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<span id="The-1d-Discrete-Fourier-Transform-_0028DFT_0029"></span><div class="header">
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Next: <a href="The-1d-Real_002ddata-DFT.html" accesskey="n" rel="next">The 1d Real-data DFT</a>, Previous: <a href="What-FFTW-Really-Computes.html" accesskey="p" rel="prev">What FFTW Really Computes</a>, Up: <a href="What-FFTW-Really-Computes.html" accesskey="u" rel="up">What FFTW Really Computes</a> &nbsp; [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html" title="Index" rel="index">Index</a>]</p>
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<hr>
<span id="The-1d-Discrete-Fourier-Transform-_0028DFT_0029-1"></span><h4 class="subsection">4.8.1 The 1d Discrete Fourier Transform (DFT)</h4>

<span id="index-discrete-Fourier-transform-1"></span>
<span id="index-DFT-2"></span>
<p>The forward (<code>FFTW_FORWARD</code>) discrete Fourier transform (DFT) of a
1d complex array <em>X</em> of size <em>n</em> computes an array <em>Y</em>,
where:
<center><img src="equation-dft.png" align="top">.</center>
The backward (<code>FFTW_BACKWARD</code>) DFT computes:
<center><img src="equation-idft.png" align="top">.</center>
</p>
<span id="index-normalization-8"></span>
<p>FFTW computes an unnormalized transform, in that there is no coefficient
in front of the summation in the DFT.  In other words, applying the
forward and then the backward transform will multiply the input by
<em>n</em>.
</p>
<span id="index-frequency-1"></span>
<p>From above, an <code>FFTW_FORWARD</code> transform corresponds to a sign of
<em>-1</em> in the exponent of the DFT.  Note also that we use the
standard &ldquo;in-order&rdquo; output ordering&mdash;the <em>k</em>-th output
corresponds to the frequency <em>k/n</em> (or <em>k/T</em>, where <em>T</em>
is your total sampling period).  For those who like to think in terms of
positive and negative frequencies, this means that the positive
frequencies are stored in the first half of the output and the negative
frequencies are stored in backwards order in the second half of the
output.  (The frequency <em>-k/n</em> is the same as the frequency
<em>(n-k)/n</em>.)
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GUI: try using FFTW for per-chan osc wave center not reliable yet 2022-05-31 08:24:29 +00:00			`<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd">`
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			`<span id="The-1d-Discrete-Fourier-Transform-_0028DFT_0029"></span><div class="header">`
			`<p>`
			`Next: <a href="The-1d-Real_002ddata-DFT.html" accesskey="n" rel="next">The 1d Real-data DFT</a>, Previous: <a href="What-FFTW-Really-Computes.html" accesskey="p" rel="prev">What FFTW Really Computes</a>, Up: <a href="What-FFTW-Really-Computes.html" accesskey="u" rel="up">What FFTW Really Computes</a>   [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html" title="Index" rel="index">Index</a>]</p>`
			`</div>`
			`<hr>`
			`<span id="The-1d-Discrete-Fourier-Transform-_0028DFT_0029-1"></span><h4 class="subsection">4.8.1 The 1d Discrete Fourier Transform (DFT)</h4>`

			`<span id="index-discrete-Fourier-transform-1"></span>`
			`<span id="index-DFT-2"></span>`
			`<p>The forward (<code>FFTW_FORWARD</code>) discrete Fourier transform (DFT) of a`
			`1d complex array <em>X</em> of size <em>n</em> computes an array <em>Y</em>,`
			`where:`
			`<center><img src="equation-dft.png" align="top">.</center>`
			`The backward (<code>FFTW_BACKWARD</code>) DFT computes:`
			`<center><img src="equation-idft.png" align="top">.</center>`
			`</p>`
			`<span id="index-normalization-8"></span>`
			`<p>FFTW computes an unnormalized transform, in that there is no coefficient`
			`in front of the summation in the DFT. In other words, applying the`
			`forward and then the backward transform will multiply the input by`
			`<em>n</em>.`
			`</p>`
			`<span id="index-frequency-1"></span>`
			`<p>From above, an <code>FFTW_FORWARD</code> transform corresponds to a sign of`
			`<em>-1</em> in the exponent of the DFT. Note also that we use the`
			`standard “in-order” output ordering—the <em>k</em>-th output`
			`corresponds to the frequency <em>k/n</em> (or <em>k/T</em>, where <em>T</em>`
			`is your total sampling period). For those who like to think in terms of`
			`positive and negative frequencies, this means that the positive`
			`frequencies are stored in the first half of the output and the negative`
			`frequencies are stored in backwards order in the second half of the`
			`output. (The frequency <em>-k/n</em> is the same as the frequency`
			`<em>(n-k)/n</em>.)`
			`</p>`



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