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1. #HYPER 212 EVO REVIEW TEMPS INSTALL#
2. #HYPER 212 EVO REVIEW TEMPS DRIVERS#
3. #HYPER 212 EVO REVIEW TEMPS FULL#
4. #HYPER 212 EVO REVIEW TEMPS SOFTWARE#

Here is its conclusion to its test concerning the Wraith Stealth: Note: The tech site uses a Ryzen 2600 processor which has the same TDP as the 3600 processor. This previous Tech site gives a very good comparison and review of the three Wraith CPU Coolers, Stealth, Spire, & Prism: The Wraith Stealth is the weakest of all the newest Wraith CPU Coolers but it is adequate for normal computing though it will run hotter than a more powerful 3rd party CPU Cooler like the Hyper212 EVO which has a TDP of 150 Watts or Wraith Prism. The AMD Stealth is the CPU Cooler that comes bundled with the 3600 processor. The Ryhas a TDP of 65 watts while the AMD Wraith Stealth has a TDP of 65 Watts. It seems those temps will make impossible to use this processor with the stock cooler, and that is very disappointing, and the worst part is: if I get a better cooler, I don't know how much this could help, that's why I want to know if there is something bad with this processor before spend more money on it. I know you will say: "just get a better cooler" but for the first tests without changing the cooler I think this temperatures are not normal, I don't like AIOs, and air coolers, like cooler master hyper 212 are very expensive here ($50 USD or more). What should be the "normal" temp at idle for this processor with stock cooler? etc, but nothing changes, at most the variant is around 1 or 2☌ below, so:

#HYPER 212 EVO REVIEW TEMPS DRIVERS#

I have tried many solutions suggested in many sites, like disabling PBO, XFR in BIOS, changing the power plan, updating all drivers and latest BIOS.

#HYPER 212 EVO REVIEW TEMPS SOFTWARE#

If I run any stress software the temperature goes beyond 80☌ in just a few seconds. I have never seen any CPU with more than 40 or 45☌ at idle, and I think this temp is so high for the 3600 even using the stock cooler, I have seen in some reviews and comments the idle temp should be around 35☌ with stock cooler. I'm using the stock cooler that came with the 3600, and i was surprised to see the idle temperature is 50° to 55☌ with the CPU at 2% or 3% of usage according to the task manager and with a very cold room temperature (around 20☌). VGA: Asus ROG Strix GTX 1660 super advanced edition. RAM: Corsiar Vengeance DDR4 16GB 3200MHz. Keep in mind these calculations are provided for demonstration purposes only and may not reflect the actual lab tested C/W rating, but we're pretty close.I just built a new system, this is my first ryzen build, specs:

#HYPER 212 EVO REVIEW TEMPS INSTALL#

Overall performance should increase when you install a secondary fan, just make sure to set them in a push/pull configuration. At this speed the fan is still virtually silent.

#HYPER 212 EVO REVIEW TEMPS FULL#

It should also be noted that we did test this heatsink using only a single fan spinning full speed (2000rpm). However, we don't normally see this sort of increase with such a mild overclock and no voltage increases. In these tests you'll notice that the C/W numbers did change between the default and overclocked tests, which is expected given the rise in CPU temp. During this test we were able to pump an estimated 114w of heat into the heatsink at 4.2Ghz and the results show it can handle a mild overclock despite the higher than normal CPU temps. We are using the new Sandy Bridge platform for these tests and you will notice that the total heat output is considerably lower than any of our other heatsink tests. These numbers can be used to determine heat capacity, the larger the difference the less efficient the heatsink is.

The resulting C/W number is used to rate how efficient a heatsink or waterblock is based on the given heat load. This is why we normally only apply 85% of the total wattage output to our heat calculations.

Since this is a real world testing method we need to take into consideration real world variables and estimate tolerances. In our heatsink and waterblock tests we don't really focus on overall load temperatures but rather how well the product can remove heat given a specified heat load.