I don't know)Īnother side question: Is 47c too high? This is actually why I am asking the main question - I am concerned that this one drive that isn't getting the benefit of the extra fan may still cause the computer to bluescreen. Side question: Am I right in thinking 55c was far too hot for a HDD? (It might have got higher than that before the bluescreens. If the computer bluescreens I can load it up again and check the last entry in the file. I want something that can record all the temps to a file at 30 seconds intervals. I have tried Everest but it only shows me realtime temps or gives me the ability to create one-off reports. I haven't had the PC on for as long as it would normally take to bluescreen yet, but If it does I want to know what all the temps were right before the bluescreen. Especially the HDDs - three of them reach 30c and one has been up to 47c (it is some distance away from the airflow, in one of the 5.25inch drive bays) Since then, obviously, all my temps are down. I've installed a spare fan I had in the front of the PC blowing air in, (so there's airflow from front to back) I thought the 55c was ok, but I have since realized it was probably too high and may have been the direct cause of the bluescreening. HDDs - aprox 55c after the PC had been on a while. GPU - arpox 60 idle, aprox 90 during heavy use. I tried lots of things (check hds, check memory, reinstall windows etc.) but it still bluescreened. Within the last week it began to bluescreen regularly. Storage drives have even lower safe ranges with the upper limit for SATA and NVMe SSDs being 70 Celsius and hard drives ( HDDs) are best under 45 Celsius.I purchased a computer a month or two ago (core i7, 24gb ram, geforce gtx 590, windows 7 ultimate). If they do heat up then you likely have a problem somewhere else. Worrying about motherboard temperatures is not common, however, since they rarely get too hot. Motherboards, meanwhile, are generally understood to be fine if they stay under 80 degrees Celsius. That doesn't mean that you can't go higher than these benchmark points, but if you're not overclocking and your PC is breaking beyond either of those points on a regular basis then you likely need a better cooling solution for your components. GPUs, meanwhile, can get a bit hotter staying below 85 degrees under load. Ideally, a CPU would stay below 75 degrees Celsius under load. Getting up to the maximum is not advisable since performance degrades significantly the closer you get to the upper limit. AMD CPUs, meanwhile, are generally a little lower around 90 degrees Celsius. Intel CPUs, for example, can generally hit temperatures as high as 100 degrees Celsius at the level of the processor die (the actual silicon wafer). Maximum temperatures for your components can vary. What Are Good Temperatures for Your Components? Even when doing some regular overclocking most of us don't need anything more than off-the-shelf parts since we are just trying to hit the moderate goal of exceeding 60 frames per second. Keeping the components super cool allows for greater performance improvements in order to hit world record speeds or unbelievable frame rates in games.įor the rest of us, however, a liquid cooler or solid fan will do just fine for keeping the CPU cool, and the graphics card's built-in cooling system is usually fine. If you watch an extreme overclocking event, you'll see enthusiasts use intense cooling methods such as pouring liquid nitrogen into a cooling pot above the CPU. Related: What Is Overclocking? The Beginner's Guide to Understanding How Geeks Speed Up Their PCs Not only does this program provide an in-depth report on the status of the graphics card (including GPU temperature), but it also handles simpler tasks like monitoring the CPU. The greater the performance of the component, however, the more heat will be produced requiring even more cooling. MSI Afterburner is one of the most popular programs among gamers, mainly due to its highly detailed analysis features. When things are staying cool the CPU and graphics card can either sustain their current performance for longer, or boost their performance even higher. When a PC component gets too hot it either triggers a system shutdown or, in extreme cases, a component ends up damaged. A computer's CPU and graphics card produce heat when in use, and thus you need some per-component cooling to keep things under control. Temperature is everything when you want to squeeze every possible ounce of performance out of your PC. That said, there are times when monitoring your PC case temperature can predict performance issues, though it's one of the last things you should be monitoring. Modern RAM usually does come with heatsinks covering the PCB (printed circuit board), however, and most motherboards include a heatsink for M.2 NVMe SSDs.Īs for the air temperature inside the case itself, as long as your components are cool that shouldn't be an issue. Everything else generally doesn't get too hot in most cases as evidenced by the fact that they don't have elaborate cooling systems. It's easier to talk about CPU and graphics card temps since they have defined and well-known ranges.
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