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() 839705 cpu_id 1
bindprocessor successful: thread_self() 827609 cpu_id 6
bindprocessor successful: thread_self() 856069 cpu_id 2
bindprocessor successful: thread_self() 680095 cpu_id 3
bindprocessor successful: thread_self() 610421 cpu_id 4
bindprocessor successful: thread_self() 794635 cpu_id 7
bindprocessor successful: thread_self() 868547 cpu_id 5
bindprocessor successful: thread_self() 643251 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 3072 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 107408 microseconds
(= 107408 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: 27101.7920 .0808 .0792 .0820
Scale: 32364.8965 .0666 .0664 .0668
Add: 33155.9042 .0979 .0972 .0986
Triad: 33372.7283 .0970 .0965 .0978
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 3072 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 106287 microseconds
(= 106287 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: 32943.6867 .0656 .0652 .0661
Scale: 33521.7084 .0644 .0641 .0647
Add: 35609.0377 .0908 .0905 .0918
Triad: 36593.8054 .0885 .0880 .0895
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 3072 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 107847 microseconds
(= 107847 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: 27259.9313 .0802 .0788 .0809
Scale: 26114.0686 .0838 .0822 .0847
Add: 26426.6545 .1228 .1219 .1233
Triad: 26511.1520 .1222 .1215 .1230
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 3072 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 105767 microseconds
(= 105767 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: 33033.6977 .0659 .0650 .0704
Scale: 33052.6080 .0653 .0650 .0656
Add: 36571.0729 .0886 .0881 .0896
Triad: 35938.9496 .0901 .0896 .0913
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 3072 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 109841 microseconds
(= 109841 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: 27660.4150 .0786 .0776 .0799
Scale: 32538.2850 .0663 .0660 .0671
Add: 33105.8992 .0978 .0973 .0985
Triad: 33381.8809 .0969 .0965 .0975
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 3072 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 108491 microseconds
(= 108491 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: 32947.8441 .0654 .0652 .0658
Scale: 33673.1576 .0640 .0638 .0643
Add: 35925.9530 .0901 .0897 .0907
Triad: 36818.1788 .0884 .0875 .0895
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 3072 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 104553 microseconds
(= 104553 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: 27620.9729 .0783 .0777 .0787
Scale: 26623.8639 .0816 .0807 .0823
Add: 27300.6652 .1186 .1180 .1189
Triad: 27486.2808 .1178 .1172 .1182
Sum of a is = 0.773952440502472540E+20
Sum of b is = 0.154790488090418401E+20
Sum of c is = 0.206387317465862513E+20