Which is a feature of the CPU
caching
Front Side Bus
Weight. Any variation that can affect performance should be considered. (Which is basically everything.) Including what program(s) are being run, and the differences in architecture to other CPU's you are comparing it to. The science behind the design of CPU's is too complex to ignore a feature. Branch prediction for instance is something that the average person knows nothing about, put it can strongly effect the performance of the CPU. (Though it is impossible to measure the exact speed up for a random program.)
Amount of cache memory, speed of processor, speed of the front side bus
You need to make sure that the CPU is cool, overheating causes it to break down and this decreases performance. Use at least a heatsink as well as a cooling fan Nowadays, you can buy liquid coolers, which are highly effective in keeping your CPU nice and chilled. Hope this helps
The original Intel Pentium was the first to have a 64-bit data bus while it's predecessor, the i486 was the first to feature an on-die L1 cache.
The first Intel CPU to feature external cache was the Intel Pentium Pro. External cache is also referred to as L2 cache, while internal cache is called L1 cache.
Theoretically a thread will give up its CPU time voluntarily by using the yield feature. But practically, the programmer will write the code and make the thread give up its CPU time. So it is not a voluntary act from the threads perspective. It is just doing it because the programmer made it do so.
CPU protection is one who protect the CPU. and the one who destroy the CPU also is the one who protect the CPU and the one who destroy the CPU is the one who protect the CPU and the one who destroy the CPU is the who protect the CPU and the one who destroy the CPU is the one who protect the CPU and the one who destroy the CPU is the who protect the CPU and the one who destroy the CPU is the one who protect the CPU and the one who destroy the CPU is the one who protect the CPU.
First, GHz. GB is a measure of number of bytes, not CPU speed. Many modern CPUs have a feature which enables the CPU to slow down when not in heavy use. AMD Athlon's "Cool 'n' Quiet" is an example of this technology. For example, you might have a 2.6GHz CPU but when you're only browsing the Internet or writing emails, it might slow down to 1.6GHz.
the internal data path the address bus the clock speed the cache
There is nothing in the CPU hardware itself. This is handled by "anti-virus" software.