MeechTunez
Discord Book Consult
Professional PC Tuning · Competitive Esports
MeechTunez

Frame time consistency.
Not min-maxing.

MeechTunez is a professional PC optimization service that performs hardware-level tunes and Windows optimizations so our clients' PCs deliver the best, most consistent performance possible in competitive Esports titles.

Run by Long-time Comp FPS players & experienced PC-hardware tweakers.

Book a Consult → Join the Discord
Our Goal
  1. Eliminate stutters & frame dips
  2. Increase average FPS
  3. Reduce excessive voltage
  4. Improve the system's thermal profile
Our Process
  1. BIOS optimizations: CPU tuning & RAM timings
  2. Custom Windows install & debloat
  3. GPU frequency/voltage curve optimization & memory clock OC
  4. Optimize Windows thread scheduling & set core affinities
Our Result
  1. Higher FPS & more consistent frame times
  2. Better system temperatures
  3. Better input latency and overall system latency
  4. A de-bloated and optimized OS running on a tuned, perpetually stable PC
Our Tuning Principles

We prioritize frame time consistency.

Our optimization and tuning protocol aims to deliver the highest average FPS your hardware can stably produce. However, average FPS alone doesn't give the full picture of how your game is actually running.

Average FPS (Frames per Second) is just a running average of frame times: the actual time, in milliseconds, your system takes to deliver each individual frame.

If your game is running at 240 FPS, you have an average frame time of: 4.17 ms. Two systems averaging 240 FPS can feel completely different in a fight, especially in render-heavy BR endgames or other computationally intensive scenarios.

Let's look at how a 240 FPS average can look with different individual frame-times.

Below, two PCs each deliver a sequence of frames. Each frame-time, the time in milliseconds it took to generate that frame, is shown on the arrows between them, and both still average out to 240 frames per second.

Consistent
Frame 1 4.2ms Frame 2 4.1ms Frame 3 4.2ms Frame 4 4.1ms Frame 5 4.2ms Frame 6
(4.2 + 4.1 + 4.2 + 4.1 + 4.2) ms ÷ 5 = average of 4.16 ms/frame240 frames per second
Inconsistent
Frame 1 2.7ms Frame 2 6.4ms Frame 3 3.0ms Frame 4 6.1ms Frame 5 2.6ms Frame 6
(2.7 + 6.4 + 3.0 + 6.1 + 2.6) ms ÷ 5 = average of 4.16 ms/frame240 frames per second

Ideally, every frame is delivered close to that average frame-time. Your PC will never deliver frames with perfect consistency, but the goal is to keep any single frame from taking much longer than the average frame-time to deliver.

Consistent frame-time delivery is as important as, if not more important than, your average frame-time or average FPS. This is precisely why we prioritize achieving better frame-time stability for our clients in addition to achieving a higher average frame-time.

We can gauge frame-time consistency a few ways, but the simplest metric to look at is your 1% and 0.1% low FPS: the average of the slowest 1% and 0.1% of frames your PC delivers in a given time interval.

When benchmarking a game, a large gap—or “Delta”—between your average FPS and your 1% lows means your frame-time delivery is inconsistent. This variance typically indicates one or more underlying system bottlenecks:

  • Hardware Throttling & Instability: Your components are aggressively downclocking or fluctuating under load rather than sustaining a flat, stable clock rate.
  • OS Interruptions: Background Windows processes, telemetry, and unoptimized services are actively conflicting with your game engine's rendering pipeline.
  • Misconfigured System Settings: Windows is not configured to properly utilize your hardware, often due to restrictive default power management plans and sub-optimal resource scheduling.

Left unoptimized, these bottlenecks directly disrupt your gameplay, manifesting mid-match as:

  • Micro-stutters and frame hitches that break visual fluidity, especially during intense, rapid asset rendering.
  • Inconsistent input feel that actively compromises your muscle memory.
  • System instability and crashes.
Wide Δ Hitches and spikes. Feels inconsistent.
15ms 10ms 5ms 0 Frames → Frame-time
Avg ~5 ms 1% Low ~15 ms
Narrow Δ Consistent pacing. Feels smooth.
15ms 10ms 5ms 0 Frames → Frame-time
Avg ~4.5 ms 1% Low ~4.8 ms

This is what our tuning fundamentally addresses: not just average FPS, but how fast your PC can consistently generate each subsequent frame.

