Asus P5N-E SLI Review (Page 1 of 11)

Page 7 - Benchmark: EVEREST CPU

About EVEREST Ultimate Edition

EVEREST Ultimate Edition is an industry leading system diagnostics and benchmarking solution for enthusiasts PC users, based on the award-winning EVEREST Technology. During system optimizations and tweaking it provides essential system and overclock information, advanced hardware monitoring and diagnostics capabilities to check the effects of the applied settings. CPU, FPU and memory benchmarks are available to measure the actual system performance and compare it to previous states or other systems. Furthermore, complete software, operating system and security information makes EVEREST Ultimate Edition a comprehensive system diagnostics tool that offers a total of 100 pages of information about your PC.

CPU and FPU benchmarks

State of the art multi-threaded benchmark methods to measure performance of both old and brand new processors. References list to compare actual performance with other systems.

From: Developer's Page

As with the previous tests, the Asus P5W64-WS Professional stayed in first place. However, the Asus P5N-E SLI came only 2 points short -- in other words, a statistical tie. Both ended up around 20 points ahead of the abit AB9-Pro.

In the EVEREST CPU PhotoWorxx benchmark, the P5N-E SLI surprisingly trailed the top board by nearly 6000 points. The abit AB9-Pro resulted in second place with 18915 points -- roughly 3000 points better than the Asus P5N-E SLI.

The Asus P5W64-WS Professional came out first again in our EVERST CPU Zlib tests. However, the Asus P5N-E SLI is not too far behind; and led the abit AB9-Pro by approximately 30 points.

Page Index
1. Introduction, Features, and Specifications
2. Bundle, Chipset, BIOS
3. A Closer Look, Board Layout
4. Test System; Benchmark: 3DMark06
5. Benchmark: PCMark05
6. Benchmark: Cinebench 9.5, SuperPI 1M
7. Benchmark: EVEREST CPU
8. Benchmark: EVEREST FPU
9. Benchmark: EVEREST Memory
10. Benchmark: EVEREST Memory Latency, HDTach
11. Onboard Sound, Overclocking, Conclusion