Sisoft Sandra 2002 Pro |
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. Higher numbers represent better performance.
SiSoft Sandra 2001 Benchmark Results |
|
Multimedia Benchmark |
Score |
1a. |
Integer SSE - 1 GHz Duron 10x100 MHz |
7247 it/s |
1b. |
Integer SSE - 1.44 GHz Duron 10x144 MHz |
7745 it/s |
2. |
Floating-Point SSE - 1 GHz Duron 10x100 MHz |
8530 it/s |
2a. |
Floating-Point SSE - 1.44 GHz Duron 10x144
MHz |
9116 it/s |
|
CPU Benchmark |
|
3a. |
Dhrystone ALU - 1 GHz Duron 10x100 MHz |
3691 MIPS |
3b. |
Dhrystone ALU - 1.44 GHz Duron 10x144 MHz |
3945 MIPs |
4a. |
Whetstone FPU - 1 GHz Duron 10x100 MHz |
1850 MFLOPS |
4b. |
Whetstone FPU - 1.44 GHz Duron 10x144 MHz |
2037 MFLOPS |
|
Memory Benchmark |
|
5a. |
Integer ALU - 1 GHz Duron 10x100 MHz |
2013 MB/s |
5b. |
Integer ALU - 1.44 GHz Duron 10x144 MHz |
2151 MB/s |
6a. |
Float FPU - 1 GHz Duron 10x100 MHz |
1906 MB/s |
6b. |
Float FPU - 1.44 GHz Duron 10x144 MHz |
2037 MB/s |
No set of benchmarks would be complete without some
Sandra scores would it? The Duron performs about what we would expect from it,
please keep in mind that for the memory tests the FSB is running at 144
MHz.
The Persistence of Vision Ray Tracer (POV-Ray) is
an all round excellent package, but there are two things that particularly make
it stand out above the rest of the crowd. Firstly, it's free, and secondly, the
source is distributed so you can compile it on virtually any
platform.
Lower numbers denote faster calculation times
(seconds), and hence, better performance.
POVRay Benchmark Results (lower is better) |
|
Processor |
seconds |
Ranking |
1. |
1 GHz Duron 10x100 MHz |
237 sec |
|
2. |
1.44 GHz Duron 10x144 MHz |
222 sec |
|
It seems
here that the L2 cache helps a bit since the numbers that the Duron gets are
quite a bit higher then our AthlonXP
2100+ .
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. |
1 GHz Duron 10x100 MHz |
88 sec |
|
2. |
1.44 GHz Duron 10x144 MHz |
73 sec |
|
Super Pi is
a pure FPU benchmark and as we can see the Duron does very well here. With a
powerful FPU, the Duron even at stock speeds calculates faster then a Pentium 4
2 GHz