Our hardware tuning and Windows optimization protocol thoroughly addresses all of the potential issues affecting frame-time delivery and consistency, from your system's hardware behavior to the Windows configuration.

01

Hardware Tuning

  • We tune every relevant component of your PC—CPU, GPU, and Memory—tailored specifically to what your unique silicon is capable of. This includes CPU and GPU undervolting and clock adjustment, as well as Memory overclocking and setting custom subtimings.
  • We configure advanced BIOS and firmware settings to disable deep power-saving idle states and prevent aggressive hardware downclocking under shifting loads.
  • We establish stable hardware clock rates and lower, stable operating voltages to improve system thermals and eliminate hardware throttling due to temperature, voltage, or power limits.
02

Flash BIOS & Update Drivers

  • We flash your motherboard to the latest stable BIOS version for essential microcode patches, stability fixes, and platform maturity.
  • We install updated drivers for your motherboard's chipset and LAN, as well as the latest stable GPU drivers, stripped of OEM bloatware.
03

Debloat OS & Optimize Scheduling/Power-Management

  • We strip out Windows telemetry, corporate advertising, and unnecessary background services, removing interference and stopping stray processes from competing for CPU time and other hardware resources.
  • We also adjust process priorities and configure custom core affinities to pin your game engine to the correct CPU cores. We set a custom Windows power plan that eliminates core parking, power-state wake lags, and transient clock drops.
What We Tune

We tune every relevant component in your system.

No two chips are identical. We tune for your silicon, accounting for thermals, power limits, and each component's voltage and clock ceilings, to find the highest frequency it can perpetually maintain under load with sufficient, but not excessive, voltage.

CPU

Per-chip tuning: AMD & Intel

AMD (AM5)

We cover the full AM5 platform: the entire Ryzen 7000 and 9000 series. We use PBO + Curve Optimizer to find the voltage your chip needs to hold its target boost clocks — higher sustained frequency, without thermal throttling.

Intel (LGA 1700 / 1851)

We cover 12th, 13th, 14th gen, and the latest Core Ultra series. Undervolting and disabling per-core boost prevents aggressive frequency fluctuations while holding consistent all-core clocks.

GPU

Overclock/Undervolt + Memory Clock OC

On both NVIDIA GeForce and AMD Radeon cards, force Maximum Performance state to stop downclocking during low-utilization scenes.

Set a custom voltage/frequency curve so the GPU can hit and sustain its target clock without downclocking. This ensures render consistency while significantly reducing thermals and power draw.

We cover NVIDIA RTX 30-series and AMD Radeon RX 6000-series onward.

RAM

Low-latency memory tuning

XMP/EXPO is a default, not a tune.

Manual timing work reduces CPU stalls (time spent waiting on memory), and that's what tightens your 1% lows.

AMD

3D V-Cache masks Memory Controller limits; we tune for 1:1 sync with the Memory Controller clock (UCLK).

Intel

Performance scales well with RAM speed and particular subtimings. We push clock speed and dial in the sub-timings that matter.

Process

Three steps from intake to a completely tuned desktop.

  1. 1

    Intake & Hardware Audit

    You submit the intake form. We verify fan orientation, cooler mounting, and airflow before touching anything. If we spot glaring cooling issues or hardware bottlenecks that can't be addressed from BIOS or Windows tweaks, this is where we flag them, and walk you through the most cost-effective ways to fix them before scheduling the consult.

    • Submit the intake form and one of our technicians will review your submission and reach out to outline a consult plan
  2. 2

    Initial Benchmark / Live Diagnostic

    We benchmark frame-time stability and poll your hardware in a game of your choice. This gives us a clear baseline of how your PC is performing and how your hardware is behaving during the run. We may also run component-specific stress tests to get a clean read on voltages and thermals.

