Get your DDR4 RAM overclocked and timings tuned for higher FPS and better 1% lows. Remote, done-for-you memory tuning, stress tested for full stability.
Enabled XMP and forgot about it? That is a basic compatibility profile, not a speed one. Manual timing tuning gives +5-15% in games where memory latency matters. CS2, Valorant, Warzone: anything where 1% lows matter gets a boost. Micro-stutters go away and the picture is smoother.
What matters most here is the 1% low: these are the frames that decide whether you feel smoothness or micro-stutters. Latency drops, frequency rises, and the minimum FPS climbs up.
| Memory | XMP frequency → after | Latency | CS2 1% low |
|---|---|---|---|
| DDR4-3200 CL16 2x16 |
3200 → 3600 CL14 | 68 ns → 55 ns | 130 → 155 +19% |
| DDR4-3600 CL18 2x8 |
3600 → 3800 CL16 | 62 ns → 52 ns | 150 → 175 +17% |
| DDR4-3600 CL16 B-die 2x8 |
3600 → 4000 CL14 | 58 ns → 44 ns | 160 → 200 +25% |
| DDR4-3200 CL16 2x16, laptop |
3200 → 3200 subtimings | 70 ns → 60 ns | 110 → 130 +18% |
Unstable memory means crashes, blue screens and corrupted data. That is why we run stress tests. If we find an error, we roll back the parameter and look for a stable value.
At least 3 passes, around an hour. The main test for memory errors.
We bring it in when needed for an extra check.
We measure bandwidth and latency before and after.
The final check is in your own games, not just in synthetic benchmarks.
We start with XMP, raise the frequency, tighten the primary timings, then the sub-timings, running a stress test at every step. Every parameter is reversible: you can restore the default settings in the BIOS.
The memory controller in the CPU determines how high you can overclock. We pick the frequency to match your platform.
| Platform | Optimal frequency | Note |
|---|---|---|
| Intel 12th Gen | 3600-4000 MHz | Gear 1 up to 3600, Gear 2 above |
| Intel 13/14th Gen | 3600-4200 MHz | Strong controller |
| AMD Ryzen 5000 | 3600-3800 MHz | FCLK 1:1 up to 1900 MHz |
| AMD Ryzen 3000 | 3600-3800 MHz | FCLK 1:1 up to 1900 MHz |
You want to squeeze everything out of DDR4 before moving to DDR5. Samsung B-die or other good chips. You care about 1% lows and no micro-stutters. XMP is on but you want more.
If you are planning an upgrade or want to overclock all your hardware at once, there are better-value options.
Moved to DDR5? The same approach to timings and stability, but for the new memory standard and higher frequencies.
RAM overclocking is included here along with CPU, GPU and Windows optimization. Better value than ordering it separately.
Yes, but the result depends on the chips. Samsung B-die gives the best results. Hynix CJR/DJR and Micron Rev.E also overclock well. Budget modules will show a modest but noticeable gain. We identify the chips before starting and tell you what to expect.
Overclocking through the BIOS leaves no trace. If you need to make a warranty claim, you reset the settings to default. The manufacturer cannot tell the memory was running overclocked.
Memory overclocking is the most time-consuming. Dozens of parameters, each one needs testing. A single TestMem5 run takes 20-40 minutes, and there can be 5-10 of those runs. The whole process: 2-3 hours.
If the stress test finds an error, we roll back the parameter and look for a stable value. In the end you get only a verified profile. Any setting can be restored to default in the BIOS.
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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