diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp1.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp1.stdout_stderr.log new file mode 100644 index 00000000..b5f7f56a --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp1.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 1 +Number of Threads counted = 1 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 39390 microseconds. + (= 39390 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 27248.6 0.047191 0.046975 0.047652 +Scale: 30317.3 0.043497 0.042220 0.044545 +Add: 29508.6 0.065154 0.065066 0.065264 +Triad: 29125.3 0.066232 0.065922 0.066752 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp2.stdout_stderr.log new file mode 100644 index 00000000..cecdfd57 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp2.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 2 +Number of Threads counted = 2 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 36427 microseconds. + (= 36427 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 37033.8 0.035557 0.034563 0.040620 +Scale: 36522.3 0.035665 0.035047 0.038237 +Add: 35559.5 0.054552 0.053994 0.055632 +Triad: 35729.0 0.054459 0.053738 0.057747 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp3.stdout_stderr.log new file mode 100644 index 00000000..f3e2f163 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp3.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 3 +Number of Threads counted = 3 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 38955 microseconds. + (= 38955 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 32853.4 0.039261 0.038961 0.039553 +Scale: 32857.6 0.039320 0.038956 0.039950 +Add: 32726.5 0.058978 0.058668 0.060270 +Triad: 32854.2 0.059149 0.058440 0.061677 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp4.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp4.stdout_stderr.log new file mode 100644 index 00000000..22f6341e --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp4.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 4 +Number of Threads counted = 4 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 40882 microseconds. + (= 40882 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 31521.7 0.040964 0.040607 0.041237 +Scale: 31019.0 0.041808 0.041265 0.043131 +Add: 31299.9 0.061691 0.061342 0.063623 +Triad: 31452.7 0.061352 0.061044 0.061736 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp8.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp8.stdout_stderr.log new file mode 100644 index 00000000..88bf78b6 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O2_mp8.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 8 +Number of Threads counted = 8 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 44236 microseconds. + (= 44236 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 24322.6 0.053038 0.052626 0.054783 +Scale: 27474.2 0.047110 0.046589 0.051871 +Add: 26967.4 0.071891 0.071197 0.075120 +Triad: 26902.1 0.072109 0.071370 0.075986 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp1.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp1.stdout_stderr.log new file mode 100644 index 00000000..e7f9f117 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp1.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 1 +Number of Threads counted = 1 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 36569 microseconds. + (= 36569 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 27182.6 0.047334 0.047089 0.047663 +Scale: 33661.9 0.038084 0.038025 0.038168 +Add: 36384.9 0.053028 0.052769 0.055408 +Triad: 36677.7 0.052589 0.052348 0.054157 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp2.stdout_stderr.log new file mode 100644 index 00000000..84bb4afe --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp2.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 2 +Number of Threads counted = 2 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 38112 microseconds. + (= 38112 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 36621.7 0.035414 0.034952 0.035780 +Scale: 35441.5 0.036852 0.036116 0.037799 +Add: 33180.7 0.058284 0.057865 0.059472 +Triad: 33614.7 0.057596 0.057118 0.058720 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp3.stdout_stderr.log new file mode 100644 index 00000000..fb3b9025 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp3.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 3 +Number of Threads counted = 3 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 39816 microseconds. + (= 39816 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 32688.2 0.039476 0.039158 0.040005 +Scale: 32497.1 0.039870 0.039388 0.040380 +Add: 31563.8 0.061091 0.060829 0.061376 +Triad: 31590.4 0.061293 0.060778 0.062402 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp4.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp4.stdout_stderr.log new file mode 100644 index 00000000..227a2fee --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp4.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 4 +Number of Threads counted = 4 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 41412 microseconds. + (= 41412 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 31255.4 0.041431 0.040953 0.042850 +Scale: 31562.1 0.040959 0.040555 0.041885 +Add: 30859.7 0.062547 0.062217 0.063630 +Triad: 30860.3 0.062568 0.062216 0.063586 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp8.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp8.stdout_stderr.log new file mode 100644 index 00000000..c86711c5 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_O3_mp8.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 8 +Number of Threads counted = 8 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 43599 microseconds. + (= 43599 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 24440.6 0.052607 0.052372 0.052903 +Scale: 28514.8 0.045061 0.044889 0.045228 +Add: 28663.2 0.067316 0.066985 0.067681 +Triad: 28838.3 0.067239 0.066578 0.067787 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp1.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp1.stdout_stderr.log new file mode 100644 index 00000000..620b40af --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp1.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 1 +Number of Threads counted = 1 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 36307 microseconds. + (= 36307 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 27145.7 0.047293 0.047153 0.047880 +Scale: 33915.4 0.038077 0.037741 0.040782 +Add: 36415.3 0.053180 0.052725 0.055758 +Triad: 36354.0 0.053019 0.052814 0.053657 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp2.stdout_stderr.log new file mode 100644 index 00000000..849d02ea --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp2.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 2 +Number of Threads counted = 2 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 38093 microseconds. + (= 38093 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 37640.5 0.035454 0.034006 0.037225 +Scale: 35550.6 0.037017 0.036005 0.039334 +Add: 33277.3 0.058180 0.057697 0.060959 +Triad: 33510.7 0.057777 0.057295 0.060046 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp3.stdout_stderr.log new file mode 100644 index 00000000..4871ae08 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp3.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 3 +Number of Threads counted = 3 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 41233 microseconds. + (= 41233 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 31782.4 0.040528 0.040274 0.040861 +Scale: 31381.8 0.041181 0.040788 0.042209 +Add: 30740.2 0.062880 0.062459 0.063755 +Triad: 30723.0 0.062841 0.062494 0.064090 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp4.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp4.stdout_stderr.log new file mode 100644 index 00000000..c1e6890c --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp4.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 4 +Number of Threads counted = 4 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 41502 microseconds. + (= 41502 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 31035.5 0.041577 0.041243 0.042894 +Scale: 31528.7 0.041018 0.040598 0.043235 +Add: 30785.1 0.062687 0.062368 0.063844 +Triad: 30962.2 0.062411 0.062011 0.062878 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp8.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp8.stdout_stderr.log new file mode 100644 index 00000000..92961b88 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/STREAM_loongarch64-loongarch64_Ofast_mp8.stdout_stderr.log @@ -0,0 +1,33 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 80000000 (elements), Offset = 0 (elements) +Memory per array = 610.4 MiB (= 0.6 GiB). +Total memory required = 1831.1 MiB (= 1.8 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Number of Threads requested = 8 +Number of Threads counted = 8 +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 46102 microseconds. + (= 46102 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 24470.0 0.052610 0.052309 0.053019 +Scale: 28464.6 0.045206 0.044968 0.045373 +Add: 28670.4 0.067322 0.066968 0.067655 +Triad: 28586.8 0.067383 0.067164 0.067790 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..cc5e5188 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,27 @@ +Calculation of PI using FFT and AGM, ver. LG1.1.2-MP1.5.2a.memsave +initializing... +nfft= 1048576 +radix= 10000 +error_margin= 0.0318978 +calculating 4194304 digits of PI... +AGM iteration +precision= 48: 0.39 sec +precision= 80: 0.39 sec +precision= 176: 0.39 sec +precision= 352: 0.39 sec +precision= 688: 0.39 sec +precision= 1392: 0.39 sec +precision= 2784: 0.39 sec +precision= 5584: 0.39 sec +precision= 11168: 0.39 sec +precision= 22336: 0.39 sec +precision= 44688: 0.39 sec +precision= 89408: 0.39 sec +precision= 178816: 0.40 sec +precision= 357648: 0.39 sec +precision= 715312: 0.39 sec +precision= 1430640: 0.39 sec +precision= 2861280: 0.39 sec +precision= 5722592: 0.39 sec +writing pi4194304.txt... +8.12 sec. (real time) diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..0d706546 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,27 @@ +Calculation of PI using FFT and AGM, ver. LG1.1.2-MP1.5.2a.memsave +initializing... +nfft= 1048576 +radix= 10000 +error_margin= 0.0318978 +calculating 4194304 digits of PI... +AGM iteration +precision= 48: 0.38 sec +precision= 80: 0.38 sec +precision= 176: 0.38 sec +precision= 352: 0.38 sec +precision= 688: 0.38 sec +precision= 1392: 0.38 sec +precision= 2784: 0.38 sec +precision= 5584: 0.38 sec +precision= 11168: 0.38 sec +precision= 22336: 0.38 sec +precision= 44688: 0.38 sec +precision= 89408: 0.38 sec +precision= 178816: 0.39 sec +precision= 357648: 0.38 sec +precision= 715312: 0.38 sec +precision= 1430640: 0.38 sec +precision= 2861280: 0.38 sec +precision= 5722592: 0.38 sec +writing pi4194304.txt... +7.91 sec. (real time) diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..3c5a5f00 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/SuperPI_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,27 @@ +Calculation of PI using FFT and AGM, ver. LG1.1.2-MP1.5.2a.memsave +initializing... +nfft= 1048576 +radix= 10000 +error_margin= 0.0311993 +calculating 4194304 digits of PI... +AGM iteration +precision= 48: 0.37 sec +precision= 80: 0.37 sec +precision= 176: 0.37 sec +precision= 352: 0.37 sec +precision= 688: 0.37 sec +precision= 1392: 0.37 sec +precision= 2784: 0.37 sec +precision= 5584: 0.37 sec +precision= 11168: 0.37 sec +precision= 22336: 0.37 sec +precision= 44688: 0.37 sec +precision= 89408: 0.37 sec +precision= 178816: 0.39 sec +precision= 357648: 0.37 sec +precision= 715312: 0.37 sec +precision= 1430640: 0.37 sec +precision= 2861280: 0.37 sec +precision= 5722592: 0.37 sec +writing pi4194304.txt... +7.77 sec. (real time) diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..9a2b7155 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,17 @@ + BusSpeed loongarch64 loongarch64 optimized Thu Nov 9 14:04:27 2023 + Copyright (C) 2013, Roy Longbottom + + Reading Speed 4 Byte Words in MBytes/Second + Memory Inc32 Inc16 Inc8 Inc4 Inc2 Read + KBytes Words Words Words Words Words All + + 16 16812 16924 18803 18424 18452 18463 + 32 18451 18491 18844 18452 18465 18469 + 64 11207 11584 17206 17200 17774 18347 + 128 3928 3945 6556 9863 13143 15754 + 256 3926 3942 6595 9878 13150 15757 + 512 2687 2684 5339 9296 13129 15712 + 1024 2696 2693 5355 9391 13154 15719 + 4096 2717 2688 5370 9356 13159 15732 + 16384 1512 1868 3711 6318 8892 12554 + 65536 1036 1405 2543 4801 7644 13564 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..8d3b8d79 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,17 @@ + BusSpeed loongarch64 loongarch64 optimized Thu Nov 9 14:04:37 2023 + Copyright (C) 2013, Roy Longbottom + + Reading Speed 4 Byte Words in MBytes/Second + Memory Inc32 Inc16 Inc8 Inc4 Inc2 Read + KBytes Words Words Words Words Words All + + 16 16811 16921 18803 18423 18450 18440 + 32 18452 18491 18844 18451 18466 18456 + 64 11206 11586 17205 17202 17775 18328 + 128 3927 3944 6555 9864 13144 15742 + 256 3929 3945 6595 9882 13157 15753 + 512 2683 2688 5335 9250 13140 15674 + 1024 2700 2693 5349 9263 13151 15682 + 4096 2719 2685 5364 9236 13155 15686 + 16384 1639 1943 3826 6484 8691 12736 + 65536 1035 1425 2586 4843 7688 13747 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..bc2c663a --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/busspeedil_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,17 @@ + BusSpeed loongarch64 loongarch64 optimized Thu Nov 9 14:04:47 2023 + Copyright (C) 2013, Roy Longbottom + + Reading Speed 4 Byte Words in MBytes/Second + Memory Inc32 Inc16 Inc8 Inc4 Inc2 Read + KBytes Words Words Words Words Words All + + 16 16812 16919 18813 18438 18456 18485 + 32 18450 18490 18850 18471 18464 18493 + 64 11244 11580 17205 17216 17772 18367 + 128 3928 3944 6555 9863 13143 15749 + 256 3929 3945 6595 9879 13154 15755 + 512 2687 2688 5335 9235 13135 15676 + 1024 2696 2694 5350 9286 13151 15702 + 4096 2723 2686 5372 9496 13155 15751 + 16384 2128 2266 4264 7129 9201 15024 + 65536 1038 1414 2574 4834 7752 13747 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..3c4723d0 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,17 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14538 +Total time (secs): 14.538000 +Iterations/Sec : 20635.575733 +Iterations : 300000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 20635.575733 / GCC13.2.0 20230727 (AOSC OS, Core) -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..9d902fbc --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,17 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14098 +Total time (secs): 14.098000 +Iterations/Sec : 21279.614130 +Iterations : 300000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 21279.614130 / GCC13.2.0 20230727 (AOSC OS, Core) -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..8030f409 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp1_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,17 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14105 +Total time (secs): 14.105000 +Iterations/Sec : 21269.053527 +Iterations : 300000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 21269.053527 / GCC13.2.0 20230727 (AOSC OS, Core) -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..8a9a9475 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,22 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14495 +Total time (secs): 14.495000 +Iterations/Sec : 41393.583994 +Iterations : 600000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 2 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 41393.583994 / GCC13.2.0 20230727 (AOSC OS, Core) -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 2:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..a6c0578b --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,22 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14109 +Total time (secs): 14.109000 +Iterations/Sec : 42526.047204 +Iterations : 600000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 2 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 42526.047204 / GCC13.2.0 20230727 (AOSC OS, Core) -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 2:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..b7bc9894 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp2_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,22 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14118 +Total time (secs): 14.118000 +Iterations/Sec : 42498.937527 +Iterations : 600000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 2 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 42498.937527 / GCC13.2.0 20230727 (AOSC OS, Core) -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 2:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..b7e95d02 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,26 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14480 +Total time (secs): 14.480000 +Iterations/Sec : 62154.696133 +Iterations : 900000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 3 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 62154.696133 / GCC13.2.0 20230727 (AOSC OS, Core) -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 3:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..b5c9f7a9 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,26 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14109 +Total time (secs): 14.109000 +Iterations/Sec : 63789.070806 +Iterations : 900000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 3 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 63789.070806 / GCC13.2.0 20230727 (AOSC OS, Core) -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 3:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..1bab309d --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp3_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,26 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14098 +Total time (secs): 14.098000 +Iterations/Sec : 63838.842389 +Iterations : 900000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 3 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 63838.842389 / GCC13.2.0 20230727 (AOSC OS, Core) -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 3:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..6412ae52 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,30 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14473 +Total time (secs): 14.473000 +Iterations/Sec : 82913.010433 +Iterations : 1200000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 4 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[3]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[3]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[3]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +[3]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 82913.010433 / GCC13.2.0 20230727 (AOSC OS, Core) -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 4:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..3396d0c1 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,30 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14094 +Total time (secs): 14.094000 +Iterations/Sec : 85142.613878 +Iterations : 1200000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 4 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[3]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[3]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[3]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +[3]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 85142.613878 / GCC13.2.0 20230727 (AOSC OS, Core) -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 4:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..4ade156d --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp4_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,30 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 14131 +Total time (secs): 14.131000 +Iterations/Sec : 84919.680136 +Iterations : 1200000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 4 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[3]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[3]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[3]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +[3]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 84919.680136 / GCC13.2.0 20230727 (AOSC OS, Core) -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 4:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..a445c775 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,46 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 21690 +Total time (secs): 21.690000 +Iterations/Sec : 110650.069156 +Iterations : 2400000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 8 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[3]crclist : 0xe714 +[4]crclist : 0xe714 +[5]crclist : 0xe714 +[6]crclist : 0xe714 +[7]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[3]crcmatrix : 0x1fd7 +[4]crcmatrix : 0x1fd7 +[5]crcmatrix : 0x1fd7 +[6]crcmatrix : 0x1fd7 +[7]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[3]crcstate : 0x8e3a +[4]crcstate : 0x8e3a +[5]crcstate : 0x8e3a +[6]crcstate : 0x8e3a +[7]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +[3]crcfinal : 0xcc42 +[4]crcfinal : 0xcc42 +[5]crcfinal : 0xcc42 +[6]crcfinal : 0xcc42 +[7]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 110650.069156 / GCC13.2.0 20230727 (AOSC OS, Core) -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 8:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..2c9315c8 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,46 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 21232 +Total time (secs): 21.232000 +Iterations/Sec : 113036.925396 +Iterations : 2400000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 8 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[3]crclist : 0xe714 +[4]crclist : 0xe714 +[5]crclist : 0xe714 +[6]crclist : 0xe714 +[7]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[3]crcmatrix : 0x1fd7 +[4]crcmatrix : 0x1fd7 +[5]crcmatrix : 0x1fd7 +[6]crcmatrix : 0x1fd7 +[7]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[3]crcstate : 0x8e3a +[4]crcstate : 0x8e3a +[5]crcstate : 0x8e3a +[6]crcstate : 0x8e3a +[7]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +[3]crcfinal : 0xcc42 +[4]crcfinal : 0xcc42 +[5]crcfinal : 0xcc42 +[6]crcfinal : 0xcc42 +[7]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 113036.925396 / GCC13.2.0 20230727 (AOSC OS, Core) -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 8:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..3c924b4e --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/coremark_mp8_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,46 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 21161 +Total time (secs): 21.161000 +Iterations/Sec : 113416.190161 +Iterations : 2400000 +Compiler version : GCC13.2.0 20230727 (AOSC OS, Core) +Compiler flags : -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Parallel Fork : 8 +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[1]crclist : 0xe714 +[2]crclist : 0xe714 +[3]crclist : 0xe714 +[4]crclist : 0xe714 +[5]crclist : 0xe714 +[6]crclist : 0xe714 +[7]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[1]crcmatrix : 0x1fd7 +[2]crcmatrix : 0x1fd7 +[3]crcmatrix : 0x1fd7 +[4]crcmatrix : 0x1fd7 +[5]crcmatrix : 0x1fd7 +[6]crcmatrix : 0x1fd7 +[7]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[1]crcstate : 0x8e3a +[2]crcstate : 0x8e3a +[3]crcstate : 0x8e3a +[4]crcstate : 0x8e3a +[5]crcstate : 0x8e3a +[6]crcstate : 0x8e3a +[7]crcstate : 0x8e3a +[0]crcfinal : 0xcc42 +[1]crcfinal : 0xcc42 +[2]crcfinal : 0xcc42 +[3]crcfinal : 0xcc42 +[4]crcfinal : 0xcc42 +[5]crcfinal : 0xcc42 +[6]crcfinal : 0xcc42 +[7]crcfinal : 0xcc42 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 113416.190161 / GCC13.2.0 20230727 (AOSC OS, Core) -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap / 8:Fork diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..2aeffc63 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,33 @@ +Dhrystone Benchmark, Version 2.1 (Language: C or C++) + +Optimisation loongarch64 loongarch64 optimized +Register option not selected + + 10000 runs 0.00 seconds + 100000 runs 0.00 seconds + 1000000 runs 0.03 seconds + 10000000 runs 0.28 seconds + 20000000 runs 0.55 seconds + 40000000 runs 1.11 seconds + 80000000 runs 2.21 seconds + +Final values (* implementation-dependent): + +Int_Glob: O.K. 5 Bool_Glob: O.K. 1 +Ch_1_Glob: O.K. A Ch_2_Glob: O.K. B +Arr_1_Glob[8]: O.K. 7 Arr_2_Glob8/7: O.K. 80000010 +Ptr_Glob-> Ptr_Comp: * 0x555570a282a0 + Discr: O.K. 0 Enum_Comp: O.K. 2 + Int_Comp: O.K. 17 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Next_Ptr_Glob-> Ptr_Comp: * 0x555570a282a0 same as above + Discr: O.K. 0 Enum_Comp: O.K. 1 + Int_Comp: O.K. 18 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Int_1_Loc: O.K. 5 Int_2_Loc: O.K. 13 +Int_3_Loc: O.K. 7 Enum_Loc: O.K. 1 +Str_1_Loc: O.K. DHRYSTONE PROGRAM, 1'ST STRING +Str_2_Loc: O.K. DHRYSTONE PROGRAM, 2'ND STRING + +Nanoseconds one Dhrystone run: 27.65 +Dhrystones per Second: 36168328 +VAX MIPS rating = 20585.27 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..238fb819 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,33 @@ +Dhrystone Benchmark, Version 2.1 (Language: C or C++) + +Optimisation loongarch64 loongarch64 optimized +Register option not selected + + 10000 runs 0.00 seconds + 100000 runs 0.00 seconds + 1000000 runs 0.03 seconds + 10000000 runs 0.26 seconds + 20000000 runs 0.53 seconds + 40000000 runs 1.06 seconds + 80000000 runs 2.12 seconds + +Final values (* implementation-dependent): + +Int_Glob: O.K. 5 Bool_Glob: O.K. 1 +Ch_1_Glob: O.K. A Ch_2_Glob: O.K. B +Arr_1_Glob[8]: O.K. 7 Arr_2_Glob8/7: O.K. 80000010 +Ptr_Glob-> Ptr_Comp: * 0x5555965782a0 + Discr: O.K. 0 Enum_Comp: O.K. 2 + Int_Comp: O.K. 17 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Next_Ptr_Glob-> Ptr_Comp: * 0x5555965782a0 same as above + Discr: O.K. 0 Enum_Comp: O.K. 1 + Int_Comp: O.K. 18 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Int_1_Loc: O.K. 5 Int_2_Loc: O.K. 13 +Int_3_Loc: O.K. 7 Enum_Loc: O.K. 1 +Str_1_Loc: O.K. DHRYSTONE PROGRAM, 1'ST STRING +Str_2_Loc: O.K. DHRYSTONE PROGRAM, 2'ND STRING + +Nanoseconds one Dhrystone run: 26.45 +Dhrystones per Second: 37812578 +VAX MIPS rating = 21521.10 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..17011b8b --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/dhrystone_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,33 @@ +Dhrystone Benchmark, Version 2.1 (Language: C or C++) + +Optimisation loongarch64 loongarch64 optimized +Register option not selected + + 10000 runs 0.00 seconds + 100000 runs 0.00 seconds + 1000000 runs 0.03 seconds + 10000000 runs 0.26 seconds + 20000000 runs 0.53 seconds + 40000000 runs 1.06 seconds + 80000000 runs 2.12 seconds + +Final values (* implementation-dependent): + +Int_Glob: O.K. 5 Bool_Glob: O.K. 1 +Ch_1_Glob: O.K. A Ch_2_Glob: O.K. B +Arr_1_Glob[8]: O.K. 7 Arr_2_Glob8/7: O.K. 80000010 +Ptr_Glob-> Ptr_Comp: * 0x55555b0182a0 + Discr: O.K. 0 Enum_Comp: O.K. 2 + Int_Comp: O.K. 17 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Next_Ptr_Glob-> Ptr_Comp: * 0x55555b0182a0 same as above + Discr: O.K. 0 Enum_Comp: O.K. 1 + Int_Comp: O.K. 18 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Int_1_Loc: O.K. 5 Int_2_Loc: O.K. 13 +Int_3_Loc: O.K. 7 Enum_Loc: O.K. 1 +Str_1_Loc: O.K. DHRYSTONE PROGRAM, 1'ST STRING +Str_2_Loc: O.K. DHRYSTONE PROGRAM, 2'ND STRING + +Nanoseconds one Dhrystone run: 26.45 +Dhrystones per Second: 37803100 +VAX MIPS rating = 21515.71 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..fa921929 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,3 @@ +g_synth_length_seconds=400 +g_synth_time=4.23523 +g_synth_score=94.446 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..0cbf4fcb --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,3 @@ +g_synth_length_seconds=400 +g_synth_time=4.24678 +g_synth_score=94.189 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..71dce7c6 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/gsynth_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,3 @@ +g_synth_length_seconds=400 +g_synth_time=4.10071 +g_synth_score=97.5441 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..f2ca665e --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,58 @@ +########################################## +Unrolled Double Precision Linpack Benchmark - Linux Version in 'C/C++' + +Optimisation loongarch64 loongarch64 optimized + +norm resid resid machep x[0]-1 x[n-1]-1 + 1.9 8.46778499e-14 2.22044605e-16 -1.11799459e-13 -9.60342916e-14 + +Times are reported for matrices of order 100 +1 pass times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00018 0.00001 0.00019 3604.62 0.0006 0.0034 + +Calculating matgen overhead + 10 times 0.00 seconds + 100 times 0.01 seconds + 1000 times 0.08 seconds + 10000 times 0.75 seconds + 20000 times 1.50 seconds +Overhead for 1 matgen 0.00008 seconds + +Calculating matgen/dgefa passes for 1 seconds + 10 times 0.00 seconds + 100 times 0.02 seconds + 1000 times 0.25 seconds + 2000 times 0.50 seconds + 4000 times 1.00 seconds + 8000 times 2.00 seconds +Passes used 4007 + +Times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00017 0.00001 0.00018 3807.15 0.0005 0.0032 + 0.00017 0.00001 0.00018 3806.94 0.0005 0.0032 + 0.00017 0.00001 0.00018 3806.64 0.0005 0.0032 + 0.00017 0.00001 0.00018 3807.24 0.0005 0.0032 + 0.00017 0.00001 0.00018 3807.30 0.0005 0.0032 +Average 3807.06 + +Calculating matgen2 overhead +Overhead for 1 matgen 0.00008 seconds + +Times for array with leading dimension of 200 + + dgefa dgesl total Mflops unit ratio + 0.00017 0.00001 0.00018 3849.41 0.0005 0.0032 + 0.00017 0.00001 0.00018 3849.70 0.0005 0.0032 + 0.00017 0.00001 0.00018 3850.37 0.0005 0.0032 + 0.00017 0.00001 0.00018 3849.67 0.0005 0.0032 + 0.00017 0.00001 0.00018 3849.88 0.0005 0.0032 +Average 3849.81 + + +Unrolled Double Precision 3807.06 Mflops + + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..19ae4949 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,58 @@ +########################################## +Unrolled Double Precision Linpack Benchmark - Linux Version in 'C/C++' + +Optimisation loongarch64 loongarch64 optimized + +norm resid resid machep x[0]-1 x[n-1]-1 + 1.9 8.46778499e-14 2.22044605e-16 -1.11799459e-13 -9.60342916e-14 + +Times are reported for matrices of order 100 +1 pass times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00017 0.00001 0.00018 3886.76 0.0005 0.0032 + +Calculating matgen overhead + 10 times 0.00 seconds + 100 times 0.01 seconds + 1000 times 0.07 seconds + 10000 times 0.71 seconds + 20000 times 1.43 seconds +Overhead for 1 matgen 0.00007 seconds + +Calculating matgen/dgefa passes for 1 seconds + 10 times 0.00 seconds + 100 times 0.02 seconds + 1000 times 0.23 seconds + 2000 times 0.47 seconds + 4000 times 0.94 seconds + 8000 times 1.88 seconds +Passes used 4257 + +Times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00016 0.00001 0.00017 4057.57 0.0005 0.0030 + 0.00016 0.00001 0.00017 4057.91 0.0005 0.0030 + 0.00016 0.00001 0.00017 4060.38 0.0005 0.0030 + 0.00016 0.00001 0.00017 4059.40 0.0005 0.0030 + 0.00016 0.00001 0.00017 4059.85 0.0005 0.0030 +Average 4059.02 + +Calculating matgen2 overhead +Overhead for 1 matgen 0.00007 seconds + +Times for array with leading dimension of 200 + + dgefa dgesl total Mflops unit ratio + 0.00011 0.00001 0.00011 6161.78 0.0003 0.0020 + 0.00011 0.00001 0.00011 6166.11 0.0003 0.0020 + 0.00011 0.00001 0.00011 6163.85 0.0003 0.0020 + 0.00011 0.00001 0.00011 6163.92 0.0003 0.0020 + 0.00011 0.00001 0.00011 6164.49 0.0003 0.0020 +Average 6164.03 + + +Unrolled Double Precision 4059.02 Mflops + + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..ce99e5f7 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linpack_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,58 @@ +########################################## +Unrolled Double Precision Linpack Benchmark - Linux Version in 'C/C++' + +Optimisation loongarch64 loongarch64 optimized + +norm resid resid machep x[0]-1 x[n-1]-1 + 1.9 8.34887715e-14 2.22044605e-16 -1.11799459e-13 -9.60342916e-14 + +Times are reported for matrices of order 100 +1 pass times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00017 0.00001 0.00018 3886.76 0.0005 0.0032 + +Calculating matgen overhead + 10 times 0.00 seconds + 100 times 0.01 seconds + 1000 times 0.07 seconds + 10000 times 0.68 seconds + 20000 times 1.35 seconds +Overhead for 1 matgen 0.00007 seconds + +Calculating matgen/dgefa passes for 1 seconds + 10 times 0.00 seconds + 100 times 0.02 seconds + 1000 times 0.23 seconds + 2000 times 0.46 seconds + 4000 times 0.93 seconds + 8000 times 1.85 seconds +Passes used 4320 + +Times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00016 0.00001 0.00017 4051.41 0.0005 0.0030 + 0.00016 0.00001 0.00017 4051.28 0.0005 0.0030 + 0.00016 0.00001 0.00017 4052.57 0.0005 0.0030 + 0.00016 0.00001 0.00017 4052.45 0.0005 0.0030 + 0.00016 0.00001 0.00017 4052.55 0.0005 0.0030 +Average 4052.05 + +Calculating matgen2 overhead +Overhead for 1 matgen 0.00007 seconds + +Times for array with leading dimension of 200 + + dgefa dgesl total Mflops unit ratio + 0.00011 0.00001 0.00011 6210.25 0.0003 0.0020 + 0.00011 0.00001 0.00011 6210.70 0.0003 0.0020 + 0.00011 0.00001 0.00011 6209.75 0.0003 0.0020 + 0.00011 0.00001 0.00011 6211.57 0.0003 0.0020 + 0.00011 0.00001 0.00011 6211.83 0.0003 0.0020 +Average 6210.82 + + +Unrolled Double Precision 4052.05 Mflops + + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_compiler.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_compiler.log new file mode 100644 index 00000000..c6af9ced --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_compiler.log @@ -0,0 +1,5 @@ +cc (GCC) 13.2.0 20230727 (AOSC OS, Core) +Copyright (C) 2023 Free Software Foundation, Inc. +This is free software; see the source for copying conditions. There is NO +warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_cpu_sys.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_cpu_sys.log new file mode 100644 index 00000000..8f14dc99 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_cpu_sys.log @@ -0,0 +1,192 @@ +cpu0_L1Instruction_coherency_line_size=64 +cpu0_L1Instruction_number_of_sets=256 +cpu0_L1Instruction_shared_cpu_list=0 +cpu0_L1Instruction_shared_cpu_map=01 +cpu0_L1Instruction_size=64K +cpu0_L1Instruction_ways_of_associativity=4 +cpu0_L1Data_coherency_line_size=64 +cpu0_L1Data_number_of_sets=256 +cpu0_L1Data_shared_cpu_list=0 +cpu0_L1Data_shared_cpu_map=01 +cpu0_L1Data_size=64K +cpu0_L1Data_ways_of_associativity=4 +cpu0_L2Unified_coherency_line_size=64 +cpu0_L2Unified_number_of_sets=256 +cpu0_L2Unified_shared_cpu_list=0 +cpu0_L2Unified_shared_cpu_map=01 +cpu0_L2Unified_size=256K +cpu0_L2Unified_ways_of_associativity=16 +cpu0_L3Unified_coherency_line_size=64 +cpu0_L3Unified_number_of_sets=16384 +cpu0_L3Unified_shared_cpu_list=0-7 +cpu0_L3Unified_shared_cpu_map=ff +cpu0_L3Unified_size=16384K +cpu0_L3Unified_ways_of_associativity=16 +cpu1_L1Instruction_coherency_line_size=64 +cpu1_L1Instruction_number_of_sets=256 +cpu1_L1Instruction_shared_cpu_list=1 +cpu1_L1Instruction_shared_cpu_map=02 +cpu1_L1Instruction_size=64K +cpu1_L1Instruction_ways_of_associativity=4 +cpu1_L1Data_coherency_line_size=64 +cpu1_L1Data_number_of_sets=256 +cpu1_L1Data_shared_cpu_list=1 +cpu1_L1Data_shared_cpu_map=02 +cpu1_L1Data_size=64K +cpu1_L1Data_ways_of_associativity=4 +cpu1_L2Unified_coherency_line_size=64 +cpu1_L2Unified_number_of_sets=256 +cpu1_L2Unified_shared_cpu_list=1 +cpu1_L2Unified_shared_cpu_map=02 +cpu1_L2Unified_size=256K +cpu1_L2Unified_ways_of_associativity=16 +cpu1_L3Unified_coherency_line_size=64 +cpu1_L3Unified_number_of_sets=16384 +cpu1_L3Unified_shared_cpu_list=0-7 +cpu1_L3Unified_shared_cpu_map=ff +cpu1_L3Unified_size=16384K +cpu1_L3Unified_ways_of_associativity=16 +cpu2_L1Instruction_coherency_line_size=64 +cpu2_L1Instruction_number_of_sets=256 +cpu2_L1Instruction_shared_cpu_list=2 +cpu2_L1Instruction_shared_cpu_map=04 +cpu2_L1Instruction_size=64K +cpu2_L1Instruction_ways_of_associativity=4 +cpu2_L1Data_coherency_line_size=64 +cpu2_L1Data_number_of_sets=256 +cpu2_L1Data_shared_cpu_list=2 +cpu2_L1Data_shared_cpu_map=04 +cpu2_L1Data_size=64K +cpu2_L1Data_ways_of_associativity=4 +cpu2_L2Unified_coherency_line_size=64 +cpu2_L2Unified_number_of_sets=256 +cpu2_L2Unified_shared_cpu_list=2 +cpu2_L2Unified_shared_cpu_map=04 +cpu2_L2Unified_size=256K +cpu2_L2Unified_ways_of_associativity=16 +cpu2_L3Unified_coherency_line_size=64 +cpu2_L3Unified_number_of_sets=16384 +cpu2_L3Unified_shared_cpu_list=0-7 +cpu2_L3Unified_shared_cpu_map=ff +cpu2_L3Unified_size=16384K +cpu2_L3Unified_ways_of_associativity=16 +cpu3_L1Instruction_coherency_line_size=64 +cpu3_L1Instruction_number_of_sets=256 +cpu3_L1Instruction_shared_cpu_list=3 +cpu3_L1Instruction_shared_cpu_map=08 +cpu3_L1Instruction_size=64K +cpu3_L1Instruction_ways_of_associativity=4 +cpu3_L1Data_coherency_line_size=64 +cpu3_L1Data_number_of_sets=256 +cpu3_L1Data_shared_cpu_list=3 +cpu3_L1Data_shared_cpu_map=08 +cpu3_L1Data_size=64K +cpu3_L1Data_ways_of_associativity=4 +cpu3_L2Unified_coherency_line_size=64 +cpu3_L2Unified_number_of_sets=256 +cpu3_L2Unified_shared_cpu_list=3 +cpu3_L2Unified_shared_cpu_map=08 +cpu3_L2Unified_size=256K +cpu3_L2Unified_ways_of_associativity=16 +cpu3_L3Unified_coherency_line_size=64 +cpu3_L3Unified_number_of_sets=16384 +cpu3_L3Unified_shared_cpu_list=0-7 +cpu3_L3Unified_shared_cpu_map=ff +cpu3_L3Unified_size=16384K +cpu3_L3Unified_ways_of_associativity=16 +cpu4_L1Instruction_coherency_line_size=64 +cpu4_L1Instruction_number_of_sets=256 +cpu4_L1Instruction_shared_cpu_list=4 +cpu4_L1Instruction_shared_cpu_map=10 +cpu4_L1Instruction_size=64K +cpu4_L1Instruction_ways_of_associativity=4 +cpu4_L1Data_coherency_line_size=64 +cpu4_L1Data_number_of_sets=256 +cpu4_L1Data_shared_cpu_list=4 +cpu4_L1Data_shared_cpu_map=10 +cpu4_L1Data_size=64K +cpu4_L1Data_ways_of_associativity=4 +cpu4_L2Unified_coherency_line_size=64 +cpu4_L2Unified_number_of_sets=256 +cpu4_L2Unified_shared_cpu_list=4 +cpu4_L2Unified_shared_cpu_map=10 +cpu4_L2Unified_size=256K +cpu4_L2Unified_ways_of_associativity=16 +cpu4_L3Unified_coherency_line_size=64 +cpu4_L3Unified_number_of_sets=16384 +cpu4_L3Unified_shared_cpu_list=0-7 +cpu4_L3Unified_shared_cpu_map=ff +cpu4_L3Unified_size=16384K +cpu4_L3Unified_ways_of_associativity=16 +cpu5_L1Instruction_coherency_line_size=64 +cpu5_L1Instruction_number_of_sets=256 +cpu5_L1Instruction_shared_cpu_list=5 +cpu5_L1Instruction_shared_cpu_map=20 +cpu5_L1Instruction_size=64K +cpu5_L1Instruction_ways_of_associativity=4 +cpu5_L1Data_coherency_line_size=64 +cpu5_L1Data_number_of_sets=256 +cpu5_L1Data_shared_cpu_list=5 +cpu5_L1Data_shared_cpu_map=20 +cpu5_L1Data_size=64K +cpu5_L1Data_ways_of_associativity=4 +cpu5_L2Unified_coherency_line_size=64 +cpu5_L2Unified_number_of_sets=256 +cpu5_L2Unified_shared_cpu_list=5 +cpu5_L2Unified_shared_cpu_map=20 +cpu5_L2Unified_size=256K +cpu5_L2Unified_ways_of_associativity=16 +cpu5_L3Unified_coherency_line_size=64 +cpu5_L3Unified_number_of_sets=16384 +cpu5_L3Unified_shared_cpu_list=0-7 +cpu5_L3Unified_shared_cpu_map=ff +cpu5_L3Unified_size=16384K +cpu5_L3Unified_ways_of_associativity=16 +cpu6_L1Instruction_coherency_line_size=64 +cpu6_L1Instruction_number_of_sets=256 +cpu6_L1Instruction_shared_cpu_list=6 +cpu6_L1Instruction_shared_cpu_map=40 +cpu6_L1Instruction_size=64K +cpu6_L1Instruction_ways_of_associativity=4 +cpu6_L1Data_coherency_line_size=64 +cpu6_L1Data_number_of_sets=256 +cpu6_L1Data_shared_cpu_list=6 +cpu6_L1Data_shared_cpu_map=40 +cpu6_L1Data_size=64K +cpu6_L1Data_ways_of_associativity=4 +cpu6_L2Unified_coherency_line_size=64 +cpu6_L2Unified_number_of_sets=256 +cpu6_L2Unified_shared_cpu_list=6 +cpu6_L2Unified_shared_cpu_map=40 +cpu6_L2Unified_size=256K +cpu6_L2Unified_ways_of_associativity=16 +cpu6_L3Unified_coherency_line_size=64 +cpu6_L3Unified_number_of_sets=16384 +cpu6_L3Unified_shared_cpu_list=0-7 +cpu6_L3Unified_shared_cpu_map=ff +cpu6_L3Unified_size=16384K +cpu6_L3Unified_ways_of_associativity=16 +cpu7_L1Instruction_coherency_line_size=64 +cpu7_L1Instruction_number_of_sets=256 +cpu7_L1Instruction_shared_cpu_list=7 +cpu7_L1Instruction_shared_cpu_map=80 +cpu7_L1Instruction_size=64K +cpu7_L1Instruction_ways_of_associativity=4 +cpu7_L1Data_coherency_line_size=64 +cpu7_L1Data_number_of_sets=256 +cpu7_L1Data_shared_cpu_list=7 +cpu7_L1Data_shared_cpu_map=80 +cpu7_L1Data_size=64K +cpu7_L1Data_ways_of_associativity=4 +cpu7_L2Unified_coherency_line_size=64 +cpu7_L2Unified_number_of_sets=256 +cpu7_L2Unified_shared_cpu_list=7 +cpu7_L2Unified_shared_cpu_map=80 +cpu7_L2Unified_size=256K +cpu7_L2Unified_ways_of_associativity=16 +cpu7_L3Unified_coherency_line_size=64 +cpu7_L3Unified_number_of_sets=16384 +cpu7_L3Unified_shared_cpu_list=0-7 +cpu7_L3Unified_shared_cpu_map=ff +cpu7_L3Unified_size=16384K +cpu7_L3Unified_ways_of_associativity=16 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_cpuinfo.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_cpuinfo.log new file mode 100644 index 00000000..6f248460 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_cpuinfo.log @@ -0,0 +1,130 @@ +system type : generic-loongson-machine + +processor : 0 +package : 0 +core : 0 +global_id : 0 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 1 +package : 0 +core : 0 +global_id : 1 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 2 +package : 0 +core : 1 +global_id : 2 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 3 +package : 0 +core : 1 +global_id : 3 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 4 +package : 0 +core : 2 +global_id : 4 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 5 +package : 0 +core : 2 +global_id : 5 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 6 +package : 0 +core : 3 +global_id : 6 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + +processor : 7 +package : 0 +core : 3 +global_id : 7 +CPU Family : Loongson-64bit +Model Name : Loongson-3A6000-HV +CPU Revision : 0x00 +FPU Revision : 0x00 +CPU MHz : 2500.00 +BogoMIPS : 5000.00 +TLB Entries : 2112 +Address Sizes : 48 bits physical, 48 bits virtual +ISA : loongarch32 loongarch64 +Features : cpucfg lam ual fpu lsx lasx crc32 lvz lbt_x86 lbt_arm lbt_mips +Hardware Watchpoint : yes, iwatch count: 8, dwatch count: 4 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_freq.