Why is ram important for gaming

Multiple channel modules are better than a single channel module as it offers better performance. That being said, the performance that you expect after using both modules will not be drastic. This is because, just like other essential components, it comes down to what you are using your PC for. If you are using your PC for browsing the internet, using Microsoft office, or watching moves, etc. However, if you are a graphic designer, gamer, or video editor, who uses a PC for an intensive project, you will feel the difference.

But, what exactly is a RAM speed? It is measured in Megahertz MHz i. That being said, there are different scenarios where RAM speed will not tremendously affect your gaming performance. Let look at some of these scenarios. This technology DDR has gone through advancements and has different generations. As these technologies are of different generations, they are not compatible with each other. If you are planning to upgrade your system, sticking with DDR4 is advisable as they are the standard at this time.

Clock speed is nothing but a measurement of time per second a RAM can access its memory. Clock speed is measured in megahertz. You will not find higher numbers on DDR2.

Mixing sticks of RAM with different clock cycles will eventually lower the performance. To make the process even faster, most motherboards come with dual-channel memory slots.

This configuration lets you attach two RAM sticks simultaneously. This will not only utilize the channel memory but will also make it easier to replace the RAM stick if it goes bad. RAM stands for random access memory. It's short-term volatile storage that temporarily holds information your PC needs to access. Then, once you shut down your machine, it clears out anything that was in RAM. Without sufficient RAM, your computer could slow to a crawl when you open too many programs.

RAM is important because your system can access data in it more quickly than it can retrieve info from your main storage disk. You have the entire game's data stored on your hard drive or solid state drive, but constantly pulling it from there is inefficient. Thus, your computer moves the game information it will need to RAM in order to quickly load it.

With low RAM, your computer won't be able to store all the game info it needs to run properly, leading to choppy frame rates and poor performance. An extreme lack of RAM could even prevent the game from working at all.

This is different than system RAM in that it's completely focused on sending graphics to your display. Thus, if you want to play games at high resolutions like 4K, you need a lot of vRAM. See our guide to increasing vRAM to learn more about this.

Because RAM allows games to load efficiently, you might think that adding more RAM will always result in better performance. However, this isn't the case. If you have more RAM than information you need to hold, the extra goes to waste. To help illustrate this, think about a storage container for liquid.

If you need to store a gallon of water, but only have a half-gallon container, you can't keep everything in one place like you want to. But if you have a gallon container that's only storing one gallon of water, most of that container is going to waste.

It's the same way with RAM. You could put 64GB of RAM into your system, but if you only use 2GB to play light indie games at p, you'll never utilize the vast majority of that memory. If you want to future-proof your system, or also use your computer for activities like video editing or heavy multitasking, then 16GB is a fine upgrade to make. While you might not see a huge benefit in games right away, that foresight will pay off in the future. The amount of RAM that you have for gaming is only part of the story.

AMD Ryzen 7 X frequency results. Intel Core iK frequency results. Frequency results varied more significantly between the two systems. On the AMD side, we saw substantive frame rate improvements moving from MHz up to MHz; a 7 percent total improvement in Shadow of the Tomb Raider from the slowest to fastest with a steady increase across frequencies, 15 percent in Total War, and a very solid 20 percent in Metro where every frame is crucial.

Tests in the Intel machine yielded much less dramatic results. Climbing from the lowest frequency to the highest only yielded a 2 percent fps improvement in Shadow of the Tomb Raider, well inside the margin of error, 5 percent in Total War, and 10 percent in Metro. All of this testing revealed some definite trends, some obvious, some quite interesting. To future proof your machine, pushing up to 32GB of RAM is looking more and more reasonable, particularly with memory prices dipping.

And if you're looking for an inexpensive way to boost performance in a rig with an aging GPU, adding a couple of more RAM sticks is a reasonable stopgap. There's also a significant difference in results between the AMD and Intel test beds.

According to our tests, a Ryzen 7 X equipped system benefits significantly more than one with a Core iK. While I don't have enough data to state concretely that AMD systems broadly benefit more from speedier RAM something I may explore in a future feature , that is certainly the case in this particular processor comparison.

And I need to note that I can't rule out the choice of motherboard, as BIOS and firmware could also be impacting the results.