Professional DDR5 overclocking and EXPO tuning for max gaming FPS. We dial in 6000 CL30 and tight timings on AM5 and Intel, then stress test for stability.
DDR5 is built differently from DDR4: an on-module PMIC, four voltage rails, more complex timings. DDR4 tunes in 2-3 hours, DDR5 takes 3-5. Everything is done remotely, you never have to take your PC anywhere.
The gap between stock XMP and manual tuning reaches up to 15-25% in latency, which translates to 8-15% FPS in CPU-bound games.
| Memory | XMP → after | Latency | Δ |
|---|---|---|---|
| DDR5-5600 CL36 2x16 GB |
5600 CL36 → 6000 CL30 | 78 ns → 58 ns | +18% |
| DDR5-6000 CL30 2x16 GB |
6000 CL30 → 6400 CL28 | 62 ns → 50 ns | +12% |
| DDR5-6000 CL30 A-die 2x16 GB |
6000 CL30 → 6800 subtimings | 60 ns → 46 ns | +15% |
| DDR5-6400 CL32 2x16 GB |
6400 CL32 → 6400 CL28 tight | 56 ns → 44 ns | +10% |
On AMD Ryzen 7000/9000 the sweet spot is 6000 MHz with the tightest possible timings. Pushing higher in frequency is often less effective than tightening timings at 6000. In games 6000 CL28 is almost always faster than 7200 CL34.
The wrong voltage balance means instability even at safe values. That is why we only lock in the profile after a full set of stress tests.
At least 3 cycles. The primary test for memory errors.
An extra check under load on the controller.
We measure latency and bandwidth before and after.
We validate the profile in real conditions, not just synthetics.
Not all DDR5 is the same. SK Hynix A-die: the best chips, hit 6000+ with low timings. SK Hynix M-die: solid, stable at high frequencies. Samsung B-die (DDR5): low timings, but finicky about voltages. Micron A-die: decent, lower ceiling. We identify the chips with Thaiphoon Burner before we start and immediately gauge the potential.
Feel like your DDR5 falls short? Want to unlock SK Hynix A-die? Need minimal latency in CS2 and Valorant? Then this is for you. Or take memory overclocking as part of a full package.
On DDR4? A single voltage and a simpler timing structure. Tunes in 2-3 hours, cheaper.
DDR5 overclocking is already included here along with CPU, GPU and Windows optimization. Average gain of +55% FPS.
Send us the module model and your platform. We will check the potential with Thaiphoon Burner and tell you how much you can really squeeze out.
More parameters, more voltage rails, harder to stabilize. DDR4 has a single voltage and a simple timing structure. DDR5 requires balancing four voltages and a significantly larger number of sub-timings. It takes 1.5-2 times longer.
For Ryzen 7000/9000 the frequency of 6000 MHz is the FCLK 1:1 sync point. Go higher and the controller drops to 1:2, raising latency. In games 6000 CL28 is almost always faster than 7200 CL34. We dial in the sweet spot for your platform.
It depends on the BIOS. Most manufacturers lock the memory settings. If the BIOS lets you change timings, we can optimize. Full tuning on laptops is more the exception than the rule. Send us the model and we will check.
AMD Ryzen 7000 (AM5): 6000 MHz, FCLK 1:1 = 3000 MHz, anything higher desyncs. AMD Ryzen 9000 (AM5): 6000-6400 MHz, improved controller. Intel 13/14th Gen: 6400-7200 MHz, no FCLK tie. Intel Arrow Lake (LGA 1851): 6400-8000 MHz, depends on the controller.
Message us in the site chat. We reply within 15 minutes, talk through the details, and get straight to work.
Pick a package for your task. Not sure? Message us in the site chat and we will help you decide.
Clean Windows 11 PRO install, components and telemetry turned off. The baseline for gamers.
Classic 11 / CustomX plus full CPU, GPU, RAM overclocking and stress tests.
Custom Windows build with a trimmed core. +5-10% FPS on top of Classic 11.
Free settings breakdowns per game. We do it for you, or take the settings yourself.
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