MT/s vs. MHz (Datarate vs. Frequency) in RAM Explained
As computer users, we are all familiar with specifications such as RAM capacity and clock speed. However, understanding the difference between MT/s and MHz can be a confusing topic for many. This article aims to demystify this topic and help you make an informed decision when choosing RAM.
Let’s first begin with the basic definitions of both terms – MT/s and MHz. MT/s stands for “million transfers per second”, while MHz stands for “megahertz”. MT/s is a measure of the number of data transfers RAM can perform in a second, while MHz is a measure of how many cycles a processor can perform in one second.
In simpler terms, MT/s refers to the data transfer rate of the memory, while MHz refers to the clock speed of the memory. To put this into perspective, consider this analogy – the data transfer rate is like a water pipe’s flow rate, while the clock speed is the water’s pressure.
When it comes to determining the performance of RAM, both MT/s and MHz play an important role. In general, higher data transfer rates mean faster memory that can transfer data to and from the CPU more quickly. Higher clock speeds, on the other hand, allow the RAM to perform more cycles per second, which results in faster access to the memory.
It’s essential to consider both data transfer rates and clock speeds when purchasing RAM. For example, if you’re buying memory that will be used for gaming or video editing, a higher data transfer rate is typically more important than a higher clock speed. This is because games and video editing applications require high amounts of data to be transferred from RAM to the CPU.
On the other hand, if you’re purchasing RAM for a gaming PC, a higher clock speed may be more important than a higher data transfer rate. This is because gaming requires a higher frequency for memory to keep up with the processor’s cycles & ensure smooth gameplay.
So, which one is more important – MT/s or MHz? Unfortunately, there’s no straightforward answer as it depends on what you plan to do with your computer. As we’ve explained, both play an essential role in determining memory performance.