Check if the used RAM is in good condition.
Check if the used RAM is in good condition.
I've been experiencing some memory problems lately and have been considering a switch from 16GB to 32GB. I'm searching for suitable replacement RAM but haven't found any options that match the specifications listed on my motherboard's compatibility charts from ASUS. While I did locate a new one on Amazon, it's quite pricey. I've also checked used listings on sites like Amazon and eBay, but I'm hesitant about buying from those sources.
I've used almost every RAM kit in my main system, so it seems safe. The issue lies in the fact that DDR4 offers little savings compared to new kits, making it better to opt for a fresh one. Regarding the QVL kits, their absence doesn't imply they won't work—it just means ASUS hasn't tested them. I'd go with the cheapest 32GB option you can find, as it usually functions well.
I've never experienced issues with used RAM, but what people say isn't solid proof. Don't rely solely on the QVL; it only reflects what was available when the board was new and the maker tested it. If you find new RAM that isn't listed but still meets or beats the requirements, it should work fine.
This machine is my initial computer in more than ten years without any custom modifications. Yet, the most recent time I upgraded my RAM was during the DDR1 era, using a set of OCZ 2-3-3-6 modules. My experience with DDR2 and DDR3 came from refurbished units provided by reputable overclockers, without any issues. I encountered a few issues with Corsair DDR2 and Adata DDR4 models. Typically, I stick to high-end Asus boards and G.Skill RAM.
Thanks everyone for your timely help. I’m planning to purchase a used unit from the QVL instead of the more expensive option. I bought four 8GB DDR3 RAM sticks from Timetec a few months ago, but my dad didn’t use them and I couldn’t get them to function properly in any setup. Even trying half of them didn’t work the same as before. I’m feeling frustrated and hoping that using something from the QVL might reduce the stress.
Focus on cost-effective components and custom configurations. Rather than purchasing expensive kits, select suitable ICs and RAM setups to achieve performance goals without exceeding a budget. This approach allows you to bypass subpar options and optimize for speed and efficiency. You can also experiment with different BIOS updates to enhance stability and performance, though results may vary depending on your specific hardware. Avoid overclocking unless necessary, as it can lead to crashes under stress. Prioritize reliable RAM choices and consider dual-rank modules for better performance without sacrificing stability.
the ssd wrights has been my drive for nearly a decade and it's working well...