SuperPI calculates the
number PI to 1 Million digits in this raw number crunching benchmark. The
benchmark is fairly diverse and allows the user to change the number of digits
of PI that can be calculated from 16 Thousand to 32 Million. The benchmark,
which uses 19 iterations in the test, is set 1 Million digits.
Lower numbers denote faster calculation times
(seconds), and hence, better performance.
| Super PI (1 Million digits) Benchmark Results (Lower is
better) |
|
Processor |
seconds |
Ranking |
| 1. |
P4 1.6A - 100 MHz |
105 |
 |
| 2. |
Celeron - 100 MHz |
128 |
 |
| 3. |
Celeron - 125 MHz |
109 |
|
Again we
see the benefit of L2 cache. Even when overclocked to 2.25 GHz, the Celeron
can't beat the P4.
Sisoft Sandra 2002 |
Source: Sandra |
|
Sandra is designed to
test the theoretical power of a complete system and individual components. The
numbers taken though are again, purely theoretical and may not represent real
world performance.
| SiSoft Sandra 2001 Benchmark Results |
|
Celeron 1.8 GHz |
Score |
|
Multimedia Benchmark
(FSB) |
|
| 1. |
Integer SSE2 - 100 MHz |
7146 it/s |
| 1a. |
Integer SSE2 - 125 MHz |
8820 it/s |
| 2. |
Floating-Point SSE2 - 100 MHz |
8976 it/s |
| 2a. |
Floating-Point SSE2 - 125 MHz |
11056 it/s |
|
|
CPU Benchmark (FSB) |
|
| 3. |
Dhrystone ALU - 100 MHz |
3500 MIPS |
| 3a. |
Dhrystone ALU - 125 MHz |
4440 MIPS |
| 4. |
Whetstone FPU - 100 MHz |
950 FPU/2223 SSE2 MFLOPS |
| 4a. |
Whetstone FPU - 125 MHz |
1171 FPU/2737 SSE2 MFLOPS |
SiSoft Sandra for those who care about theoretical
power.
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