I think you’re totally right for a load that needs a certain amount of power. But a CPU just needs to be able to flip transistor gates fast enough. They don’t draw more current at lower voltage, so the lower the voltage, the lower the power. At some point, too low of a voltage won’t let them flip fast enough for a given clock speed (or, eventually, flip at all)
Lower voltage = higher current for a given power. Guess if you simultaneously reduce power you probably are okay
I think you’re totally right for a load that needs a certain amount of power. But a CPU just needs to be able to flip transistor gates fast enough. They don’t draw more current at lower voltage, so the lower the voltage, the lower the power. At some point, too low of a voltage won’t let them flip fast enough for a given clock speed (or, eventually, flip at all)
That’s not how current works (most of the time… Some loads, i.e. big motors, might do that, but not any solid state electronics)