X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?p=CreaPhase.git;a=blobdiff_plain;f=octave_packages%2Fbenchmark-1.1.1%2Fbenchmark_intmath.m;fp=octave_packages%2Fbenchmark-1.1.1%2Fbenchmark_intmath.m;h=aa3a32951b4941ec92eb134a377e5d67bc3d439e;hp=0000000000000000000000000000000000000000;hb=c880e8788dfc484bf23ce13fa2787f2c6bca4863;hpb=1705066eceaaea976f010f669ce8e972f3734b05 diff --git a/octave_packages/benchmark-1.1.1/benchmark_intmath.m b/octave_packages/benchmark-1.1.1/benchmark_intmath.m new file mode 100644 index 0000000..aa3a329 --- /dev/null +++ b/octave_packages/benchmark-1.1.1/benchmark_intmath.m @@ -0,0 +1,182 @@ +% Copyright (C) 2008 Jaroslav Hajek +% +% This file is part of OctaveForge. +% +% OctaveForge is free software; you can redistribute it and/or modify +% it under the terms of the GNU General Public License as published by +% the Free Software Foundation; either version 2 of the License, or +% (at your option) any later version. +% +% This program is distributed in the hope that it will be useful, +% but WITHOUT ANY WARRANTY; without even the implied warranty of +% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +% GNU General Public License for more details. +% +% You should have received a copy of the GNU General Public License +% along with this software; see the file COPYING. If not, see +% . +% + +% function benchmark_intmath (n, ratio) +% description: +% Test speed of integer math & conversions. +% +% arguments: +% n = array size +% ratio = ratio of intmath for generating integers +% +% results: +% time_uint8_conv = time to convert real vector to uint8 +% time_uint8_add = time to add two uint8 vectors +% time_uint8_sub = time to subtract two uint8 vectors +% time_uint8_mul = time to multiply two uint8 vectors +% time_uint8_div = time to divide two uint8 vectors +% time_int8_conv = time to convert real vector to int8 +% time_int8_add = time to add two int8 vectors +% time_int8_sub = time to subtract two int8 vectors +% time_int8_mul = time to multiply two int8 vectors +% time_int8_div = time to divide two int8 vectors +% time_uint16_conv = time to convert real vector to uint16 +% time_uint16_add = time to add two uint16 vectors +% time_uint16_sub = time to subtract two uint16 vectors +% time_uint16_mul = time to multiply two uint16 vectors +% time_uint16_div = time to divide two uint16 vectors +% time_int16_conv = time to convert real vector to int16 +% time_int16_add = time to add two int16 vectors +% time_int16_sub = time to subtract two int16 vectors +% time_int16_mul = time to multiply two int16 vectors +% time_int16_div = time to divide two int16 vectors +% time_uint32_conv = time to convert real vector to uint32 +% time_uint32_add = time to add two uint32 vectors +% time_uint32_sub = time to subtract two uint32 vectors +% time_uint32_mul = time to multiply two uint32 vectors +% time_uint32_div = time to divide two uint32 vectors +% time_int32_conv = time to convert real vector to int32 +% time_int32_add = time to add two int32 vectors +% time_int32_sub = time to subtract two int32 vectors +% time_int32_mul = time to multiply two int32 vectors +% time_int32_div = time to divide two int32 vectors +% + +function results = benchmark_intmath (n, ratio) + + benchutil_default_arg ('n', 1e7); + benchutil_default_arg ('ratio', 0.6); + + benchutil_initialize (mfilename) + + x = ratio * double (intmax ('uint8')) * rand(n, 1); + y = ratio * double (intmax ('uint8')) * rand(n, 1); + + x = uint8 (x); + tic; y = uint8 (y); time_uint8_conv = toc; + benchutil_set_result ('time_uint8_conv') + + tic; xy = x + y; time_uint8_add = toc; + benchutil_set_result ('time_uint8_add') + + tic; xy = x - y; time_uint8_sub = toc; + benchutil_set_result ('time_uint8_sub') + + tic; xy = x .