By Thomas Soderstrom
published
The easy shortcuts enthusiasts use to choose RAM
The amount and specs of your system’s memory, or RAM, can make a significant difference, from the number of running programs (or just open browser tabs) that you can have open before your system starts getting sluggish, to the frames per second (fps) you can squeeze out of your CPU’s integrated graphics when playing the latest popular esports title.
If you’re shopping for some memory for a new build, or an upgrade to your existing laptop or desktop, and you’re confused whether you need 8, 16, or 32GB (or more), how much clock speed matters, or what memory timings actually mean, you’ve come to the right place. We’ll help you work through the many things to consider when shopping for RAM.
We’ll primarily be focusing on desktop memory here, although much of the advice and technical details carry over to laptops as well. With laptops, you’ll just have to buy an SO-DIMM (small outline dual in-line memory modules) kit, rather than the longer DIMMs (dual in-line memory modules) that are used in traditional modern desktops. Many modern slim laptops also have their memory soldered to the motherboard. So be sure to check your manual before making any buying decisions.
If you’re not sure exactly how much memory you need, the short answer is, considering common workloads and today’s pricing, that 16GB is the sweet spot. Content creators and enthusiasts heavily into multitasking may want to consider more. You can dive deeper into memory capacity considerations in our How Much Memory Do You Need feature.
For details on rated clock speed (measured in MHz) and timings (listed as a series of numbers, like 15-15-15-36), you can check our frequency and timings primer, were we also look at how the number of ranks (or banks of memory on a given stick or kit of memory) can significantly affect real-world performance. We’ll also detail many of these details and others below. But first, here’s a few key shopping tips in case you’re already in the store trying to figure out what to buy.
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- 16GB is the current sweet spot at today’s pricing. Gamers and those doing basic mainstream productivity tasks can get by with 8GB. But several open browser tabs and other running programs can use this up pretty easily. Given you can buy 16GB for as little as $25 more than 8GB, most should opt for 16GB. Those doing serious content creation will likely want more.
- Don’t pay for clock speeds your system doesn’t support. Memory speed is limited, particularly with some low-end and mainstream Intel CPUs and chipsets. So if, for instance, your system only supports 2,666MHz, there’s no point in buying RAM that’s rated for 3,600. You won’t be able to achieve the higher speed, and may wind up stuck at an even lower fallback speed. Check the motherboard manufacturer’s specifications for supported speeds and buy accordingly.
- Higher speeds have the most impact if you’re using integrated graphics. If you plan to game without a dedicated graphics card, you’ll get noticeably better frame rates if you opt for faster (supported) memory. But if you have to spend more on components to support that speed, as well as higher-clocked memory, it may make more sense to splurge on a dedicated card that will deliver a better gaming performance overall.
- Many programs and games don’t benefit heavily from faster RAM and better timings. The amount of software that sees major gains from faster, tighter-timing memory kits is actually fairly small. Some games will see a benefit, as well as compression software like 7-zip, as well as some aspects of content creation software. Do some research on the programs and games that you use most often. If you aren’t running memory-sensitive software and you have a dedicated graphics card, you can save some money by opting for slower RAM and spend that on a larger SSD or a better graphics card or CPU.
- Heat spreaders and lights are just for show. Generally speaking, most memory doesn’t run fast enough (unless perhaps you’re pushing it to extreme levels with manual overclocking) to require metal heat spreaders. So long as you have some air blowing through the case and over the memory, you can opt for bare sticks. Obviously, blinking lights won’t change your performance either. So if your case doesn’t have a window or you don’t care so much about how your memory looks, there’s no reason not to opt for sticks with exposed PCBs and memory banks--so long as it comes in the speed and specs you’re after.
XMP vs SPD
The technology that provides a motherboard with the correct frequency and timings is called Serial Presence Detect (SPD), and the part it’s detecting is a tiny ROM (read only memory) chip that’s been programmed with a timings table. Industry-standard timings are defined by the Joint Electron Device Engineering Council (JEDEC), an industry organization that includes companies from the memory controller and CPU industries down to DRAM IC manufacturers and assemblers. A list of approved DDR4 modes is frequently updated on Wikipedia. And for the most part, the associated timings for standard data rates are terrible and the optional “better” versions are rarely produced.
