stream results for SS10/51

From: Kirk 'UhOh' Johnson (tuna@spica.LCS.MIT.EDU)
Date: Wed Jun 30 1993 - 09:35:47 CDT

here are results for your stream benchmarks running on an SS10/51 (50
MHz SuperSparc, 1 MB external cache), compiled with "f77 -O" using
whatever version of fortran sun shipped along with their sun C 1.0
product.

--------------------------------------
 Single precision appears to have 7 digits of accuracy
 Assuming 4 bytes per default REAL word
--------------------------------------
Timing calibration ; time = 55.0000 hundredths of a second
Increase the size of the arrays if this is <30
 and your clock precision is =<1/100 second
---------------------------------------------------
Function Rate (MB/s) RMS time Min time Max time
Assignment: 44.4444 0.1011 0.0900 0.1100
Scaling : 40.0000 0.1031 0.1000 0.1100
Summing : 42.8572 0.1471 0.1400 0.1500
SAXPYing : 42.8572 0.1461 0.1400 0.1500
--------------------------------------
 Single precision appears to have 7 digits of accuracy
 Assuming 4 bytes per default REAL word
--------------------------------------
Timing calibration ; time = 55.0000 hundredths of a second
Increase the size of the arrays if this is <30
 and your clock precision is =<1/100 second
---------------------------------------------------
Function Rate (MB/s) RMS time Min time Max time
Assignment: 40.0000 0.1041 0.1000 0.1100
Scaling : 40.0000 0.1041 0.1000 0.1100
Summing : 42.8571 0.1481 0.1400 0.1500
SAXPYing : 42.8572 0.1431 0.1400 0.1500
--------------------------------------
 Single precision appears to have 7 digits of accuracy
 Assuming 4 bytes per default REAL word
--------------------------------------
Timing calibration ; time = 56.0000 hundredths of a second
Increase the size of the arrays if this is <30
 and your clock precision is =<1/100 second
---------------------------------------------------
Function Rate (MB/s) RMS time Min time Max time
Assignment: 44.4446 0.1032 0.0900 0.1100
Scaling : 40.0000 0.1031 0.1000 0.1100
Summing : 42.8572 0.1471 0.1400 0.1500
SAXPYing : 42.8572 0.1461 0.1400 0.1500

--------------------------------------
 Double precision appears to have 16 digits of accuracy
 Assuming 8 bytes per DOUBLEPRECISION word
--------------------------------------
Timing calibration ; time = 60.999995470047 hundredths of a second
Increase the size of the arrays if this is <30
 and your clock precision is =<1/100 second
---------------------------------------------------
Function Rate (MB/s) RMS time Min time Max time
Assignment: 43.6365 0.1221 0.1100 0.1300
Scaling : 43.6363 0.1171 0.1100 0.1200
Summing : 42.3530 0.1780 0.1700 0.1800
SAXPYing : 42.3530 0.1720 0.1700 0.1800
--------------------------------------
 Double precision appears to have 16 digits of accuracy
 Assuming 8 bytes per DOUBLEPRECISION word
--------------------------------------
Timing calibration ; time = 59.999997913837 hundredths of a second
Increase the size of the arrays if this is <30
 and your clock precision is =<1/100 second
---------------------------------------------------
Function Rate (MB/s) RMS time Min time Max time
Assignment: 40.0000 0.1241 0.1200 0.1300
Scaling : 43.6363 0.1190 0.1100 0.1200
Summing : 42.3530 0.1771 0.1700 0.1800
SAXPYing : 42.3529 0.1780 0.1700 0.1800
--------------------------------------
 Double precision appears to have 16 digits of accuracy
 Assuming 8 bytes per DOUBLEPRECISION word
--------------------------------------
Timing calibration ; time = 61.000002920628 hundredths of a second
Increase the size of the arrays if this is <30
 and your clock precision is =<1/100 second
---------------------------------------------------
Function Rate (MB/s) RMS time Min time Max time
Assignment: 40.0000 0.1251 0.1200 0.1300
Scaling : 43.6365 0.1161 0.1100 0.1200
Summing : 42.3530 0.1771 0.1700 0.1800
SAXPYing : 42.3529 0.1731 0.1700 0.1800

share-n-enjoy,

kirk

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