you could be
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passing invalid arguments (such as wrongly-sized arrays) to FFTW, or
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you could simply have memory corruption elsewhere in your program that
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causes random crashes later on. Please don't complain to us unless
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you can come up with a minimal self-contained program (preferably
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under 30 lines) that illustrates the problem.
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<h2><A name="fortran64">
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Question 3.6. My Fortran program crashes when calling
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FFTW.
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</A></h2>
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As described in the manual, on 64-bit machines you must store the
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plans in variables large enough to hold a pointer, for example
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<code>integer*8</code>. We recommend using <code>integer*8</code> on 32-bit machines as well, to simplify porting.
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<h2><A name="conventions">
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Question 3.7. FFTW gives results different from my old
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FFT.
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</A></h2>
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People follow many different conventions for the DFT, and you should
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be sure to know the ones that we use (described in the FFTW manual).
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In particular, you should be aware that the
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<code>FFTW_FORWARD</code>/<code>FFTW_BACKWARD</code> directions correspond to signs of -1/+1 in the exponent of the DFT definition.
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(<i>Numerical Recipes</i> uses the opposite convention.)
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<p>
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You should also know that we compute an unnormalized transform. In
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contrast, Matlab is an example of program that computes a normalized
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transform. See <A href="#whyscaled">Q3.10 `Why does your inverse transform return a scaled
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result?'</A>.
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<p>
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Finally, note that floating-point arithmetic is not exact, so
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different FFT algorithms will give slightly different results (on the
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order of the numerical accuracy; typically a fractional difference of
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1e-15 or so in double precision).
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<h2><A name="nondeterministic">
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Question 3.8. FFTW gives different results between
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runs
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</A></h2>
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If you use <code>FFTW_MEASURE</code> or <code>FFTW_PATIENT</code> mode, then the algorithm FFTW employs is not deterministic: it depends on
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runtime performance measurements. This will cause the results to vary
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slightly from run to run. However, the differences should be slight,
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on the order of the floating-point precision, and therefore should
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have no practical impact on most applications.
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<p>
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If you use saved plans (wisdom) or <code>FFTW_ESTIMATE</code> mode, however, then the algorithm is deterministic and the results should be
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identical between runs.
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<h2><A name="savePlans">
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Question 3.9. Can I save FFTW's plans?
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</A></h2>
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Yes. Starting with version 1.2, FFTW provides the
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<code>wisdom</code> mechanism for saving plans; see the FFTW manual.
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<h2><A name="whyscaled">
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Question 3.10. Why does your inverse transform return a scaled
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result?
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</A></h2>
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Computing the forward transform followed by the backward transform (or
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vice versa) yields the original array scaled by the size of the array.
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(For multi-dimensional transforms, the size of the array is the
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product of the dimensions.) We could, instead, have chosen a
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normalization that would have returned the unscaled array. Or, to
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accomodate the many conventions in this matter, the transform routines
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could have accepted a "scale factor" parameter. We did not
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do this, however, for two reasons. First, we didn't want to sacrifice
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performance in the common case where the scale factor is 1. Second, in
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real applications the FFT is followed or preceded by some computation
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on the data, into which the scale factor can typically be absorbed at
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little or no cost.
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<h2><A name="centerorigin">
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Question 3.11. How can I make FFTW put the origin (zero frequency) at
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the center of its output?
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</A></h2>
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For human viewing of a spectrum, it is often convenient to put the
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origin in frequency space at the center of the output array, rather
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than in the zero-th element (the default in FFTW). If all of the
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dimensions of your array are even, you can accomplish this by simply
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multiplying each element of the input array by (-1)^(i + j + ...),
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where i, j, etcetera are the indices of the element. (This trick is a
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general property of the DFT, and is not specific to FFTW.)
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<h2><A name="imageaudio">
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Question 3.12. How do I FFT an image/audio file in
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<i>foobar</i> format?
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</A></h2>
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FFTW performs an FFT on an array of floating-point values. You can
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certainly use it to compute the transform of an image or audio stream,
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but you are responsible for figuring out your data format and
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converting it to the form FFTW requires.
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<h2><A name="linkfails">
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Question 3.13. My program does not link (on
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Unix).
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</A></h2>
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The libraries must be listed in the correct order
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(<code>-lfftw3 -lm</code> for FFTW 3.x) and <i>after</i> your program sources/objects. (The general rule is that if <i>A</i> uses <i>B</i>, then <i>A</i> must be listed before <i>B</i> in the link command.).
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<h2><A name="linkheader">
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Question 3.14. I included your header, but linking still
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fails.
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</A></h2>
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You're a C++ programmer, aren't you? You have to compile the FFTW
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library and link it into your program, not just
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<code>#include <fftw3.h></code>. (Yes, this is really a FAQ.)
