G.SKILL Ripjaws F3-12800CL7D-8GBRH 2x4GB Review (Page 5 of 10)

Page 5 - Benchmark: EVEREST Memory

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.

Memory benchmarking

Memory read and write speed, memory latency measurement to stress the memory and cache subsystem, including reference list to compare actual performance with other systems.

From: Developer's Page




Since we are benchmarking memory, it is quite unsurprising that results from EVEREST Ultimate Edition's RAM benchmarking suite begin to deviate between contestants. The G.SKILL Pi series running at 2000MHz took top spots for every test, followed by the DDR3-1600 Ripjaws and Viper II Sector 5s, respectively. The difference between the three is typically quite small, however. The Ripjaws scored 8.9% lower than the Pi series in the Read benchmark, held a three-way statistical tie in the Write benchmark, and 3.9% faster than the Viper II Sector 5s in the Copy benchmark. The G.SKILL Ripjaws F3-12800CL7D-8GBRH 2x4GB also posted a 41.0ns latency in our tests.


Page Index
1. Introduction and Specifications
2. A Closer Look, Installation, Test System
3. Benchmark: EVEREST CPU
4. Benchmark: EVEREST FPU
5. Benchmark: EVEREST Memory
6. Benchmark: PCMark Vantage
7. Benchmark: 3DMark06 Professional
8. Benchmark: PassMark PerformanceTest 7.0
9. Benchmark: SuperPI 1M, Cinebench R11.5
10. Overclocking Results and Conclusion