cpu family: 0x6 cpu model: 0x3c cpu stepping: 0x3 cpu type: 0x0 speed: 3500 mhintel dual core 3.5 cpu model: 0x3 cpu stepping: 0x3 cpu type: 0x0 speed: 3500 mhintel dual core 3.
This is a little confusing, but it seems that cpu family 0x6 and cpu model 0x3c is the cpu family and cpu model of the first core on a dual-core cpu, followed by cpu stepping 0x3.
The second core is the cpu stepping 0x3c, which is the stepping of the cpu core that isn’t the first core, and the third core is the cpu family 0x6. The cpu family is 0x6, and this is the “general” version of the first core CPU. The cpu model is 0x3c, and this is the “high-end” version of the first core CPU.
The cpu stepping speed is the speed at which one CPU core runs while another CPU core waits for it to finish it’s current job. A CPU core is considered to be busy when it is waiting for other CPU cores to finish, or when it is waiting for other CPU cores to make their next load. The cpu stepping speed is the speed at which one CPU core is allowed to run.
0x0, 0x2, and 0x3 are the cpu type, speed, and stepping models.
Because the cpu model is 0x3c, and we are running two cores in a single CPU for the sake of speed, we are essentially running two cores per CPU. This means that we are running two physical processors. At the same time, because we are running two cores per CPU, our threads will take up a lot of power.
CPU speed is one of the key factors that determine how much power we need. It is the difference in time to get the highest speed. It is also what determines how much we should power the other cores in the same processor.
If we were running four cores, and each of the cores were running at 100MHz, we would have had to power all of our cores at the same time. That is pretty inefficient, and would have put us at around 5 Watts per core. In the CPU family chart we have, each CPU is listed as running at 100MHz. So in that case, if we ran four cores, all of our cores would have to be running at the same time.
So, it turns out that Intel processors are actually designed to run at a constant speed of 100MHz. However, when we were doing our benchmark, one of the cores actually ran at 30MHz. So it’s not as if we were running four cores at a constant 100MHz, but rather at 30 MHz. And if we were running four cores at a constant 100MHz we probably wouldn’t have been able to get any work done either.