As explained in our How To Enable XMP, Intel’s “Extreme Memory Profiles” add an overclocking table to memory, occasionally pushed to the point that some of the fastest DDR4-4266 DIMMs have contained DDR4-2133 ICs. If your motherboard supports XMP, you can usually get a kit with a moderate data rate and tighter-than-standard latencies, such as DDR4-3200 CAS 14. The problem for those whose motherboards don’t support XMP is that these kits usually default to DDR4-2133 CAS 15.
Every current kit with enhanced timings requires XMP to automatically configure those timings, and the above-linked Wikipedia entry should help you figure out if those timings are standard or XMP. Those who chose not to take that risk may want to check out the CPU-Z screenshots of our memory reviews and pick from one of those kits.
How Many Modules?
You’ll need at least two modules to enable a dual-channel mode on platforms such as AMD’s Socket AM4 or Intel’s LGA 1151, or four to enable the quad-channel modes of AMD’s socket TR4 and Intel’s LGA 2066. Those modules could be single rank (with all ICs addressed by one of each module’s dual 64-bit interfaces) or dual-rank (addressed by both interfaces).
After tracking a similar phenomenon on Intel processors for several years, our Ryzen 3000 memory deep-dive detailed how having two ranks of memory per channel offers a significant performance benefit to some applications. We also know from our PC Memory 101 article that two ranks per channel can be achieved by either doubling the number of modules or using modules with two ranks. Reasons to choose the later include leaving expansion room in the empty slots of boards that have two per channel, or getting the benefit of two ranks from boards that have only one slot per channel. Furthermore, while you may have read about T topography vs daisy chain in our comments or forum, you need not concern yourself with these concepts if you’re running only one DIMM per channel.
So, for the best performance, opt for two modules for a dual-channel board or four for a quad-channel board. Those who can afford modules that have twice as many chips will benefit from both the extra capacity and a slight performance boost in certain applications. The recent re-introduction of 32GB desktop DIMMs means that you can even get 64GB from just two modules or 128GB from four, without worrying about whether your board supports pricier server memory. You’ll still want to check your motherboard manufacturer’s website to make sure that your firmware supports whatever capacity you’re using, though. You may need to update your BIOS first.
DDR4-2666 Is For Intel H/B Series Chipsets
Intel doesn’t allow overclocking on anything other than its Z-series (enthusiast) and X-series (high-end desktop) chipsets. That leaves mainstream buyers who don’t want to splash out for the Z-series other features stuck with Intel’s “approved” limits, including its DDR4-2666 maximum for Core i5 and higher processors.
We have reviewed several of these boards and noticed that most retail parts include Intel XMP. Even though this doesn’t affect maximum memory speed, it does enable one-click configuration of lower-latency DDR4-2666. Unfortunately, the market for low-latency DDR4-2666 is so small that CAS 12 and CAS 13 kits are no longer being produced. CAS 15 timings appear to be the quickest of currently-available parts.
DDR4-2400 Is For Intel’s Core i3 and Below
Intel’s low-end processors have the same chipset-based restrictions as we mentioned in the previous paragraph, but at an even lower DDR4-2400 data rate. The market for enhanced-performance memory at this data rate is so small that the lowest latency we can find among current products is CAS 14.
DDR4-2933 Is a Problem Solver
The beauty of DDR4-2933 is that it runs at a whole ratio, 11x133.333, which happens to be a lower ratio than the 15x100 that DDR4-3000 uses. We’ve seen a few boards that would run no higher than this, including Biostar’s award-winning X470GT8. Because it worked so well, memory at this data rate was widely available at CAS 15.
But then a rumor started floating around that DDR4-3000 was the sweet spot for 2000-series Ryzen processors, and manufacturers quickly began programming these modules to DDR4-3000 to meet the new demand. A limited variety of overpriced DDR4-2933 CAS 16 kits remain, though users who aren’t afraid to experiment can always revert their cheaper DDR4-3000 CAS 15 kits to DDR4-2933 if the higher data rate isn’t stable.