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<h2><A name="nostack">
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Question 3.15. My program crashes, complaining about stack
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space.
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</A></h2>
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You cannot declare large arrays with automatic storage (e.g. via
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<code>fftw_complex array[N]</code>); you should use <code>fftw_malloc</code> (or equivalent) to allocate the arrays you want
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to transform if they are larger than a few hundred elements.
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<h2><A name="leaks">
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Question 3.16. FFTW seems to have a memory
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leak.
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</A></h2>
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After you create a plan, FFTW caches the information required to
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quickly recreate the plan. (See <A href="#savePlans">Q3.9 `Can I save FFTW's plans?'</A>) It also maintains a small amount of other persistent memory. You can deallocate all of
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FFTW's internally allocated memory, if you wish, by calling
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<code>fftw_cleanup()</code>, as documented in the manual.
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<h2><A name="allzero">
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Question 3.17. The output of FFTW's transform is all
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zeros.
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</A></h2>
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You should initialize your input array <i>after</i> creating the plan, unless you use <code>FFTW_ESTIMATE</code>: planning with <code>FFTW_MEASURE</code> or <code>FFTW_PATIENT</code> overwrites the input/output arrays, as described in the manual.
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<h2><A name="vbetalia">
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Question 3.18. How do I call FFTW from the Microsoft language du
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jour?
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</A></h2>
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Please <i>do not</i> ask us Windows-specific questions. We do not
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use Windows. We know nothing about Visual Basic, Visual C++, or .NET.
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Please find the appropriate Usenet discussion group and ask your
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question there. See also <A href="section2.html#runOnWindows">Q2.2 `Does FFTW run on Windows?'</A>.
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<h2><A name="pruned">
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Question 3.19. Can I compute only a subset of the DFT
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outputs?
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</A></h2>
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In general, no, an FFT intrinsically computes all outputs from all
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inputs. In principle, there is something called a
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<i>pruned FFT</i> that can do what you want, but to compute K outputs out of N the
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complexity is in general O(N log K) instead of O(N log N), thus saving
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only a small additive factor in the log. (The same argument holds if
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you instead have only K nonzero inputs.)
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<p>
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There are some specific cases in which you can get the O(N log K)
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performance benefits easily, however, by combining a few ordinary
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FFTs. In particular, the case where you want the first K outputs,
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where K divides N, can be handled by performing N/K transforms of size
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K and then summing the outputs multiplied by appropriate phase
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factors. For more details, see <A href="http://www.fftw.org/pruned.html">pruned FFTs with FFTW</A>.
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<p>
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There are also some algorithms that compute pruned transforms
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<i>approximately</i>, but they are beyond the scope of this FAQ.
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<h2><A name="transpose">
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Question 3.20. Can I use FFTW's routines for in-place and
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out-of-place matrix transposition?
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</A></h2>
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You can use the FFTW guru interface to create a rank-0 transform of
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vector rank 2 where the vector strides are transposed. (A rank-0
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transform is equivalent to a 1D transform of size 1, which. just
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copies the input into the output.) Specifying the same location for
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the input and output makes the transpose in-place.
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<p>
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For double-valued data stored in row-major format, plan creation looks
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like this: <pre>
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fftw_plan plan_transpose(int rows, int cols, double *in, double *out)
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{
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const unsigned flags = FFTW_ESTIMATE; /* other flags are possible */
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fftw_iodim howmany_dims[2];
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howmany_dims[0].n = rows;
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howmany_dims[0].is = cols;
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howmany_dims[0].os = 1;
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howmany_dims[1].n = cols;
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howmany_dims[1].is = 1;
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howmany_dims[1].os = rows;
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return fftw_plan_guru_r2r(/*rank=*/ 0, /*dims=*/ NULL,
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/*howmany_rank=*/ 2, howmany_dims,
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in, out, /*kind=*/ NULL, flags);
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}
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</pre>
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(This entry was written by Rhys Ulerich.)
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<hr>
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Next: <a href="section4.html" rel=precedes>Internals of FFTW</a>.<br>
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Back: <a href="section2.html" rev=precedes>Installing FFTW</a>.<br>
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<a href="index.html" rev=subdocument>Return to contents</a>.<p>
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<address>
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<A href="http://www.fftw.org">Matteo Frigo and Steven G. Johnson</A> / <A href="mailto:fftw@fftw.org">fftw@fftw.org</A>
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- 14 September 2021
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</address><br>
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Extracted from FFTW Frequently Asked Questions with Answers,
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Copyright © 2021 Matteo Frigo and Massachusetts Institute of Technology.
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</body></html>
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