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_freq.log new file mode 100644 index 00000000..e4cfc112 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_freq.log @@ -0,0 +1,124 @@ +max_threads=1 +runtime_seconds_cpu0=27.532163 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2495970875.00 + +max_threads=2 +runtime_seconds_cpu0=27.533983 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2495805883.06 +runtime_seconds_cpu1=27.529079 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=2496250464.45 + +max_threads=3 +runtime_seconds_cpu0=27.522581 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2496839830.73 +runtime_seconds_cpu1=27.528359 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=2496315755.68 +runtime_seconds_cpu2=27.538411 +instructions_cpu2=68719476736 +estimated_frequency_hz_cpu2=2495404560.04 + +max_threads=4 +runtime_seconds_cpu0=27.523351 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2496769991.80 +runtime_seconds_cpu1=27.532346 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=2495954275.40 +runtime_seconds_cpu2=27.527103 +instructions_cpu2=68719476736 +estimated_frequency_hz_cpu2=2496429677.61 +runtime_seconds_cpu3=27.538993 +instructions_cpu3=68719476736 +estimated_frequency_hz_cpu3=2495351824.81 + +max_threads=5 +runtime_seconds_cpu0=27.534255 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2495781224.76 +runtime_seconds_cpu1=27.534094 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=2495795812.21 +runtime_seconds_cpu2=37.879400 +instructions_cpu2=68719476736 +estimated_frequency_hz_cpu2=1814164868.21 +runtime_seconds_cpu3=37.872897 +instructions_cpu3=68719476736 +estimated_frequency_hz_cpu3=1814476376.07 +runtime_seconds_cpu4=27.542962 +instructions_cpu4=68719476736 +estimated_frequency_hz_cpu4=2494992243.41 + +max_threads=6 +runtime_seconds_cpu0=27.544720 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2494833016.98 +runtime_seconds_cpu1=37.887580 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=1813773191.24 +runtime_seconds_cpu2=37.878688 +instructions_cpu2=68719476736 +estimated_frequency_hz_cpu2=1814198976.28 +runtime_seconds_cpu3=27.538249 +instructions_cpu3=68719476736 +estimated_frequency_hz_cpu3=2495419251.11 +runtime_seconds_cpu4=37.886791 +instructions_cpu4=68719476736 +estimated_frequency_hz_cpu4=1813810959.94 +runtime_seconds_cpu5=37.892347 +instructions_cpu5=68719476736 +estimated_frequency_hz_cpu5=1813545014.56 + +max_threads=7 +runtime_seconds_cpu0=27.553775 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=2494013148.86 +runtime_seconds_cpu1=38.048738 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=1806090828.32 +runtime_seconds_cpu2=46.585377 +instructions_cpu2=68719476736 +estimated_frequency_hz_cpu2=1475129769.09 +runtime_seconds_cpu3=46.605882 +instructions_cpu3=68719476736 +estimated_frequency_hz_cpu3=1474480771.33 +runtime_seconds_cpu4=46.572278 +instructions_cpu4=68719476736 +estimated_frequency_hz_cpu4=1475544672.79 +runtime_seconds_cpu5=38.039967 +instructions_cpu5=68719476736 +estimated_frequency_hz_cpu5=1806507273.21 +runtime_seconds_cpu6=46.842547 +instructions_cpu6=68719476736 +estimated_frequency_hz_cpu6=1467031176.26 + +max_threads=8 +runtime_seconds_cpu0=55.081668 +instructions_cpu0=68719476736 +estimated_frequency_hz_cpu0=1247592517.73 +runtime_seconds_cpu1=55.109679 +instructions_cpu1=68719476736 +estimated_frequency_hz_cpu1=1246958392.85 +runtime_seconds_cpu2=55.078557 +instructions_cpu2=68719476736 +estimated_frequency_hz_cpu2=1247662982.85 +runtime_seconds_cpu3=55.080734 +instructions_cpu3=68719476736 +estimated_frequency_hz_cpu3=1247613670.47 +runtime_seconds_cpu4=55.063616 +instructions_cpu4=68719476736 +estimated_frequency_hz_cpu4=1248001524.08 +runtime_seconds_cpu5=55.078720 +instructions_cpu5=68719476736 +estimated_frequency_hz_cpu5=1247659288.75 +runtime_seconds_cpu6=55.090769 +instructions_cpu6=68719476736 +estimated_frequency_hz_cpu6=1247386417.28 +runtime_seconds_cpu7=55.082638 +instructions_cpu7=68719476736 +estimated_frequency_hz_cpu7=1247570544.90 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_meminfo.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_meminfo.log new file mode 100644 index 00000000..f13a5e08 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_meminfo.log @@ -0,0 +1,52 @@ +MemTotal: 33181024 kB +MemFree: 31287920 kB +MemAvailable: 30405296 kB +Buffers: 75376 kB +Cached: 525104 kB +SwapCached: 0 kB +Active: 172304 kB +Inactive: 616256 kB +Active(anon): 12432 kB +Inactive(anon): 198688 kB +Active(file): 159872 kB +Inactive(file): 417568 kB +Unevictable: 0 kB +Mlocked: 0 kB +SwapTotal: 83886064 kB +SwapFree: 83886064 kB +Zswap: 0 kB +Zswapped: 0 kB +Dirty: 0 kB +Writeback: 0 kB +AnonPages: 188080 kB +Mapped: 180096 kB +Shmem: 23040 kB +KReclaimable: 64352 kB +Slab: 200592 kB +SReclaimable: 64352 kB +SUnreclaim: 136240 kB +KernelStack: 5008 kB +PageTables: 7968 kB +SecPageTables: 0 kB +NFS_Unstable: 0 kB +Bounce: 0 kB +WritebackTmp: 0 kB +CommitLimit: 100476576 kB +Committed_AS: 763552 kB +VmallocTotal: 136364875712 kB +VmallocUsed: 41952 kB +VmallocChunk: 0 kB +Percpu: 4352 kB +AnonHugePages: 0 kB +ShmemHugePages: 0 kB +ShmemPmdMapped: 0 kB +FileHugePages: 98304 kB +FilePmdMapped: 32768 kB +CmaTotal: 0 kB +CmaFree: 0 kB +HugePages_Total: 0 +HugePages_Free: 0 +HugePages_Rsvd: 0 +HugePages_Surp: 0 +Hugepagesize: 32768 kB +Hugetlb: 0 kB diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_numactl.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_numactl.log new file mode 100644 index 00000000..3d9ab046 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_numactl.log @@ -0,0 +1,7 @@ +available: 1 nodes (0) +node 0 cpus: 0 1 2 3 4 5 6 7 +node 0 size: 32403 MB +node 0 free: 30557 MB +node distances: +node 0 + 0: 10 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_uname.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_uname.log new file mode 100644 index 00000000..678b5c05 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/linux_uname.log @@ -0,0 +1 @@ +Linux 6.6.0-aosc-main #1 SMP PREEMPT Sun Oct 22 23:09:21 PDT 2023 loongarch64 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..e75a05ae --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,230 @@ +L.L.N.L. 'C' KERNELS: MFLOPS P.C. VERSION 4.0 + +Optimisation loongarch64 loongarch64 optimized + +Calculating outer loop overhead + 1000 times 0.00 seconds + 10000 times 0.00 seconds + 100000 times 0.00 seconds + 1000000 times 0.00 seconds + 10000000 times 0.03 seconds + 20000000 times 0.05 seconds + 40000000 times 0.10 seconds + 80000000 times 0.19 seconds + 160000000 times 0.39 seconds +Overhead for each loop 2.4229e-09 seconds + +Calibrating part 1 of 3 + +Loop count 4 0.00 seconds +Loop count 16 0.00 seconds +Loop count 64 0.00 seconds + +Loops 200 x 1 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 7 x 888 5 6.222216e+09 1.00 6233.89 1001 5.114652693224706e+04 14 + 2 67 x 596 4 3.098723e+09 1.00 3099.94 101 1.539721811668517e+03 13 + 3 9 x 290 2 1.045044e+09 1.00 1044.07 1001 1.000742883066638e+01 13 + 4 14 x 340 2 1.142400e+09 1.00 1139.70 1001 5.999250595474085e-01 13 + 5 10 x 158 2 6.320000e+08 1.00 632.34 1001 4.548871642388626e+03 13 + 6 3 x 392 2 9.332736e+08 1.00 932.52 64 4.375116344743195e+03 12 + 7 4 x 656 16 8.354816e+09 1.00 8355.19 995 6.104251075174966e+04 13 + 8 10 x 576 36 8.211456e+09 1.00 8242.03 100 1.501268005627156e+05 12 + 9 36 x 495 17 6.119388e+09 0.99 6184.19 101 1.189443609975093e+05 13 +10 34 x 493 9 3.047332e+09 0.99 3064.88 101 7.310369784326026e+04 13 +11 11 x 384 1 8.448000e+08 1.00 845.64 1001 3.342910972650561e+07 13 +12 12 x 519 1 1.245600e+09 1.00 1247.44 1000 2.907141430413818e-05 7 +13 36 x 296 7 9.547776e+08 0.99 959.76 64 1.202533961843101e+11 13 +14 2 x 369 11 1.625224e+09 1.00 1630.98 1001 3.165553044001662e+09 12 +15 1 x 888 33 2.930400e+09 1.00 2937.87 101 3.943816690352320e+04 13 +16 25 x 803 10 2.127950e+09 1.00 2128.78 75 5.650760000000000e+05 16 +17 35 x 263 9 1.673469e+09 1.00 1673.45 101 1.114641772903101e+03 12 +18 2 x 530 44 4.617360e+09 1.00 4630.39 100 1.015727037502806e+05 12 +19 39 x 198 6 9.359064e+08 1.00 935.49 101 5.421816960150430e+02 12 +20 1 x 309 26 1.606800e+09 1.00 1604.14 1000 3.040644339316555e+07 11 +21 1 x 98 2 2.474500e+09 1.00 2470.25 101 1.597308280710891e+08 12 +22 11 x 538 17 2.032241e+09 1.00 2037.75 101 2.938604376567126e+02 13 +23 8 x 226 11 1.968912e+09 1.00 1969.14 100 3.549900501566212e+04 12 +24 5 x 621 1 6.210000e+08 1.00 620.33 1001 5.000000000000000e+02 16 + + Maximum Rate 8355.19 + Average Rate 2692.51 + Geometric Mean 1979.29 + Harmonic Mean 1531.42 + Minimum Rate 620.33 + + Do Span 471 + +Calibrating part 2 of 3 + +Loop count 8 0.00 seconds +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds + +Loops 200 x 2 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 40 x 764 5 6.173120e+09 1.00 6177.64 101 5.253344778938003e+02 14 + 2 40 x 500 4 3.104000e+09 1.00 3098.07 101 1.539721811668517e+03 13 + 3 53 x 400 2 1.712960e+09 1.00 1711.38 101 1.009741436579204e+00 13 + 4 70 x 653 2 2.194080e+09 1.00 2186.77 101 5.999250595474085e-01 13 + 5 55 x 164 2 7.216000e+08 0.99 729.85 101 4.589031939602207e+01 13 + 6 7 x 334 2 8.977920e+08 1.00 896.83 32 8.631675645346178e+01 12 + 7 22 x 592 16 8.418714e+09 1.00 8406.26 101 6.345586315784155e+02 14 + 8 6 x 480 36 8.211456e+09 1.00 8235.90 100 1.501268005627156e+05 12 + 9 21 x 428 17 6.172958e+09 1.00 6180.50 101 1.189443609975093e+05 13 +10 19 x 442 9 3.053513e+09 1.00 3063.24 101 7.310369784326026e+04 13 +11 64 x 388 1 9.932800e+08 1.00 991.53 101 3.433560407476189e+04 13 +12 68 x 457 1 1.243040e+09 1.00 1241.41 100 7.127569149598112e-06 9 +13 41 x 261 7 9.588096e+08 0.99 965.36 32 9.816387817138161e+10 9 +14 10 x 439 11 1.950916e+09 1.00 1949.21 101 3.039983465147589e+07 12 +15 1 x 445 33 2.937000e+09 1.00 2937.44 101 3.943816690352320e+04 13 +16 27 x 628 10 1.899072e+09 0.91 2088.65 40 6.480410000000000e+05 16 +17 20 x 231 9 1.679832e+09 1.00 1673.41 101 1.114641772903101e+03 12 +18 1 x 530 44 4.617360e+09 1.00 4628.77 100 1.015727037502806e+05 12 +19 23 x 168 6 9.366336e+08 1.00 935.51 101 5.421816960150430e+02 12 +20 8 x 193 26 1.605760e+09 0.98 1642.10 100 3.126205178810911e+04 12 +21 1 x 98 2 2.450000e+09 1.00 2444.32 50 7.824524877235301e+07 12 +22 7 x 425 17 2.043230e+09 1.00 2036.43 101 2.938604376567126e+02 13 +23 5 x 181 11 1.971090e+09 1.00 1968.66 100 3.549900501566212e+04 12 +24 31 x 498 1 6.175200e+08 1.00 617.52 101 5.000000000000000e+01 16 + + Maximum Rate 8406.26 + Average Rate 2783.62 + Geometric Mean 2113.18 + Harmonic Mean 1661.90 + Minimum Rate 617.52 + + Do Span 90 + +Calibrating part 3 of 3 + +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds +Loop count 512 0.00 seconds + +Loops 200 x 8 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 28 x1014 5 6.132672e+09 1.00 6129.40 27 3.855104502494985e+01 14 + 2 46 x 788 4 2.551859e+09 1.00 2552.23 15 3.953296986903406e+01 13 + 3 37 x 837 2 2.675722e+09 1.00 2675.98 27 2.699309089321338e-01 13 + 4 38 x1082 2 1.973568e+09 1.00 1971.51 27 5.999250595474085e-01 13 + 5 40 x 396 2 1.317888e+09 1.00 1315.08 27 3.182615248448323e+00 13 + 6 21 x 683 2 1.101542e+09 0.99 1108.06 8 1.120309393467610e+00 12 + 7 20 x 805 16 8.655360e+09 1.00 8647.37 21 2.845720217644064e+01 14 + 8 9 x 595 36 8.019648e+09 1.00 8024.63 14 2.960543667877653e+03 12 + 9 26 x 588 17 6.237504e+09 1.00 6235.94 15 2.623968460874436e+03 13 +10 25 x 577 9 3.115800e+09 1.00 3112.94 15 1.651291227698388e+03 13 +11 46 x1085 1 2.076256e+09 1.00 2083.44 27 6.551161335846584e+02 13 +12 48 x 626 1 1.249997e+09 1.00 1248.31 26 1.943435982643127e-06 9 +13 31 x 351 7 9.749376e+08 1.00 974.67 8 3.847124173932926e+10 8 +14 8 x 533 11 2.026253e+09 1.00 2025.13 27 2.923540598700724e+06 11 +15 1 x 815 33 3.012240e+09 1.00 3011.69 15 1.108997288135077e+03 13 +16 14 x 857 10 2.111648e+09 1.00 2111.58 15 5.152160000000000e+05 16 +17 26 x 394 9 2.212704e+09 1.00 2217.42 15 2.947368618590736e+01 12 +18 2 x 499 44 4.566848e+09 1.00 4566.80 14 9.700646212341634e+02 12 +19 28 x 232 6 9.354240e+08 1.00 932.37 15 1.268230698051755e+01 12 +20 7 x 222 26 1.680806e+09 0.96 1744.75 26 5.987713249471707e+02 12 +21 1 x 61 2 2.440000e+09 1.01 2427.04 20 5.009945671206671e+07 12 +22 8 x 607 17 1.981248e+09 1.00 1980.99 15 6.109968728264851e+00 13 +23 7 x 358 11 2.866864e+09 1.00 2862.47 14 4.850340602751729e+02 12 +24 23 x 543 1 5.195424e+08 0.84 618.09 27 1.300000000000000e+01 16 + + Maximum Rate 8647.37 + Average Rate 2940.74 + Geometric Mean 2341.95 + Harmonic Mean 1900.72 + Minimum Rate 618.09 + + Do Span 19 + + Overall + + Part 1 weight 1 + Part 2 weight 2 + Part 3 weight 1 + + Maximum Rate 8647.37 + Average Rate 2800.12 + Geometric Mean 2133.00 + Harmonic Mean 1678.87 + Minimum Rate 617.52 + + Do Span 167 + + Section 1 Test 1 Non-standard result was 5.114652693224706e+04 expected 5.114652693224671e+04 + Section 1 Test 2 Non-standard result was 1.539721811668517e+03 expected 1.539721811668385e+03 + Section 1 Test 3 Non-standard result was 1.000742883066638e+01 expected 1.000742883066363e+01 + Section 1 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 1 Test 5 Non-standard result was 4.548871642388626e+03 expected 4.548871642387267e+03 + Section 1 Test 6 Non-standard result was 4.375116344743195e+03 expected 4.375116344729986e+03 + Section 1 Test 7 Non-standard result was 6.104251075174966e+04 expected 6.104251075174761e+04 + Section 1 Test 8 Non-standard result was 1.501268005627156e+05 expected 1.501268005625795e+05 + Section 1 Test 9 Non-standard result was 1.189443609975093e+05 expected 1.189443609974981e+05 + Section 1 Test 10 Non-standard result was 7.310369784326026e+04 expected 7.310369784325296e+04 + Section 1 Test 11 Non-standard result was 3.342910972650561e+07 expected 3.342910972650109e+07 + Section 1 Test 12 Non-standard result was 2.907141430413818e-05 expected 2.907141294167248e-05 + Section 1 Test 13 Non-standard result was 1.202533961843101e+11 expected 1.202533961842805e+11 + Section 1 Test 14 Non-standard result was 3.165553044001662e+09 expected 3.165553044000335e+09 + Section 1 Test 15 Non-standard result was 3.943816690352320e+04 expected 3.943816690352044e+04 + Section 1 Test 17 Non-standard result was 1.114641772903101e+03 expected 1.114641772902486e+03 + Section 1 Test 18 Non-standard result was 1.015727037502806e+05 expected 1.015727037502299e+05 + Section 1 Test 19 Non-standard result was 5.421816960150430e+02 expected 5.421816960147207e+02 + Section 1 Test 20 Non-standard result was 3.040644339316555e+07 expected 3.040644339351239e+07 + Section 1 Test 21 Non-standard result was 1.597308280710891e+08 expected 1.597308280710199e+08 + Section 1 Test 22 Non-standard result was 2.938604376567126e+02 expected 2.938604376566697e+02 + Section 1 Test 23 Non-standard result was 3.549900501566212e+04 expected 3.549900501563623e+04 + Section 2 Test 1 Non-standard result was 5.253344778938003e+02 expected 5.253344778937972e+02 + Section 2 Test 2 Non-standard result was 1.539721811668517e+03 expected 1.539721811668385e+03 + Section 2 Test 3 Non-standard result was 1.009741436579204e+00 expected 1.009741436578952e+00 + Section 2 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 2 Test 5 Non-standard result was 4.589031939602207e+01 expected 4.589031939600982e+01 + Section 2 Test 6 Non-standard result was 8.631675645346178e+01 expected 8.631675645333210e+01 + Section 2 Test 7 Non-standard result was 6.345586315784155e+02 expected 6.345586315784055e+02 + Section 2 Test 8 Non-standard result was 1.501268005627156e+05 expected 1.501268005625795e+05 + Section 2 Test 9 Non-standard result was 1.189443609975093e+05 expected 1.189443609974981e+05 + Section 2 Test 10 Non-standard result was 7.310369784326026e+04 expected 7.310369784325296e+04 + Section 2 Test 11 Non-standard result was 3.433560407476189e+04 expected 3.433560407475758e+04 + Section 2 Test 12 Non-standard result was 7.127569149598112e-06 expected 7.127569130821465e-06 + Section 2 Test 13 Non-standard result was 9.816387817138161e+10 expected 9.816387810944356e+10 + Section 2 Test 14 Non-standard result was 3.039983465147589e+07 expected 3.039983465145392e+07 + Section 2 Test 15 Non-standard result was 3.943816690352320e+04 expected 3.943816690352044e+04 + Section 2 Test 17 Non-standard result was 1.114641772903101e+03 expected 1.114641772902486e+03 + Section 2 Test 18 Non-standard result was 1.015727037502806e+05 expected 1.015727037502299e+05 + Section 2 Test 19 Non-standard result was 5.421816960150430e+02 expected 5.421816960147207e+02 + Section 2 Test 20 Non-standard result was 3.126205178810911e+04 expected 3.126205178815431e+04 + Section 2 Test 21 Non-standard result was 7.824524877235301e+07 expected 7.824524877232093e+07 + Section 2 Test 22 Non-standard result was 2.938604376567126e+02 expected 2.938604376566697e+02 + Section 2 Test 23 Non-standard result was 3.549900501566212e+04 expected 3.549900501563623e+04 + Section 3 Test 1 Non-standard result was 3.855104502494985e+01 expected 3.855104502494961e+01 + Section 3 Test 2 Non-standard result was 3.953296986903406e+01 expected 3.953296986903059e+01 + Section 3 Test 3 Non-standard result was 2.699309089321338e-01 expected 2.699309089320672e-01 + Section 3 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 3 Test 5 Non-standard result was 3.182615248448323e+00 expected 3.182615248447483e+00 + Section 3 Test 6 Non-standard result was 1.120309393467610e+00 expected 1.120309393467088e+00 + Section 3 Test 7 Non-standard result was 2.845720217644064e+01 expected 2.845720217644024e+01 + Section 3 Test 8 Non-standard result was 2.960543667877653e+03 expected 2.960543667875005e+03 + Section 3 Test 9 Non-standard result was 2.623968460874436e+03 expected 2.623968460874250e+03 + Section 3 Test 10 Non-standard result was 1.651291227698388e+03 expected 1.651291227698265e+03 + Section 3 Test 11 Non-standard result was 6.551161335846584e+02 expected 6.551161335845770e+02 + Section 3 Test 12 Non-standard result was 1.943435982643127e-06 expected 1.943435981130448e-06 + Section 3 Test 13 Non-standard result was 3.847124173932926e+10 expected 3.847124199949431e+10 + Section 3 Test 14 Non-standard result was 2.923540598700724e+06 expected 2.923540598672009e+06 + Section 3 Test 15 Non-standard result was 1.108997288135077e+03 expected 1.108997288134785e+03 + Section 3 Test 17 Non-standard result was 2.947368618590736e+01 expected 2.947368618589361e+01 + Section 3 Test 18 Non-standard result was 9.700646212341634e+02 expected 9.700646212337041e+02 + Section 3 Test 19 Non-standard result was 1.268230698051755e+01 expected 1.268230698051003e+01 + Section 3 Test 20 Non-standard result was 5.987713249471707e+02 expected 5.987713249475302e+02 + Section 3 Test 21 Non-standard result was 5.009945671206671e+07 expected 5.009945671204667e+07 + Section 3 Test 22 Non-standard result was 6.109968728264851e+00 expected 6.109968728263972e+00 + Section 3 Test 23 Non-standard result was 4.850340602751729e+02 expected 4.850340602749970e+02 +Compiler #define or values in LLloops.c might to be changed + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..d1a1a087 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,232 @@ +L.L.N.L. 'C' KERNELS: MFLOPS P.C. VERSION 4.0 + +Optimisation loongarch64 loongarch64 optimized + +Calculating outer loop overhead + 1000 times 0.00 seconds + 10000 times 0.00 seconds + 100000 times 0.00 seconds + 1000000 times 0.00 seconds + 10000000 times 0.03 seconds + 20000000 times 0.06 seconds + 40000000 times 0.11 seconds + 80000000 times 0.22 seconds +Overhead for each loop 2.8116e-09 seconds + +Calibrating part 1 of 3 + +Loop count 4 0.00 seconds +Loop count 16 0.00 seconds +Loop count 64 0.00 seconds +Loop count 256 0.01 seconds + +Loops 200 x 1 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 7 x2368 5 1.659258e+10 1.0016589.69 1001 5.114652693224706e+04 14 + 2 67 x 930 4 4.835256e+09 1.00 4839.40 101 1.539721811668517e+03 13 + 3 9 x 480 2 1.729728e+09 1.00 1727.87 1001 1.000742883066638e+01 13 + 4 14 x 340 2 1.142400e+09 1.00 1140.27 1001 5.999250595474085e-01 13 + 5 10 x 159 2 6.360000e+08 1.00 633.56 1001 4.548871642388627e+03 13 + 6 3 x 394 2 9.380352e+08 1.00 935.40 64 4.375116344743195e+03 12 + 7 4 x1749 16 2.227526e+10 1.0022275.95 995 6.104251075174966e+04 13 + 8 10 x 628 36 8.952768e+09 1.00 8962.69 100 1.501268005627156e+05 12 + 9 36 x 501 17 6.193562e+09 1.00 6201.21 101 1.189443609975093e+05 13 +10 34 x 497 9 3.072056e+09 1.00 3073.91 101 7.310369784326026e+04 13 +11 11 x 387 1 8.514000e+08 1.00 850.41 1001 3.342910972650561e+07 13 +12 12 x2042 1 4.900800e+09 1.00 4903.05 1000 2.907141430413818e-05 7 +13 36 x 299 7 9.644544e+08 1.00 959.69 64 1.202533961843101e+11 13 +14 2 x 463 11 2.039237e+09 1.00 2036.70 1001 3.165553044001662e+09 12 +15 1 x 900 33 2.970000e+09 1.00 2972.06 101 3.943816690352320e+04 13 +16 25 x 702 10 1.860300e+09 0.96 1939.02 75 5.650760000000000e+05 16 +17 35 x 263 9 1.673469e+09 1.00 1673.69 101 1.114641772903102e+03 12 +18 2 x1116 44 9.722592e+09 1.00 9726.09 100 1.015727037502806e+05 12 +19 39 x 199 6 9.406332e+08 1.00 936.06 101 5.421816960150430e+02 12 +20 1 x 309 26 1.606800e+09 0.99 1623.95 1000 3.040644339316555e+07 11 +21 1 x 316 2 7.979000e+09 1.00 7989.29 101 1.597308280710891e+08 12 +22 11 x 540 17 2.039796e+09 1.00 2036.81 101 2.938604376567125e+02 13 +23 8 x 226 11 1.968912e+09 1.00 1965.70 100 3.549900501566212e+04 12 +24 5 x 825 1 8.250000e+08 1.00 825.13 1001 5.000000000000000e+02 16 + + Maximum Rate22275.95 + Average Rate 4450.73 + Geometric Mean 2619.98 + Harmonic Mean 1777.86 + Minimum Rate 633.56 + + Do Span 471 + +Calibrating part 2 of 3 + +Loop count 8 0.00 seconds +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds +Loop count 512 0.01 seconds + +Loops 200 x 2 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 40 x2070 5 1.672560e+10 1.0016703.29 101 5.253344778938003e+02 14 + 2 40 x 779 4 4.836032e+09 1.00 4841.64 101 1.539721811668517e+03 13 + 3 53 x 601 2 2.573722e+09 1.00 2569.69 101 1.009741436579204e+00 13 + 4 70 x 650 2 2.184000e+09 1.00 2184.00 101 5.999250595474085e-01 13 + 5 55 x 168 2 7.392000e+08 1.01 735.25 101 4.589031939602206e+01 13 + 6 7 x 335 2 9.004800e+08 1.00 898.86 32 8.631675645346178e+01 12 + 7 22 x1572 16 2.235510e+10 1.0022355.02 101 6.345586315784155e+02 14 + 8 6 x 524 36 8.964173e+09 1.00 8963.16 100 1.501268005627156e+05 12 + 9 21 x 430 17 6.201804e+09 1.00 6200.68 101 1.189443609975093e+05 13 +10 19 x 445 9 3.074238e+09 1.00 3074.03 101 7.310369784326026e+04 13 +11 64 x 415 1 1.062400e+09 1.00 1061.40 101 3.433560407476189e+04 13 +12 68 x1583 1 4.305760e+09 1.00 4304.45 100 7.127569149598112e-06 9 +13 41 x 264 7 9.698304e+08 1.00 965.81 32 9.816387817138161e+10 9 +14 10 x 635 11 2.821940e+09 1.00 2821.09 101 3.039983465147589e+07 12 +15 1 x 451 33 2.976600e+09 1.00 2972.17 101 3.943816690352320e+04 13 +16 27 x 589 10 1.781136e+09 0.93 1919.09 40 6.480410000000000e+05 16 +17 20 x 231 9 1.679832e+09 1.00 1673.53 101 1.114641772903102e+03 12 +18 1 x1116 44 9.722592e+09 1.00 9725.37 100 1.015727037502806e+05 12 +19 23 x 168 6 9.366336e+08 1.00 936.00 101 5.421816960150430e+02 12 +20 8 x 200 26 1.664000e+09 1.00 1666.76 100 3.126205178810911e+04 12 +21 1 x 318 2 7.950000e+09 1.00 7964.48 50 7.824524877235301e+07 12 +22 7 x 418 17 2.009577e+09 0.99 2037.13 101 2.938604376567125e+02 13 +23 5 x 181 11 1.971090e+09 1.00 1965.64 100 3.549900501566212e+04 12 +24 31 x 662 1 8.208800e+08 1.00 820.90 101 5.000000000000000e+01 16 + + Maximum Rate22355.02 + Average Rate 4556.64 + Geometric Mean 2800.31 + Harmonic Mean 1941.30 + Minimum Rate 735.25 + + Do