mirror of
https://github.com/google/sandboxed-api.git
synced 2024-03-22 13:11:30 +08:00
.. | ||
CMakeLists.txt | ||
fftpack.c | ||
fftpack.h | ||
Makefile | ||
myNotes.txt | ||
pffft.c | ||
pffft.h | ||
README.txt | ||
test_pffft_sandboxed.cc | ||
test_pffft.c |
PFFFT: a pretty fast FFT. TL;DR -- PFFFT does 1D Fast Fourier Transforms, of single precision real and complex vectors. It tries do it fast, it tries to be correct, and it tries to be small. Computations do take advantage of SSE1 instructions on x86 cpus, Altivec on powerpc cpus, and NEON on ARM cpus. The license is BSD-like. Why does it exist: -- I was in search of a good performing FFT library , preferably very small and with a very liberal license. When one says "fft library", FFTW ("Fastest Fourier Transform in the West") is probably the first name that comes to mind -- I guess that 99% of open-source projects that need a FFT do use FFTW, and are happy with it. However, it is quite a large library , which does everything fft related (2d transforms, 3d transforms, other transformations such as discrete cosine , or fast hartley). And it is licensed under the GNU GPL , which means that it cannot be used in non open-source products. An alternative to FFTW that is really small, is the venerable FFTPACK v4, which is available on NETLIB. A more recent version (v5) exists, but it is larger as it deals with multi-dimensional transforms. This is a library that is written in FORTRAN 77, a language that is now considered as a bit antiquated by many. FFTPACKv4 was written in 1985, by Dr Paul Swarztrauber of NCAR, more than 25 years ago ! And despite its age, benchmarks show it that it still a very good performing FFT library, see for example the 1d single precision benchmarks here: http://www.fftw.org/speed/opteron-2.2GHz-32bit/ . It is however not competitive with the fastest ones, such as FFTW, Intel MKL, AMD ACML, Apple vDSP. The reason for that is that those libraries do take advantage of the SSE SIMD instructions available on Intel CPUs, available since the days of the Pentium III. These instructions deal with small vectors of 4 floats at a time, instead of a single float for a traditionnal FPU, so when using these instructions one may expect a 4-fold performance improvement. The idea was to take this fortran fftpack v4 code, translate to C, modify it to deal with those SSE instructions, and check that the final performance is not completely ridiculous when compared to other SIMD FFT libraries. Translation to C was performed with f2c ( http://www.netlib.org/f2c/ ). The resulting file was a bit edited in order to remove the thousands of gotos that were introduced by f2c. You will find the fftpack.h and fftpack.c sources in the repository, this a complete translation of http://www.netlib.org/fftpack/ , with the discrete cosine transform and the test program. There is no license information in the netlib repository, but it was confirmed to me by the fftpack v5 curators