Test Setup
CPU Intel Core i7-8700K
Cooling Corsair H110i GTX
Motherboard AORUS Z370 Ultra Gaming
Graphics NVIDIA GTX 1080 Ti
Storage OCZ Vector 180
PSU Corsair HX1000 80 Plus Gold Certified PSU
Cooling Corsair H110i GTX
Motherboard AORUS Z370 Ultra Gaming
Graphics NVIDIA GTX 1080 Ti
Storage OCZ Vector 180
PSU Corsair HX1000 80 Plus Gold Certified PSU
We’ll be testing the following DDR4 memory kits in today’s review:
- TEAMGROUP T-Force Vulcan TUF 16GB 3200MHz CL16
- Corsair Vengeance LPX 32GB 3200MHz CL16
The above offers a mixture of smaller capacity with the same frequency and similar latencies. This should present us with a good demonstration as to how capacity can affect performance.
To benchmark these DDR4 kits we’ll be using the following benchmarking applications:
AIDA64 (Memory Tests)
SiSoftware SANDRA
Futuremark PCMark 8 with Adobe Photoshop
Passmark Performance Test9
Futuremark 3DMark
Dawn of War III
SiSoftware SANDRA
Futuremark PCMark 8 with Adobe Photoshop
Passmark Performance Test9
Futuremark 3DMark
Dawn of War III
OVERCLOCKING
Most users will use their DDR4 under the XMP profile but we can push memory beyond their tested specifications by jumping into the BIOS and modifying some settings. Our memory kit sits at 3200MHz at the factory settings, and we were only able to nudge this frequency up to 3600MHz – beyond 3600MHz would result in failure to boot past POST.
To achieve a stable result below we did have to slacken the timings off and increase the voltage.
TEAMGROUP T-FORCE Vulcan TUF 3200MHz
- OC: 3600MHz 18-19-21-40 @ 1.4v
How does this overclock translate? Check out the below results in AIDA64 to see the advantage to increasing the frequency!
