Well we've seen this in the windows environment, but how about benching under linux.
Its simple to do!
Get the files:
ftp://pi.super-computing.org/Linux/super_pi.tar.gz
http://www.di.uminho.pt/~apa/directorias/public/download/performance/super_pi.tar.gz //Mirror
Installation:
1. Download
2. Open terminal, cd /path_of_super_pi_file
3. unrar using
4. Enter extract directory
5. Run using
Scoreboard:
Its simple to do!
Get the files:
ftp://pi.super-computing.org/Linux/super_pi.tar.gz
http://www.di.uminho.pt/~apa/directorias/public/download/performance/super_pi.tar.gz //Mirror
Installation:
1. Download
2. Open terminal, cd /path_of_super_pi_file
3. unrar using
Code:
tar xvf super_pi.tar.gz
5. Run using
Code:
sh super_pi 20
You will notice the difference in your windows reading compared to linux, I reckon its due to the less usage of resources in linux.
- Note: The above "20" is a 20bit number which is an equivalent of 1M
- Correspondingly 21=2M, 22=4M, 23=8M, 24=16M, 25=32M and so on
Scoreboard:
- Post a screenshot your 1M scores along with your configuration, else just mention your configuration.(yes we believe youhyeah
- You could even post your windows score for comparison.