Span 90 + +Calibrating part 3 of 3 + +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds +Loop count 512 0.00 seconds +Loop count 2048 0.01 seconds + +Loops 200 x 8 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 28 x2672 5 1.616026e+10 1.0116048.85 27 3.855104502494986e+01 14 + 2 46 x 788 4 2.551859e+09 1.00 2551.11 15 3.953296986903406e+01 13 + 3 37 x1274 2 4.072723e+09 1.00 4064.98 27 2.699309089321338e-01 13 + 4 38 x1081 2 1.971744e+09 1.00 1971.45 27 5.999250595474085e-01 13 + 5 40 x 398 2 1.324544e+09 1.00 1324.63 27 3.182615248448323e+00 13 + 6 21 x 704 2 1.135411e+09 1.00 1134.97 8 1.120309393467610e+00 12 + 7 20 x1998 16 2.148250e+10 0.9821851.41 21 2.845720217644064e+01 14 + 8 9 x 635 36 8.558784e+09 1.00 8556.88 14 2.960543667877653e+03 12 + 9 26 x 597 17 6.332976e+09 1.00 6324.13 15 2.623968460874436e+03 13 +10 25 x 582 9 3.142800e+09 1.00 3139.90 15 1.651291227698388e+03 13 +11 46 x1131 1 2.164282e+09 1.00 2164.35 27 6.551161335846584e+02 13 +12 48 x1626 1 3.246797e+09 1.00 3246.58 26 1.943435982643127e-06 9 +13 31 x 354 7 9.832704e+08 1.00 981.67 8 3.847124173932926e+10 8 +14 8 x 774 11 2.942438e+09 1.00 2941.66 27 2.923540598700724e+06 11 +15 1 x 829 33 3.063984e+09 1.00 3063.75 15 1.108997288135077e+03 13 +16 14 x 774 10 1.907136e+09 1.00 1904.65 15 5.152160000000000e+05 16 +17 26 x 396 9 2.223936e+09 1.00 2221.66 15 2.947368618590736e+01 12 +18 2 x 714 44 6.534528e+09 1.00 6528.68 14 9.700646212341634e+02 12 +19 28 x 233 6 9.394560e+08 1.00 935.93 15 1.268230698051755e+01 12 +20 7 x 235 26 1.779232e+09 1.00 1783.29 26 5.987713249471707e+02 12 +21 1 x 197 2 7.880000e+09 0.99 7930.38 20 5.009945671206671e+07 12 +22 8 x 608 17 1.984512e+09 1.00 1983.00 15 6.109968728264851e+00 13 +23 7 x 339 11 2.714712e+09 1.00 2716.10 14 4.850340602751729e+02 12 +24 23 x 859 1 8.218912e+08 1.00 821.64 27 1.300000000000000e+01 16 + + Maximum Rate21851.41 + Average Rate 4424.65 + Geometric Mean 2947.08 + Harmonic Mean 2199.61 + Minimum Rate 821.64 + + Do Span 19 + + Overall + + Part 1 weight 1 + Part 2 weight 2 + Part 3 weight 1 + + Maximum Rate22355.02 + Average Rate 4497.17 + Geometric Mean 2789.50 + Harmonic Mean 1953.76 + Minimum Rate 633.56 + + Do Span 167 + + Section 1 Test 1 Non-standard result was 5.114652693224706e+04 expected 5.114652693224671e+04 + Section 1 Test 2 Non-standard result was 1.539721811668517e+03 expected 1.539721811668385e+03 + Section 1 Test 3 Non-standard result was 1.000742883066638e+01 expected 1.000742883066363e+01 + Section 1 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 1 Test 5 Non-standard result was 4.548871642388627e+03 expected 4.548871642387267e+03 + Section 1 Test 6 Non-standard result was 4.375116344743195e+03 expected 4.375116344729986e+03 + Section 1 Test 7 Non-standard result was 6.104251075174966e+04 expected 6.104251075174761e+04 + Section 1 Test 8 Non-standard result was 1.501268005627156e+05 expected 1.501268005625795e+05 + Section 1 Test 9 Non-standard result was 1.189443609975093e+05 expected 1.189443609974981e+05 + Section 1 Test 10 Non-standard result was 7.310369784326026e+04 expected 7.310369784325296e+04 + Section 1 Test 11 Non-standard result was 3.342910972650561e+07 expected 3.342910972650109e+07 + Section 1 Test 12 Non-standard result was 2.907141430413818e-05 expected 2.907141294167248e-05 + Section 1 Test 13 Non-standard result was 1.202533961843101e+11 expected 1.202533961842805e+11 + Section 1 Test 14 Non-standard result was 3.165553044001662e+09 expected 3.165553044000335e+09 + Section 1 Test 15 Non-standard result was 3.943816690352320e+04 expected 3.943816690352044e+04 + Section 1 Test 17 Non-standard result was 1.114641772903102e+03 expected 1.114641772902486e+03 + Section 1 Test 18 Non-standard result was 1.015727037502806e+05 expected 1.015727037502299e+05 + Section 1 Test 19 Non-standard result was 5.421816960150430e+02 expected 5.421816960147207e+02 + Section 1 Test 20 Non-standard result was 3.040644339316555e+07 expected 3.040644339351239e+07 + Section 1 Test 21 Non-standard result was 1.597308280710891e+08 expected 1.597308280710199e+08 + Section 1 Test 22 Non-standard result was 2.938604376567125e+02 expected 2.938604376566697e+02 + Section 1 Test 23 Non-standard result was 3.549900501566212e+04 expected 3.549900501563623e+04 + Section 2 Test 1 Non-standard result was 5.253344778938003e+02 expected 5.253344778937972e+02 + Section 2 Test 2 Non-standard result was 1.539721811668517e+03 expected 1.539721811668385e+03 + Section 2 Test 3 Non-standard result was 1.009741436579204e+00 expected 1.009741436578952e+00 + Section 2 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 2 Test 5 Non-standard result was 4.589031939602206e+01 expected 4.589031939600982e+01 + Section 2 Test 6 Non-standard result was 8.631675645346178e+01 expected 8.631675645333210e+01 + Section 2 Test 7 Non-standard result was 6.345586315784155e+02 expected 6.345586315784055e+02 + Section 2 Test 8 Non-standard result was 1.501268005627156e+05 expected 1.501268005625795e+05 + Section 2 Test 9 Non-standard result was 1.189443609975093e+05 expected 1.189443609974981e+05 + Section 2 Test 10 Non-standard result was 7.310369784326026e+04 expected 7.310369784325296e+04 + Section 2 Test 11 Non-standard result was 3.433560407476189e+04 expected 3.433560407475758e+04 + Section 2 Test 12 Non-standard result was 7.127569149598112e-06 expected 7.127569130821465e-06 + Section 2 Test 13 Non-standard result was 9.816387817138161e+10 expected 9.816387810944356e+10 + Section 2 Test 14 Non-standard result was 3.039983465147589e+07 expected 3.039983465145392e+07 + Section 2 Test 15 Non-standard result was 3.943816690352320e+04 expected 3.943816690352044e+04 + Section 2 Test 17 Non-standard result was 1.114641772903102e+03 expected 1.114641772902486e+03 + Section 2 Test 18 Non-standard result was 1.015727037502806e+05 expected 1.015727037502299e+05 + Section 2 Test 19 Non-standard result was 5.421816960150430e+02 expected 5.421816960147207e+02 + Section 2 Test 20 Non-standard result was 3.126205178810911e+04 expected 3.126205178815431e+04 + Section 2 Test 21 Non-standard result was 7.824524877235301e+07 expected 7.824524877232093e+07 + Section 2 Test 22 Non-standard result was 2.938604376567125e+02 expected 2.938604376566697e+02 + Section 2 Test 23 Non-standard result was 3.549900501566212e+04 expected 3.549900501563623e+04 + Section 3 Test 1 Non-standard result was 3.855104502494986e+01 expected 3.855104502494961e+01 + Section 3 Test 2 Non-standard result was 3.953296986903406e+01 expected 3.953296986903059e+01 + Section 3 Test 3 Non-standard result was 2.699309089321338e-01 expected 2.699309089320672e-01 + Section 3 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 3 Test 5 Non-standard result was 3.182615248448323e+00 expected 3.182615248447483e+00 + Section 3 Test 6 Non-standard result was 1.120309393467610e+00 expected 1.120309393467088e+00 + Section 3 Test 7 Non-standard result was 2.845720217644064e+01 expected 2.845720217644024e+01 + Section 3 Test 8 Non-standard result was 2.960543667877653e+03 expected 2.960543667875005e+03 + Section 3 Test 9 Non-standard result was 2.623968460874436e+03 expected 2.623968460874250e+03 + Section 3 Test 10 Non-standard result was 1.651291227698388e+03 expected 1.651291227698265e+03 + Section 3 Test 11 Non-standard result was 6.551161335846584e+02 expected 6.551161335845770e+02 + Section 3 Test 12 Non-standard result was 1.943435982643127e-06 expected 1.943435981130448e-06 + Section 3 Test 13 Non-standard result was 3.847124173932926e+10 expected 3.847124199949431e+10 + Section 3 Test 14 Non-standard result was 2.923540598700724e+06 expected 2.923540598672009e+06 + Section 3 Test 15 Non-standard result was 1.108997288135077e+03 expected 1.108997288134785e+03 + Section 3 Test 17 Non-standard result was 2.947368618590736e+01 expected 2.947368618589361e+01 + Section 3 Test 18 Non-standard result was 9.700646212341634e+02 expected 9.700646212337041e+02 + Section 3 Test 19 Non-standard result was 1.268230698051755e+01 expected 1.268230698051003e+01 + Section 3 Test 20 Non-standard result was 5.987713249471707e+02 expected 5.987713249475302e+02 + Section 3 Test 21 Non-standard result was 5.009945671206671e+07 expected 5.009945671204667e+07 + Section 3 Test 22 Non-standard result was 6.109968728264851e+00 expected 6.109968728263972e+00 + Section 3 Test 23 Non-standard result was 4.850340602751729e+02 expected 4.850340602749970e+02 +Compiler #define or values in LLloops.c might to be changed + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..3b7cead9 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/lloops_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,232 @@ +L.L.N.L. 'C' KERNELS: MFLOPS P.C. VERSION 4.0 + +Optimisation loongarch64 loongarch64 optimized + +Calculating outer loop overhead + 1000 times 0.00 seconds + 10000 times 0.00 seconds + 100000 times 0.00 seconds + 1000000 times 0.00 seconds + 10000000 times 0.03 seconds + 20000000 times 0.06 seconds + 40000000 times 0.11 seconds + 80000000 times 0.22 seconds +Overhead for each loop 2.8042e-09 seconds + +Calibrating part 1 of 3 + +Loop count 4 0.00 seconds +Loop count 16 0.00 seconds +Loop count 64 0.00 seconds +Loop count 256 0.00 seconds + +Loops 200 x 1 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 7 x2361 5 1.654353e+10 1.0016535.10 1001 5.114652693224708e+04 14 + 2 67 x 845 4 4.393324e+09 1.00 4383.42 101 1.539721811668517e+03 13 + 3 9 x1311 2 4.724320e+09 1.00 4721.00 1001 1.000742883066639e+01 13 + 4 14 x1353 2 4.546080e+09 1.00 4534.45 1001 5.999250595474085e-01 13 + 5 10 x 159 2 6.360000e+08 1.00 633.52 1001 4.548871642388625e+03 13 + 6 3 x 393 2 9.356544e+08 1.00 937.87 64 4.375116344743195e+03 12 + 7 4 x1736 16 2.210970e+10 1.0022082.49 995 6.104251075174968e+04 13 + 8 10 x 644 36 9.180864e+09 1.00 9204.92 100 1.501268005627157e+05 12 + 9 36 x 598 17 7.392715e+09 1.00 7378.23 101 1.189443609975093e+05 13 +10 34 x 497 9 3.072056e+09 1.00 3068.70 101 7.310369784326026e+04 13 +11 11 x 387 1 8.514000e+08 1.00 850.42 1001 3.342910972650564e+07 13 +12 12 x2047 1 4.912800e+09 1.00 4913.31 1000 2.907141430413818e-05 7 +13 36 x 299 7 9.644544e+08 1.00 960.14 64 1.202533961843101e+11 13 +14 2 x 466 11 2.052450e+09 1.00 2049.56 1001 3.165553044001663e+09 12 +15 1 x 903 33 2.979900e+09 1.00 2979.88 101 3.943816690352320e+04 13 +16 25 x 715 10 1.894750e+09 1.00 1897.03 75 5.650760000000000e+05 16 +17 35 x 266 9 1.692558e+09 1.00 1691.19 101 1.114641772903101e+03 12 +18 2 x1119 44 9.748728e+09 1.00 9748.27 100 1.015727037502806e+05 12 +19 39 x 199 6 9.406332e+08 1.00 936.06 101 5.421816960150429e+02 12 +20 1 x 130 26 6.760000e+08 1.00 674.11 1000 3.040644339316553e+07 11 +21 1 x 319 2 8.054750e+09 1.00 8044.56 101 1.597308280710890e+08 12 +22 11 x 543 17 2.051128e+09 1.00 2048.49 101 2.938604376567126e+02 13 +23 8 x 226 11 1.968912e+09 1.00 1963.53 100 3.549900501566212e+04 12 +24 5 x1098 1 1.098000e+09 1.00 1097.12 1001 5.000000000000000e+02 16 + + Maximum Rate22082.49 + Average Rate 4722.22 + Geometric Mean 2835.28 + Harmonic Mean 1841.70 + Minimum Rate 633.52 + + Do Span 471 + +Calibrating part 2 of 3 + +Loop count 8 0.00 seconds +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds +Loop count 512 0.01 seconds + +Loops 200 x 2 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 40 x2057 5 1.662056e+10 1.0016562.71 101 5.253344778938003e+02 14 + 2 40 x 707 4 4.389056e+09 1.00 4383.86 101 1.539721811668517e+03 13 + 3 53 x2161 2 9.254266e+09 1.00 9278.37 101 1.009741436579204e+00 13 + 4 70 x1408 2 4.730880e+09 1.00 4734.52 101 5.999250595474085e-01 13 + 5 55 x 168 2 7.392000e+08 1.01 735.23 101 4.589031939602206e+01 13 + 6 7 x 334 2 8.977920e+08 1.00 896.14 32 8.631675645346178e+01 12 + 7 22 x1573 16 2.236932e+10 1.0022370.65 101 6.345586315784158e+02 14 + 8 6 x 538 36 9.203674e+09 1.00 9205.31 100 1.501268005627157e+05 12 + 9 21 x 511 17 7.370051e+09 1.00 7378.19 101 1.189443609975093e+05 13 +10 19 x 444 9 3.067330e+09 1.00 3069.04 101 7.310369784326026e+04 13 +11 64 x 415 1 1.062400e+09 1.00 1061.25 101 3.433560407476188e+04 13 +12 68 x1610 1 4.379200e+09 1.00 4378.53 100 7.127569149598112e-06 9 +13 41 x 264 7 9.698304e+08 1.01 963.09 32 9.816387817138161e+10 9 +14 10 x 639 11 2.839716e+09 1.01 2800.34 101 3.039983465147589e+07 12 +15 1 x 452 33 2.983200e+09 1.00 2979.61 101 3.943816690352320e+04 13 +16 27 x 588 10 1.778112e+09 0.95 1863.08 40 6.480410000000000e+05 16 +17 20 x 233 9 1.694376e+09 1.00 1691.07 101 1.114641772903101e+03 12 +18 1 x1119 44 9.748728e+09 1.00 9746.83 100 1.015727037502806e+05 12 +19 23 x 168 6 9.366336e+08 1.00 935.97 101 5.421816960150429e+02 12 +20 8 x 84 26 6.988800e+08 1.01 694.13 100 3.126205178810912e+04 12 +21 1 x 320 2 8.000000e+09 1.00 8008.06 50 7.824524877235293e+07 12 +22 7 x 427 17 2.052845e+09 1.00 2048.37 101 2.938604376567126e+02 13 +23 5 x 181 11 1.971090e+09 1.00 1963.51 100 3.549900501566212e+04 12 +24 31 x 883 1 1.094920e+09 1.00 1094.27 101 5.000000000000000e+01 16 + + Maximum Rate22370.65 + Average Rate 4951.75 + Geometric Mean 2988.37 + Harmonic Mean 1939.26 + Minimum Rate 694.13 + + Do Span 90 + +Calibrating part 3 of 3 + +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds +Loop count 512 0.00 seconds +Loop count 2048 0.00 seconds + +Loops 200 x 8 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 28 x2651 5 1.603325e+10 1.0016038.74 27 3.855104502494986e+01 14 + 2 46 x 875 4 2.833600e+09 1.00 2833.23 15 3.953296986903406e+01 13 + 3 37 x2786 2 8.906285e+09 1.00 8919.27 27 2.699309089321338e-01 13 + 4 38 x1507 2 2.748768e+09 1.00 2737.08 27 5.999250595474085e-01 13 + 5 40 x 398 2 1.324544e+09 1.00 1324.25 27 3.182615248448323e+00 13 + 6 21 x 685 2 1.104768e+09 1.00 1103.42 8 1.120309393467610e+00 12 + 7 20 x1954 16 2.100941e+10 1.0020965.26 21 2.845720217644064e+01 14 + 8 9 x 637 36 8.585741e+09 1.00 8590.30 14 2.960543667877652e+03 12 + 9 26 x 701 17 7.436208e+09 1.00 7439.52 15 2.623968460874436e+03 13 +10 25 x 579 9 3.126600e+09 1.00 3125.25 15 1.651291227698388e+03 13 +11 46 x1121 1 2.145146e+09 1.00 2154.97 27 6.551161335846583e+02 13 +12 48 x1711 1 3.416525e+09 1.00 3415.08 26 1.943435982643127e-06 9 +13 31 x 354 7 9.832704e+08 1.00 980.77 8 3.847124173932925e+10 8 +14 8 x 793 11 3.014669e+09 1.00 3011.03 27 2.923540598700726e+06 11 +15 1 x 832 33 3.075072e+09 1.00 3073.36 15 1.108997288135077e+03 13 +16 14 x 768 10 1.892352e+09 1.00 1892.05 15 5.152160000000000e+05 16 +17 26 x 395 9 2.218320e+09 1.00 2217.65 15 2.947368618590737e+01 12 +18 2 x 728 44 6.662656e+09 1.00 6657.04 14 9.700646212341634e+02 12 +19 28 x 232 6 9.354240e+08 1.00 935.83 15 1.268230698051755e+01 12 +20 7 x 100 26 7.571200e+08 1.00 754.77 26 5.987713249471708e+02 12 +21 1 x 202 2 8.080000e+09 1.00 8043.88 20 5.009945671206669e+07 12 +22 8 x 610 17 1.991040e+09 1.00 1992.70 15 6.109968728264852e+00 13 +23 7 x 345 11 2.762760e+09 1.00 2755.10 14 4.850340602751729e+02 12 +24 23 x1170 1 1.119456e+09 1.00 1118.79 27 1.300000000000000e+01 16 + + Maximum Rate20965.26 + Average Rate 4669.97 + Geometric Mean 3056.49 + Harmonic Mean 2179.29 + Minimum Rate 754.77 + + Do Span 19 + + Overall + + Part 1 weight 1 + Part 2 weight 2 + Part 3 weight 1 + + Maximum Rate22370.65 + Average Rate 4823.93 + Geometric Mean 2966.01 + Harmonic Mean 1967.38 + Minimum Rate 633.52 + + Do Span 167 + + Section 1 Test 1 Non-standard result was 5.114652693224708e+04 expected 5.114652693224671e+04 + Section 1 Test 2 Non-standard result was 1.539721811668517e+03 expected 1.539721811668385e+03 + Section 1 Test 3 Non-standard result was 1.000742883066639e+01 expected 1.000742883066363e+01 + Section 1 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 1 Test 5 Non-standard result was 4.548871642388625e+03 expected 4.548871642387267e+03 + Section 1 Test 6 Non-standard result was 4.375116344743195e+03 expected 4.375116344729986e+03 + Section 1 Test 7 Non-standard result was 6.104251075174968e+04 expected 6.104251075174761e+04 + Section 1 Test 8 Non-standard result was 1.501268005627157e+05 expected 1.501268005625795e+05 + Section 1 Test 9 Non-standard result was 1.189443609975093e+05 expected 1.189443609974981e+05 + Section 1 Test 10 Non-standard result was 7.310369784326026e+04 expected 7.310369784325296e+04 + Section 1 Test 11 Non-standard result was 3.342910972650564e+07 expected 3.342910972650109e+07 + Section 1 Test 12 Non-standard result was 2.907141430413818e-05 expected 2.907141294167248e-05 + Section 1 Test 13 Non-standard result was 1.202533961843101e+11 expected 1.202533961842805e+11 + Section 1 Test 14 Non-standard result was 3.165553044001663e+09 expected 3.165553044000335e+09 + Section 1 Test 15 Non-standard result was 3.943816690352320e+04 expected 3.943816690352044e+04 + Section 1 Test 17 Non-standard result was 1.114641772903101e+03 expected 1.114641772902486e+03 + Section 1 Test 18 Non-standard result was 1.015727037502806e+05 expected 1.015727037502299e+05 + Section 1 Test 19 Non-standard result was 5.421816960150429e+02 expected 5.421816960147207e+02 + Section 1 Test 20 Non-standard result was 3.040644339316553e+07 expected 3.040644339351239e+07 + Section 1 Test 21 Non-standard result was 1.597308280710890e+08 expected 1.597308280710199e+08 + Section 1 Test 22 Non-standard result was 2.938604376567126e+02 expected 2.938604376566697e+02 + Section 1 Test 23 Non-standard result was 3.549900501566212e+04 expected 3.549900501563623e+04 + Section 2 Test 1 Non-standard result was 5.253344778938003e+02 expected 5.253344778937972e+02 + Section 2 Test 2 Non-standard result was 1.539721811668517e+03 expected 1.539721811668385e+03 + Section 2 Test 3 Non-standard result was 1.009741436579204e+00 expected 1.009741436578952e+00 + Section 2 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 2 Test 5 Non-standard result was 4.589031939602206e+01 expected 4.589031939600982e+01 + Section 2 Test 6 Non-standard result was 8.631675645346178e+01 expected 8.631675645333210e+01 + Section 2 Test 7 Non-standard result was 6.345586315784158e+02 expected 6.345586315784055e+02 + Section 2 Test 8 Non-standard result was 1.501268005627157e+05 expected 1.501268005625795e+05 + Section 2 Test 9 Non-standard result was 1.189443609975093e+05 expected 1.189443609974981e+05 + Section 2 Test 10 Non-standard result was 7.310369784326026e+04 expected 7.310369784325296e+04 + Section 2 Test 11 Non-standard result was 3.433560407476188e+04 expected 3.433560407475758e+04 + Section 2 Test 12 Non-standard result was 7.127569149598112e-06 expected 7.127569130821465e-06 + Section 2 Test 13 Non-standard result was 9.816387817138161e+10 expected 9.816387810944356e+10 + Section 2 Test 14 Non-standard result was 3.039983465147589e+07 expected 3.039983465145392e+07 + Section 2 Test 15 Non-standard result was 3.943816690352320e+04 expected 3.943816690352044e+04 + Section 2 Test 17 Non-standard result was 1.114641772903101e+03 expected 1.114641772902486e+03 + Section 2 Test 18 Non-standard result was 1.015727037502806e+05 expected 1.015727037502299e+05 + Section 2 Test 19 Non-standard result was 5.421816960150429e+02 expected 5.421816960147207e+02 + Section 2 Test 20 Non-standard result was 3.126205178810912e+04 expected 3.126205178815431e+04 + Section 2 Test 21 Non-standard result was 7.824524877235293e+07 expected 7.824524877232093e+07 + Section 2 Test 22 Non-standard result was 2.938604376567126e+02 expected 2.938604376566697e+02 + Section 2 Test 23 Non-standard result was 3.549900501566212e+04 expected 3.549900501563623e+04 + Section 3 Test 1 Non-standard result was 3.855104502494986e+01 expected 3.855104502494961e+01 + Section 3 Test 2 Non-standard result was 3.953296986903406e+01 expected 3.953296986903059e+01 + Section 3 Test 3 Non-standard result was 2.699309089321338e-01 expected 2.699309089320672e-01 + Section 3 Test 4 Non-standard result was 5.999250595474085e-01 expected 5.999250595473891e-01 + Section 3 Test 5 Non-standard result was 3.182615248448323e+00 expected 3.182615248447483e+00 + Section 3 Test 6 Non-standard result was 1.120309393467610e+00 expected 1.120309393467088e+00 + Section 3 Test 7 Non-standard result was 2.845720217644064e+01 expected 2.845720217644024e+01 + Section 3 Test 8 Non-standard result was 2.960543667877652e+03 expected 2.960543667875005e+03 + Section 3 Test 9 Non-standard result was 2.623968460874436e+03 expected 2.623968460874250e+03 + Section 3 Test 10 Non-standard result was 1.651291227698388e+03 expected 1.651291227698265e+03 + Section 3 Test 11 Non-standard result was 6.551161335846583e+02 expected 6.551161335845770e+02 + Section 3 Test 12 Non-standard result was 1.943435982643127e-06 expected 1.943435981130448e-06 + Section 3 Test 13 Non-standard result was 3.847124173932925e+10 expected 3.847124199949431e+10 + Section 3 Test 14 Non-standard result was 2.923540598700726e+06 expected 2.923540598672009e+06 + Section 3 Test 15 Non-standard result was 1.108997288135077e+03 expected 1.108997288134785e+03 + Section 3 Test 17 Non-standard result was 2.947368618590737e+01 expected 2.947368618589361e+01 + Section 3 Test 18 Non-standard result was 9.700646212341634e+02 expected 9.700646212337041e+02 + Section 3 Test 19 Non-standard result was 1.268230698051755e+01 expected 1.268230698051003e+01 + Section 3 Test 20 Non-standard result was 5.987713249471708e+02 expected 5.987713249475302e+02 + Section 3 Test 21 Non-standard result was 5.009945671206669e+07 expected 5.009945671204667e+07 + Section 3 Test 22 Non-standard result was 6.109968728264852e+00 expected 6.109968728263972e+00 + Section 3 Test 23 Non-standard result was 4.850340602751729e+02 expected 4.850340602749970e+02 +Compiler #define or values in LLloops.c might to be changed + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..0d4fe610 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,23 @@ + ########################################## + + Memory Reading Speed Test loongarch64 loongarch64 optimized Thu Nov 9 14:15:14 2023 + Copyright (C) 2013, Roy Longbottom + + Memory x[m]=x[m]+s*y[m] Int x[m]=x[m]+y[m] x[m]=y[m] + KBytes Dble Sngl Int32 Dble Sngl Int32 Dble Sngl Int32 + Used MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S + + 8 39933 53038 39700 39933 39775 39774 26482 19489 13276 + 16 39932 53174 39789 39937 39857 39857 26555 19119 13294 + 32 39926 53193 39877 39932 39895 39895 26585 19172 13303 + 64 39917 53216 39756 39915 39799 39795 26597 19874 13280 + 128 26508 27430 22967 26507 28674 28252 13142 9777 9631 + 256 26554 27412 22922 26561 28644 28084 13057 9784 10006 + 512 20806 20007 20146 20840 20997 21438 13728 8279 8384 + 1024 20504 20020 20196 20512 21543 21777 13718 8300 8408 + 2048 20394 20101 20210 20424 20951 21826 13802 8193 8234 + 4096 20268 20124 20225 20275 20903 22149 13820 8193 8221 + 8192 20186 20128 20222 20199 20953 22270 13860 8193 8199 + + End of test Thu Nov 9 14:15:31 2023 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..843942f9 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,23 @@ + ########################################## + + Memory Reading Speed Test loongarch64 loongarch64 optimized Thu Nov 9 14:15:31 2023 + Copyright (C) 2013, Roy Longbottom + + Memory x[m]=x[m]+s*y[m] Int x[m]=x[m]+y[m] x[m]=y[m] + KBytes Dble Sngl Int32 Dble Sngl Int32 Dble Sngl Int32 + Used MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S + + 8 50922 96938 100857 50672 100857 106543 34129 29507 29493 + 16 50504 90822 91397 49949 96064 96877 34871 28350 28355 + 32 48449 90060 86215 48645 93094 96289 24787 27866 27841 + 64 47905 86617 85504 48144 87155 95674 35430 27596 27582 + 128 26277 62381 58969 25551 58279 62212 12949 16483 16591 + 256 25583 59580 59578 23211 58478 60809 13190 16596 16595 + 512 28704 49088 42375 29116 46229 42442 12392 16248 16256 + 1024 28748 48574 42025 29155 45550 42059 12446 16250 16250 + 2048 28716 48961 42292 29097 45838 42097 12149 16250 16242 + 4096 28615 49246 42424 29058 46098 42311 12293 16218 16236 + 8192 28571 49712 42570 29000 46302 42489 12469 16250 16243 + + End of test Thu Nov 9 14:15:46 2023 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..56d08861 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/memspeed_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,23 @@ + ########################################## + + Memory Reading Speed Test loongarch64 loongarch64 optimized Thu Nov 9 14:15:46 2023 + Copyright (C) 2013, Roy Longbottom + + Memory x[m]=x[m]+s*y[m] Int x[m]=x[m]+y[m] x[m]=y[m] + KBytes Dble Sngl Int32 Dble Sngl Int32 Dble Sngl Int32 + Used MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S + + 8 50699 113857 115918 50553 116065 115421 34162 30386 30410 + 16 50494 98792 118642 49997 117929 113857 34876 28811 28868 + 32 48511 94119 97504 48073 92998 95798 33518 28306 28299 + 64 47985 89845 108800 47707 106557 106604 35408 28009 27996 + 128 26437 56346 56982 25369 56494 57053 12960 16338 16343 + 256 25649 56303 56608 24172 56405 56888 12890 16241 16230 + 512 28709 51227 49321 28963 53529 49946 12014 16085 16080 + 1024 28739 50051 48990 28987 53361 49587 12056 16136 16138 + 2048 28712 50572 49010 28917 53514 49519 11971 16136 16135 + 4096 28682 50794 48825 28893 53473 49434 12015 16056 16047 + 8192 28626 51493 48905 28886 53499 49487 12072 16059 16073 + + End of test Thu Nov 9 14:16:01 2023 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..0691da90 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,22 @@ +8 CPUs Available + +############################################## + + 64 Bit MP SSE MFLOPS Benchmark 1, 8 Threads, Thu Nov 9 14:16:01 2023 + + Test 4 Byte Ops/ Repeat Seconds MFLOPS First All + Words Word Passes Results Same + + Data in & out 102400 2 20000 0.212548 19271 0.620974 Yes + Data in & out 1024000 2 2000 0.210648 19445 0.942935 Yes + Data in & out 10240000 2 200 0.441196 9284 0.994032 Yes + + Data in & out 102400 8 20000 0.466025 35157 0.749973 Yes + Data in & out 1024000 8 2000 0.460338 35591 0.965362 Yes + Data in & out 10240000 8 200 0.520688 31466 0.996411 Yes + + Data in & out 102400 32 20000 2.111013 31045 0.498048 Yes + Data in & out 1024000 32 2000 2.110046 31059 0.910581 Yes + Data in & out 10240000 32 200 2.114654 30991 0.990451 Yes + + End of test Thu Nov 9 14:16:10 2023 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..d11de9c3 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,22 @@ +8 CPUs Available + +############################################## + + 64 Bit MP SSE MFLOPS Benchmark 1, 8 Threads, Thu Nov 9 14:16:10 2023 + + Test 4 Byte Ops/ Repeat Seconds MFLOPS First All + Words Word Passes Results Same + + Data in & out 102400 2 20000 0.060774 67398 0.620974 Yes + Data in & out 1024000 2 2000 0.088438 46315 0.942935 Yes + Data in & out 10240000 2 200 0.471833 8681 0.994032 Yes + + Data in & out 102400 8 20000 0.066994 244559 0.749973 Yes + Data in & out 1024000 8 2000 0.087157 187982 0.965362 Yes + Data in & out 10240000 8 200 0.494800 33112 0.996411 Yes + + Data in & out 102400 32 20000 0.259425 252620 0.498048 Yes + Data in & out 1024000 32 2000 0.257304 254703 0.910581 Yes + Data in & out 10240000 32 200 0.468014 140030 0.990451 Yes + + End of test Thu Nov 9 14:16:13 2023 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..9a240866 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/mpmflops_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,22 @@ +8 CPUs Available + +############################################## + + 64 Bit MP SSE MFLOPS Benchmark 1, 8 Threads, Thu Nov 9 14:16:13 2023 + + Test 4 Byte Ops/ Repeat Seconds MFLOPS First All + Words Word Passes Results Same + + Data in & out 102400 2 20000 0.059209 69178 0.620974 Yes + Data in & out 1024000 2 2000 0.088311 46382 0.942935 Yes + Data in & out 10240000 2 200 0.379903 10782 0.994032 Yes + + Data in & out 102400 8 20000 0.067177 243893 0.749972 Yes + Data in & out 1024000 8 2000 0.087856 186487 0.965367 Yes + Data in & out 10240000 8 200 0.523696 31285 0.996413 Yes + + Data in & out 102400 32 20000 0.219431 298663 See log No + Data in & out 1024000 32 2000 0.217207 301721 0.910573 Yes + Data in & out 10240000 32 200 0.490507 133609 See log No + + End of test Thu Nov 9 14:16:15 2023 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..600dba03 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,11 @@ +** ** +** SciMark2 Numeric Benchmark, see http://math.nist.gov/scimark ** +** for details. (Results can be submitted to pozo@nist.gov) ** +** ** +Using 2.00 seconds min time per kenel. +Composite Score: 1585.41 +FFT Mflops: 1966.17 (N=1024) +SOR Mflops: 1533.32 (100 x 100) +MonteCarlo: Mflops: 222.32 +Sparse matmult Mflops: 1917.94 (N=1000, nz=5000) +LU Mflops: 2287.32 (M=100, N=100) diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..1ef48523 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,11 @@ +** ** +** SciMark2 Numeric Benchmark, see http://math.nist.gov/scimark ** +** for details. (Results can be submitted to pozo@nist.gov) ** +** ** +Using 2.00 seconds min time per kenel. +Composite Score: 2083.71 +FFT Mflops: 1824.45 (N=1024) +SOR Mflops: 1517.93 (100 x 100) +MonteCarlo: Mflops: 222.02 +Sparse matmult Mflops: 1781.24 (N=1000, nz=5000) +LU Mflops: 5072.91 (M=100, N=100) diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..a261e40f --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/scimark2_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,11 @@ +** ** +** SciMark2 Numeric Benchmark, see http://math.nist.gov/scimark ** +** for details. (Results can be submitted to pozo@nist.gov) ** +** ** +Using 2.00 seconds min time per kenel. +Composite Score: 2107.87 +FFT Mflops: 1808.97 (N=1024) +SOR Mflops: 1526.77 (100 x 100) +MonteCarlo: Mflops: 220.17 +Sparse matmult Mflops: 1938.55 (N=1000, nz=5000) +LU Mflops: 5044.88 (M=100, N=100) diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..a458c3ff --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,28 @@ +########################################## +Single Precision C Whetstone Benchmark loongarch64 loongarch64 optimized, Thu Nov 9 14:19:09 2023 + +Calibrate + 0.00 Seconds 1 Passes (x 100) + 0.01 Seconds 5 Passes (x 100) + 0.06 Seconds 25 Passes (x 100) + 0.29 Seconds 125 Passes (x 100) + 1.45 Seconds 625 Passes (x 100) + 7.26 Seconds 3125 Passes (x 100) + +Use 4306 passes (x 100) + + Single Precision C/C++ Whetstone Benchmark + +Loop content Result MFLOPS MOPS Seconds + +N1 floating point -1.12475013732910156 849.455 0.097 +N2 floating point -1.12274742126464844 681.469 0.849 +N3 if then else 1.00000000000000000 3743.396 0.119 +N4 fixed point 12.00000000000000000 4160.219 0.326 +N5 sin,cos etc. 0.49911010265350342 158.411 2.262 +N6 floating point 0.99999982118606567 651.094 3.567 +N7 assignments 3.00000000000000000 4991.860 0.159 +N8 exp,sqrt etc. 0.75110864639282227 61.154 2.619 + +MWIPS 4306.306 9.999 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..8f9475a4 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,28 @@ +########################################## +Single Precision C Whetstone Benchmark loongarch64 loongarch64 optimized, Thu Nov 9 14:19:30 2023 + +Calibrate + 0.00 Seconds 1 Passes (x 100) + 0.01 Seconds 5 Passes (x 100) + 0.06 Seconds 25 Passes (x 100) + 0.28 Seconds 125 Passes (x 100) + 1.42 Seconds 625 Passes (x 100) + 7.10 Seconds 3125 Passes (x 100) + +Use 4400 passes (x 100) + + Single Precision C/C++ Whetstone Benchmark + +Loop content Result MFLOPS MOPS Seconds + +N1 floating point -1.12475013732910156 849.783 0.099 +N2 floating point -1.12274742126464844 804.182 0.735 +N3 if then else 1.00000000000000000 12837.290 0.035 +N4 fixed point 12.00000000000000000 4160.096 0.333 +N5 sin,cos etc. 0.49911010265350342 158.330 2.312 +N6 floating point 0.99999982118606567 651.177 3.645 +N7 assignments 3.00000000000000000 4992.604 0.163 +N8 exp,sqrt etc. 0.75110864639282227 61.164 2.676 + +MWIPS 4400.353 9.999 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..e6fc200b --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstone_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,28 @@ +########################################## +Single Precision C Whetstone Benchmark loongarch64 loongarch64 optimized, Thu Nov 9 14:19:51 2023 + +Calibrate + 0.00 Seconds 1 Passes (x 100) + 0.01 Seconds 5 Passes (x 100) + 0.05 Seconds 25 Passes (x 100) + 0.26 Seconds 125 Passes (x 100) + 1.29 Seconds 625 Passes (x 100) + 6.44 Seconds 3125 Passes (x 100) + +Use 4848 passes (x 100) + + Single Precision C/C++ Whetstone Benchmark + +Loop content Result MFLOPS MOPS Seconds + +N1 floating point -1.12475013732910156 907.701 0.103 +N2 floating point -1.12274742126464844 943.438 0.691 +N3 if then else 1.00000000000000000 12838.052 0.039 +N4 fixed point 12.00000000000000000 99662.445 0.015 +N5 sin,cos etc. 0.49911010265350342 133.834 3.014 +N6 floating point 0.99999982118606567 651.155 4.016 +N7 assignments 3.00000000000000000 4992.614 0.179 +N8 exp,sqrt etc. 0.75110864639282227 92.879 1.942 + +MWIPS 4848.701 9.999 + diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_O2.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_O2.stdout_stderr.log new file mode 100644 index 00000000..3053a68b --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_O2.stdout_stderr.log @@ -0,0 +1,52 @@ +8 CPUs Available +############################################## + + Multithreading Single Precision Whetstones loongarch64 loongarch64 optimized + + Using 8 threads - Thu Nov 9 14:20:10 2023 + + Calibrate + 0.00324 Seconds 1 Passes (x 100) + 0.01519 Seconds 5 Passes (x 100) + 0.07517 Seconds 25 Passes (x 100) + 0.37486 Seconds 125 Passes (x 100) + + Use 3334 passes (x 100) + + MFLOPS 1 848 848 848 848 848 848 848 848 + MFLOPS 2 848 847 847 847 847 847 847 847 + IFMOPS 1871 1871 1871 1871 1871 1871 1871 1870 + FIXPMOPS 2169 2169 2169 2169 2169 2169 2168 2168 + COSMOPS 123 123 123 123 123 123 123 123 + MFLOPS 3 656 655 655 655 655 655 655 655 + EQUMOPS 3742 3742 3742 3742 3741 3741 3741 3739 + EXPMOPS 61 61 61 61 61 61 61 61 + millisec 8466 8463 8468 8462 8464 8464 8463 8463 + MWIPS 3938 3939 3937 3940 3939 3939 3940 3939 + + MWIPS MFLOPS MFLOPS MFLOPS Cos Exp Fixpt If Equal + Thread 1 2 3 MOPS MOPS MOPS MOPS MOPS + + 1 3938 848 847 655 123 61 2169 1871 3739 + 2 3939 848 847 655 123 61 2169 1871 3742 + 3 3937 848 847 655 123 61 2168 1871 3741 + 4 3940 848 847 656 123 61 2169 1871 3741 + 5 3939 848 848 655 123 61 2169 1871 3742 + 6 3939 848 847 655 123 61 2168 1870 3742 + 7 3940 848 847 655 123 61 2169 1871 3742 + 8 3939 848 847 655 123 61 2169 1871 3741 + Total 31512 6782 6779 5242 986 489 17348 14968 29931 + + MWIPS 31488 Based on time for last thread to finish + + + Results Of Calculations Thread 1 + + MFLOPS 1 -1.13333332538604736 MFLOPS 2 -1.13333320617675781 + IFMOPS 1.00000000000000000 FIXPMOPS 12.00000000000000000 + COSMOPS 0.50000011920928955 MFLOPS 3 0.99999982118606567 + EQUMOPS 3.00000000000000000 EXPMOPS 0.93536460399627686 + + Numeric results of the other 7 threads were same as above + + End of test Thu Nov 9 14:20:22 2023 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_O3.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_O3.stdout_stderr.log new file mode 100644 index 00000000..09b82054 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_O3.stdout_stderr.log @@ -0,0 +1,52 @@ +8 CPUs Available +############################################## + + Multithreading Single Precision Whetstones loongarch64 loongarch64 optimized + + Using 8 threads - Thu Nov 9 14:20:22 2023 + + Calibrate + 0.00324 Seconds 1 Passes (x 100) + 0.01522 Seconds 5 Passes (x 100) + 0.07524 Seconds 25 Passes (x 100) + 0.37532 Seconds 125 Passes (x 100) + + Use 3330 passes (x 100) + + MFLOPS 1 848 848 848 848 848 848 848 847 + MFLOPS 2 848 848 848 848 848 847 847 847 + IFMOPS 14970 14970 14969 14960 14959 14955 14951 14951 + FIXPMOPS 2168 2167 2167 2167 2166 2166 2166 2165 + COSMOPS 123 123 123 123 123 123 123 123 + MFLOPS 3 657 657 657 657 657 657 657 657 + EQUMOPS 1871 1871 1871 1871 1871 1871 1871 1871 + EXPMOPS 61 61 61 61 61 61 61 61 + millisec 8442 8444 8444 8441 8443 8443 8443 8441 + MWIPS 3945 3944 3944 3945 3944 3944 3944 3945 + + MWIPS MFLOPS MFLOPS MFLOPS Cos Exp Fixpt If Equal + Thread 1 2 3 MOPS MOPS MOPS MOPS MOPS + + 1 3945 848 848 657 123 61 2166 14970 1871 + 2 3944 848 847 657 123 61 2167 14969 1871 + 3 3944 847 848 657 123 61 2166 14970 1871 + 4 3945 848 848 657 123 61 2168 14960 1871 + 5 3944 848 848 657 123 61 2166 14955 1871 + 6 3944 848 848 657 123 61 2165 14959 1871 + 7 3944 848 847 657 123 61 2167 14951 1871 + 8 3945 848 847 657 123 61 2167 14951 1871 + Total 31554 6784 6780 5255 986 491 17332 119685 14969 + + MWIPS 31542 Based on time for last thread to finish + + + Results Of Calculations Thread 1 + + MFLOPS 1 -1.13333332538604736 MFLOPS 2 -1.13333320617675781 + IFMOPS 1.00000000000000000 FIXPMOPS 12.00000000000000000 + COSMOPS 0.50000011920928955 MFLOPS 3 0.99999982118606567 + EQUMOPS 3.00000000000000000 EXPMOPS 0.93536460399627686 + + Numeric results of the other 7 threads were same as above + + End of test Thu Nov 9 14:20:35 2023 diff --git a/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_Ofast.stdout_stderr.log b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_Ofast.stdout_stderr.log new file mode 100644 index 00000000..e2229514 --- /dev/null +++ b/results/loongson-loongarch64-loongson_3a6000-2500mhz-3200mts/whetstonemp_loongarch64-loongarch64_Ofast.stdout_stderr.log @@ -0,0 +1,52 @@ +8 CPUs Available +############################################## + + Multithreading Single Precision Whetstones loongarch64 loongarch64 optimized + + Using 8 threads - Thu Nov 9 14:20:35 2023 + + Calibrate + 0.00301 Seconds 1 Passes (x 100) + 0.01406 Seconds 5 Passes (x 100) + 0.06950 Seconds 25 Passes (x 100) + 0.34647 Seconds 125 Passes (x 100) + + Use 3607 passes (x 100) + + MFLOPS 1 907 907 907 907 907 907 906 906 + MFLOPS 2 907 907 907 907 907 907 907 907 + IFMOPS 29892 29885 29877 29871 29856 29852 29840 29815 + FIXPMOPS 2168 2168 2168 2168 2168 2167 2167 2167 + COSMOPS 123 123 123 123 123 123 123 123 + MFLOPS 3 662 661 661 661 661 661 661 661 + EQUMOPS 1872 1871 1871 1871 1871 1871 1871 1869 + EXPMOPS 91 91 91 91 91 91 91 91 + millisec 8347 8348 8348 8348 8347 8348 8347 8348 + MWIPS 4321 4321 4321 4321 4321 4321 4321 4321 + + MWIPS MFLOPS MFLOPS MFLOPS Cos Exp Fixpt If Equal + Thread 1 2 3 MOPS MOPS MOPS MOPS MOPS + + 1 4321 907 907 662 123 91 2167 29877 1872 + 2 4321 907 907 661 123 91 2167 29892 1871 + 3 4321 906 907 661 123 91 2168 29885 1871 + 4 4321 907 907 661 123 91 2168 29871 1871 + 5 4321 907 907 661 123 91 2168 29852 1869 + 6 4321 906 907 661 123 91 2167 29856 1871 + 7 4321 907 907 661 123 91 2168 29840 1871 + 8 4321 907 907 661 123 91 2168 29815 1871 + Total 34568 7253 7254 5291 986 732 17340 238888 14968 + + MWIPS 34557 Based on time for last thread to finish + + + Results Of Calculations Thread 1 + + MFLOPS 1 -1.12253940105438232 MFLOPS 2 -1.13133072853088379 + IFMOPS 1.00000000000000000 FIXPMOPS 12.00000000000000000 + COSMOPS 0.49911013245582581 MFLOPS 3 0.99999982118606567 + EQUMOPS 3.00000000000000000 EXPMOPS 0.93536460399627686 + + Numeric results of the other 7 threads were same as above + + End of test Thu Nov 9 14:20:48 2023 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_O2_mp1.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_O2_mp1.stdout_stderr.log new file mode 100644 index 00000000..a0c93aac --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_O2_mp1.stdout_stderr.log @@ -0,0 +1,30 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 4000000 (elements), Offset = 0 (elements) +Memory per array = 30.5 MiB (= 0.0 GiB). +Total memory required = 91.6 MiB (= 0.1 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Your clock granularity appears to be less than one microsecond. +Each test below will take on the order of 36114 microseconds. + (= 36114 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 947.3 0.067836 0.067558 0.068484 +Scale: 959.6 0.067265 0.066692 0.068584 +Add: 1010.8 0.095492 0.094978 0.097735 +Triad: 1206.9 0.080014 0.079543 0.081182 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_O3_mp1.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_O3_mp1.stdout_stderr.log new file mode 100644 index 00000000..46d4c48d --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_O3_mp1.stdout_stderr.log @@ -0,0 +1,30 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 4000000 (elements), Offset = 0 (elements) +Memory per array = 30.5 MiB (= 0.0 GiB). +Total memory required = 91.6 MiB (= 0.1 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 36991 microseconds. + (= 36991 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 1063.4 0.062676 0.060182 0.065308 +Scale: 1028.1 0.062477 0.062253 0.063134 +Add: 959.2 0.100483 0.100080 0.102259 +Triad: 881.1 0.109346 0.108951 0.110442 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_Ofast_mp1.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_Ofast_mp1.stdout_stderr.log new file mode 100644 index 00000000..c3a8fc7f --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/STREAM_i386-i386_Ofast_mp1.stdout_stderr.log @@ -0,0 +1,30 @@ +------------------------------------------------------------- +STREAM version $Revision: 5.10 $ +------------------------------------------------------------- +This system uses 8 bytes per array element. +------------------------------------------------------------- +Array size = 4000000 (elements), Offset = 0 (elements) +Memory per array = 30.5 MiB (= 0.0 GiB). +Total memory required = 91.6 MiB (= 0.1 GiB). +Each kernel will be executed 20 times. + The *best* time for each kernel (excluding the first iteration) + will be used to compute the reported bandwidth. +------------------------------------------------------------- +Your clock granularity/precision appears to be 1 microseconds. +Each test below will take on the order of 36920 microseconds. + (= 36920 clock ticks) +Increase the size of the arrays if this shows that +you are not getting at least 20 clock ticks per test. +------------------------------------------------------------- +WARNING -- The above is only a rough guideline. +For best results, please be sure you know the +precision of your system timer. +------------------------------------------------------------- +Function Best Rate MB/s Avg time Min time Max time +Copy: 1060.7 0.065780 0.060339 0.128998 +Scale: 1025.5 0.063337 0.062409 0.075855 +Add: 960.2 0.100180 0.099983 0.101614 +Triad: 879.9 0.109331 0.109101 0.111152 +------------------------------------------------------------- +Solution Validates: avg error less than 1.000000e-13 on all three arrays +------------------------------------------------------------- diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..1e9afe2f --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,27 @@ +Calculation of PI using FFT and AGM, ver. LG1.1.2-MP1.5.2a.memsave +initializing... +nfft= 1048576 +radix= 10000 +error_margin= 0.020725 +calculating 4194304 digits of PI... +AGM iteration +precision= 48: 3.80 sec +precision= 80: 3.77 sec +precision= 176: 3.76 sec +precision= 352: 3.76 sec +precision= 688: 3.77 sec +precision= 1392: 3.77 sec +precision= 2784: 3.77 sec +precision= 5584: 3.77 sec +precision= 11168: 3.77 sec +precision= 22336: 3.77 sec +precision= 44688: 3.76 sec +precision= 89408: 3.77 sec +precision= 178816: 3.89 sec +precision= 357648: 3.77 sec +precision= 715312: 3.77 sec +precision= 1430640: 3.77 sec +precision= 2861280: 3.77 sec +precision= 5722592: 3.77 sec +writing pi4194304.txt... +78.33 sec. (real time) diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..50489647 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,27 @@ +Calculation of PI using FFT and AGM, ver. LG1.1.2-MP1.5.2a.memsave +initializing... +nfft= 1048576 +radix= 10000 +error_margin= 0.020725 +calculating 4194304 digits of PI... +AGM iteration +precision= 48: 3.80 sec +precision= 80: 3.78 sec +precision= 176: 3.77 sec +precision= 352: 3.77 sec +precision= 688: 3.76 sec +precision= 1392: 3.77 sec +precision= 2784: 3.77 sec +precision= 5584: 3.77 sec +precision= 11168: 3.77 sec +precision= 22336: 3.77 sec +precision= 44688: 3.77 sec +precision= 89408: 3.77 sec +precision= 178816: 3.89 sec +precision= 357648: 3.76 sec +precision= 715312: 