On a non-pipelined sequential processor, a program segment, which is a part of the interrupt service routine, is given to transfer 500 bytes from an I/O device to memory.
Initialize the address register
Initialize the count to 500
LOOP: Load a byte from device
Store in memory at address given by address register
Increment the address register
Decrement the count
If count != 0 go to LOOP
Assume that each statement in this program is equivalent to machine instruction which takes one clock cycle to execute if it is a non-load/store instruction. The load-store instructions take two clock cycles to execute.
The designer of the system also has an alternate approach of using DMA controller to implement the same transfer. The DMA controller requires 20 clock cycles for initialization and other overheads. Each DMA transfer cycle takes two clock cycles to transfer one byte of data from the device to the memory.
What is the approximate speedup when the DMA controller based design is used in place of the interrupt driven program based input-output?
(A) 3.4
(B) 4.4
(C) 5.1
(D) 6.7
Answer: (A)
Explanation:
What is the approximate speedup when the DMA controller based design is used in place of the interrupt driven program based input-output?
(A) 3.4
(B) 4.4
(C) 5.1
(D) 6.7
Answer: (A)
Explanation:
Explanation:
STATEMENT CLOCK CYCLE(S) NEEDED
Initialize the address register 1
Initialize the count to 500 1
LOOP: Load a byte from device 2
Store in memory at address given by address register 2
Increment the address register 1
Decrement the count 1
If count != 0 go to LOOP 1
Interrrupt driven transfer time = 1+1+500×(2+2+1+1+1) = 3502
DMA based transfer time = 20+500*2 = 1020
Speedup = 3502/1020 ≈ 3.4
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