Most people can figure out how to install RAM sticks into their computer. If you can't, there’s a for you tutorial here.
The short version here is that you want to make sure everything is off and then install the sticks in a way that lets you take advantage of the multiple channels on offer.
Dual-channel RAM is able to transfer a greater amount of data at once. For that reason, a laptop or desktop PC with dual-channel is generally more desirable than one with an equivalent amount of single-channel memory clocked at the same transfer speed. However, it's important to remember that the number of physical RAM slots on a motherboard doesn't correlate to the number of channels.
Your motherboard manual will usually tell you which slots are which while the spec sheet of your CPU usually documents the maximum RAM capacity and channels that your PC will be able to support. Once you've located the RAM sockets on your motherboard, gently but firmly slide the RAM sticks in. You should feel or hear a clicking or popping sound once you've applied enough pressure and ejector arms spring into place.
But once you've plugged your RAM in, then what?
SDP, JEDEC, XMP and WTF?
Fortunately, in most modern PC setups, you can just slot memory modules into your PC and leave it at that. This is thanks to a complex-sounding acronym - SDP - provided by an equally complex-sounding organisation called JEDEC.
Originally known as the Joint Electron Device Engineering Council, JEDEC has since rebranded itself to to become the JEDEC Solid State Technology Association. The international body works with over 300 member companies to develop, implement and standardize microelectronic technologies like RAM.
One of the many standards that JEDEC has designed is called Serial Presence Detect (SPD). This standard essentially tells every modern computer which settings freshly-installed memory should use by default. For both consumers and enterprise users, this makes life a lot easier. You can just chuck some RAM in a machine and count on it working.
However, the guard rails provided by SPD are something of a double edged sword in certain situations. If you've spent that little bit of extra money on some fancier or faster memory, then you'll need to activate one setting to get it running at its optimum levels – not default levels.
We’re not talking about complex overclocking here but there’s no point buying a Ferrari and only driving it around in second gear.
The setting you've looking for here is called XMP. This stands for Xtreme Memory Profile. It offers more-sophisticated memory tuning than the general, default SPD values. Every RAM stick has its own timing and voltage values and you can see them on the side of each stick (memory kits should have the same settings which is why it’s not a great idea to install different kits – they’ll likely have different settings - although you can set the timings to match, manually.
Of course you could enter them all manually, but there’s no need to do that...
How to set up computer memory
If you’ve a recent motherboard and fancy new RAM then it will likely come bundled with an XMP profile. This is different to the older SPD standard JEDEC profile which assigns default speeds to certain types of RAM.
An XMP profile will get it running at higher speeds than the default speeds assigned by SPD.
Read more: Corsair Vengeance LPX DDR4-2400 RAM review
First, enter your motherboard’s BIOS and look for XMP - it is usually set to off or disabled by default. Simply change this setting to Profile 1. That’s all you need to do.
If you’re a curious type, you can look at the memory settings, timings and voltages in the BIOS and see that they now match the labels on the side of the RAM sticks. You can also see these settings listed in the program called CPU-z under the Memory tab.
Some people manually tinker with these settings to get even more speed appearing – a process called overclocking - but do not do this if you don’t know what you’re doing as you could break your computer or damage the components inside it. Manual tweaks like this only show up in specialist, synthetic benchmarks anyway (there’s rarely any real world difference) and overclockers only do this to compete with each other.
Here's a screen from the MaxxMem benchmark which shows the performance boost gained from switching between SPD timings and XMP settings:-
This article was originally written by Nick Ross and published on the 25th of January 2017. It was updated by Fergus Halliday on the 4th of September 2020.