 So this time we're going to look at an actual processor and its parameters. So a modern Intel i7-6950 can consume up to 140 watts of power. It does this with some capacitance load and it uses one and one-eighth volt and by default it runs at about 3,500 megahertz. Of course, this is a processor that's rather complex. It's got lots of cores. It can turn some of them on and some of them off. It doesn't have to run at this full clock speed. But this will still give us a decent idea of what the capacitive load of this processor is. So we'll want to divide the watts by the voltage and the switching frequency. And now we would normally simplify this. However, this time we have some rather uglier numbers. We have nine-eighths and we have this 3.5 gigahertz. So I can either leave that as 3,500 megahertz or I can convert this to 3.5 gigahertz. And my answer for the capacitive load will still end up being the same, regardless of which of those terms I'm using, because they do mean the same thing. So for the moment I will put in 3,500 times 10 to the sixth. And the result here is going to be some number of fair adds. So at this point we could simplify this some more, but really we just want to toss this into our calculator, get our result out. And the result is that we expect this processor to have a capacitive load of about 31 nano-fair adds.