Intel defines the VCCIN specification (called the 'Eventual CPU input voltage' in the ROG BIOS) in relation to CPU Vcore as follows: We will detail more on the low-level workings of the ROG BIOS in future articles. At low power modes the frequency is reduced to reduce the total power, but at high current pulls the frequency is increased to accommodate the needs of the overclock. Now ROG introduces an Active Frequency Mode that sets a range of VRM frequencies, depending on the current pull of the system. Previously you could set a DIGI+ VRM frequency from 200~800Hz the VRMs would operate at, with higher frequencies giving a more reactive, but more power hungry system. Active Frequency ModeĪnother new addition is the Active Frequency Mode.
While the 10k black metallic caps are a roll over from the Maximus V and Rampage IV series, the NexFET's are a super-high efficient, fully integrated MOSFET package, and the 60 Amp BlackWing chokes are custom-designed for ROG (they have little ASUS logos on them!) where the exterior ripple design increases surface area for cooling. NexFET, BlackWing and 10k Black Metallic Caps On the Maximus VI series, the new Extreme Engine DIGI+ III handles this, covering both CPU and memory with a new set of tools that include NexFET MOSFETs, BlackWing chokes and 10k black metallic capacitors. In order to provide a quality input voltage, inevitably a quality VRM system is required.
The good news is that memory overclocking capacity on Haswell is better than ever, with 2,400MHz almost considered 'common' to K series CPUs. For the memory, its DDR3 is still the same as before (although with the new option to use DDR3L at 1.35V), so is controlled externally by the existing DIGI+ VRM system. A quality input voltage = a successful overclock. This means that premium quality and tightly regulated VRMs as still an essential part of the overclocking equation. While non-overclocking motherboards like the H87 and H81 series need no more than the standard number of VRMs as the maximum power requirements are exactly known, on Z87 overclocking motherboards the power use is still exponentially greater than normal. It requires a single, very low ripple input voltage. The PSU provides 12V, which needs to be stepped down and 'cleaned up' before it can be used by the CPU. That's true, because an input voltage is still required. But I still see VRM's on your motherboards! By integrating these, Intel can apply even more fine control to the power states, as on-die reactive latency is reduced. Previously this meant there were five separate input voltages the motherboard handled: Vcore, Vgpu, VCCSA, VCCIO, and the PLL but now these are part of the CPU package itself. In this generation's LGA1150 Core processor, Intel has moved the voltage regulation on-CPU.
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