3.77 sec +precision= 1430640: 3.77 sec +precision= 2861280: 3.77 sec +precision= 5722592: 3.77 sec +writing pi4194304.txt... +78.37 sec. (real time) diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..1e158cc7 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/SuperPI_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,27 @@ +Calculation of PI using FFT and AGM, ver. LG1.1.2-MP1.5.2a.memsave +initializing... +nfft= 1048576 +radix= 10000 +error_margin= 0.0306172 +calculating 4194304 digits of PI... +AGM iteration +precision= 48: 3.21 sec +precision= 80: 3.18 sec +precision= 176: 3.18 sec +precision= 352: 3.17 sec +precision= 688: 3.17 sec +precision= 1392: 3.18 sec +precision= 2784: 3.18 sec +precision= 5584: 3.18 sec +precision= 11168: 3.17 sec +precision= 22336: 3.18 sec +precision= 44688: 3.17 sec +precision= 89408: 3.18 sec +precision= 178816: 3.27 sec +precision= 357648: 3.18 sec +precision= 715312: 3.17 sec +precision= 1430640: 3.17 sec +precision= 2861280: 3.18 sec +precision= 5722592: 3.18 sec +writing pi4194304.txt... +66.12 sec. (real time) diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..ebf77d97 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,17 @@ + BusSpeed i686 i386 optimized Sun Dec 3 13:58:51 2023 + Copyright (C) 2013, Roy Longbottom + + Reading Speed 4 Byte Words in MBytes/Second + Memory Inc32 Inc16 Inc8 Inc4 Inc2 Read + KBytes Words Words Words Words Words All + + 16 3780 4275 4600 5259 5300 5332 + 32 4052 4584 4773 5296 5308 5344 + 64 2938 3222 4295 5209 5247 5254 + 128 677 687 689 1245 2015 2932 + 256 309 582 585 1064 1774 2660 + 512 245 301 391 733 1298 2093 + 1024 96 126 209 408 760 1346 + 4096 41 60 105 213 413 786 + 16384 41 59 104 211 407 778 + 65536 41 59 105 212 407 780 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..20f132a7 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,17 @@ + BusSpeed i686 i386 optimized Sun Dec 3 13:59:02 2023 + Copyright (C) 2013, Roy Longbottom + + Reading Speed 4 Byte Words in MBytes/Second + Memory Inc32 Inc16 Inc8 Inc4 Inc2 Read + KBytes Words Words Words Words Words All + + 16 3802 4308 4604 5256 5295 5313 + 32 4042 4604 4757 5307 5326 5343 + 64 2931 3232 4217 5204 5239 5221 + 128 677 689 689 1242 2020 2931 + 256 576 584 587 1064 1776 2668 + 512 263 317 403 758 1327 2124 + 1024 86 117 191 378 696 1259 + 4096 42 61 106 215 413 788 + 16384 41 59 104 211 404 773 + 65536 41 59 105 211 402 777 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..9851c2da --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/busspeedil_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,17 @@ + BusSpeed i686 i386 optimized Sun Dec 3 13:59:13 2023 + Copyright (C) 2013, Roy Longbottom + + Reading Speed 4 Byte Words in MBytes/Second + Memory Inc32 Inc16 Inc8 Inc4 Inc2 Read + KBytes Words Words Words Words Words All + + 16 3785 4306 4670 5219 5248 5306 + 32 4052 4663 4775 5311 5332 5326 + 64 2929 3226 4286 5167 5207 5263 + 128 675 688 688 1243 2014 2927 + 256 571 579 585 1064 1772 2655 + 512 568 576 575 1049 1750 2635 + 1024 142 183 270 524 926 1629 + 4096 42 60 106 215 414 789 + 16384 41 59 105 211 408 780 + 65536 41 60 105 212 405 783 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..8bc5d551 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,17 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 13055 +Total time (secs): 13.055000 +Iterations/Sec : 4595.940253 +Iterations : 60000 +Compiler version : GCC5.4.0 20160609 +Compiler flags : -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[0]crcfinal : 0xbd59 +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 4595.940253 / GCC5.4.0 20160609 -O2 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..ffc63b24 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,17 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 21480 +Total time (secs): 21.480000 +Iterations/Sec : 5121.042831 +Iterations : 110000 +Compiler version : GCC5.4.0 20160609 +Compiler flags : -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[0]crcfinal : 0x33ff +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 5121.042831 / GCC5.4.0 20160609 -O3 -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..a1f2cf0d --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/coremark_mp1_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,17 @@ +2K performance run parameters for coremark. +CoreMark Size : 666 +Total ticks : 21330 +Total time (secs): 21.330000 +Iterations/Sec : 5157.055790 +Iterations : 110000 +Compiler version : GCC5.4.0 20160609 +Compiler flags : -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt +Memory location : Please put data memory location here + (e.g. code in flash, data on heap etc) +seedcrc : 0xe9f5 +[0]crclist : 0xe714 +[0]crcmatrix : 0x1fd7 +[0]crcstate : 0x8e3a +[0]crcfinal : 0x33ff +Correct operation validated. See README.md for run and reporting rules. +CoreMark 1.0 : 5157.055790 / GCC5.4.0 20160609 -Ofast -DPERFORMANCE_RUN=1 -DUSE_FORK=1 -lrt / Heap diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..c573fea3 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,32 @@ +Dhrystone Benchmark, Version 2.1 (Language: C or C++) + +Optimisation i686 i386 optimized +Register option not selected + + 10000 runs 0.01 seconds + 100000 runs 0.03 seconds + 1000000 runs 0.28 seconds + 2000000 runs 0.55 seconds + 4000000 runs 1.10 seconds + 8000000 runs 2.20 seconds + +Final values (* implementation-dependent): + +Int_Glob: O.K. 5 Bool_Glob: O.K. 1 +Ch_1_Glob: O.K. A Ch_2_Glob: O.K. B +Arr_1_Glob[8]: O.K. 7 Arr_2_Glob8/7: O.K. 8000010 +Ptr_Glob-> Ptr_Comp: * 0x804f008 + Discr: O.K. 0 Enum_Comp: O.K. 2 + Int_Comp: O.K. 17 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Next_Ptr_Glob-> Ptr_Comp: * 0x804f008 same as above + Discr: O.K. 0 Enum_Comp: O.K. 1 + Int_Comp: O.K. 18 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Int_1_Loc: O.K. 5 Int_2_Loc: O.K. 13 +Int_3_Loc: O.K. 7 Enum_Loc: O.K. 1 +Str_1_Loc: O.K. DHRYSTONE PROGRAM, 1'ST STRING +Str_2_Loc: O.K. DHRYSTONE PROGRAM, 2'ND STRING + +Nanoseconds one Dhrystone run: 274.80 +Dhrystones per Second: 3638971 +VAX MIPS rating = 2071.13 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..84395915 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,33 @@ +Dhrystone Benchmark, Version 2.1 (Language: C or C++) + +Optimisation i686 i386 optimized +Register option not selected + + 10000 runs 0.01 seconds + 100000 runs 0.03 seconds + 1000000 runs 0.24 seconds + 2000000 runs 0.48 seconds + 4000000 runs 1.34 seconds + 8000000 runs 1.93 seconds + 16000000 runs 3.85 seconds + +Final values (* implementation-dependent): + +Int_Glob: O.K. 5 Bool_Glob: O.K. 1 +Ch_1_Glob: O.K. A Ch_2_Glob: O.K. B +Arr_1_Glob[8]: O.K. 7 Arr_2_Glob8/7: O.K. 16000010 +Ptr_Glob-> Ptr_Comp: * 0x804f008 + Discr: O.K. 0 Enum_Comp: O.K. 2 + Int_Comp: O.K. 17 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Next_Ptr_Glob-> Ptr_Comp: * 0x804f008 same as above + Discr: O.K. 0 Enum_Comp: O.K. 1 + Int_Comp: O.K. 18 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Int_1_Loc: O.K. 5 Int_2_Loc: O.K. 13 +Int_3_Loc: O.K. 7 Enum_Loc: O.K. 1 +Str_1_Loc: O.K. DHRYSTONE PROGRAM, 1'ST STRING +Str_2_Loc: O.K. DHRYSTONE PROGRAM, 2'ND STRING + +Nanoseconds one Dhrystone run: 240.39 +Dhrystones per Second: 4159956 +VAX MIPS rating = 2367.65 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..166a6e47 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/dhrystone_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,33 @@ +Dhrystone Benchmark, Version 2.1 (Language: C or C++) + +Optimisation i686 i386 optimized +Register option not selected + + 10000 runs 0.01 seconds + 100000 runs 0.03 seconds + 1000000 runs 0.24 seconds + 2000000 runs 0.48 seconds + 4000000 runs 0.96 seconds + 8000000 runs 1.93 seconds + 16000000 runs 3.86 seconds + +Final values (* implementation-dependent): + +Int_Glob: O.K. 5 Bool_Glob: O.K. 1 +Ch_1_Glob: O.K. A Ch_2_Glob: O.K. B +Arr_1_Glob[8]: O.K. 7 Arr_2_Glob8/7: O.K. 16000010 +Ptr_Glob-> Ptr_Comp: * 0x804f008 + Discr: O.K. 0 Enum_Comp: O.K. 2 + Int_Comp: O.K. 17 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Next_Ptr_Glob-> Ptr_Comp: * 0x804f008 same as above + Discr: O.K. 0 Enum_Comp: O.K. 1 + Int_Comp: O.K. 18 Str_Comp: O.K. DHRYSTONE PROGRAM, SOME STRING +Int_1_Loc: O.K. 5 Int_2_Loc: O.K. 13 +Int_3_Loc: O.K. 7 Enum_Loc: O.K. 1 +Str_1_Loc: O.K. DHRYSTONE PROGRAM, 1'ST STRING +Str_2_Loc: O.K. DHRYSTONE PROGRAM, 2'ND STRING + +Nanoseconds one Dhrystone run: 241.42 +Dhrystones per Second: 4142159 +VAX MIPS rating = 2357.52 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..ac3acb81 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,3 @@ +g_synth_length_seconds=400 +g_synth_time=46.6996 +g_synth_score=8.56538 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..3e938bb7 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,3 @@ +g_synth_length_seconds=400 +g_synth_time=46.6047 +g_synth_score=8.58282 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..cae7f9b3 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/gsynth_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,3 @@ +g_synth_length_seconds=400 +g_synth_time=47.1422 +g_synth_score=8.48497 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..ea4f30fb --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,57 @@ +########################################## +Unrolled Double Precision Linpack Benchmark - Linux Version in 'C/C++' + +Optimisation i686 i386 optimized + +norm resid resid machep x[0]-1 x[n-1]-1 + 1.9 8.39915160e-14 2.22044605e-16 -6.22835117e-14 -4.16333634e-14 + +Times are reported for matrices of order 100 +1 pass times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00997 0.00116 0.01113 61.70 0.0324 0.1987 + +Calculating matgen overhead + 10 times 0.00 seconds + 100 times 0.03 seconds + 1000 times 0.25 seconds + 2000 times 0.51 seconds + 4000 times 1.01 seconds +Overhead for 1 matgen 0.00025 seconds + +Calculating matgen/dgefa passes for 1 seconds + 10 times 0.02 seconds + 100 times 0.17 seconds + 200 times 0.34 seconds + 400 times 0.68 seconds + 800 times 1.35 seconds +Passes used 590 + +Times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00144 0.00006 0.00150 456.77 0.0044 0.0268 + 0.00145 0.00006 0.00150 457.43 0.0044 0.0268 + 0.00145 0.00006 0.00151 455.91 0.0044 0.0269 + 0.00145 0.00006 0.00150 457.07 0.0044 0.0268 + 0.00144 0.00006 0.00150 458.99 0.0044 0.0267 +Average 457.23 + +Calculating matgen2 overhead +Overhead for 1 matgen 0.00025 seconds + +Times for array with leading dimension of 200 + + dgefa dgesl total Mflops unit ratio + 0.00143 0.00006 0.00149 461.39 0.0043 0.0266 + 0.00144 0.00005 0.00149 460.06 0.0043 0.0267 + 0.00143 0.00005 0.00149 461.65 0.0043 0.0266 + 0.00143 0.00005 0.00149 461.71 0.0043 0.0266 + 0.00143 0.00006 0.00149 461.83 0.0043 0.0266 +Average 461.33 + + +Unrolled Double Precision 457.23 Mflops + + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..9fc44b62 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,59 @@ +########################################## +Unrolled Double Precision Linpack Benchmark - Linux Version in 'C/C++' + +Optimisation i686 i386 optimized + +norm resid resid machep x[0]-1 x[n-1]-1 + 1.8 8.04860871e-14 2.22044605e-16 -6.93889390e-14 -4.99600361e-14 + +Times are reported for matrices of order 100 +1 pass times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00952 0.00081 0.01032 66.51 0.0301 0.1844 + +Calculating matgen overhead + 10 times 0.00 seconds + 100 times 0.02 seconds + 1000 times 0.24 seconds + 2000 times 0.48 seconds + 4000 times 0.95 seconds + 8000 times 2.40 seconds +Overhead for 1 matgen 0.00030 seconds + +Calculating matgen/dgefa passes for 1 seconds + 10 times 0.01 seconds + 100 times 0.12 seconds + 200 times 0.24 seconds + 400 times 0.48 seconds + 800 times 0.95 seconds + 1600 times 1.90 seconds +Passes used 840 + +Times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00089 0.00004 0.00094 734.02 0.0027 0.0167 + 0.00089 0.00004 0.00093 737.17 0.0027 0.0166 + 0.00089 0.00004 0.00093 739.07 0.0027 0.0166 + 0.00089 0.00004 0.00093 737.11 0.0027 0.0166 + 0.00089 0.00004 0.00093 738.05 0.0027 0.0166 +Average 737.08 + +Calculating matgen2 overhead +Overhead for 1 matgen 0.00025 seconds + +Times for array with leading dimension of 200 + + dgefa dgesl total Mflops unit ratio + 0.00097 0.00004 0.00101 677.77 0.0030 0.0181 + 0.00096 0.00004 0.00101 682.56 0.0029 0.0180 + 0.00096 0.00004 0.00101 683.00 0.0029 0.0180 + 0.00096 0.00004 0.00101 682.54 0.0029 0.0180 + 0.00097 0.00004 0.00101 679.82 0.0029 0.0180 +Average 681.14 + + +Unrolled Double Precision 681.14 Mflops + + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..76bd85dd --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linpack_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,59 @@ +########################################## +Unrolled Double Precision Linpack Benchmark - Linux Version in 'C/C++' + +Optimisation i686 i386 optimized + +norm resid resid machep x[0]-1 x[n-1]-1 + 1.8 7.77156117e-14 2.22044605e-16 -1.49880108e-14 -1.89848137e-14 + +Times are reported for matrices of order 100 +1 pass times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00820 0.00057 0.00878 78.25 0.0256 0.1567 + +Calculating matgen overhead + 10 times 0.00 seconds + 100 times 0.02 seconds + 1000 times 0.18 seconds + 2000 times 0.37 seconds + 4000 times 0.73 seconds + 8000 times 1.50 seconds +Overhead for 1 matgen 0.00019 seconds + +Calculating matgen/dgefa passes for 1 seconds + 10 times 0.01 seconds + 100 times 0.11 seconds + 200 times 0.21 seconds + 400 times 0.42 seconds + 800 times 0.85 seconds + 1600 times 1.69 seconds +Passes used 945 + +Times for array with leading dimension of 201 + + dgefa dgesl total Mflops unit ratio + 0.00087 0.00004 0.00091 752.68 0.0027 0.0163 + 0.00087 0.00004 0.00091 754.22 0.0027 0.0163 + 0.00087 0.00004 0.00091 755.94 0.0026 0.0162 + 0.00087 0.00004 0.00091 756.75 0.0026 0.0162 + 0.00087 0.00004 0.00091 757.25 0.0026 0.0162 +Average 755.37 + +Calculating matgen2 overhead +Overhead for 1 matgen 0.00018 seconds + +Times for array with leading dimension of 200 + + dgefa dgesl total Mflops unit ratio + 0.00091 0.00004 0.00095 720.60 0.0028 0.0170 + 0.00091 0.00004 0.00095 722.76 0.0028 0.0170 + 0.00091 0.00004 0.00095 722.19 0.0028 0.0170 + 0.00091 0.00004 0.00095 725.79 0.0028 0.0169 + 0.00091 0.00004 0.00095 723.46 0.0028 0.0169 +Average 722.96 + + +Unrolled Double Precision 722.96 Mflops + + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_compiler.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_compiler.log new file mode 100644 index 00000000..76ccccae --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_compiler.log @@ -0,0 +1,5 @@ +cc (Ubuntu 5.4.0-6ubuntu1~16.04.11) 5.4.0 20160609 +Copyright (C) 2015 Free Software Foundation, Inc. +This is free software; see the source for copying conditions. There is NO +warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_cpu_sys.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_cpu_sys.log new file mode 100644 index 00000000..b87a0e9c --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_cpu_sys.log @@ -0,0 +1,3 @@ +cpu0_cur_freq=1500000 +cpu0_max_freq=1500000 +cpu0_min_freq=700000 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_cpuinfo.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_cpuinfo.log new file mode 100644 index 00000000..a84240cf --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_cpuinfo.log @@ -0,0 +1,29 @@ +processor : 0 +vendor_id : GenuineTMx86 +cpu family : 15 +model : 3 +model name : Transmeta Efficeon(tm) Processor TM8000 +stepping : 4 +cpu MHz : 1500.000 +cache size : 1024 KB +physical id : 0 +siblings : 1 +core id : 0 +cpu cores : 1 +apicid : 0 +initial apicid : 0 +fdiv_bug : no +f00f_bug : no +coma_bug : no +fpu : yes +fpu_exception : yes +cpuid level : 2 +wp : yes +flags : fpu vme de pse tsc msr pae mce cx8 sep mtrr pge mca cmov pat pse36 clflush acpi mmx fxsr sse sse2 ss tm nx mmxext longrun lrti constant_tsc cpuid pni +bugs : cpu_meltdown spectre_v1 spectre_v2 spec_store_bypass l1tf +bogomips : 2992.49 +clflush size : 128 +cache_alignment : 128 +address sizes : 32 bits physical, 32 bits virtual +power management: + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_freq.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_freq.log new file mode 100644 index 00000000..671b6602 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_freq.log @@ -0,0 +1,5 @@ +max_threads=1 +runtime_seconds_cpu0=0.011974 +instructions_cpu0=67108864 +estimated_frequency_hz_cpu0=5604492823.60 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_meminfo.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_meminfo.log new file mode 100644 index 00000000..509d7ed4 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_meminfo.log @@ -0,0 +1,50 @@ +MemTotal: 987976 kB +MemFree: 131080 kB +MemAvailable: 309960 kB +Buffers: 62604 kB +Cached: 675544 kB +SwapCached: 0 kB +Active: 519428 kB +Inactive: 248224 kB +Active(anon): 321096 kB +Inactive(anon): 166964 kB +Active(file): 198332 kB +Inactive(file): 81260 kB +Unevictable: 0 kB +Mlocked: 0 kB +HighTotal: 105416 kB +HighFree: 1424 kB +LowTotal: 882560 kB +LowFree: 129656 kB +SwapTotal: 0 kB +SwapFree: 0 kB +Dirty: 0 kB +Writeback: 0 kB +AnonPages: 29508 kB +Mapped: 20272 kB +Shmem: 458588 kB +Slab: 78800 kB +SReclaimable: 52760 kB +SUnreclaim: 26040 kB +KernelStack: 984 kB +PageTables: 1316 kB +NFS_Unstable: 0 kB +Bounce: 0 kB +WritebackTmp: 0 kB +CommitLimit: 493988 kB +Committed_AS: 868500 kB +VmallocTotal: 122880 kB +VmallocUsed: 0 kB +VmallocChunk: 0 kB +AnonHugePages: 0 kB +ShmemHugePages: 0 kB +ShmemPmdMapped: 0 kB +CmaTotal: 0 kB +CmaFree: 0 kB +HugePages_Total: 0 +HugePages_Free: 0 +HugePages_Rsvd: 0 +HugePages_Surp: 0 +Hugepagesize: 2048 kB +DirectMap4k: 30712 kB +DirectMap2M: 878592 kB diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_numactl.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_numactl.log new file mode 100644 index 00000000..e3376900 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_numactl.log @@ -0,0 +1 @@ +./cpu_info_linux.sh: line 47: numactl: command not found diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_uname.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_uname.log new file mode 100644 index 00000000..ece2f471 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/linux_uname.log @@ -0,0 +1 @@ +Linux 4.15.0-45-generic #48~16.04.1-Ubuntu SMP Tue Jan 29 18:03:19 UTC 2019 i686 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..098a32bd --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,225 @@ +L.L.N.L. 'C' KERNELS: MFLOPS P.C. VERSION 4.0 + +Optimisation i686 i386 optimized + +Calculating outer loop overhead + 1000 times 0.00 seconds + 10000 times 0.00 seconds + 100000 times 0.00 seconds + 1000000 times 0.02 seconds + 2000000 times 0.04 seconds + 4000000 times 0.08 seconds + 8000000 times 0.17 seconds + 16000000 times 0.33 seconds +Overhead for each loop 2.0867e-08 seconds + +Calibrating part 1 of 3 + +Loop count 4 0.00 seconds + +Loops 200 x 1 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 7 x 13 5 9.109100e+07 0.09 977.23 1001 5.114652693224706e+04 14 + 2 67 x 6 4 3.119520e+07 0.14 227.60 101 1.539721811668509e+03 13 + 3 9 x 19 2 6.846840e+07 0.12 587.71 1001 1.000742883066623e+01 13 + 4 14 x 11 2 3.696000e+07 0.13 273.83 1001 5.999250595474070e-01 14 + 5 10 x 12 2 4.800000e+07 0.24 196.92 1001 4.548871642388545e+03 13 + 6 3 x 14 2 3.333120e+07 0.10 331.78 64 4.375116344743014e+03 12 + 7 4 x 10 16 1.273600e+08 0.12 1031.00 995 6.104251075174961e+04 13 + 8 10 x 7 36 9.979200e+07 0.12 836.28 100 1.501268005627157e+05 12 + 9 36 x 5 17 6.181200e+07 0.08 801.46 101 1.189443609975086e+05 13 +10 34 x 7 9 4.326840e+07 0.08 545.80 101 7.310369784325988e+04 13 +11 11 x 11 1 2.420000e+07 0.09 279.16 1001 3.342910972650531e+07 13 +12 12 x 13 1 3.120000e+07 0.07 448.36 1000 2.907141429123183e-05 7 +13 36 x 6 7 1.935360e+07 0.16 121.98 64 1.202533961843089e+11 13 +14 2 x 4 11 1.761760e+07 0.11 164.62 1001 3.165553044001604e+09 12 +15 1 x 6 33 1.980000e+07 0.11 186.13 101 3.943816690352310e+04 13 +16 25 x 8 10 2.120000e+07 0.13 159.95 75 5.650760000000000e+05 16 +17 35 x 6 9 3.817800e+07 0.08 484.84 101 1.114641772903092e+03 12 +18 2 x 3 44 2.613600e+07 0.06 403.51 100 1.015727037502793e+05 12 +19 39 x 9 6 4.254120e+07 0.12 350.94 101 5.421816960150400e+02 12 +20 1 x 9 26 4.680000e+07 0.22 208.50 1000 3.040644339317276e+07 11 +21 1 x 8 2 2.020000e+08 0.45 451.05 101 1.597308280710857e+08 12 +22 11 x 5 17 1.888700e+07 0.29 64.44 101 2.938604376567100e+02 13 +23 8 x 6 11 5.227200e+07 0.11 465.81 100 3.549900501566157e+04 12 +24 5 x 20 1 2.000000e+07 0.21 95.03 1001 5.000000000000000e+02 16 + + Maximum Rate 1031.00 + Average Rate 403.91 + Geometric Mean 318.81 + Harmonic Mean 243.88 + Minimum Rate 64.44 + + Do Span 471 + +Calibrating part 2 of 3 + +Loop count 8 0.00 seconds +Loop count 32 0.00 seconds + +Loops 200 x 2 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 40 x 112 5 9.049600e+08 0.99 912.36 101 5.253344778938001e+02 14 + 2 40 x 37 4 2.296960e+08 1.00 230.33 101 1.539721811668509e+03 13 + 3 53 x 126 2 5.395824e+08 1.00 541.51 101 1.009741436579188e+00 13 + 4 70 x 69 2 2.318400e+08 0.98 236.03 101 5.999250595474070e-01 14 + 5 55 x 40 2 1.760000e+08 0.91 192.92 101 4.589031939602133e+01 13 + 6 7 x 103 2 2.768640e+08 1.01 275.31 32 8.631675645345986e+01 12 + 7 22 x 70 16 9.954560e+08 0.99 1009.84 101 6.345586315784150e+02 14 + 8 6 x 46 36 7.869312e+08 0.94 836.53 100 1.501268005627157e+05 12 + 9 21 x 53 17 7.644084e+08 0.95 808.75 101 1.189443609975086e+05 13 +10 19 x 74 9 5.112216e+08 0.93 552.04 101 7.310369784325988e+04 13 +11 64 x 96 1 2.457600e+08 0.97 253.63 101 3.433560407476163e+04 13 +12 68 x 148 1 4.025600e+08 0.99 405.62 100 7.127569145018442e-06 9 +13 41 x 33 7 1.212288e+08 0.99 122.07 32 9.816387817137975e+10 9 +14 10 x 48 11 2.133120e+08 0.99 215.03 101 3.039983465147494e+07 12 +15 1 x 28 33 1.848000e+08 0.98 187.83 101 3.943816690352310e+04 13 +16 27 x 51 10 