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A will execute more quickly than B because processor A has a higher clock speed than processor B.
The execution time is broken down into three components by the performance equation, which considers them to be mostly independent of one another.
If the time units on either side of the equation are altered, the equation is still correct. The next sections examine the left-hand side and the right-hand side factors.
Instruction count (IC), clocks per instruction (CPI), and clock time are the three variables in that order (CT). As an effective value, CPI is calculated.
The execution time is broken down into three components by the performance equation, which considers them to be mostly independent of one another.
By incorporating more potent instructions into the instruction set, computer builders can decrease the number of instructions. However, this can result in an increase in clock time, CPI, or both.
By utilizing more instruction-level parallelism, computer architects can lower CPI. The CPI frequently rises as more complicated instructions are included.
The complexity of the job completed in a single clock and transistor speed determine the clock's running time. When transistor sizes are lowered, clock time can be cut in half. But as clock time is decreased, power consumption rises. As a result, more heat is produced.
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