* y; time_uint8_mul = toc; + benchutil_set_result ('time_uint8_mul') + + tic; xy = x ./ y; time_uint8_div = toc; + benchutil_set_result ('time_uint8_div') + + x = ratio * double (intmax ('int8')) * (2 * rand(n, 1) - 1); + y = ratio * double (intmax ('int8')) * (2 * rand(n, 1) - 1); + + x = int8 (x); + tic; y = int8 (y); time_int8_conv = toc; + benchutil_set_result ('time_int8_conv') + + tic; xy = x + y; time_int8_add = toc; + benchutil_set_result ('time_int8_add') + + tic; xy = x - y; time_int8_sub = toc; + benchutil_set_result ('time_int8_sub') + + tic; xy = x .* y; time_int8_mul = toc; + benchutil_set_result ('time_int8_mul') + + tic; xy = x ./ y; time_int8_div = toc; + benchutil_set_result ('time_int8_div') + + x = ratio * double (intmax ('uint16')) * rand(n, 1); + y = ratio * double (intmax ('uint16')) * rand(n, 1); + + x = uint16 (x); + tic; y = uint16 (y); time_uint16_conv = toc; + benchutil_set_result ('time_uint16_conv') + + tic; xy = x + y; time_uint16_add = toc; + benchutil_set_result ('time_uint16_add') + + tic; xy = x - y; time_uint16_sub = toc; + benchutil_set_result ('time_uint16_sub') + + tic; xy = x .* y; time_uint16_mul = toc; + benchutil_set_result ('time_uint16_mul') + + tic; xy = x ./ y; time_uint16_div = toc; + benchutil_set_result ('time_uint16_div') + + x = ratio * double (intmax ('int16')) * (2 * rand(n, 1) - 1); + y = ratio * double (intmax ('int16')) * (2 * rand(n, 1) - 1); + + x = int16 (x); + tic; y = int16 (y); time_int16_conv = toc; + benchutil_set_result ('time_int16_conv') + + tic; xy = x + y; time_int16_add = toc; + benchutil_set_result ('time_int16_add') + + tic; xy = x - y; time_int16_sub = toc; + benchutil_set_result ('time_int16_sub') + + tic; xy = x .* y; time_int16_mul = toc; + benchutil_set_result ('time_int16_mul') + + tic; xy = x ./ y; time_int16_div = toc; + benchutil_set_result ('time_int16_div') + + x = ratio * double (intmax ('uint32')) * rand(n, 1); + y = ratio * double (intmax ('uint32')) * rand(n, 1); + + x = uint32 (x); + tic; y = uint32 (y); time_uint32_conv = toc; + benchutil_set_result ('time_uint32_conv') + + tic; xy = x + y; time_uint32_add = toc; + benchutil_set_result ('time_uint32_add') + + tic; xy = x - y; time_uint32_sub = toc; + benchutil_set_result ('time_uint32_sub') + + tic; xy = x .* y; time_uint32_mul = toc; + benchutil_set_result ('time_uint32_mul') + + tic; xy = x ./ y; time_uint32_div = toc; + benchutil_set_result ('time_uint32_div') + + x = ratio * double (intmax ('int32')) * (2 * rand(n, 1) - 1); + y = ratio * double (intmax ('int32')) * (2 * rand(n, 1) - 1); + + x = int32 (x); + tic; y = int32 (y); time_int32_conv = toc; + benchutil_set_result ('time_int32_conv') + + tic; xy = x + y; time_int32_add = toc; + benchutil_set_result ('time_int32_add') + + tic; xy = x - y; time_int32_sub = toc; + benchutil_set_result ('time_int32_sub') + + tic; xy = x .* y; time_int32_mul = toc; + benchutil_set_result ('time_int32_mul') + + tic; xy = x ./ y; time_int32_div = toc; + benchutil_set_result ('time_int32_div') + +