You can learn more about how to choose a motherboard here. Make sure to choose the board that’s right for you. To serve various market specifications, it is possible that two identical Z chipset motherboards don’t carry the same features. These chipsets have built-in support for overclocking and other features that can further enhance your experience. There’s a large variety of manufacturers to choose from, but you’ll want to look for a motherboard from the Z series, such as a Z390, or from the X-series, such as an X299 motherboard, depending on your CPU. You will also need a motherboard that allows for overclocking. To learn more about Intel® processor names and designations, check out this breakdown of CPU names. The K-series and X-series suffix designates that the frequency multipliers on the unit aren’t locked and thus allow for overclocking. You will also need a CPU with a K or X at the end of the name. A capable CPU cooler is critical when attempting to overclock. Higher speeds and voltages mean more heat generated by the CPU, and that means a more efficient cooling solution is required for the CPU to safely operate. It’s important that you use an adequate cooling solution when attempting to overclock your CPU. Now that we’ve covered the basics, let’s explore the necessary hardware you’ll need in order to attempt an overclock. In addition to adjusting frequencies, the overclocking process might require that you raise select voltages, and adjust other performance settings on the system to maintain stability at high frequencies. We will then continue that process until we reach the limits of what is possible with the hardware. In order to increase the CPU frequency during an overclock, we will be raising the multipliers in +1 intervals, systematically adding 100 MHz to our processor’s frequency at a time, then testing for success and stability. This number, in GHz, is the number you’re most likely to encounter when looking at basic CPU speed specifications. Simply put: BCLK x Multipliers = CPU Core Frequency.Įxample: 100 MHz (BCLK) x 44 (Core Multiplier) = 4400 MHz = 4.4 GHz. A higher core voltage also results in a higher heat output, and greater power consumption by the CPU. Higher voltage levels are required to obtain higher stable CPU frequencies, because faster speeds require more power. This is the main input voltage to the processor. These multipliers are applied to the base clock frequency, and the result is the core frequency, commonly measured in GHz.
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