![sager bios vcore sager bios vcore](https://cdn.cupdf.com/img/1200x630/reader021/image/20170825/55cf98b2550346d0339929bc.png)
The Asus Maximus XI boards have been recalibrated to read the same value on their vcore as Gigabyte (and some Asrock and MSI boards) do on VR VOUT.ĬPU:i7-2600K 4751MHz 1.44V (software) -> 1.47V at the back of the socket Motherboard: Asrock Z77 Extreme4 (BCLK: 103.3MHz) CPU Cooler: Noctua NH-D15 RAM: Adata XPG 2x8GB DDR3 (XMP: 2133MHz 10-11-11-30 CR2, custom: 2203MHz 10-11-10-26 CR1 tRFC:230 tREFI:14000) GPU: Asus GTX 1070 Dual (Super Jetstream vbios, +70(2025-2088MHz)/+400(8.8Gbps)) SSD: Samsung 840 Pro 256GB (main boot drive), Transcend SSD370 128GB PSU: Seasonic X-660 80+ Gold Case: Antec P110 Silent, 5 intakes 1 exhaust Monitor: AOC G2460PF 1080p 144Hz (150Hz max w/ DP, 121Hz max w/ HDMI) TN panel Keyboard: Logitech G610 Orion (Cherry MX Blue) with SteelSeries Apex M260 keycaps Mouse: BenQ Zowie FK1
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1.200v=1200mv), and that should be equal to your VR VOUT. Then subtract that value from your bios voltage (change the bios voltage to millivolts, e.g. Record that value (it will be in millivolts, since the resistance is in milliohms). Then to calculate your VR VOUT, take your bios voltage you set and save it, then take the amps (Current IOUT) and multiply it by the resistance (Amps * mOhms or I * R). LLC Extreme is 80% reduced vdroop and Ultra Extreme is no vdroop (99%) or 0.01 mOhms. After making adjustments go back to Step 1. We recommend you to stay under 90° C on your CPU along with a CPU Vcore below 1.4 volts if possible. You have two options: Either increase CPU Vcore or decrease PU lock ontrol.
![sager bios vcore sager bios vcore](https://manualmachine.com/html/10/1015/101541bd5c389fb40875fa07c495358ce6d5d22421f3af28b15a55afe36e9a32/img-01-iadnUWctf0.png)
LLC Turbo is 75% reduced vdroop, so that's 0.4 mOhms for 8 core and 0.52 mOhms for 6 and 4 core. BIOS or using EasyTune which is available through the GIGABYTE App Center. LLC High has 50% reduced vdroop (so 1.05 mOhms for 6 core, 0.8 mOhms for 8 core). You can easily calculate the accurate VR VOUT if you know the "mOhms" value for your loadline calibration.įor 4 and 6 core CFL, the default (Standard/Normal) loadline if LLC is set to those settings-aka Intel default settings-is 2.1 mOhms. In this exact test I mentioned, VR VOUT in this example would show about 1.137v if you calculated it as mentioned below. That's because vdroop (loadline) is R*I, resistance times amps. If you set 1.20v in the bios with LLC Turbo, and run a 150 amp prime95 AVX stress test, it will fluctuate between 1.188v to 1.212v, regardless of the load, which doesn't make any sense. The 8792E Vcore is the Socket MLCC caps, which wont show live vdroop properly at all. And definitely not the Super I/O vcore either. There is no point using Override + offset, the fact that you already set a voltage in this mode makes the offset part redundant.Sorry but you guys are wrong. Override mode = fixed voltage, load increases, vcore drops There is no point using Override + offset, the fact that you already set a voltage in this mode makes the offset part redundant.Īdaptive mode is meant to represent AUTO Vcore, when you choose this option you must leave the Vcore value to AUTO as the moment you set a manual value you just reverted back to override mode.
#SAGER BIOS VCORE MANUAL#