1.542240e+08 1.00 154.29 40 6.480410000000000e+05 16 +17 20 x 65 9 4.726800e+08 0.97 488.56 101 1.114641772903092e+03 12 +18 1 x 45 44 3.920400e+08 0.94 415.40 100 1.015727037502793e+05 12 +19 23 x 62 6 3.456624e+08 0.98 351.34 101 5.421816960150400e+02 12 +20 8 x 26 26 2.163200e+08 1.02 212.97 100 3.126205178811008e+04 12 +21 1 x 17 2 4.250000e+08 1.03 412.86 50 7.824524877235141e+07 12 +22 7 x 14 17 6.730640e+07 1.04 64.81 101 2.938604376567100e+02 13 +23 5 x 43 11 4.682700e+08 1.00 469.84 100 3.549900501566157e+04 12 +24 31 x 76 1 9.424000e+07 1.00 93.94 101 5.000000000000000e+01 16 + + Maximum Rate 1009.84 + Average Rate 393.49 + Geometric Mean 312.55 + Harmonic Mean 241.82 + Minimum Rate 64.81 + + Do Span 90 + +Calibrating part 3 of 3 + +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds + +Loops 200 x 8 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 28 x 116 5 7.015680e+08 1.00 699.35 27 3.855104502494984e+01 14 + 2 46 x 47 4 1.522048e+08 1.00 152.10 15 3.953296986903387e+01 13 + 3 37 x 140 2 4.475520e+08 1.01 444.41 27 2.699309089321297e-01 13 + 4 38 x 94 2 1.714560e+08 0.97 176.04 27 5.999250595474070e-01 14 + 5 40 x 55 2 1.830400e+08 1.01 181.95 27 3.182615248448272e+00 13 + 6 21 x 80 2 1.290240e+08 0.97 133.27 8 1.120309393467599e+00 12 + 7 20 x 86 16 9.246720e+08 1.00 921.92 21 2.845720217644062e+01 14 + 8 9 x 58 36 7.817472e+08 1.00 785.14 14 2.960543667877650e+03 12 + 9 26 x 69 17 7.319520e+08 1.00 728.99 15 2.623968460874420e+03 13 +10 25 x 92 9 4.968000e+08 1.00 496.13 15 1.651291227698377e+03 13 +11 46 x 110 1 2.104960e+08 0.98 215.65 27 6.551161335846538e+02 13 +12 48 x 144 1 2.875392e+08 0.97 296.24 26 1.943435981782704e-06 9 +13 31 x 41 7 1.138816e+08 0.99 115.11 8 3.847124173129847e+10 8 +14 8 x 54 11 2.052864e+08 0.99 206.63 27 2.923540598699676e+06 11 +15 1 x 52 33 1.921920e+08 1.01 190.46 15 1.108997288135067e+03 13 +16 14 x 63 10 1.552320e+08 0.99 157.19 15 5.152160000000000e+05 16 +17 26 x 84 9 4.717440e+08 0.99 477.36 15 2.947368618590714e+01 12 +18 2 x 43 44 3.935360e+08 1.01 391.43 14 9.700646212341514e+02 12 +19 28 x 74 6 2.983680e+08 0.98 304.89 15 1.268230698051747e+01 12 +20 7 x 28 26 2.119936e+08 1.01 209.37 26 5.987713249471801e+02 12 +21 1 x 10 2 4.000000e+08 1.00 398.85 20 5.009945671206567e+07 12 +22 8 x 20 17 6.528000e+07 1.01 64.75 15 6.109968728264795e+00 13 +23 7 x 54 11 4.324320e+08 1.02 425.38 14 4.850340602751676e+02 12 +24 23 x 94 1 8.993920e+07 1.00 89.56 27 1.300000000000000e+01 16 + + Maximum Rate 921.92 + Average Rate 344.26 + Geometric Mean 272.54 + Harmonic Mean 214.28 + Minimum Rate 64.75 + + Do Span 19 + + Overall + + Part 1 weight 1 + Part 2 weight 2 + Part 3 weight 1 + + Maximum Rate 1031.00 + Average Rate 383.79 + Geometric Mean 303.53 + Harmonic Mean 234.77 + Minimum Rate 64.44 + + Do Span 167 + + Section 1 Test 1 Non-standard result was 5.114652693224706e+04 expected 5.114652693224671e+04 + Section 1 Test 2 Non-standard result was 1.539721811668509e+03 expected 1.539721811668385e+03 + Section 1 Test 3 Non-standard result was 1.000742883066623e+01 expected 1.000742883066363e+01 + Section 1 Test 4 Non-standard result was 5.999250595474070e-01 expected 5.999250595473891e-01 + Section 1 Test 5 Non-standard result was 4.548871642388545e+03 expected 4.548871642387267e+03 + Section 1 Test 6 Non-standard result was 4.375116344743014e+03 expected 4.375116344729986e+03 + Section 1 Test 7 Non-standard result was 6.104251075174961e+04 expected 6.104251075174761e+04 + Section 1 Test 8 Non-standard result was 1.501268005627157e+05 expected 1.501268005625795e+05 + Section 1 Test 9 Non-standard result was 1.189443609975086e+05 expected 1.189443609974981e+05 + Section 1 Test 10 Non-standard result was 7.310369784325988e+04 expected 7.310369784325296e+04 + Section 1 Test 11 Non-standard result was 3.342910972650531e+07 expected 3.342910972650109e+07 + Section 1 Test 12 Non-standard result was 2.907141429123183e-05 expected 2.907141294167248e-05 + Section 1 Test 13 Non-standard result was 1.202533961843089e+11 expected 1.202533961842805e+11 + Section 1 Test 14 Non-standard result was 3.165553044001604e+09 expected 3.165553044000335e+09 + Section 1 Test 15 Non-standard result was 3.943816690352310e+04 expected 3.943816690352044e+04 + Section 1 Test 17 Non-standard result was 1.114641772903092e+03 expected 1.114641772902486e+03 + Section 1 Test 18 Non-standard result was 1.015727037502793e+05 expected 1.015727037502299e+05 + Section 1 Test 19 Non-standard result was 5.421816960150400e+02 expected 5.421816960147207e+02 + Section 1 Test 20 Non-standard result was 3.040644339317276e+07 expected 3.040644339351239e+07 + Section 1 Test 21 Non-standard result was 1.597308280710857e+08 expected 1.597308280710199e+08 + Section 1 Test 22 Non-standard result was 2.938604376567100e+02 expected 2.938604376566697e+02 + Section 1 Test 23 Non-standard result was 3.549900501566157e+04 expected 3.549900501563623e+04 + Section 2 Test 1 Non-standard result was 5.253344778938001e+02 expected 5.253344778937972e+02 + Section 2 Test 2 Non-standard result was 1.539721811668509e+03 expected 1.539721811668385e+03 + Section 2 Test 3 Non-standard result was 1.009741436579188e+00 expected 1.009741436578952e+00 + Section 2 Test 4 Non-standard result was 5.999250595474070e-01 expected 5.999250595473891e-01 + Section 2 Test 5 Non-standard result was 4.589031939602133e+01 expected 4.589031939600982e+01 + Section 2 Test 6 Non-standard result was 8.631675645345986e+01 expected 8.631675645333210e+01 + Section 2 Test 7 Non-standard result was 6.345586315784150e+02 expected 6.345586315784055e+02 + Section 2 Test 8 Non-standard result was 1.501268005627157e+05 expected 1.501268005625795e+05 + Section 2 Test 9 Non-standard result was 1.189443609975086e+05 expected 1.189443609974981e+05 + Section 2 Test 10 Non-standard result was 7.310369784325988e+04 expected 7.310369784325296e+04 + Section 2 Test 11 Non-standard result was 3.433560407476163e+04 expected 3.433560407475758e+04 + Section 2 Test 12 Non-standard result was 7.127569145018442e-06 expected 7.127569130821465e-06 + Section 2 Test 13 Non-standard result was 9.816387817137975e+10 expected 9.816387810944356e+10 + Section 2 Test 14 Non-standard result was 3.039983465147494e+07 expected 3.039983465145392e+07 + Section 2 Test 15 Non-standard result was 3.943816690352310e+04 expected 3.943816690352044e+04 + Section 2 Test 17 Non-standard result was 1.114641772903092e+03 expected 1.114641772902486e+03 + Section 2 Test 18 Non-standard result was 1.015727037502793e+05 expected 1.015727037502299e+05 + Section 2 Test 19 Non-standard result was 5.421816960150400e+02 expected 5.421816960147207e+02 + Section 2 Test 20 Non-standard result was 3.126205178811008e+04 expected 3.126205178815431e+04 + Section 2 Test 21 Non-standard result was 7.824524877235141e+07 expected 7.824524877232093e+07 + Section 2 Test 22 Non-standard result was 2.938604376567100e+02 expected 2.938604376566697e+02 + Section 2 Test 23 Non-standard result was 3.549900501566157e+04 expected 3.549900501563623e+04 + Section 3 Test 1 Non-standard result was 3.855104502494984e+01 expected 3.855104502494961e+01 + Section 3 Test 2 Non-standard result was 3.953296986903387e+01 expected 3.953296986903059e+01 + Section 3 Test 3 Non-standard result was 2.699309089321297e-01 expected 2.699309089320672e-01 + Section 3 Test 4 Non-standard result was 5.999250595474070e-01 expected 5.999250595473891e-01 + Section 3 Test 5 Non-standard result was 3.182615248448272e+00 expected 3.182615248447483e+00 + Section 3 Test 6 Non-standard result was 1.120309393467599e+00 expected 1.120309393467088e+00 + Section 3 Test 7 Non-standard result was 2.845720217644062e+01 expected 2.845720217644024e+01 + Section 3 Test 8 Non-standard result was 2.960543667877650e+03 expected 2.960543667875005e+03 + Section 3 Test 9 Non-standard result was 2.623968460874420e+03 expected 2.623968460874250e+03 + Section 3 Test 10 Non-standard result was 1.651291227698377e+03 expected 1.651291227698265e+03 + Section 3 Test 11 Non-standard result was 6.551161335846538e+02 expected 6.551161335845770e+02 + Section 3 Test 12 Non-standard result was 1.943435981782704e-06 expected 1.943435981130448e-06 + Section 3 Test 13 Non-standard result was 3.847124173129847e+10 expected 3.847124199949431e+10 + Section 3 Test 14 Non-standard result was 2.923540598699676e+06 expected 2.923540598672009e+06 + Section 3 Test 15 Non-standard result was 1.108997288135067e+03 expected 1.108997288134785e+03 + Section 3 Test 17 Non-standard result was 2.947368618590714e+01 expected 2.947368618589361e+01 + Section 3 Test 18 Non-standard result was 9.700646212341514e+02 expected 9.700646212337041e+02 + Section 3 Test 19 Non-standard result was 1.268230698051747e+01 expected 1.268230698051003e+01 + Section 3 Test 20 Non-standard result was 5.987713249471801e+02 expected 5.987713249475302e+02 + Section 3 Test 21 Non-standard result was 5.009945671206567e+07 expected 5.009945671204667e+07 + Section 3 Test 22 Non-standard result was 6.109968728264795e+00 expected 6.109968728263972e+00 + Section 3 Test 23 Non-standard result was 4.850340602751676e+02 expected 4.850340602749970e+02 +Compiler #define or values in LLloops.c might to be changed + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..5992269b --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,225 @@ +L.L.N.L. 'C' KERNELS: MFLOPS P.C. VERSION 4.0 + +Optimisation i686 i386 optimized + +Calculating outer loop overhead + 1000 times 0.00 seconds + 10000 times 0.00 seconds + 100000 times 0.00 seconds + 1000000 times 0.02 seconds + 2000000 times 0.04 seconds + 4000000 times 0.08 seconds + 8000000 times 0.17 seconds + 16000000 times 0.33 seconds +Overhead for each loop 2.0862e-08 seconds + +Calibrating part 1 of 3 + +Loop count 4 0.00 seconds + +Loops 200 x 1 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 7 x 9 5 6.306300e+07 0.12 508.85 1001 5.114652693224706e+04 14 + 2 67 x 5 4 2.599600e+07 0.11 228.47 101 1.539721811668509e+03 13 + 3 9 x 19 2 6.846840e+07 0.12 585.25 1001 1.000742883066623e+01 13 + 4 14 x 11 2 3.696000e+07 0.13 289.14 1001 5.999250595474070e-01 14 + 5 10 x 12 2 4.800000e+07 0.15 318.42 1001 4.548871642388545e+03 13 + 6 3 x 15 2 3.571200e+07 0.11 333.20 64 4.375116344743014e+03 12 + 7 4 x 10 16 1.273600e+08 0.09 1364.20 995 6.104251075174961e+04 13 + 8 10 x 6 36 8.553600e+07 0.10 867.80 100 1.501268005627157e+05 12 + 9 36 x 6 17 7.417440e+07 0.09 808.27 101 1.189443609975086e+05 13 +10 34 x 7 9 4.326840e+07 0.08 535.27 101 7.310369784325988e+04 13 +11 11 x 12 1 2.640000e+07 0.08 345.85 1001 3.342910972650531e+07 13 +12 12 x 11 1 2.640000e+07 0.09 292.42 1000 2.907141429123183e-05 7 +13 36 x 5 7 1.612800e+07 0.14 119.23 64 1.202533961843089e+11 13 +14 2 x 4 11 1.761760e+07 0.11 166.05 1001 3.165553044001604e+09 12 +15 1 x 6 33 1.980000e+07 0.11 183.04 101 3.943816690352310e+04 13 +16 25 x 7 10 1.855000e+07 0.13 144.31 75 5.650760000000000e+05 16 +17 35 x 6 9 3.817800e+07 0.08 488.44 101 1.114641772903092e+03 12 +18 2 x 3 44 2.613600e+07 0.06 412.60 100 1.015727037502793e+05 12 +19 39 x 9 6 4.254120e+07 0.12 350.39 101 5.421816960150400e+02 12 +20 1 x 9 26 4.680000e+07 0.22 208.50 1000 3.040644339317276e+07 11 +21 1 x 7 2 1.767500e+08 0.39 450.82 101 1.597308280710857e+08 12 +22 11 x 8 17 3.021920e+07 0.47 64.72 101 2.938604376567100e+02 13 +23 8 x 4 11 3.484800e+07 0.06 568.26 100 3.549900501566157e+04 12 +24 5 x 19 1 1.900000e+07 0.23 82.69 1001 5.000000000000000e+02 16 + + Maximum Rate 1364.20 + Average Rate 404.84 + Geometric Mean 317.97 + Harmonic Mean 241.45 + Minimum Rate 64.72 + + Do Span 471 + +Calibrating part 2 of 3 + +Loop count 8 0.00 seconds +Loop count 32 0.00 seconds + +Loops 200 x 2 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 40 x 59 5 4.767200e+08 0.97 492.65 101 5.253344778938001e+02 14 + 2 40 x 36 4 2.234880e+08 0.97 230.33 101 1.539721811668509e+03 13 + 3 53 x 99 2 4.239576e+08 0.78 541.31 101 1.009741436579188e+00 13 + 4 70 x 67 2 2.251200e+08 0.94 239.95 101 5.999250595474070e-01 14 + 5 55 x 67 2 2.948000e+08 0.96 306.02 101 4.589031939602133e+01 13 + 6 7 x 100 2 2.688000e+08 0.97 276.85 32 8.631675645345986e+01 12 + 7 22 x 87 16 1.237210e+09 0.96 1292.67 101 6.345586315784150e+02 14 + 8 6 x 49 36 8.382528e+08 0.97 866.06 100 1.501268005627157e+05 12 + 9 21 x 56 17 8.076768e+08 1.00 808.05 101 1.189443609975086e+05 13 +10 19 x 76 9 5.250384e+08 0.95 553.71 101 7.310369784325988e+04 13 +11 64 x 117 1 2.995200e+08 0.94 318.96 101 3.433560407476163e+04 13 +12 68 x 95 1 2.584000e+08 0.94 275.27 100 7.127569145018442e-06 9 +13 41 x 33 7 1.212288e+08 0.99 122.11 32 9.816387817137975e+10 9 +14 10 x 48 11 2.133120e+08 0.99 215.06 101 3.039983465147494e+07 12 +15 1 x 28 33 1.848000e+08 1.00 184.52 101 3.943816690352310e+04 13 +16 27 x 46 10 1.391040e+08 1.00 139.54 40 6.480410000000000e+05 16 +17 20 x 66 9 4.799520e+08 0.99 487.04 101 1.114641772903092e+03 12 +18 1 x 48 44 4.181760e+08 0.99 424.47 100 1.015727037502793e+05 12 +19 23 x 63 6 3.512376e+08 1.00 350.44 101 5.421816960150400e+02 12 +20 8 x 26 26 2.163200e+08 1.02 212.96 100 3.126205178811008e+04 12 +21 1 x 16 2 4.000000e+08 0.99 404.29 50 7.824524877235141e+07 12 +22 7 x 14 17 6.730640e+07 1.04 65.02 101 2.938604376567100e+02 13 +23 5 x 51 11 5.553900e+08 0.97 570.27 100 3.549900501566157e+04 12 +24 31 x 66 1 8.184000e+07 1.01 81.41 101 5.000000000000000e+01 16 + + Maximum Rate 1292.67 + Average Rate 394.12 + Geometric Mean 311.55 + Harmonic Mean 239.33 + Minimum Rate 65.02 + + Do Span 90 + +Calibrating part 3 of 3 + +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds + +Loops 200 x 8 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 28 x 72 5 4.354560e+08 0.96 453.31 27 3.855104502494984e+01 14 + 2 46 x 47 4 1.522048e+08 1.00 152.55 15 3.953296986903387e+01 13 + 3 37 x 140 2 4.475520e+08 1.00 445.35 27 2.699309089321297e-01 13 + 4 38 x 100 2 1.824000e+08 1.00 181.92 27 5.999250595474070e-01 14 + 5 40 x 80 2 2.662400e+08 0.97 273.93 27 3.182615248448272e+00 13 + 6 21 x 81 2 1.306368e+08 0.98 133.93 8 1.120309393467599e+00 12 + 7 20 x 90 16 9.676800e+08 0.98 987.78 21 2.845720217644062e+01 14 + 8 9 x 60 36 8.087040e+08 0.99 819.51 14 2.960543667877650e+03 12 + 9 26 x 68 17 7.213440e+08 0.99 727.38 15 2.623968460874420e+03 13 +10 25 x 92 9 4.968000e+08 1.00 495.99 15 1.651291227698377e+03 13 +11 46 x 132 1 2.525952e+08 1.00 251.59 27 6.551161335846538e+02 13 +12 48 x 110 1 2.196480e+08 0.96 229.65 26 1.943435981782704e-06 9 +13 31 x 42 7 1.166592e+08 1.01 115.54 8 3.847124173129847e+10 8 +14 8 x 53 11 2.014848e+08 0.97 207.05 27 2.923540598699676e+06 11 +15 1 x 50 33 1.848000e+08 0.98 188.55 15 1.108997288135067e+03 13 +16 14 x 59 10 1.453760e+08 1.01 144.62 15 5.152160000000000e+05 16 +17 26 x 86 9 4.829760e+08 1.01 479.44 15 2.947368618590714e+01 12 +18 2 x 42 44 3.843840e+08 1.00 385.45 14 9.700646212341514e+02 12 +19 28 x 75 6 3.024000e+08 1.00 301.35 15 1.268230698051747e+01 12 +20 7 x 28 26 2.119936e+08 1.01 210.10 26 5.987713249471801e+02 12 +21 1 x 10 2 4.000000e+08 1.00 398.79 20 5.009945671206567e+07 12 +22 8 x 20 17 6.528000e+07 1.01 64.74 15 6.109968728264795e+00 13 +23 7 x 59 11 4.724720e+08 0.99 475.46 14 4.850340602751676e+02 12 +24 23 x 81 1 7.750080e+07 1.01 76.58 27 1.300000000000000e+01 16 + + Maximum Rate 987.78 + Average Rate 341.69 + Geometric Mean 271.12 + Harmonic Mean 212.11 + Minimum Rate 64.74 + + Do Span 19 + + Overall + + Part 1 weight 1 + Part 2 weight 2 + Part 3 weight 1 + + Maximum Rate 1364.20 + Average Rate 383.69 + Geometric Mean 302.45 + Harmonic Mean 232.38 + Minimum Rate 64.72 + + Do Span 167 + + Section 1 Test 1 Non-standard result was 5.114652693224706e+04 expected 5.114652693224671e+04 + Section 1 Test 2 Non-standard result was 1.539721811668509e+03 expected 1.539721811668385e+03 + Section 1 Test 3 Non-standard result was 1.000742883066623e+01 expected 1.000742883066363e+01 + Section 1 Test 4 Non-standard result was 5.999250595474070e-01 expected 5.999250595473891e-01 + Section 1 Test 5 Non-standard result was 4.548871642388545e+03 expected 4.548871642387267e+03 + Section 1 Test 6 Non-standard result was 4.375116344743014e+03 expected 4.375116344729986e+03 + Section 1 Test 7 Non-standard result was 6.104251075174961e+04 expected 6.104251075174761e+04 + Section 1 Test 8 Non-standard result was 1.501268005627157e+05 expected 1.501268005625795e+05 + Section 1 Test 9 Non-standard result was 1.189443609975086e+05 expected 1.189443609974981e+05 + Section 1 Test 10 Non-standard result was 7.310369784325988e+04 expected 7.310369784325296e+04 + Section 1 Test 11 Non-standard result was 3.342910972650531e+07 expected 3.342910972650109e+07 + Section 1 Test 12 Non-standard result was 2.907141429123183e-05 expected 2.907141294167248e-05 + Section 1 Test 13 Non-standard result was 1.202533961843089e+11 expected 1.202533961842805e+11 + Section 1 Test 14 Non-standard result was 3.165553044001604e+09 expected 3.165553044000335e+09 + Section 1 Test 15 Non-standard result was 3.943816690352310e+04 expected 3.943816690352044e+04 + Section 1 Test 17 Non-standard result was 1.114641772903092e+03 expected 1.114641772902486e+03 + Section 1 Test 18 Non-standard result was 1.015727037502793e+05 expected 1.015727037502299e+05 + Section 1 Test 19 Non-standard result was 5.421816960150400e+02 expected 5.421816960147207e+02 + Section 1 Test 20 Non-standard result was 3.040644339317276e+07 expected 3.040644339351239e+07 + Section 1 Test 21 Non-standard result was 1.597308280710857e+08 expected 1.597308280710199e+08 + Section 1 Test 22 Non-standard result was 2.938604376567100e+02 expected 2.938604376566697e+02 + Section 1 Test 23 Non-standard result was 3.549900501566157e+04 expected 3.549900501563623e+04 + Section 2 Test 1 Non-standard result was 5.253344778938001e+02 expected 5.253344778937972e+02 + Section 2 Test 2 Non-standard result was 1.539721811668509e+03 expected 1.539721811668385e+03 + Section 2 Test 3 Non-standard result was 1.009741436579188e+00 expected 1.009741436578952e+00 + Section 2 Test 4 Non-standard result was 5.999250595474070e-01 expected 5.999250595473891e-01 + Section 2 Test 5 Non-standard result was 4.589031939602133e+01 expected 4.589031939600982e+01 + Section 2 Test 6 Non-standard result was 8.631675645345986e+01 expected 8.631675645333210e+01 + Section 2 Test 7 Non-standard result was 6.345586315784150e+02 expected 6.345586315784055e+02 + Section 2 Test 8 Non-standard result was 1.501268005627157e+05 expected 1.501268005625795e+05 + Section 2 Test 9 Non-standard result was 1.189443609975086e+05 expected 1.189443609974981e+05 + Section 2 Test 10 Non-standard result was 7.310369784325988e+04 expected 7.310369784325296e+04 + Section 2 Test 11 Non-standard result was 3.433560407476163e+04 expected 3.433560407475758e+04 + Section 2 Test 12 Non-standard result was 7.127569145018442e-06 expected 7.127569130821465e-06 + Section 2 Test 13 Non-standard result was 9.816387817137975e+10 expected 9.816387810944356e+10 + Section 2 Test 14 Non-standard result was 3.039983465147494e+07 expected 3.039983465145392e+07 + Section 2 Test 15 Non-standard result was 3.943816690352310e+04 expected 3.943816690352044e+04 + Section 2 Test 17 Non-standard result was 1.114641772903092e+03 expected 1.114641772902486e+03 + Section 2 Test 18 Non-standard result was 1.015727037502793e+05 expected 1.015727037502299e+05 + Section 2 Test 19 Non-standard result was 5.421816960150400e+02 expected 5.421816960147207e+02 + Section 2 Test 20 Non-standard result was 3.126205178811008e+04 expected 3.126205178815431e+04 + Section 2 Test 21 Non-standard result was 7.824524877235141e+07 expected 7.824524877232093e+07 + Section 2 Test 22 Non-standard result was 2.938604376567100e+02 expected 2.938604376566697e+02 + Section 2 Test 23 Non-standard result was 3.549900501566157e+04 expected 3.549900501563623e+04 + Section 3 Test 1 Non-standard result was 3.855104502494984e+01 expected 3.855104502494961e+01 + Section 3 Test 2 Non-standard result was 3.953296986903387e+01 expected 3.953296986903059e+01 + Section 3 Test 3 Non-standard result was 2.699309089321297e-01 expected 2.699309089320672e-01 + Section 3 Test 4 Non-standard result was 5.999250595474070e-01 expected 5.999250595473891e-01 + Section 3 Test 5 Non-standard result was 3.182615248448272e+00 expected 3.182615248447483e+00 + Section 3 Test 6 Non-standard result was 1.120309393467599e+00 expected 1.120309393467088e+00 + Section 3 Test 7 Non-standard result was 2.845720217644062e+01 expected 2.845720217644024e+01 + Section 3 Test 8 Non-standard result was 2.960543667877650e+03 expected 2.960543667875005e+03 + Section 3 Test 9 Non-standard result was 2.623968460874420e+03 expected 2.623968460874250e+03 + Section 3 Test 10 Non-standard result was 1.651291227698377e+03 expected 1.651291227698265e+03 + Section 3 Test 11 Non-standard result was 6.551161335846538e+02 expected 6.551161335845770e+02 + Section 3 Test 12 Non-standard result was 1.943435981782704e-06 expected 1.943435981130448e-06 + Section 3 Test 13 Non-standard result was 3.847124173129847e+10 expected 3.847124199949431e+10 + Section 3 Test 14 Non-standard result was 2.923540598699676e+06 expected 2.923540598672009e+06 + Section 3 Test 15 Non-standard result was 1.108997288135067e+03 expected 1.108997288134785e+03 + Section 3 Test 17 Non-standard result was 2.947368618590714e+01 expected 2.947368618589361e+01 + Section 3 Test 18 Non-standard result was 9.700646212341514e+02 expected 9.700646212337041e+02 + Section 3 Test 19 Non-standard result was 1.268230698051747e+01 expected 1.268230698051003e+01 + Section 3 Test 20 Non-standard result was 5.987713249471801e+02 expected 5.987713249475302e+02 + Section 3 Test 21 Non-standard result was 5.009945671206567e+07 expected 5.009945671204667e+07 + Section 3 Test 22 Non-standard result was 6.109968728264795e+00 expected 6.109968728263972e+00 + Section 3 Test 23 Non-standard result was 4.850340602751676e+02 expected 4.850340602749970e+02 +Compiler #define or values in LLloops.c might to be changed + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..e25b4ceb --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/lloops_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,169 @@ +L.L.N.L. 