    • CapFrameX: frame time log via ETW
    • FurMark 2: GPU thermal and stability validation
    • OCCT: thorough stability testing across varied loads & per-core fault pinpointing
  3. 3

    Live Consult & Stability Pass

    We review your data and flag any thermal or frame-time issues. The session moves through BIOS first, flashing to the latest version, dialing in CPU tuning and RAM timings, and applying other relevant modifications. Then we move onto Windows-level optimizations: debloating, updating drivers, tuning the GPU, and stability/stress testing throughout. No unattended tweaks, no half-stable systems.

    • Data review before the call
    • Live BIOS & Windows tuning
    • 100% stability validation
Post-Consult

Post-consult results.

We benchmark every consult with CapFrameX, in the game of your choice, before and after. Take a look at real results from the Lwky competitive roster.

View the benchmarks →
Products & Services

Tuning Services

Both packages are performed remotely, end with full stability validation, and chase the same goal: a faster, cooler, perfectly stable system. The difference is how far we push your memory or CPU.

Essential

Core Tune

The complete hardware & OS optimization pass.

$149.99/ system
  • BIOS update & optimization
  • CPU tuning (all-core sync + undervolt) & basic RAM subtimings
  • GPU frequency/voltage curve optimization & memory clock OC
  • Custom Windows install & debloat
  • Windows thread scheduling & core affinity tuning
  • Driver updates & GPU tuning
  • Full CPU/GPU stability & stress testing
  • Live consult session, start to finish
Get Started
Specialist

Deep Tune

Everything in Core, plus a full manual RAM overclock or a deep per-core CPU undervolt.

$224.99/ system
  • Everything in Core Tune
  • Full RAM overclock and subtiming work — for Intel users with Hynix A-die memory kits
  • Per-core Curve Optimizer undervolt on AM5 (e.g. 9800X3D or 7800X3D) — we cycle each core individually to find its deepest stable undervolt
  • Extended memory stability validation with y-cruncher & TestMem5
  • Includes a scheduled check-back session for the RAM overclock to confirm overnight stability testing passed
    — the per-core undervolt won't require a check-back

Memory tuning at this level relies on hours of automated stability testing that can't be rushed, so it runs across more than one sitting — with a scheduled check-back to confirm stability tests passed.

Get Started
Full Service

Custom Build Contract

A build tailored to you, with every part curated by our staff technicians for the best price-to-performance at your budget. We compile the parts list around your use case and performance targets. This starts with choosing the right CPU and GPU for your render resolution and target refresh rate.

It also means ensuring we pick quality secondary components that prebuilt companies often overlook or cut corners on. We pick components that give us the most headroom to tune your system. We spec quality motherboards with strong VRMs and full hardware tuning features. We design a radiator/fan layout for your build to ensure it has the best thermal profile possible. And we choose a case that matches the aesthetic you're after while still delivering the airflow and ventilation your thermals depend on.

Once the parts list is approved, you order everything to our workshop; from there we assemble it, do a custom Windows install, fully tune and optimize it, run our complete stability pass and benchmarks, then carefully pack and ship it directly to you.

$349.99+ shipping
Start a Build Contract — Coming Soon

Parts are purchased and shipped at your cost. Full build, shipping, and insurance terms are confirmed in writing before any contract begins.

  1. 1 We consult with you on compiling a parts list for your build
  2. 2 You order the approved parts to our workshop
  3. 3 We assemble your system
  4. 4 We fully tune it, do a custom Windows install, and run all Windows optimizations
  5. 5 Full stability pass & benchmark validation
  6. 6 Packed and shipped to your door

FAQ

How much improvement will I see to performance?

It depends heavily on your current system configuration: hardware, BIOS settings, and OS state. We can't guarantee hard number gains in any specific title, since every game scales with hardware improvements differently. We also can't guarantee that your components will hit a specific overclock or undervolt — those results are silicon-dependent and vary from chip to chip.

