How to Overclock Your CPU in 5 Basic Steps (and What to Measure)

Adjusting processor frequency options is usually done through the motherboard firmware, or through a desktop utility provided by a manufacturer. Every platform is different, requiring processor-specific steps for overclocking, some of which we will be covering later on. The general procedure to follow boils down, more-or-less, to:

Step 1: Using a tool of your choice (these tools can be integrated with the overclocking software suite or they can be third-party benchmark and monitoring tools like Geekbench, Prime95, SuperPi, etc.), benchmark and monitor the system as-configured from the factory; this means measuring CPU performance, core and overall system temperatures and voltage usage, within normal operation and stressed or peak operations.

Step 2: Using a tool of your choice (AMD’s Overdrive, Intel’s Extreme Tuning Utility, motherboard manufacturer-specific overclocking software suites like Asus AI Tweaker) increase the multiplier in small increments. Obviously, you need a CPU with an unlocked multiplier for this to work.

Step 3: Run the benchmarking tool from step #1 and check for stable operation.

Step 4: Repeat steps 2 and 3 until you find a multiplier setting that is unstable, or you max out the multiplier available. Then drop back down a notch and run the benchmark again. At some point you may have to start tweaking voltages in parallel with the multiplier (higher frequencies require higher voltages, and the system may not be providing enough juice to the processor to be stable).

Step 5 – Step N: Tweak the BCLK, run benchmarks, tweak other ratios, run benchmarks, tweak voltages, run benchmarks...

A lot of patience is required, especially when looking for performance at the extreme end of what is typically achievable. The system will often become too hot or too unstable to proceed, but there are a lot of variables that can be modified to achieve maximum performance within the hardware's constraints. Many motherboards come with the ability to save firmware profiles; saving profiles, taking screenshots, or writing down good notes is an important part of the process, because there’s nothing more disappointing than spending hours tinkering and then not remembering which settings were the good ones.

Apart from the CPU itself, the system’s motherboard is the most vital component in determining processor overclocking performance. First, the most obvious: the motherboard’s components need to be able to handle higher voltages and heat. Also, the headroom for overclocking beyond simple multiplier adjustments comes from how high the BCLK can be set, which depends greatly on the quality of the motherboard. Second, and this is only a concern on the cheapest motherboards, and usually for high core counts, the CPU power connection needs to support the processor's needed amperage. Finally there are the firmware options needed to overclock. Motherboards designed for overclocking have all the voltages, frequencies, and multipliers required, but a generic, business-oriented board doesn't. The firmware options are not quite as important when AMD or Intel’s software overclocking tools are used, so you can get away with a motherboard not designed for overclocking if its components are high-quality, but this means a processor cannot be overclocked beyond what AMD or Intel allow through their tools; extreme performance is harder to achieve.

There are many motherboard manufacturers, models, and capabilities on the market; going by a brand's reputation and reviews can be a good indicator of quality. But because the main driver behind an overclocker’s need for quality components is the motherboard's voltage-handling capacity, the main things to look for is a capable voltage regulator and its components. Each motherboard manufacturer has its own voltage regulation scheme, and there is no standardized format for listing components and capabilities.

There are also a large number of subtleties inherent to the electronic design of voltage regulation circuitry beyond the scope of this article, but without going too in-depth, many manufacturers emphasize a higher number of “phases,” as well as MOSFETs (Metal-Oxide Semiconductor Field-Effect Transistors), capacitors and inductors from high-end manufacturers. The primary controller in a voltage regulator is the Pulse Width Modulation (PWM) controller; this controls the phases/pulses of power flowing through the motherboard. A feedback loop in the PWM monitors the power and thermal state of the system, then modifies the outputs of the PWM to supply the user-defined voltage.

Current page: Basic Steps to Overclocking a Processor

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