'C' KERNELS: MFLOPS P.C. VERSION 4.0 + +Optimisation i686 i386 optimized + +Calculating outer loop overhead + 1000 times 0.00 seconds + 10000 times 0.00 seconds + 100000 times 0.00 seconds + 1000000 times 0.02 seconds + 2000000 times 0.04 seconds + 4000000 times 0.08 seconds + 8000000 times 0.16 seconds + 16000000 times 0.33 seconds +Overhead for each loop 2.0355e-08 seconds + +Calibrating part 1 of 3 + +Loop count 4 0.00 seconds + +Loops 200 x 1 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 7 x 9 5 6.306300e+07 0.12 507.94 1001 5.114652693224671e+04 16 + 2 67 x 5 4 2.599600e+07 0.09 298.85 101 1.539721811668385e+03 16 + 3 9 x 14 2 5.045040e+07 0.16 324.60 1001 1.000742883066364e+01 15 + 4 14 x 14 2 4.704000e+07 0.16 297.55 1001 5.999250595473891e-01 16 + 5 10 x 12 2 4.800000e+07 0.13 357.34 1001 4.548871642387267e+03 16 + 6 3 x 14 2 3.333120e+07 0.07 448.34 64 4.375116344729986e+03 16 + 7 4 x 6 16 7.641600e+07 0.06 1345.21 995 6.104251075174761e+04 16 + 8 10 x 6 36 8.553600e+07 0.08 1073.64 100 1.501268005625799e+05 15 + 9 36 x 6 17 7.417440e+07 0.07 1005.64 101 1.189443609974980e+05 15 +10 34 x 6 9 3.708720e+07 0.07 557.17 101 7.310369784325296e+04 16 +11 11 x 13 1 2.860000e+07 0.08 365.90 1001 3.342910972650109e+07 16 +12 12 x 11 1 2.640000e+07 0.09 292.54 1000 2.907141294167248e-05 16 +13 36 x 5 7 1.612800e+07 0.14 113.97 64 1.202533961842804e+11 15 +14 2 x 4 11 1.761760e+07 0.10 182.90 1001 3.165553044000335e+09 15 +15 1 x 7 33 2.310000e+07 0.10 240.52 101 3.943816690352044e+04 15 +16 25 x 9 10 2.385000e+07 0.13 177.98 75 5.650760000000000e+05 16 +17 35 x 7 9 4.454100e+07 0.06 756.65 101 1.114641772902486e+03 16 +18 2 x 3 44 2.613600e+07 0.06 426.67 100 1.015727037502299e+05 15 +19 39 x 10 6 4.726800e+07 0.14 346.17 101 5.421816960147207e+02 16 +20 1 x 9 26 4.680000e+07 0.19 249.29 1000 3.040644339351239e+07 16 +21 1 x 8 2 2.020000e+08 0.30 670.13 101 1.597308280710199e+08 15 +22 11 x 8 17 3.021920e+07 0.38 79.82 101 2.938604376566697e+02 16 +23 8 x 6 11 5.227200e+07 0.07 758.30 100 3.549900501563623e+04 16 +24 5 x 13 1 1.300000e+07 0.11 122.85 1001 5.000000000000000e+02 16 + + Maximum Rate 1345.21 + Average Rate 458.33 + Geometric Mean 361.74 + Harmonic Mean 280.82 + Minimum Rate 79.82 + + Do Span 471 + +Calibrating part 2 of 3 + +Loop count 8 0.00 seconds +Loop count 32 0.00 seconds + +Loops 200 x 2 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 40 x 58 5 4.686400e+08 0.94 497.22 101 5.253344778937972e+02 16 + 2 40 x 45 4 2.793600e+08 0.92 303.84 101 1.539721811668385e+03 16 + 3 53 x 72 2 3.083328e+08 0.97 316.88 101 1.009741436578952e+00 16 + 4 70 x 77 2 2.587200e+08 1.00 257.73 101 5.999250595473891e-01 16 + 5 55 x 74 2 3.256000e+08 0.94 344.61 101 4.589031939600982e+01 16 + 6 7 x 137 2 3.682560e+08 1.00 367.69 32 8.631675645333210e+01 16 + 7 22 x 92 16 1.308314e+09 1.00 1307.93 101 6.345586315784055e+02 16 + 8 6 x 58 36 9.922176e+08 0.92 1076.09 100 1.501268005625799e+05 15 + 9 21 x 67 17 9.663276e+08 0.96 1007.47 101 1.189443609974980e+05 15 +10 19 x 81 9 5.595804e+08 0.97 574.40 101 7.310369784325296e+04 16 +11 64 x 134 1 3.430400e+08 1.00 343.87 101 3.433560407475758e+04 16 +12 68 x 101 1 2.747200e+08 1.00 275.82 100 7.127569130821465e-06 16 +13 41 x 31 7 1.138816e+08 0.99 115.35 32 9.816387810944356e+10 15 +14 10 x 56 11 2.488640e+08 0.99 251.99 101 3.039983465145393e+07 16 +15 1 x 37 33 2.442000e+08 1.00 244.00 101 3.943816690352044e+04 15 +16 27 x 56 10 1.693440e+08 0.99 170.68 40 6.480410000000000e+05 16 +17 20 x 101 9 7.344720e+08 0.97 757.19 101 1.114641772902486e+03 16 +18 1 x 49 44 4.268880e+08 0.98 436.77 100 1.015727037502299e+05 15 +19 23 x 61 6 3.400872e+08 0.98 346.12 101 5.421816960147207e+02 16 +20 8 x 31 26 2.579200e+08 1.02 253.56 100 3.126205178815431e+04 16 +21 1 x 23 2 5.750000e+08 0.98 583.86 50 7.824524877232093e+07 16 +22 7 x 17 17 8.172920e+07 1.02 79.98 101 2.938604376566697e+02 16 +23 5 x 70 11 7.623000e+08 1.00 762.56 100 3.549900501563623e+04 16 +24 31 x 97 1 1.202800e+08 1.00 120.23 101 5.000000000000000e+01 16 + + Maximum Rate 1307.93 + Average Rate 449.83 + Geometric Mean 356.84 + Harmonic Mean 279.71 + Minimum Rate 79.98 + + Do Span 90 + +Calibrating part 3 of 3 + +Loop count 32 0.00 seconds +Loop count 128 0.00 seconds + +Loops 200 x 8 x Passes + +Kernel Floating Pt ops +No Passes E No Total Secs. MFLOPS Span Checksums OK +------------ -- ------------- ----- ------- ---- ---------------------- -- + 1 28 x 77 5 4.656960e+08 1.01 461.12 27 3.855104502494961e+01 16 + 2 46 x 57 4 1.845888e+08 1.00 184.82 15 3.953296986903059e+01 16 + 3 37 x 87 2 2.781216e+08 0.97 285.81 27 2.699309089320672e-01 16 + 4 38 x 114 2 2.079360e+08 1.00 208.26 27 5.999250595473891e-01 16 + 5 40 x 96 2 3.194880e+08 1.01 316.70 27 3.182615248447483e+00 16 + 6 21 x 109 2 1.757952e+08 0.99 177.56 8 1.120309393467088e+00 15 + 7 20 x 96 16 1.032192e+09 1.01 1026.40 21 2.845720217644024e+01 16 + 8 9 x 73 36 9.839232e+08 0.97 1014.44 14 2.960543667875002e+03 16 + 9 26 x 85 17 9.016800e+08 0.98 919.70 15 2.623968460874250e+03 16 +10 25 x 91 9 4.914000e+08 1.00 489.45 15 1.651291227698265e+03 16 +11 46 x 155 1 2.966080e+08 1.01 293.68 27 6.551161335845770e+02 16 +12 48 x 115 1 2.296320e+08 1.00 229.81 26 1.943435981130448e-06 16 +13 31 x 40 7 1.111040e+08 1.01 109.49 8 3.847124199949430e+10 15 +14 8 x 63 11 2.395008e+08 0.99 241.67 27 2.923540598672011e+06 16 +15 1 x 67 33 2.476320e+08 1.00 246.79 15 1.108997288134785e+03 16 +16 14 x 72 10 1.774080e+08 1.00 176.65 15 5.152160000000000e+05 16 +17 26 x 125 9 7.020000e+08 0.97 723.84 15 2.947368618589361e+01 16 +18 2 x 44 44 4.026880e+08 1.00 402.13 14 9.700646212337041e+02 16 +19 28 x 75 6 3.024000e+08 0.98 307.22 15 1.268230698051003e+01 15 +20 7 x 34 26 2.574208e+08 1.02 252.96 26 5.987713249475302e+02 16 +21 1 x 15 2 6.000000e+08 1.02 590.18 20 5.009945671204667e+07 16 +22 8 x 25 17 8.160000e+07 1.02 79.73 15 6.109968728263972e+00 16 +23 7 x 79 11 6.326320e+08 1.00 629.87 14 4.850340602749970e+02 16 +24 23 x 113 1 1.081184e+08 0.97 111.63 27 1.300000000000000e+01 16 + + Maximum Rate 1026.40 + Average Rate 395.00 + Geometric Mean 312.95 + Harmonic Mean 249.07 + Minimum Rate 79.73 + + Do Span 19 + + Overall + + Part 1 weight 1 + Part 2 weight 2 + Part 3 weight 1 + + Maximum Rate 1345.21 + Average Rate 438.25 + Geometric Mean 346.50 + Harmonic Mean 271.62 + Minimum Rate 79.73 + + Do Span 167 + + Section 1 Test 3 Non-standard result was 1.000742883066364e+01 expected 1.000742883066363e+01 + Section 1 Test 8 Non-standard result was 1.501268005625799e+05 expected 1.501268005625795e+05 + Section 1 Test 9 Non-standard result was 1.189443609974980e+05 expected 1.189443609974981e+05 + Section 1 Test 13 Non-standard result was 1.202533961842804e+11 expected 1.202533961842805e+11 + Section 2 Test 8 Non-standard result was 1.501268005625799e+05 expected 1.501268005625795e+05 + Section 2 Test 9 Non-standard result was 1.189443609974980e+05 expected 1.189443609974981e+05 + Section 2 Test 14 Non-standard result was 3.039983465145393e+07 expected 3.039983465145392e+07 + Section 3 Test 8 Non-standard result was 2.960543667875002e+03 expected 2.960543667875005e+03 + Section 3 Test 13 Non-standard result was 3.847124199949430e+10 expected 3.847124199949431e+10 + Section 3 Test 14 Non-standard result was 2.923540598672011e+06 expected 2.923540598672009e+06 +Compiler #define or values in LLloops.c might to be changed + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..42599e11 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,23 @@ + ########################################## + + Memory Reading Speed Test i686 i386 optimized Sun Dec 3 14:06:43 2023 + Copyright (C) 2013, Roy Longbottom + + Memory x[m]=x[m]+s*y[m] Int x[m]=x[m]+y[m] x[m]=y[m] + KBytes Dble Sngl Int32 Dble Sngl Int32 Dble Sngl Int32 + Used MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S + + 8 5000 2663 4422 6309 3357 3187 3374 1797 3126 + 16 5354 2748 4647 6764 3518 3335 3636 1892 3354 + 32 5507 2797 4691 7053 3594 3390 3789 1935 3455 + 64 5577 2799 4799 7163 3604 3402 3891 1955 3528 + 128 2882 1941 2655 3205 2276 2238 1950 1252 1678 + 256 2578 1791 2405 2814 2064 2050 1710 1146 1510 + 512 2478 1790 2317 2688 2016 2007 1563 1116 1422 + 1024 2231 1694 2069 2382 1879 1856 1228 1021 1174 + 2048 1477 1326 1367 1478 1349 1352 709 692 697 + 4096 1209 1138 1163 1207 1141 1146 591 583 575 + 8192 1202 1130 1156 1186 1135 1130 587 576 573 + + End of test Sun Dec 3 14:07:00 2023 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..e68f7a09 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,23 @@ + ########################################## + + Memory Reading Speed Test i686 i386 optimized Sun Dec 3 14:07:00 2023 + Copyright (C) 2013, Roy Longbottom + + Memory x[m]=x[m]+s*y[m] Int x[m]=x[m]+y[m] x[m]=y[m] + KBytes Dble Sngl Int32 Dble Sngl Int32 Dble Sngl Int32 + Used MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S + + 8 7762 7959 1752 8036 7564 1804 3369 8987 1676 + 16 8329 8159 1751 8714 7834 1827 3634 9289 1681 + 32 8701 8218 1751 9107 7878 1831 3785 9401 1694 + 64 8852 8103 1742 9258 7591 1851 3893 9206 1676 + 128 3501 3408 1383 3234 3500 1345 1950 2162 1172 + 256 3025 2972 1316 2780 3067 1266 1717 1863 1101 + 512 2872 2404 1202 2631 2474 1170 1585 1470 955 + 1024 2506 1520 951 2283 1548 944 1226 866 667 + 2048 1498 884 675 1403 922 675 702 491 426 + 4096 1243 780 597 1171 840 592 596 419 384 + 8192 1242 803 577 1164 912 574 584 391 391 + + End of test Sun Dec 3 14:07:16 2023 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..7b06dffc --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/memspeed_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,23 @@ + ########################################## + + Memory Reading Speed Test i686 i386 optimized Sun Dec 3 14:07:16 2023 + Copyright (C) 2013, Roy Longbottom + + Memory x[m]=x[m]+s*y[m] Int x[m]=x[m]+y[m] x[m]=y[m] + KBytes Dble Sngl Int32 Dble Sngl Int32 Dble Sngl Int32 + Used MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S MB/S + + 8 7725 7970 1750 8005 7661 1707 4522 9018 1681 + 16 8338 8165 1756 8726 7812 1710 4947 9289 1685 + 32 8704 8198 1757 9114 7873 1691 5114 9396 1689 + 64 8806 8104 1742 9277 7738 1694 5333 9274 1677 + 128 3502 3406 1383 3227 3504 1331 2030 2166 1170 + 256 3026 2985 1319 2785 3075 1268 1768 1868 1104 + 512 2967 2740 1270 2707 2822 1225 1729 1685 1044 + 1024 2500 1573 976 2273 1604 942 1359 902 690 + 2048 1463 881 672 1371 921 670 727 489 424 + 4096 1198 765 590 1161 832 606 603 410 375 + 8192 1185 780 570 1141 878 621 601 386 381 + + End of test Sun Dec 3 14:07:32 2023 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..04d0f25a --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,22 @@ +1 CPUs Available + +############################################## + + 64 Bit MP SSE MFLOPS Benchmark 1, 1 Threads, Sun Dec 3 14:07:32 2023 + + Test 4 Byte Ops/ Repeat Seconds MFLOPS First All + Words Word Passes Results Same + + Data in & out 102400 2 2500 0.853002 600 0.929475 Yes + Data in & out 1024000 2 250 1.133252 452 0.992543 Yes + Data in & out 10240000 2 25 1.158206 442 0.999249 Yes + + Data in & out 102400 8 2500 1.887317 1085 0.957164 Yes + Data in & out 1024000 8 250 1.934984 1058 0.995525 Yes + Data in & out 10240000 8 25 1.957676 1046 0.999550 Yes + + Data in & out 102400 32 2500 8.756970 935 0.890377 Yes + Data in & out 1024000 32 250 9.904245 827 0.988102 Yes + Data in & out 10240000 32 25 9.618406 852 0.998799 Yes + + End of test Sun Dec 3 14:08:10 2023 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..ab527db5 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,22 @@ +1 CPUs Available + +############################################## + + 64 Bit MP SSE MFLOPS Benchmark 1, 1 Threads, Sun Dec 3 14:08:10 2023 + + Test 4 Byte Ops/ Repeat Seconds MFLOPS First All + Words Word Passes Results Same + + Data in & out 102400 2 2500 0.427168 1199 0.929538 Yes + Data in & out 1024000 2 250 1.148035 446 0.992550 Yes + Data in & out 10240000 2 25 1.165230 439 0.999250 Yes + + Data in & out 102400 8 2500 0.746417 2744 0.957117 Yes + Data in & out 1024000 8 250 1.138812 1798 0.995517 Yes + Data in & out 10240000 8 25 1.157745 1769 0.999549 Yes + + Data in & out 102400 32 2500 2.377970 3445 0.890211 Yes + Data in & out 1024000 32 250 3.202032 2558 0.988082 Yes + Data in & out 10240000 32 25 3.193515 2565 0.998796 Yes + + End of test Sun Dec 3 14:08:25 2023 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..c6295e2e --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/mpmflops_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,22 @@ +1 CPUs Available + +############################################## + + 64 Bit MP SSE MFLOPS Benchmark 1, 1 Threads, Sun Dec 3 14:08:25 2023 + + Test 4 Byte Ops/ Repeat Seconds MFLOPS First All + Words Word Passes Results Same + + Data in & out 102400 2 2500 0.415143 1233 0.929538 Yes + Data in & out 1024000 2 250 1.146929 446 0.992550 Yes + Data in & out 10240000 2 25 1.166299 439 0.999250 Yes + + Data in & out 102400 8 2500 0.910063 2250 0.957118 Yes + Data in & out 1024000 8 250 1.157570 1769 0.995515 Yes + Data in & out 10240000 8 25 1.175936 1742 0.999549 Yes + + Data in & out 102400 32 2500 2.515849 3256 0.890339 Yes + Data in & out 1024000 32 250 3.304134 2479 0.988085 Yes + Data in & out 10240000 32 25 3.295493 2486 0.998800 Yes + + End of test Sun Dec 3 14:08:41 2023 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..9b0ae191 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,11 @@ +** ** +** SciMark2 Numeric Benchmark, see http://math.nist.gov/scimark ** +** for details. (Results can be submitted to pozo@nist.gov) ** +** ** +Using 2.00 seconds min time per kenel. +Composite Score: 228.00 +FFT Mflops: 244.10 (N=1024) +SOR Mflops: 292.44 (100 x 100) +MonteCarlo: Mflops: 68.96 +Sparse matmult Mflops: 155.31 (N=1000, nz=5000) +LU Mflops: 379.17 (M=100, N=100) diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..d3b1151d --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,11 @@ +** ** +** SciMark2 Numeric Benchmark, see http://math.nist.gov/scimark ** +** for details. (Results can be submitted to pozo@nist.gov) ** +** ** +Using 2.00 seconds min time per kenel. +Composite Score: 279.97 +FFT Mflops: 248.05 (N=1024) +SOR Mflops: 492.01 (100 x 100) +MonteCarlo: Mflops: 73.38 +Sparse matmult Mflops: 155.54 (N=1000, nz=5000) +LU Mflops: 430.89 (M=100, N=100) diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..1cddff7a --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/scimark2_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,11 @@ +** ** +** SciMark2 Numeric Benchmark, see http://math.nist.gov/scimark ** +** for details. (Results can be submitted to pozo@nist.gov) ** +** ** +Using 2.00 seconds min time per kenel. +Composite Score: 328.28 +FFT Mflops: 284.07 (N=1024) +SOR Mflops: 571.10 (100 x 100) +MonteCarlo: Mflops: 63.09 +Sparse matmult Mflops: 178.27 (N=1000, nz=5000) +LU Mflops: 544.88 (M=100, N=100) diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..9b05b186 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,27 @@ +########################################## +Single Precision C Whetstone Benchmark i686 i386 optimized, Sun Dec 3 14:14:23 2023 + +Calibrate + 0.02 Seconds 1 Passes (x 100) + 0.05 Seconds 5 Passes (x 100) + 0.28 Seconds 25 Passes (x 100) + 1.32 Seconds 125 Passes (x 100) + 6.56 Seconds 625 Passes (x 100) + +Use 952 passes (x 100) + + Single Precision C/C++ Whetstone Benchmark + +Loop content Result MFLOPS MOPS Seconds + +N1 floating point -1.12441420555114746 454.331 0.040 +N2 floating point -1.12241148948669434 245.004 0.522 +N3 if then else 1.00000000000000000 4450.545 0.022 +N4 fixed point 12.00000000000000000 1857.372 0.161 +N5 sin,cos etc. 0.49904659390449524 19.661 4.029 +N6 floating point 0.99999988079071045 371.219 1.383 +N7 assignments 3.00000000000000000 3563.402 0.049 +N8 exp,sqrt etc. 0.75110864639282227 9.380 3.775 + +MWIPS 953.646 9.983 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..6c80befc --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,27 @@ +########################################## +Single Precision C Whetstone Benchmark i686 i386 optimized, Sun Dec 3 14:14:42 2023 + +Calibrate + 0.02 Seconds 1 Passes (x 100) + 0.05 Seconds 5 Passes (x 100) + 0.26 Seconds 25 Passes (x 100) + 1.29 Seconds 125 Passes (x 100) + 6.42 Seconds 625 Passes (x 100) + +Use 974 passes (x 100) + + Single Precision C/C++ Whetstone Benchmark + +Loop content Result MFLOPS MOPS Seconds + +N1 floating point -1.12441420555114746 456.862 0.041 +N2 floating point -1.12239956855773926 445.063 0.294 +N3 if then else 1.00000000000000000 4455.254 0.023 +N4 fixed point 12.00000000000000000 1857.493 0.165 +N5 sin,cos etc. 0.49904659390449524 19.560 4.143 +N6 floating point 0.99999988079071045 371.225 1.415 +N7 assignments 3.00000000000000000 4450.016 0.040 +N8 exp,sqrt etc. 0.75110864639282227 9.362 3.870 + +MWIPS 974.799 9.992 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..8ceaf0d1 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstone_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,27 @@ +########################################## +Single Precision C Whetstone Benchmark i686 i386 optimized, Sun Dec 3 14:15:01 2023 + +Calibrate + 0.01 Seconds 1 Passes (x 100) + 0.05 Seconds 5 Passes (x 100) + 0.23 Seconds 25 Passes (x 100) + 1.13 Seconds 125 Passes (x 100) + 5.73 Seconds 625 Passes (x 100) + +Use 1090 passes (x 100) + + Single Precision C/C++ Whetstone Benchmark + +Loop content Result MFLOPS MOPS Seconds + +N1 floating point -1.12367534637451172 659.689 0.032 +N2 floating point -1.12167263031005859 699.014 0.210 +N3 if then else 1.00000000000000000 4449.191 0.025 +N4 fixed point 12.00000000000000000 5231.472 0.066 +N5 sin,cos etc. 0.49911010265350342 19.718 4.599 +N6 floating point 0.99999982118606567 355.873 1.652 +N7 assignments 3.00000000000000000 2953.089 0.068 +N8 exp,sqrt etc. 0.75110864639282227 11.979 3.385 + +MWIPS 1086.001 10.037 + diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_O2.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_O2.stdout_stderr.log new file mode 100644 index 00000000..85a03562 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_O2.stdout_stderr.log @@ -0,0 +1,43 @@ +1 CPUs Available +############################################## + + Multithreading Single Precision Whetstones i686 i386 optimized + + Using 1 threads - Sun Dec 3 14:15:19 2023 + + Calibrate + 0.02928 Seconds 1 Passes (x 100) + 0.08089 Seconds 5 Passes (x 100) + 0.39901 Seconds 25 Passes (x 100) + + Use 626 passes (x 100) + + MFLOPS 1 455 + MFLOPS 2 456 + IFMOPS 4442 + FIXPMOPS 791 + COSMOPS 19 + MFLOPS 3 371 + EQUMOPS 414 + EXPMOPS 9 + millisec 6829 + MWIPS 917 + + MWIPS MFLOPS MFLOPS MFLOPS Cos Exp Fixpt If Equal + Thread 1 2 3 MOPS MOPS MOPS MOPS MOPS + + 1 917 455 456 371 19 9 791 4442 414 + Total 917 455 456 371 19 9 791 4442 414 + + MWIPS 917 Based on time for last thread to finish + + + Results Of Calculations Thread 1 + + MFLOPS 1 -1.13333344459533691 MFLOPS 2 -1.13333332538604736 + IFMOPS 1.00000000000000000 FIXPMOPS 12.00000000000000000 + COSMOPS 0.50000000000000000 MFLOPS 3 0.99999421834945679 + EQUMOPS 3.00000000000000000 EXPMOPS 0.93536460399627686 + + + End of test Sun Dec 3 14:15:29 2023 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_O3.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_O3.stdout_stderr.log new file mode 100644 index 00000000..d0d60596 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_O3.stdout_stderr.log @@ -0,0 +1,43 @@ +1 CPUs Available +############################################## + + Multithreading Single Precision Whetstones i686 i386 optimized + + Using 1 threads - Sun Dec 3 14:15:29 2023 + + Calibrate + 0.02080 Seconds 1 Passes (x 100) + 0.05936 Seconds 5 Passes (x 100) + 0.29072 Seconds 25 Passes (x 100) + + Use 859 passes (x 100) + + MFLOPS 1 453 + MFLOPS 2 456 + IFMOPS 4448 + FIXPMOPS 2285118 + COSMOPS 19 + MFLOPS 3 371 + EQUMOPS 3544 + EXPMOPS 9 + millisec 8692 + MWIPS 988 + + MWIPS MFLOPS MFLOPS MFLOPS Cos Exp Fixpt If Equal + Thread 1 2 3 MOPS MOPS MOPS MOPS MOPS + + 1 988 453 456 371 19 92285118 4448 3544 + Total 988 453 456 371 19 92285118 4448 3544 + + MWIPS 988 Based on time for last thread to finish + + + Results Of Calculations Thread 1 + + MFLOPS 1 -1.12441265583038330 MFLOPS 2 -1.13130593299865723 + IFMOPS 1.00000000000000000 FIXPMOPS 12.00000000000000000 + COSMOPS 0.49904656410217285 MFLOPS 3 0.99999207258224487 + EQUMOPS 3.00000000000000000 EXPMOPS 0.93536460399627686 + + + End of test Sun Dec 3 14:15:39 2023 diff --git a/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_Ofast.stdout_stderr.log b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_Ofast.stdout_stderr.log new file mode 100644 index 00000000..67ed1dd0 --- /dev/null +++ b/results/transmeta-x86-efficeon_tm8000-1500mhz/whetstonemp_i386-i386_Ofast.stdout_stderr.log @@ -0,0 +1,43 @@ +1 CPUs Available +############################################## + + Multithreading Single Precision Whetstones i686 i386 optimized + + Using 1 threads - Sun Dec 3 14:15:39 2023 + + Calibrate + 0.01774 Seconds 1 Passes (x 100) + 0.05176 Seconds 5 Passes (x 100) + 0.25914 Seconds 25 Passes (x 100) + + Use 964 passes (x 100) + + MFLOPS 1 659 + MFLOPS 2 657 + IFMOPS 4448 + FIXPMOPS 2739016 + COSMOPS 20 + MFLOPS 3 367 + EQUMOPS 2970 + EXPMOPS 12 + millisec 8837 + MWIPS 1091 + + MWIPS MFLOPS MFLOPS MFLOPS Cos Exp Fixpt If Equal + Thread 1 2 3 MOPS MOPS MOPS MOPS MOPS + + 1 1091 659 657 367 20 122739016 4448 2970 + Total 1091 659 657 367 20 122739016 4448 2970 + + MWIPS 1091 Based on time for last thread to finish + + + Results Of Calculations Thread 1 + + MFLOPS 1 -1.13333511352539062 MFLOPS 2 -1.13333344459533691 + IFMOPS 1.00000000000000000 FIXPMOPS 12.00000000000000000 + COSMOPS 0.50000011920928955 MFLOPS 3 0.99999982118606567 + EQUMOPS 3.00000000000000000 EXPMOPS 0.93536460399627686 + + + End of test Sun Dec 3 14:15:49 2023