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| Rev | Author | Line No. | Line |
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| 2 | pj | 1 | This directory contains a test program, fftw_test, for the one- and |
| 2 | multi-dimensional transforms. There is also a corresponding program, |
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| 3 | rfftw_test, for the real-complex transforms, which takes the same |
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| 4 | command-line options as fftw_test. (See the FFTW manual for |
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| 5 | compilation instructions.) |
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| 6 | |||
| 7 | They take a number of command-line options that determine what to |
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| 8 | tests. (On systems lacking a command-line, they will prompt the user |
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| 9 | interactively for this information.) We use the following |
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| 10 | conventions. |
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| 11 | |||
| 12 | <n> is a size parameter, and it has the form N1xN2xN3... . For |
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| 13 | example, 3x8 denotes a two-dimensional array with 3 rows and 8 |
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| 14 | columns. A single number N denotes a 1D transform of size N. For the |
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| 15 | cases where it matters, the syntax xN denotes a ND-transform of rank |
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| 16 | 1. For example, x5 denotes a n-dimensional array of rank 1 with 5 |
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| 17 | elements. (This matters for real->complex transforms) |
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| 18 | |||
| 19 | <rank> is an integer. Rank 0 denotes 1D transforms. Rank >= 1 |
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| 20 | denotes n-dimensional transforms. Again, rank 0 uses [R]FFTW, but |
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| 21 | rank >= 1 uses [R]FFTWND. |
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| 22 | |||
| 23 | -r <rank> Tests the forward and backward transforms of |
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| 24 | random dimensions and sizes. Does not terminate |
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| 25 | (press ^C when you are tired). We use the FFT |
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| 26 | testing algorithm described in: |
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| 27 | |||
| 28 | Funda Ergün, "Testing multivariate linear functions: |
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| 29 | Overcoming the generator bottleneck." Proceedings of |
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| 30 | the Twenty-Seventh Annual ACM Symposium on the Theory |
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| 31 | of Computing, pp. 407-416 (1995). |
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| 32 | |||
| 33 | -c <n> Checks the forward and backward transform of size <n> |
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| 34 | |||
| 35 | |||
| 36 | -s <n> Test the speed of the transform of size <n> |
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| 37 | Times both in-place and out-of-place transforms. |
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| 38 | |||
| 39 | -a <rank> Like fftw_test -c <n> for all n = 1 ... infinity. |
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| 40 | Does not terminate (press ^C when you are tired) |
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| 41 | |||
| 42 | -p <rank> Exercises the planner to make sure there are no |
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| 43 | memory leaks. |
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| 44 | |||
| 45 | -m Uses the FFTW_MEASURE flag (instead of FFTW_ESTIMATE) |
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| 46 | during correctness tests (this will slow things down |
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| 47 | considerably). |
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| 48 | |||
| 49 | -w <file> Tests the "wisdom" mechanism (wisdom is used |
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| 50 | in all transforms computed...this option should |
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| 51 | precede one of the other options above). Also, |
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| 52 | loads wisdom from <file> and stores accumulated |
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| 53 | wisdom in <file> (after tests are completed). |
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| 54 | (<file> is created if it does not exist.) |
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| 55 | |||
| 56 | -t Tests the resolution of the timer you are currently |
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| 57 | using. This is done by measuring the time per |
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| 58 | iteration of a simple loop--the time/iter should |
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| 59 | converge to some value for large numbers of iterations, |
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| 60 | and the rate of convergence can be used to infer |
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| 61 | something about the timer resolution. |
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| 62 | |||
| 63 | The minimum timing interval required to achieve |
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| 64 | various levels of consistency/accuracy is outputted. |
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| 65 | You can compare this to the FFTW_TIME_MIN setting |
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| 66 | in fftw.h to see how appropriate it is for your |
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| 67 | machine's clock. |
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| 68 | |||
| 69 | -v Verbose output (should precede other options). |
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| 70 | |||
| 71 | -h Prints help on these and other command-line flags |