Ryzen Restrictions
By default, the memory controller of X570 motherboards switches to half-speed and the “Infinity Fabric” interface to an unsynchronized ratio when exceeding DDR4-3600 speeds, causing performance to drop when using DDR4-3733 or above. Many end users are reporting limits between DDR4-3733 and DDR4-3866 after disabling these stability protections, but that minor increase in data rate probably isn’t worth your effort, unless you’re just looking to achieve higher speeds for bragging rights.
Our motherboard guides detail the frequency capabilities of at least one configuration for each board we’ve tested, but we can’t test everything. For a quick-and-dirty look at the current memory landscape, here’s a chart of the currently readily available RAM kit capacities and types, along with the types of systems for which they work best. Price ratio is based on the cheapest kit in each configuration.
Performance Rankings, Best To Worst
Swipe to scroll horizontally
| Configuration | Price Ratio | Notes |
| Four-Rank Dual-Channel | ||
| 2x 16GB DDR4-3733 (CAS 17) | 215% | Works with most Z390 and Z370 motherboards. Supported by X570/Ryzen 3000, but performance benefit requires manual adjustment of FCLK and UCLK settings. |
| 2x 16GB DDR4-3600 (CAS 16) | 185% | Broader compatibility and lower price for Z390/Z370, easier configuration than DDR4-3733 on X570 platforms |
| 2x 16GB DDR4-3600 (CAS 18) | 154% | Better-value pricing and even broader compatibility than DDR4-3600 C16 |
| 2x 16GB DDR4-3466 (CAS 16) | 185% | Better compatibility with X470/Ryzen 2000 and Z270 motherboards. Limited availability. |
| 2x 16GB DDR4-3200 (CAS 14) | 185% | Higher-priced, improved performance DDR4-3200 |
| 2x 16GB DDR4-3200 (CAS 16) | 115% | Best compatibility and value of high-data-rate kits |
| 2x 16GB DDR4-2933 (CAS 16) | 138% | Fixes compatibility issues with the buggy firmware of some X470/B450 motherboards. Limited availability. |
| 2x 16GB DDR4-2666 (CAS 15) | 115% | Ultimate performance for Core i5 and above on H370/B360 Motherboards |
| 2x 16GB DDR4-2400 (CAS 14) | 108% | Ultimate performance for Core i3 and below on H370/B360 motherboards |
| 2x 16GB DDR4-2666 (CAS 19) | 100% | Compatible with Core i5 and above on H370/B360 motherboards that don't support XMP |
| 2x 16GB DDR4-2400 (CAS 17) | 100% | Compatible with Core i3 and below on H370/B360 motherboards that don't support XMP |
| Eight-Rank Quad-Channel | ||
| 4x 16GB DDR4-3600 (CAS 16) | 214% | Lower-latency alternative to DDR4-3600 CAS 18 |
| 4x 16GB DDR4-3600 (CAS 18) | 179% | Compatible with most X-series (X299) and many Gen2 Threadripper (X399) |
| 4x 16GB DDR4-3466 (CAS 16) | 164% | Greater stability for Gen2 Threadripper (X399), X-Series (X299) |
| 4x 16GB DDR4-3200 (CAS 16) | 114% | Works with most Gen1/Gen2 Threadripper (X399), value-priced for X-Series (X299) |
| 4x 16GB DDR4-3000 (CAS 15) | 107% | Fixes stability issues of some Gen1 X399 platforms (alternative to retired DDR4-2933 kits) |
| 4x 16GB DDR4-2666 (CAS 16) | 100% | Baseline spec for AMD Threadripper (X399) and Intel X-series (X299) |
| Two-Rank Dual-Channel | ||
| 2x 8GB DDR4-3733 (CAS 17) | 215% | Works with most Z390 and Z370 motherboards. Supported by X570/Ryzen 3000, but performance benefit requires manual adjustment of FCLK and UCLK settings. |
| 2x 8GB DDR4-3600 (CAS 16) | 215% | Broader compatibility and lower price for Z390/Z370, easier configuration than DDR4-3733 on X570 platforms |
| 2x 8GB DDR4-3600 (CAS 18) | 154% | Better-value pricing and even broader compatibility than DDR4-3600 C16 |
| 2x 8GB DDR4-3466 (CAS 16) | 200% | Better compatibility with X470/Ryzen 2000 and Z270 motherboards. Limited availability. |
| 2x 8GB DDR4-3200 (CAS 14) | 200% | Higher-priced, improved performance DDR4-3200 |
| 2x 8GB DDR4-3200 (CAS 16) | 115% | Best compatibility and value of high-data-rate kits |
