you are also not forced to use it at 125W only, you can go as high or as low as YOU want because no company can force you how to use YOUR PC. If we are pretending to be enthusiasts here a few clicks in the bios shouldn't be an issue. Somewhere there has to be a practical limit of how many BTUs can be extracted from a given surface area of silicon.You are not forced to run an intel CPU at full overclock 's a couple of clicks in the bios to rein it in, the same way it's a few clicks for ryzen to enable PBO.Įven locked at 125W the 12900k does very well against the top ryzen CPUs and is more than 10 degrees cooler with the same cooling and using the same amount of power.So guess which one is going to pump more heat into your room. If you don't have such a GPU (like at least a 3080), and you're not doing rendering and encoding on a regular basis, it's going to be extremely rare to see your CPU draw down a lot of power during actual use. Compared to the iPhone 13 Pro benchmark test, the predecessor of the iPhone. That GPU is going to pull way more power than your CPU. According to Geekbench 5 scores, the iPhone 14 Pro has a 1,879 Single-Core Score, while it has a 4,664 Multi-Core Score. The most stressful thing most people here will do on their PC is game - and if you have a GPU powerful enough to make a 12900K or this new 13900K start to pull down on the power, you're clearly not someone who cares much about power. I don't run any of those normally, nor do I run anything like those, and the only person I know who does run anything like those at all makes a living doing photography - and she uses a Mac. They run y-cruncher, AIDA stress test, Blender, Handbrake. Most sites, Tom's included, don't do much power testing for the real world. Ya but just exactly how often will you push that CPU to its multi-core limits? I have a 10850K, arguably it has the potential to be one of the most power hungry chips on the planet when it is power unlocked and overclocked.īut, to actually see that power ramp, you have to be running something that pegs all cores. Somewhere there has to be a practical limit of how many BTUs can be extracted from a given surface area of silicon. There are three main types of workloads that are tested, and each factor differently into the final scoring: cryptography (5), integer (65), and floating point (30). Sippincider said:For me it's not the energy from the wall, it's getting the heat out of the case! The final numerical score that Geekbench presents for single-thread, multi-thread, and GPU compute workloads are only a weighted value of the laptop's performance in different types of operations.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |