In this exercise, we examine how pipelining aff ects the clock cycle time of the processor. Problems in this exercise assume that individual stages of the datapath have the following latencies: IF ID EX MEM WB 250ps 350ps 150ps 300ps 200ps Also, assume that instructions executed by the processor are broken down as follows: alu beq lw sw 45% 20% 20% 15% What is the clock cycle time in a pipelined and non-pipelined processor?What is the total latency of an LW instruction in a pipelined and non-pipelined processor?If we can split one stage of the pipelined datapath into two new stages, each with half the latency of the original stage, which stage would you split and what is the new clock cycle time of the processor?Assuming there are no stalls or hazards, what is the utilization of the data memory?Assuming there are no stalls or hazards, what is the utilization of the write-register port of the “Registers” unit?Instead of a single-cycle organization, we can use a multi-cycle organization where each instruction takes multiple cycles but one instruction fi nishes before another is fetched. In this organization, an instruction only goes through stages it actually needs (e.g., ST only takes 4 cycles because it does not need the WB stage). Compare clock cycle times and execution times with single- cycle, multi-cycle, and pipelined organization.

Computer Networking: A Top-Down Approach (7th Edition)

7th Edition

ISBN:9780133594140

Author:James Kurose, Keith Ross

Publisher:James Kurose, Keith Ross

Chapter1: Computer Networks And The Internet

Section: Chapter Questions

Problem R1RQ: What is the difference between a host and an end system? List several different types of end...

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In this exercise, we examine how pipelining aff ects the clock cycle time of the processor. Problems in this exercise assume that individual stages of the datapath have the following latencies:

IF	ID	EX	MEM	WB
250ps	350ps	150ps	300ps	200ps

Also, assume that instructions executed by the processor are broken down as follows:

alu	beq	lw	sw
45%	20%	20%	15%

What is the clock cycle time in a pipelined and non-pipelined processor?
What is the total latency of an LW instruction in a pipelined and non-pipelined processor?
If we can split one stage of the pipelined datapath into two new stages, each with half the latency of the original stage, which stage would you split and what is the new clock cycle time of the processor?
Assuming there are no stalls or hazards, what is the utilization of the data memory?
Assuming there are no stalls or hazards, what is the utilization of the write-register port of the “Registers” unit?
Instead of a single-cycle organization, we can use a multi-cycle organization where each instruction takes multiple cycles but one instruction fi nishes before another is fetched. In this organization, an instruction only goes through stages it actually needs (e.g., ST only takes 4 cycles because it does not need the WB stage). Compare clock cycle times and execution times with single- cycle, multi-cycle, and pipelined organization.

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