Offset power was Intel's first conversion into something known as low voltage and although AMD is being followed with great care, its processors are not as advanced today as the blue ones in these parts.
It is true that the majority of users do not overuse themselves and that this has lost its new meaning XFR and PBO algorithms, but it is not always possible to explore other limits such as undervolt.
Offset Voltage: what it is, how it works and how the voltage improves
From the premise and the fact that the volume of the booklet is not recommended for 24/7 – the average direct voltage is understood to be manual – the options start depending on the Displaced Mode, also known as colloquional as Offset Power or Reconciliation Mode.
This type of power consumption starts from the same base as the others: VID voltage in stock and under load. This means that our Offset voltage starts at the value received by our CPU from the cell and under pressure through its VID. Therefore, the low voltage offset offset depends on it to a large extent and so it is the first thing we should know to achieve the much-needed stability in the background.
From this base, Offset mode has two different values to choose from: good (+) or bad (-). These values can only be done by selecting one of them and what they will achieve to increase or decrease the final voltage processor (always based on VID power).
At this point, it is important to explain that Offset voltage has something wrong with its voltage compared to the manual voltage: compensation, whether good or bad, affects the entire range of VID voltages or SKUs recorded by Intel and AMD in the Processor each as usual.
Each compensation affects all frequency and volvages
This is easily understood when we view SKUs as tables in which the predefined voltage is applied to each selected speed and will vary only by a small percentage depending on the ASIC quality. Therefore, changing this volume to a positive or negative value means increasing or decreasing the same amount of energy across the table. Pre-defined VID using less code.
Including this is the higher usage of the processor throughout its frequency range and the P, as well as the small increase in the VID voltage, but at the same time it means much less power consumption.
To use it we will have to go to our UEFI, where unfortunately each and every manufacturer puts it in its category and will have to look at it, although it is easy to see it as a rule. In our experiments we use a ASUS X570-F Gaming, so by sharing UEFI with other product models in the ROG series, we will have something more advanced.
CPU voltage is enabled, as we see we will have a drop down menu where we can see options, among them. Usage mode.
As we can see, selecting it will include the option of the compensation mode option:
In this case, we will increase the CPU frequency so we have decided to increase the voltage by 0.0125 mv. Similarly, if we had decided to do the undervolt, as we saw in its corresponding text, we would simply select the negative compensation mode and then enter the complication voltage we created, and test the stability with our preferred compression system.