| 2x 8GB DDR4-2933 (CAS 16) | 138% | Fixes compatibility issues with the buggy firmware of some X470/B450 motherboards. Limited availability. |
| 2x 8GB DDR4-2666 (CAS 15) | 123% | Ultimate performance for Core i5 and above on H370/B360 Motherboards |
| 2x 8GB DDR4-2400 (CAS 14) | 115% | Ultimate performance for Core i3 and below on H370/B360 motherboards |
| 2x 8GB DDR4-2666 (CAS 19) | 100% | Compatible with Core i5 and above on H370/B360 motherboards that don't support XMP |
| 2x 8GB DDR4-2400 (CAS 17) | 100% | Compatible with Core i3 and below on H370/B360 motherboards that don't support XMP |
| Four-Rank Quad-Channel | ||
| 4x 8GB DDR4-3733 (CAS 17) | 257% | Works with most Intel X299, check motherboard reviews and user findings |
| 4x 8GB DDR4-3600 (CAS 16) | 171% | Lower-latency alternative to DDR4-3600 CAS 18 |
| 4x 8GB DDR4-3600 (CAS 18) | 129% | Compatible with most X-series (X299) and many Gen2 Threadripper (X399) |
| 4x 8GB DDR4-3466 (CAS 16) | 257% | Supported by some Gen1 Threadripper and most Gen2 Threadripper (X399), X-Series (X299) |
| 4x 8GB DDR4-3200 (CAS 16) | 114% | Works with most Gen1/Gen2 Threadripper (X399), value-priced for X-Series (X299) |
| 4x 8GB DDR4-3000 (CAS 15) | 107% | Fixes stability issues of some Gen1 X399 platforms (alternative to retired DDR4-2933 kits) |
| 4x 8GB DDR4-2666 (CAS 16) | 100% | Baseline spec for AMD Threadripper (X399) and Intel X-series (X299) |
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Thomas Soderstrom
Thomas Soderstrom is a Senior Staff Editor at Tom's Hardware US. He tests and reviews cases, cooling, memory and motherboards.
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17 CommentsComment from the forums
Soda-88 I've bought a Micron E-die 3000 15-16-16 kit for my new Ryzen PC and got it from 42/24/40 GB/s with XMP settings up to 54/30/52 GB/s with fine tuned timings. It did take several hours of trial and error going through all the timings.
Detailed look at my settings is in my forum signature.Reply
tiggers97 Great article!. But at the end of the article is a link to "Best Memory ". But some of the options are no longer available or headed that way. Is it possible to update the recommended "best memory" list?
Reply
Crashman tiggers97 said:
Great article!. But at the end of the article is a link to "Best Memory ". But some of the options are no longer available or headed that way. Is it possible to update the recommended "best memory" list?We're continuously working to add newly awarded products to "Best Memory", but sometimes it takes a while to get old products removed.
Reply
Anton Hunter Great article (actually, a great series of articles pertaining to memory). Thanks!
I purchased a G.Skills kit (F4-3200C16-8GVGB) dual channel/single rank and XMP 1600MHz 16-18-18-38-56. I couldn't get any stability at all at 3200 MHz, so I spent a few days reading up on the Ryzen/memory correlation and then another couple days going through the long process of discovering the most stable settings I could find...and after benchmarks and stress testing using HWINFO and 3DMark I ended up at 2933MHz and 14-15-15-15-34-51 via my ASUS Bios, and achieved a 97.5 stress score using Firestrike.
The process is long and can be tedious unless one has a mind-set filled with patience and the joy of discovery. I learned a lot, and am grateful for your and AMD's timely articles on the matter.
Thanks again!Reply
ilincarubogdan Hello. My mainboard asrock z97 Killer says it can use up to 3200OC ddr3 memory, then i saw that the intel 4690K processor works on maximum 1600mhz. Is that all i can get from ddram ? i'm a little confused
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Crashman ilincarubogdan said:
Hello. My mainboard asrock z97 Killer says it can use up to 3200OC ddr3 memory, then i saw that the intel 4690K processor works on maximum 1600mhz. Is that all i can get from ddram ? i'm a little confusedI killed a reference my editor made to CPU specs specifically for this reason.
