Reviews | Gigabyte X48T-DQ6 (Page 9 of 12)

Page 9 - 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 references list to compare actual performance with other systems.

From: Developer's Page

Our Asus P5K-Deluxe DDR2 board uses OCZ Reaper HPC 2x1GB RAM running at DDR2-800 4-4-4-10 (Micron D9GMH chips), while our compared DDR3 based P5K3-Deluxe, P5E3-Deluxe, and Gigabyte X48T-DQ6 motherboard uses OCZ ReaperX 2x1GB RAM running at 6-5-5-18 DDR3-1200 speed (Micron D9GTS chips). DDR3 outperformed DDR2 RAM by a margin; with the X38 and X48 chipsets showing significantly better memory controllers for much better performance, as shown in our charts. The X38 P5E3-Deluxe was again very close in performance to the X48T-DQ6 based off the X48 chipset; with the Gigabyte board again leading by an insignificant but present margin.

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 R10, SuperPI 1M
7. Benchmark: EVEREST CPU
8. Benchmark: EVEREST FPU
9. Benchmark: EVEREST Memory
10. Benchmark: EVEREST Memory Latency, HDTach
11. Onboard Sound (RMAA 6.06) Analyzation
12. Overclocking and Conclusion