that the same terms do apply to fftpack v4: http://www.cisl.ucar.edu/css/software/fftpack5/ftpk.html . This is a "BSD-like" license, it is compatible with proprietary projects. Adapting fftpack to deal with the SIMD 4-element vectors instead of scalar single precision numbers was more complex than I originally thought, especially with the real transforms, and I ended up writing more code than I planned.. The code: -- Only two files, in good old C, pffft.c and pffft.h . The API is very very simple, just make sure that you read the comments in pffft.h. Comparison with other FFTs: -- The idea was not to break speed records, but to get a decently fast fft that is at least 50% as fast as the fastest FFT -- especially on slowest computers . I'm more focused on getting the best performance on slow cpus (Atom, Intel Core 1, old Athlons, ARM Cortex-A9...), than on getting top performance on today fastest cpus. It can be used in a real-time context as the fft functions do not perform any memory allocation -- that is why they accept a 'work' array in their arguments. It is also a bit focused on performing 1D convolutions, that is why it provides "unordered" FFTs , and a fourier domain convolution operation. Benchmark results (cpu tested: core i7 2600, core 2 quad, core 1 duo, atom N270, cortex-A9, cortex-A15, A8X) -- The benchmark shows the performance of various fft implementations measured in MFlops, with the number of floating point operations being defined as 5Nlog2(N) for a length N complex fft, and 2.5*Nlog2(N) for a real fft. See http://www.fftw.org/speed/method.html for an explanation of these formulas. MacOS Lion, gcc 4.2, 64-bit, fftw 3.3 on a 3.4 GHz core i7 2600 Built with: gcc-4.2 -o test_pffft -arch x86_64 -O3 -Wall -W pffft.c test_pffft.c fftpack.c -L/usr/local/lib -I/usr/local/include/ -DHAVE_VECLIB -framework veclib -DHAVE_FFTW -lfftw3f | input len |real FFTPack| real vDSP | real FFTW | real PFFFT | |cplx FFTPack| cplx vDSP | cplx FFTW | cplx PFFFT | |-----------+------------+------------+------------+------------| |------------+------------+------------+------------| | 64 | 2816 | 8596 | 7329 | 8187 | | 2887 | 14898 | 14668 | 11108 | | 96 | 3298 | n/a | 8378 | 7727 | | 3953 | n/a | 15680 | 10878 | | 128 | 3507 | 11575 | 9266 | 10108 | | 4233 | 17598 | 16427 | 12000 | | 160 | 3391 | n/a | 9838 | 10711 | | 4220 | n/a | 16653 | 11187 | | 192 | 3919 | n/a | 9868 | 10956 | | 4297 | n/a | 15770 | 12540 | | 256 | 4283 | 13179 | 10694 | 13128 | | 4545 | 19550 | 16350 | 13822 | | 384 | 3136 | n/a | 10810 | 12061 | | 3600 | n/a | 16103 | 13240 | | 480 | 3477 | n/a | 10632 | 12074 | | 3536 | n/a | 11630 | 12522 | | 512 | 3783 | 15141 | 11267 | 13838 | | 3649 | 20002 | 16560 | 13580 | | 640 | 3639 | n/a | 11164 | 13946 | | 3695 | n/a | 15416 | 13890 | | 768 | 3800 | n/a | 11245 | 13495 | | 3590 | n/a | 15802 | 14552 | | 800 | 3440 | n/a | 10499 | 13301 | | 3659 | n/a | 12056 | 13268 | | 1024 | 3924 | 15605 | 11450 | 15339 | | 