That said: if you have a well-cooled system and haven't done any hardware optimization beyond enabling XMP/EXPO in BIOS once, chances are we'll see very notable gains, particularly in your 1% lows, which is where you'll feel the difference most. Average FPS will also likely go up significantly.

For context: we often see 50%+ improvements in 1% and 0.1% lows, with some clients even doubling their lows after we address underlying hardware throttling and OS/process interruptions, conflicts, or scheduling. Average FPS gains of 20–50% in CPU-bound esports titles are also common.

Do I need to ship my PC to you?

For a tune, no — all work is done remotely via secure remote desktop at a time we schedule together. For a Custom Build Contract, you purchase and ship your parts to our warehouse; we complete the build, tune it, and mail the finished system back to you.

Do I need to be present during the session?

Yes, and we want you there. You watch every change we make, ask questions in real time, and walk away understanding what we did and why. We don't black-box the process.

How long does a session take?

A session can take up to about three hours, depending on your hardware and what's being done. The intake and hardware audit happen beforehand, asynchronously; the live session covers BIOS tuning, Windows install/debloat (if applicable), GPU curve work, and full stability validation.

Advanced work takes longer. Deep per-core CPU undervolting and high-end memory tuning both require extended stability testing. A Deep Tune specifically runs overnight stability testing, followed by a separate follow-up session to verify everything holds.

What if I've already applied tweaks from YouTube or another guide?

That's fine and very common. Part of what we do is undoing common bad tweaks and starting from a clean, validated baseline. Depending on what's been done, we may recommend a fresh Windows install as part of the consult.

What hardware do you tune?

AMD AM5 (Ryzen 7000 and 9000 series), Intel LGA 1700 (12th–14th gen) and LGA 1851 (Arrow Lake / Core Ultra), NVIDIA GeForce, AMD Radeon. RAM tuning supported on both AMD and Intel platforms.

We're also willing to work with older hardware like AM4 (Ryzen 3000–5000) and Intel 10th–11th gen, but want to be upfront: many of the CPUs on these platforms are beginning to show their age, though they're often still totally viable. We'll be upfront about what we can realistically achieve on them.

Can undervolting or overclocking damage my PC?

Done correctly (keeping voltages, thermals, and power limits inside the safe operating envelope of your specific silicon), tuning can actually protect your components. Lowering voltage under load, putting manual limits and safeguards on the voltage your hardware requests, and disabling unnecessary stock per-core boost behavior all reduce long-term wear.

A real-world example: throughout the Intel 13th/14th gen degradation issue (the one Intel eventually "addressed" with their microcode patch), our LGA 1700 CPUs came out untouched. Their chips were already running undervolts, voltage limits, and disabled per-core boost, which kept them out of the conditions that caused the degradation in the first place.

Done incorrectly (blind undervolts, untested settings, copy-pasted YouTube tweaks), tuning will almost always lead to blatant or hidden instability, and at worst can damage components over time. The difference is the depth of validation, which is why we run a full stability pass with you, verifying thermals and operating voltages, before we sign off.

Will my system be stable when we're done?

We don't leave a session with a "mostly stable" tune. Every consult ends with extensive stability validation, and if we can't get a setting fully stable, we back it off.

What if I have issues after the session?

Reach out. We offer follow-up support to address anything that comes up post-consult.

How do I book?

Submit the intake form on this page — it includes your HWiNFO64 summary and a photo of your PC's internals. Meech or a staff technician reviews it, shares initial diagnostics and the plan, then schedules your session from there.

Need more information?

If you're new to PC hardware tuning and want to learn the basics, or just want to understand how and why we tune each specific component in your system, check out our guide!

Read the full guide →
Get Started

Ready to tune your system?

Submit your intake. Meech or a staff technician will review it, give you initial diagnostics, and lay out your consult plan.

Ask in Discord first

Payment is collected after we've reviewed your intake form, given you a diagnostic, and you've decided you want to book a consult.