Intel's processors support high memory speeds
Intel does not support you doing this
Intel validates high-speed memory in its XMP program, then leaves that memory off its CPU compatibility list, therefore, you can't rely on Intel for accurate information regarding what your CPU supports.In an effort to promote itself as a superior overclocker, ASRock put up memory speeds that you won't likely achieve unless you have perfect hardware.
I'd expect DDR3-2400 to work very easily. DDR3-2666 should work but is hard to find in 8GB-per-DIMM capacity. And I'd give you better than 50/50 odds of running DDR3-2933 successfully, but with the same problem of available capacity at that frequency you'd might as well stick to DDR3-2400.
Reply
(Video) A Beginners Guide: What is XMP? and How To Enable Your RAM's XMP.lubomirz Anton, let me react to your post from Saturday (note #5 here). I can't believe that kit rated at 3200 won't run at... 3200 you guessed it. Something else must went wrong in cooperation with your Ryzen5 1600, maybe a combination of motherboard and Ryzen itself (newest BIOS installed ?). I'm absolutely sure that Ryzens 2xxx would be running your memory kit at 3200 and most likely at 34xx/36xx.
Also, to all readers : notice how Anton spent FEW DAYS to make his 3200 kit run at 2933. Similar thing, spending couple of days, happens quite often to my friends who are trying to find the holy grail, the maximum speed their memory can run at. They spend dozens of hours testing, changing and re-testing their configurations... only to find that real performance difference between 3400 and 3833 memories is couple of seconds while running 500+ second benchmarks. They lurk for the last 4 fps difference in games, which is honestly meaningless - in real life, it doesn't matter if you have 118 fps or 122 fps. It doesn't matter if your render finishes in 29 minutes 43 seconds or 29 minutes 11 seconds.
While we learn a lot by trying things like this, never forget - there's the real life out there.
Reply
jamescobalt I'm confused; can someone clarify? Based on my understanding of the relationship between ranks and channels to performance and stability, the ideal would be one dual rank DIMM per channel or, if necessary, two single rank DIMMs. But is the article suggesting 4 and 8 rank DIMMs for quad channels? Or are the subheadings just weird and what they mean are TOTAL ranks across all channels regardless of DIMMs? I'm guessing the latter but wanted to confirm.
Reply
Crashman jamescobalt said:
I'm confused; can someone clarify? Based on my understanding of the relationship between ranks and channels to performance and stability, the ideal would be one dual rank DIMM per channel or, if necessary, two single rank DIMMs. But is the article suggesting 4 and 8 rank DIMMs for quad channels? Or are the subheadings just weird and what they mean are TOTAL ranks across all channels regardless of DIMMs? I'm guessing the latter but wanted to confirm.Correct: Apart from the weird article that had the Zadak four-rank modules that work only with specific two-slot Asus boards, Tom's Hardware's performance tests were only done with single and dual-rank modules. So, eight total ranks using four dual-rank DIMMs is ideal for quad-channel.
Reply
jamescobalt Thanks a ton for the speedy clarification! It's taken me a lot of cross-eyed reading for my focus-challenged brain to get this far in understanding RAM. I'm working on a new build and I may have dived a bit too deep in trying to understand stuff on a more technical level. :P
Reply
(Video) The Best Memory for AMD Ryzen - A Beginner's Guide to RAM Performance
FAQs
How do I choose the right memory? ›
Look for the right balance between capacity and speed. It's likely that 32GB of slow RAM isn't ideal, but neither is 4GB of fast RAM. DDR4 RAM speeds begin at around 1600MHz, but these speeds are considered slow by today's standards.
How do I choose memory frequency? ›What Should the DRAM Frequency Be Set to? Tune your DRAM speed to the maximum speed your RAM allows, or, if our CPU can't accept the maximum speed of your ram, tune it to the resonant speed your CPU allows. If something goes wrong, you should change the DRAM back to 1333 MHz and make sure the default voltage is 1.5V.
How do I choose the right RAM for my laptop? ›Clock speed of the RAM
This must match the speed that the laptop's motherboard supports. For example, if your laptop supports a RAM with a speed of 1600MHz, it makes no sense to insert 2100MHz RAM. Always make sure that these speeds match.
