Each computer application likely utilizes multiple threads, which is why some new processors boast multithreading capabilities to expand multitasking performance. If a CPU is a computer’s brain, and each core is its own lobe, then the processor threads essentially act like nerves, controlling individual command lines. These speeds are often listed as “minimum” clock speeds and “maximum,” “boost,” or “turbo” speeds. Along with the number of cores a processor has, clock speed is extremely important for high-end gaming performance.Ĭontemporary CPUs can adjust their clock speeds up and down based on the particular task as well as temperature. Clock speed is measured in gigahertz (GHz), and it specifically measures the frequency of electrical pulses coming from the motherboard to the processor. Clock speedĬores determine how many programs a computer can handle simultaneously, but the clock speed determines how quickly each task is executed by the processor. If a CPU has more cores, it’s more adept at multitasking and juggling various applications at once. Modern examples have between 2 and 32 of these cores (consumer products often cap out at 16) each core can handle its own tasks. Within a CPU, there are several smaller independent processors called cores. If your GPU, RAM, and cooling are subpar, you won’t be getting your money’s worth from the processor itself.
A strong CPU is a key component in any computer but take care to avoid performance bottlenecks.