Num_threads = 8 Num_threads = 8 Num_threads = 8 Num_threads = 8 Num_threads = 8 Num_threads = 8 Num_threads = 8 Num_threads = 8 rebind: num_parthds is 8 bindprocessor successful: thread_self() 1233087 cpu_id 1 bindprocessor successful: thread_self() 856167 cpu_id 3 bindprocessor successful: thread_self() 1552539 cpu_id 2 bindprocessor successful: thread_self() 1298641 cpu_id 5 bindprocessor successful: thread_self() 1146929 cpu_id 6 bindprocessor successful: thread_self() 888963 cpu_id 7 bindprocessor successful: thread_self() 1515709 cpu_id 4 bindprocessor successful: thread_self() 905357 cpu_id 0 Starting Initialization Done With Initialization a(1) 1.00000000000000000 a(N) 0.000000000000000000E+00 Base Offset = 67108864 Incremental Offset = 1536 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 111857 microseconds (= 111857 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 Rate (MB/s) AVG time Min time Max time Copy: 43660.4202 .0995 .0984 .1012 Scale: 50204.8351 .0859 .0855 .0867 Add: 52405.0148 .1231 .1229 .1234 Triad: 53130.6239 .1220 .1213 .1233 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20 Base Offset = 67108864 Incremental Offset = 1792 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 101221 microseconds (= 101221 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 Rate (MB/s) AVG time Min time Max time Copy: 51187.3024 .0843 .0839 .0847 Scale: 53161.4596 .0812 .0808 .0823 Add: 58535.9465 .1103 .1101 .1108 Triad: 58751.2249 .1108 .1097 .1120 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20 Base Offset = 67108864 Incremental Offset = 2048 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 102664 microseconds (= 102664 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 Rate (MB/s) AVG time Min time Max time Copy: 43556.3332 .0993 .0986 .1007 Scale: 42238.1913 .1023 .1017 .1035 Add: 42477.1715 .1522 .1517 .1527 Triad: 42716.4571 .1522 .1508 .1534 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20 Base Offset = 67108864 Incremental Offset = 2304 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 105781 microseconds (= 105781 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 Rate (MB/s) AVG time Min time Max time Copy: 51221.5052 .0841 .0839 .0846 Scale: 52751.9594 .0817 .0814 .0827 Add: 59311.5434 .1091 .1086 .1096 Triad: 58546.0292 .1110 .1100 .1137 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20 Base Offset = 67108864 Incremental Offset = 2560 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 104823 microseconds (= 104823 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 Rate (MB/s) AVG time Min time Max time Copy: 44046.6534 .0980 .0975 .0994 Scale: 50453.6457 .0855 .0851 .0863 Add: 52375.5070 .1234 .1230 .1237 Triad: 53091.1126 .1221 .1213 .1236 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20 Base Offset = 67108864 Incremental Offset = 2816 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 105439 microseconds (= 105439 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 Rate (MB/s) AVG time Min time Max time Copy: 51455.9639 .0838 .0835 .0843 Scale: 53425.5428 .0810 .0804 .0817 Add: 58651.6937 .1102 .1098 .1108 Triad: 58891.3044 .1115 .1094 .1139 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20 Base Offset = 67108864 Incremental Offset = 3072 ---------------------------------------------- Double precision appears to have 16 digits of accuracy Assuming 8 bytes per DOUBLE PRECISION word ---------------------------------------------- Number of Threads = 8 Array size = 67108864 Offset = 0 The total memory requirement per task is 1536 MB The total memory requirement for job is 6144 MB You are running each test 10 times The *best* time for each test is used ---------------------------------------------------- Your clock granularity appears to be less than one microsecond Your clock granularity/precision appears to be 1 microseconds The tests below will each take a time on the order of 102614 microseconds (= 102614 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 Rate (MB/s) AVG time Min time Max time Copy: 44098.0312 .0977 .0974 .0985 Scale: 43246.5098 .1001 .0993 .1008 Add: 43648.3075 .1480 .1476 .1484 Triad: 44035.6171 .1475 .1463 .1479 Sum of a is = 0.773952440502472540E+20 Sum of b is = 0.154790488090418401E+20 Sum of c is = 0.206387317465862513E+20