There are a few things to consider when deciding whether to get 8GB of RAM or 12GB of RAM.
The first is what you’ll be using your computer for. If you’re just using it for general web browsing and email, 8GB of RAM should be plenty.
However, if you’re doing more intensive tasks like video editing or gaming, 12GB of RAM will be better.
Another thing to consider is the speed of the RAM. 1330MHz is faster than 1600MHz, so if you’re looking for the fastest option, 12GB of RAM at 1330MHz is the way to go.
Should I buy 12 GB of RAM or 8 GB of RAM?
There is no easy answer when it comes to deciding how much RAM you should buy for your computer.
It really depends on what you plan to use it for. If you are a heavy multitasker or you run a lot of programs at once, then 12 GB of RAM would be a good choice.
However, if you only use your computer for basic tasks, then 8 GB of RAM should be enough.
Can windows 10 run on 12GB Ram?
Windows 10 can run on 12GB of RAM without any problems. In fact, it can even improve the performance of your computer.
If you have a lot of applications open at the same time or you play demanding games, then having 12GB of RAM will be beneficial.
It will allow your computer to run smoothly without any lag.
Is The Higher Frequency Better?
Higher frequencies greatly reduce the wait time between reading/writing cycles. Still, it’s not so simple to say that higher frequency means higher performance overall.
The amount of work done by each component is tied to how long it takes for data to be read from and written to storage media.
Since most processors can reach much higher speeds than memory, memory has much more work per cycle.
That being said, we can use a few tricks (or trade-offs we can make) that allow us to utilize faster components without sacrificing system performance.
Differences In Latency
It’s easy to get confused by motherboard specifications when they all say things like Dual-channel DDR3, 4 slots, maximum 32GB.
This is not always as straightforward as it sounds. Dual-channel memory only refers to memory bandwidth, not latency. For example, there are four channels in total (A1+B1, A2+B2, etc.).
If you plug a pair of DIMMs into every channel, a maximum throughput (memory bandwidth) of 16GBps. Using two DIMMs per channel (just a pair for A1 and B1) gives you an effective memory bandwidth of 8GBps.
Why Two DIMMs Per Channel Only Increase Memory Bandwidth If You Have Four DIMMs?
There’s been a lot of debate over whether adding more memory per channel increases memory bandwidth.
Some articles have shown that using two DIMMs per channel (instead of one) will increase your memory bandwidth, while others have found that it can decrease it.
The problem has to do with how fast you run your memory. If you only use one DIMM in each channel, you’re running it at just half speed (667 MHz instead of 1333 MHz).
But if you use two DIMMs in each channel, you’ll be able to run them both at full speed (1333 MHz) since they’re on separate channels.
Frequency Versus Latency
This is a matter of personal opinion. In my opinion, yes, it is worth paying extra for higher frequency DRAM.
It all depends on what you do with your computer and what applications you use. Certain programs are optimized to take advantage of memory with faster clock speeds.
In contrast, other programs have no problem using slower memory. Ultimately, it boils down to whether or not you need that extra performance boost when using certain apps and how much money you’re willing to spend.
Timings Matter A Lot
Why go for fast memory when you can get away with slower speed, cheaper models with plenty of headroom to offer you years more computing performance in your desktop computer?
In fact, it’s kind of shocking to find out how much faster some DDR3 and DDR4 modules are than others.
Take, for example, Crucial’s BLS4G4D240FSD (8GB) and BLS2K8G4D240FSA (8GB). The latter runs at 1600MHz, while its successor runs only 100MHz higher at 1666MHz.
Would a 100-200 MHz boost justify shelling out $75 extra per module?
Is It Worth Paying Extra For Higher Frequency DRAM?
You may have seen advertisements for 1600 MHz memory. A memory module advertised as 1600 MHz will, in most cases, perform faster than one advertised as 1333 MHz.
The frequency of a module refers to how fast it can send data to your CPU; a higher frequency means more performance and money.
However, some caveats must be considered before spending extra on higher-frequency modules.