3769 | 20963 | 13941 | 15467 | | 2048 | 4518 | 16195 | 11551 | 15532 | | 4258 | 20413 | 13723 | 15042 | | 2400 | 4294 | n/a | 10685 | 13078 | | 4093 | n/a | 12777 | 13119 | | 4096 | 4750 | 16596 | 11672 | 15817 | | 4157 | 19662 | 14316 | 14336 | | 8192 | 3820 | 16227 | 11084 | 12555 | | 3691 | 18132 | 12102 | 13813 | | 9216 | 3864 | n/a | 10254 | 12870 | | 3586 | n/a | 12119 | 13994 | | 16384 | 3822 | 15123 | 10454 | 12822 | | 3613 | 16874 | 12370 | 13881 | | 32768 | 4175 | 14512 | 10662 | 11095 | | 3881 | 14702 | 11619 | 11524 | | 262144 | 3317 | 11429 | 6269 | 9517 | | 2810 | 11729 | 7757 | 10179 | | 1048576 | 2913 | 10551 | 4730 | 5867 | | 2661 | 7881 | 3520 | 5350 | |-----------+------------+------------+------------+------------| |------------+------------+------------+------------| Debian 6, gcc 4.4.5, 64-bit, fftw 3.3.1 on a 3.4 GHz core i7 2600 Built with: gcc -o test_pffft -DHAVE_FFTW -msse2 -O3 -Wall -W pffft.c test_pffft.c fftpack.c -L$HOME/local/lib -I$HOME/local/include/ -lfftw3f -lm | N (input length) | real FFTPack | real FFTW | real PFFFT | | cplx FFTPack | cplx FFTW | cplx PFFFT | |------------------+--------------+--------------+--------------| |--------------+--------------+--------------| | 64 | 3840 | 7680 | 8777 | | 4389 | 20480 | 11171 | | 96 | 4214 | 9633 | 8429 | | 4816 | 22477 | 11238 | | 128 | 3584 | 10240 | 10240 | | 5120 | 23893 | 11947 | | 192 | 4854 | 11095 | 12945 | | 4854 | 22191 | 14121 | | 256 | 4096 | 11703 | 16384 | | 5120 | 23406 | 13653 | | 384 | 4395 | 14651 | 12558 | | 4884 | 19535 | 14651 | | 512 | 5760 | 13166 | 15360 | | 4608 | 23040 | 15360 | | 768 | 4907 | 14020 | 16357 | | 4461 | 19628 | 14020 | | 1024 | 5120 | 14629 | 14629 | | 5120 | 20480 | 15754 | | 2048 | 5632 | 14080 | 18773 | | 4693 | 12516 | 16091 | | 4096 | 5120 | 13653 | 17554 | | 4726 | 7680 | 14456 | | 8192 | 4160 | 7396 | 13312 | | 4437 | 14791 | 13312 | | 9216 | 4210 | 6124 | 13473 | | 4491 | 7282 | 14970 | | 16384 | 3976 | 11010 | 14313 | | 4210 | 11450 | 13631 | | 32768 | 4260 | 10224 | 10954 | | 4260 | 6816 | 11797 | | 262144 | 3736 | 6896 | 9961 | | 2359 | 8965 | 9437 | | 1048576 | 2796 | 4534 | 6453 | | 1864 | 3078 | 5592 | |------------------+--------------+--------------+--------------| |--------------+--------------+--------------| MacOS Snow Leopard, gcc 4.0, 32-bit, fftw 3.3 on a 1.83 GHz core 1 duo Built with: gcc -o test_pffft -DHAVE_FFTW -DHAVE_VECLIB -O3 -Wall -W pffft.c test_pffft.c fftpack.c -L/usr/local/lib -I/usr/local/include/ -lfftw3f -framework veclib | input len |real FFTPack| real vDSP | real FFTW | real PFFFT | |cplx FFTPack| cplx vDSP | cplx FFTW | cplx PFFFT | |-----------+------------+------------+------------+------------| |------------+------------+------------+------------| | 64 | 745 | 2145 | 1706 | 2028 | | 961 | 3356 | 3313 | 2300 | | 96 | 877 | n/a | 1976 | 1978 | | 1059 | n/a | 3333 | 2233 | | 128 | 951 | 2808 | 2213 | 2279 | | 1202 | 3803 | 3739 | 2494 | | 192 | 1002 | n/a | 2456 | 2429 | | 1186 | n/a | 3701 | 2508 | | 256 | 1065 | 3205 | 2641 | 2793 | | 1302 | 4013 | 3912 | 2663 | | 384 | 845 | n/a | 2759 | 2499 | | 948 | n/a | 3729 | 2504 | | 512 | 900 | 3476 | 2956 | 2759 | | 974 | 4057 | 3954 | 2645 | | 768 | 910 | n/a | 2912 | 2737 | | 975 | n/a | 3837 | 2614 | | 1024 | 936 | 3583 | 3107 | 3009 | | 1006 | 4124 | 3821 | 2697 | | 2048 | 1057 | 3585 | 3091 | 2837 | | 1089 | 3889 | 3701 | 2513 | | 4096 | 1083 | 3524 | 3092 | 2733 | | 1039 | 3617 | 3462 | 2364 | | 8192 | 874 | 3252 | 2967 | 2363 | | 911 | 3106 | 2789 | 2302 | | 9216 | 898 | n/a | 2420 | 2290 | | 865 | n/a | 2676 | 2204 | | 16384 | 903 | 2892 | 2506 | 2421 | | 899 | 3026 | 2797 | 2289 | | 32768 | 965 | 2837 | 2550 | 2358 | | 920 | 2922 | 2763 | 2240 | | 262144 | 738 | 2422 | 1589 | 1708 | | 610 | 2038 | 1436 | 1091 | | 1048576 | 528 | 1207 | 845 | 880 | | 606 | 1020 | 669 | 1036 | |-----------+------------+------------+------------+------------| |------------+------------+------------+------------| Ubuntu 11.04, gcc 4.5, 32-bit, fftw 3.2 on a 2.66 core 2 quad Built with: gcc -o test_pffft -DHAVE_FFTW -msse -mfpmath=sse -O3 -Wall -W pffft.c test_pffft.c fftpack.c -L/usr/local/lib -I/usr/local/include/ -lfftw3f -lm | input len |real FFTPack| real FFTW | real PFFFT | |cplx FFTPack| cplx FFTW | cplx PFFFT | |-----------+------------+------------+------------| |------------+------------+------------| | 64 | 1920 | 3614 | 5120 | | 2194 | 7680 | 6467 | | 96 | 1873 | 3549 | 5187 | | 2107 | 8429 | 5863 | | 128 | 2240 | 3773 | 5514 | | 2560 | 7964 | 6827 | | 192 | 1765 | 4569 | 7767 | | 2284 | 9137 | 7061 | | 256 | 2048 | 5461 | 7447 | | 2731 | 9638 | 7802 | | 384 | 1998 | 5861 | 6762 | | 2313 | 9253 | 7644 | | 512 | 2095 | 6144 | 7680 | | 2194 | 10240 | 7089 | | 768 | 2230 | 5773 | 7549 | | 2045 | 10331 | 7010 | | 1024 | 2133 | 6400 | 8533 | | 2133 | 10779 | 7877 | | 2048 | 2011 | 7040 | 8665 | | 1942 | 10240 | 7768 | | 4096 | 2194 | 6827 | 8777 | | 1755 | 9452 | 6827 | | 8192 | 1849 | 6656 | 6656 | | 1752 | 7831 | 6827 | | 9216 | 1871 | 5858 | 6416 | | 1643 | 6909 | 6266 | | 16384 | 1883 | 6223 | 6506 | | 1664 | 7340 | 6982 | | 32768 | 1826 | 6390 | 6667 | | 1631 | 7481 | 6971 | | 262144 | 1546 | 4075 | 5977 | | 1299 | 3415 | 3551 | | 1048576 | 1104 | 2071 | 1730 | | 1104 | 1149 | 1834 | |-----------+------------+------------+------------| |------------+------------+------------| Ubuntu 11.04, gcc 4.5, 32-bit, fftw 3.3 on a 1.6 GHz Atom N270 Built with: gcc -o test_pffft -DHAVE_FFTW -msse -mfpmath=sse -O3 -Wall -W pffft.c test_pffft.c fftpack.c -L/usr/local/lib -I/usr/local/include/ -lfftw3f -lm | N (input length) | real FFTPack | real FFTW | real PFFFT | | cplx FFTPack | cplx FFTW | cplx PFFFT | |------------------+--------------+--------------+--------------| |--------------+--------------+--------------| | 64 | 452 | 1041 | 1336 | | 549 | 2318 | 1781 | | 96 | 444 | 1297 | 1297 | | 503 | 2408 | 1686 | | 128 | 527 | 1525 | 1707 | | 543 | 2655 | 1886 | | 192 | 498 | 1653 | 1849 | | 539 | 2678 | 1942 | | 256 | 585 | 1862 | 2156 | | 594 | 2777 | 2244 | | 384 | 499 | 1870 | 1998 | | 511 | 2586 | 1890 | | 512 | 562 | 2095 | 2194 | | 542 | 2973 | 2194 | | 768 | 545 | 2045 | 2133 | | 545 | 2365 | 2133 | | 1024 | 595 | 2133 | 2438 | | 569 | 2695 | 2179 | | 2048 | 587 | 2125 | 2347 | | 521 | 2230 | 1707 | | 4096 | 495 | 1890 | 1834 | | 492 | 1876 | 1672 | | 8192 | 469 | 1548 | 1729 | | 438 | 1740 | 1664 | | 9216 | 468 | 1663 | 1663 | | 446 | 1585 | 1531 | | 16384 | 453 | 1608 | 1767 | | 398 | 1476 | 1664 | | 32768 | 456 | 1420 | 1503 | | 387 | 1388 | 1345 | | 262144 | 309 | 385 | 726 | | 262 | 415 | 840 | | 1048576 | 280 | 351 | 739 | | 261 | 313 | 797 | |------------------+--------------+--------------+--------------| |--------------+--------------+--------------| Windows 7, visual c++ 2010 on a 1.6 GHz Atom N270 Built with: cl /Ox -D_USE_MATH_DEFINES /arch:SSE test_pffft.c pffft.c fftpack.c (visual c++ is definitively not very good with SSE intrinsics...) | N (input length) | real FFTPack | real PFFFT | | cplx FFTPack | cplx PFFFT | |------------------+--------------+--------------| |--------------+--------------| | 64 | 173 | 1009 | | 174 | 1159 | | 96 | 169 | 1029 | | 188 | 1201 | | 128 | 195 | 1242 | | 191 | 1275 | | 192 | 178 | 1312 | | 184 | 1276 | | 256 | 196 | 1591 | | 186 | 1281 | | 384 | 172 | 1409 | | 181 | 1281 | | 512 | 187 | 1640 | | 181 | 1313 | | 768 | 171 | 1614 | | 176 | 1258 | | 1024 | 186 | 1812 | | 178 | 1223 | | 2048 | 190 | 1707 | | 186 | 1099 | | 4096 | 182 | 1446 | | 177 | 975 | | 8192 | 175 | 1345 | | 169 | 1034 | | 9216 | 165 | 1271 | | 168 | 1023 | | 16384 | 166 | 1396 | | 165 | 949 | | 32768 | 172 | 1311 | | 161 | 881 | | 262144 | 136 | 632 | | 134 | 629 | | 1048576 | 134 | 698 | | 127 | 623 | |------------------+--------------+--------------| |--------------+--------------| Ubuntu 12.04, gcc-4.7.3, 32-bit, with fftw 3.3.3 (built with --enable-neon), on a 1.2GHz ARM Cortex A9 (Tegra 3) Built with: gcc-4.7 -O3 -DHAVE_FFTW -march=armv7-a -mtune=cortex-a9 -mfloat-abi=hard -mfpu=neon -ffast-math test_pffft.c pffft.c -o test_pffft_arm fftpack.c -lm -I/usr/local/include/ -L/usr/local/lib/ -lfftw3f | input len |real FFTPack| real FFTW | real PFFFT | |cplx FFTPack| cplx FFTW | cplx PFFFT | |-----------+------------+------------+------------| |------------+------------+------------| | 64 | 549 | 452 | 731 | | 512 | 602 | 640 | | 96 | 421 | 272 | 702 | | 496 | 571 | 602 | | 128 | 498 | 512 | 815 | | 597 | 618 | 652 | | 160 | 521 | 536 | 815 | | 586 | 669 | 625 | | 192 | 539 | 571 | 883 | | 485 | 597 | 626 | | 256 | 640 | 539 | 975 | | 569 | 611 | 671 | | 384 | 499 | 610 | 879 | | 499 | 602 | 637 | | 480 | 518 | 507 | 877 | | 496 | 661 | 616 | | 512 | 524 | 591 | 1002 | | 549 | 678 | 668 | | 640 | 542 | 612 | 955 | | 568 | 663 | 645 | | 768 | 557 | 613 | 981 | | 491 | 663 | 598 | | 800 | 514 | 353 | 882 | | 514 | 360 | 574 | | 1024 | 640 | 640 | 1067 | | 492 | 683 | 602 | | 2048 | 587 | 640 | 908 | | 486 | 640 | 552 | | 2400 | 479 | 368 | 777 | | 422 | 376 | 518 | | 4096 | 511 | 614 | 853 | | 426 | 640 | 534 | | 8192 | 415 | 584 | 708 | | 386 | 622 | 516 | | 9216 | 419 | 571 | 687 | | 364 | 586 | 506 | | 16384 | 426 | 577 | 716 | | 398 | 606 | 530 | | 32768 | 417 | 572 | 673 | | 399 | 572 | 468 | | 262144 | 219 | 380 | 293 | | 255 | 431 | 343 | | 1048576 | 202 | 274 | 237 | | 265 | 282 | 355 | |-----------+------------+------------+------------| |------------+------------+------------| Same platform as above, but this time pffft and fftpack are built with clang 3.2: clang -O3 -DHAVE_FFTW -march=armv7-a -mtune=cortex-a9 -mfloat-abi=hard -mfpu=neon -ffast-math test_pffft.c pffft.c -o test_pffft_arm fftpack.c -lm -I/usr/local/include/ -L/usr/local/lib/ -lfftw3f | input len |real FFTPack| real FFTW | real PFFFT | |cplx FFTPack| cplx FFTW | cplx PFFFT | |-----------+------------+------------+------------| |------------+------------+------------| | 64 | 427 | 452 | 853 | | 427 | 602 | 1024 | | 96 | 351 | 276 | 843 | | 337 | 571 | 963 | | 128 | 373 | 512 | 996 | | 390 | 618 | 1054 | | 160 | 426 | 536 | 987 | | 375 | 669 | 914 | | 192 | 404 | 571 | 1079 | | 388 | 588 | 1079 | | 256 | 465 | 539 | 1205 | | 445 | 602 | 1170 | | 384 | 366 | 610 | 1099 | | 343 | 594 | 1099 | | 480 | 356 | 507 | 1140 | | 335 | 651 | 931 | | 512 | 411 | 591 | 1213 | | 384 | 649 | 1124 | | 640 | 398 | 612 | 1193 | | 373 | 654 | 901 | | 768 | 409 | 613 | 1227 | | 383 | 663 | 1044 | | 800 | 411 | 348 | 1073 | | 353 | 358 | 809 | | 1024 | 427 | 640 | 1280 | | 413 | 692 | 1004 | | 2048 | 414 | 626 | 1126 | | 371 | 640 | 853 | | 2400 | 399 | 373 | 898 | | 319 | 368 | 653 | | 4096 | 404 | 602 | 1059 | | 357 | 633 | 778 | | 8192 | 332 | 584 | 792 | | 308 | 616 | 716 | | 9216 | 322 | 561 | 783 | | 299 | 586 | 687 | | 16384 | 344 | 568 | 778 | | 314 | 617 | 745 | | 32768 | 342 | 564 | 737 | | 314 | 552 | 629 | | 262144 | 201 | 383 | 313 | | 227 | 435 | 413 | | 1048576 | 187 | 262 | 251 | | 228 | 281 | 409 | |-----------+------------+------------+------------| |------------+------------+------------| So it looks like, on ARM, gcc 4.7 is the best at scalar floating point (the fftpack performance numbers are better with gcc), while clang is the best with neon intrinsics (see how pffft perf has improved with clang 3.2). NVIDIA Jetson TK1 board, gcc-4.8.2. The cpu is a 2.3GHz cortex A15 (Tegra K1). Built with: gcc -O3 -march=armv7-a -mtune=native -mfloat-abi=hard -mfpu=neon -ffast-math test_pffft.c pffft.c -o test_pffft_arm fftpack.c -lm | input len |real FFTPack| real PFFFT | |cplx FFTPack| cplx PFFFT | |-----------+------------+------------| |------------+------------| | 64 | 1735 | 3308 | | 1994 | 3744 | | 96 | 1596 | 3448 | | 1987 | 3572 | | 128 | 1807 | 4076 | | 2255 | 3960 | | 160 | 1769 | 4083 | | 2071 | 3845 | | 192 | 1990 | 4233 | | 2017 | 3939 | | 256 | 2191 | 4882 | | 2254 | 4346 | | 384 | 1878 | 4492 | | 2073 | 4012 | | 480 | 1748 | 4398 | | 1923 | 3951 | | 512 | 2030 | 5064 | | 2267 | 4195 | | 640 | 1918 | 4756 | | 2094 | 4184 | | 768 | 2099 | 4907 | | 2048 | 4297 | | 800 | 1822 | 4555 | | 1880 | 4063 | | 1024 | 2232 | 5355 | | 2187 | 4420 | | 2048 | 2176 | 4983 | | 2027 | 3602 | | 2400 | 1741 | 4256 | | 1710 | 3344 | | 4096 | 1816 | 3914 | | 1851 | 3349 | | 8192 | 1716 | 3481 | | 1700 | 3255 | | 9216 | 1735 | 3589 | | 1653 | 3094 | | 16384 | 1567 | 3483 | | 1637 | 3244 | | 32768 | 1624 | 3240 | | 1655 | 3156 | | 262144 | 1012 | 1898 | | 983 | 1503 | | 1048576 | 876 | 1154 | | 868 | 1341 | |-----------+------------+------------| |------------+------------| The performance on the tegra K1 is pretty impressive. I'm not including the FFTW numbers as they as slightly below the scalar fftpack numbers, so something must be wrong (however it seems to be correctly configured and is using neon simd instructions). When using clang 3.4 the pffft version is even a bit faster, reaching 5.7 GFlops for real ffts of size 1024. iPad Air 2 with iOS9, xcode 8.0, arm64. The cpu is an Apple A8X, supposedly running at 1.5GHz. | input len |real FFTPack| real vDSP | real PFFFT | |cplx FFTPack| cplx vDSP | cplx PFFFT | |-----------+------------+------------+------------| |------------+------------+------------| | 64 | 2517 | 7995 | 6086 | | 2725 | 13006 | 8495 | | 96 | 2442 | n/a | 6691 | | 2256 | n/a | 7991 | | 128 | 2664 | 10186 | 7877 | | 2575 | 15115 | 9115 | | 160 | 2638 | n/a | 8283 | | 2682 | n/a | 8806 | | 192 | 2903 | n/a | 9083 | | 2634 | n/a | 8980 | | 256 | 3184 | 11452 | 10039 | | 3026 | 15410 | 10199 | | 384 | 2665 | n/a | 10100 | | 2275 | n/a | 9247 | | 480 | 2546 | n/a | 9863 | | 2341 | n/a | 8892 | | 512 | 2832 | 12197 | 10989 | | 2547 | 16768 | 10154 | | 640 | 2755 | n/a | 10461 | | 2569 | n/a | 9666 | | 768 | 2998 | n/a | 11355 | | 2585 | n/a | 9813 | | 800 | 2516 | n/a | 10332 | | 2433 | n/a | 9164 | | 1024 | 3109 | 12965 | 12114 | | 2869 | 16448 | 10519 | | 2048 | 3027 | 12996 | 12023 | | 2648 | 17304 | 10307 | | 2400 | 2515 | n/a | 10372 | | 2355 | n/a | 8443 | | 4096 | 3204 | 13603 | 12359 | | 2814 | 16570 | 9780 | | 8192 | 2759 | 13422 | 10824 | | 2153 | 15652 | 7884 | | 9216 | 2700 | n/a | 9938 | | 2241 | n/a | 7900 | | 16384 | 2280 | 13057 | 7976 | | 593 | 4272 | 2534 | | 32768 | 768 | 4269 | 2882 | | 606 | 4405 | 2604 | | 262144 | 724 | 3527 | 2630 | | 534 | 2418 | 2157 | | 1048576 | 674 | 1467 | 2135 | | 530 | 1621 | 2055 | |-----------+------------+------------+------------| |------------+------------+------------| I double-checked to make sure I did not make a mistake in the time measurements, as the numbers are much higher than what I initially expected. They are in fact higher than the number I get on the 2.8GHz Xeon of my 2008 mac pro.. (except for FFT lengths >= 32768 where having a big cache is useful). A good surprise is also that the perf is not too far from apple's vDSP (at least for the real FFT).