16GB is the recommended amount of RAM for playing most games and will provide a noticeable increase in performance from 8GB. You will also be able to run applications in the background without affecting gameplay.
Does upgrading RAM increase speed? ›Generally, the faster the RAM, the faster the processing speed. With faster RAM, you increase the speed at which memory transfers information to other components. Meaning, your fast processor now has an equally fast way of talking to the other components, making your computer much more efficient.
Which RAM slot should I put my RAM? ›However, there are general rules you can follow: If you have a single RAM stick, its position is usually the A2 slot. If you have two RAM sticks, you should use the A2 & B2 or 2 & 4 positioning, meaning the slot which is furthest away from the CPU socket and the other that's one position away from it.
What is the difference between 16GB of RAM and 32GB of RAM? ›And you may be confused about the difference between 16GB vs. 32GB RAM. Well, the main difference between these two is in space. When compared to a 16GB RAM system, a 32GB RAM system offers two times the memory capacity for loading software, applications, and browser tabs.
What is the best RAM configuration? ›For streaming and content creation, we recommend either dual or quad-channel RAM configuration and at least 32GB. This ensures you achieve peak performance in whatever game you are streaming, along with a smooth, enjoyable lag-free viewing experience for your audience.
How do I know if my RAM frequency is correct? ›- On your keyboard, press the Windows logo key and R at the same time to invoke the Run box. Type cmd in the box and press Enter.
- Copy & paste wmic memorychip get speed into the Command Prompt window, and hit Enter. ...
- Now you will be able to see the Speed or frequency (1600 MHz in my case).
DDR4 operates at a voltage of 1.2 V with a frequency between 800 and 1600 MHz (DDR4-1600 through DDR4-3200), compared to frequencies between 400 and 1067 MHz (DDR3-800 through DDR3-2133) and voltage requirements of 1.5 V of DDR3.
Is higher or lower MHz better for RAM? ›
Currently, the fastest RAM out there is DDR4-3200. Now what's this number at the end? MHz- (Megahertz) means millions of cycles per second. The higher the number the faster the speed.
What is the best RAM size for a laptop? ›Work: 8GB of RAM is fine for daily productivity. If you do a lot of processing, consider upgrading to 16GB or more. Gaming: With games demanding more on computer systems, 16GB to 32GB of RAM is ideal.
How do I know which RAM is faster? ›For double-data-rate memory, the higher the number, the faster the memory and higher bandwidth. Occasionally DDR memory is referred to by a "friendly name" like "DDR3-1066" or "DDR4-4000." When written this way, the number after "DDR" represents the generation.
What is the normal RAM for a laptop? ›For anyone looking for the bare computing essentials, 4GB of laptop RAM should be sufficient. If you want your PC to be able to flawlessly accomplish more demanding tasks at once, such as gaming, graphic design, and programming, you should have at least 8GB of laptop RAM.
Who needs 32GB RAM? ›Extremely high performance for demanding tasks: With 32GB of RAM, you'll have a huge amount of memory available to handle extremely demanding tasks such as 3D animation, running multiple virtual machines, heavy video editing, and complex data analysis.
Do you need 8GB or 16GB of RAM? ›Most users need about 8 GB of RAM, but to use several apps at once, you might need 16 GB or more. If you don't have enough RAM, your computer will run slowly and apps will lag. VRAM is located on your graphics card and stores temporary graphical data from apps and games.
Is it better to have more RAM or storage? ›More RAM will make it easier for your computer to perform multiple tasks at once, while upgrading your storage will improve battery life, make it faster to open applications and files, and give you more space for photos and applications.
What happens if you install too much RAM? ›Adding too much RAM will eventually jeopardize the computer's performance, even when you have enough of it. The additional RAM will start applying the law of diminishing returns at a certain point, meaning you won't get much value from it.
What is the benefit of upgrading RAM from 8gb to 16gb? ›Basically, it'll let you load/run more things directly in faster RAM memory rather than using slower HDD disk caching. It won't per se make your processor itself any faster. But it'll help shuffle data around faster.
Which memory has the highest speed? ›- Fastest memory is cache memory.
- Registers are temporary memory units that store data and are located in the processor, instead of in RAM, so data can be accessed and stored faster.
Do all 4 RAM slots need to be the same? ›
Most modern motherboards will provide four RAM slots. There's a prevailing misconception you cannot use different RAM sizes together or that you cannot mix RAM brands. Simply put, that's not true.
Can RAM be too big for slot? ›You see, generally speaking, you can't put RAM into the wrong slot. It won't fit. At least not if you don't break it or try to force it. And if you do that, then yeah, you've damaged one or both.
How much RAM should I use if I have 16GB? ›| < 4GB | This is not recommended for anyone but the lightest Chrome OS user. |
|---|---|
| 8GB to 16GB | 8GB of RAM is the sweet spot for the majority of users, providing enough RAM for virtually all productivity tasks and less demanding games. |
16GB and 32GB are more than enough for most computing tasks. For many, 32GB will be a waste of money as much of the memory would go unused. However, if you run advanced design or audiovisual applications or play FPS games, 32GB RAM is worth considering.
Is 8GB RAM enough for next 5 years? ›Is 8GB RAM enough for future proof? 8GB RAM is enough for basic use, but 16GB is far more future-proof. And whether you use a PC or Apple laptop, if you're going to edit photos and videos, you'll want at least 16GB of RAM. Editing software uses a lot of RAM; if you only have 8GB, your computer may freeze up or crash.
What is the fastest DDR4 RAM speed? ›3600MHz is the optimal speed for most DDR4-based gaming PC builds, while the fast cas latency of just 16 ensures the memory reacts to instructions from the computer quickly.
Should I increase my RAM frequency? ›Higher frequency RAM will execute data transfers faster. In the case of timings, however, lower is actually better. This is because each timing corresponds to a certain latency, or the time between operations. The less time between operations, the better.
What is the best latency for RAM DDR4? ›The Team Xtreem ARGB RAM kit is our pick for the best overall DDR4 RAM you can buy for your PC. It's one of the few 3600MHz RAM kits that come with a CAS latency of just 14. A lot of other kits in this collection have a CAS latency of 15 and higher, which means their memory timings are higher.
Is DDR4 better than DRAM? ›DDR4 SDRAM provides the lower operating voltage (1.2V) and higher transfer rate. The transfer rate of DDR4 is 2133~3200 MT/s. DDR4 adds four new Bank Groups technology.
How much DDR4 do you need? ›Generally, we recommend 8GB of RAM for casual computer usage and internet browsing, 16GB for spreadsheets and other office programs, and at least 32GB for gamers and multimedia creators. How you use your computer influences how much RAM you need, so use this as a guideline.
How many Mhz RAM is good? ›
When it comes to speed, you want to look for DDR4 RAM that runs around 3,600MHz/3,200MHz for modern CPUs. This should give your CPU enough bandwidth cushion to handle gaming and work-related tasks.
What's more important RAM speed or size? ›The speed of RAM is the rate at which the memory can move data and, for specific tasks, can be more important than the size of memory. When determining how much RAM you will need, remember to consider the tasks you will perform.
What are the best timings for 3200mhz RAM? ›To consider is that the best RAM kits run timings of 14-14-14-32 @ 3200mhz or 16-16-16-38 @ 3600mhz with 1.35v. This gives you a good indication of whatever max memory frequency you have for what memory timings you want to aim for and what is possible.
Do I need 8 or 16 memory? ›Most users need about 8 GB of RAM, but to use several apps at once, you might need 16 GB or more. If you don't have enough RAM, your computer will run slowly and apps will lag. VRAM is located on your graphics card and stores temporary graphical data from apps and games.
Does it matter which memory slot I use? ›Does It Matter Which RAM Slot You Use? Yes, RAM slot order matters because of the multi-channel architecture. If you have more than one memory stick, you will need to make them work jointly (dual-channel, triple-channel, etc.), enabling the CPU to access the RAM modules faster.
Is 32 GB RAM overkill? ›No, 32GB RAM is not overkill for a computer. As software and operating systems continue to become more demanding, it's becoming more and more common for people to use computers with that much RAM.
Is my memory served correctly? ›if I remember correctly: I think he was called Blake, if my memory serves me right. If memory serves, we turn left here.