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I can't find the E5-2651 v2 CPU you've mentioned on the Intel website (ark.intel.com), so I don't know its maximum tcase temperature. (I have seen other reviews for the CPU though, so I know it exists). Looking at your Prime95 results though, everything looks to be running normally;
Your CPU's are fully loaded (=worst case scenario), frequency is as expected when running all cores, and your temperatures are also as expected under full load - the 4610 CPU seems to be running really well in terms of temperature. The TDP is a theoretical power limit for the CPU, i.e. the CPU will throttle back if nearing the specified TDP for the CPU. Consider the TDP value in the same way as you look at the tcase value - it's not a target value you are trying to reach, it's more of a safety limit so that you don't destroy the CPU. The only time you are likely to get close to the TDP is when overclocking a CPU.
If you are looking to improve your system performance, then the best CPU is based on your intended use, e.g.
Gaming - To get the best possible game frame rate, select a CPU with the highest single threaded (i.e. single core) performance. You do not need a lot of CPU cores for gaming, most games being designed to run on 2 or 4 cores. Have a look at the CPU benchmarks on the Passmark website. An E5-1660 v2 being a good example of a 'fast' CPU. (All the CPU's in the table above don't have very fast single threaded scores).
Video rendering/Simulations (using the GPU/CUDA) - Again, you want the best single threaded CPU performance possible - the GPU CUDA cores take all the workload, and a faster CPU will dramatically improve rendering times.
Video rendering (CPU) - When rendering video using the CPU(s) only, then you want the most CPU cores you can squeeze into your system, at least 8 or more. Even better, a dual or quad CPU server/workstation.
VM's - The number of VM's you can run simultaneously is dependant on the number of CPU cores and the amount of system RAM. The more CPU cores and RAM, the more VM's can be run.
601
153
84
HP Recommended
12
0
0
HP Recommended
601
153
84
HP Recommended
I can't find the E5-2651 v2 CPU you've mentioned on the Intel website (ark.intel.com), so I don't know its maximum tcase temperature. (I have seen other reviews for the CPU though, so I know it exists). Looking at your Prime95 results though, everything looks to be running normally;
Your CPU's are fully loaded (=worst case scenario), frequency is as expected when running all cores, and your temperatures are also as expected under full load - the 4610 CPU seems to be running really well in terms of temperature. The TDP is a theoretical power limit for the CPU, i.e. the CPU will throttle back if nearing the specified TDP for the CPU. Consider the TDP value in the same way as you look at the tcase value - it's not a target value you are trying to reach, it's more of a safety limit so that you don't destroy the CPU. The only time you are likely to get close to the TDP is when overclocking a CPU.
If you are looking to improve your system performance, then the best CPU is based on your intended use, e.g.
Gaming - To get the best possible game frame rate, select a CPU with the highest single threaded (i.e. single core) performance. You do not need a lot of CPU cores for gaming, most games being designed to run on 2 or 4 cores. Have a look at the CPU benchmarks on the Passmark website. An E5-1660 v2 being a good example of a 'fast' CPU. (All the CPU's in the table above don't have very fast single threaded scores).
Video rendering/Simulations (using the GPU/CUDA) - Again, you want the best single threaded CPU performance possible - the GPU CUDA cores take all the workload, and a faster CPU will dramatically improve rendering times.
Video rendering (CPU) - When rendering video using the CPU(s) only, then you want the most CPU cores you can squeeze into your system, at least 8 or more. Even better, a dual or quad CPU server/workstation.
VM's - The number of VM's you can run simultaneously is dependant on the number of CPU cores and the amount of system RAM. The more CPU cores and RAM, the more VM's can be run.
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