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I'm facing difficulty with the following question :

Consider a disk drive with the following specifications .

16 surfaces, 512 tracks/surface, 512 sectors/track, 1 KB/sector, rotation speed 3000 rpm. The disk is operated in cycle stealing mode whereby whenever 1 byte word is ready it is sent to memory; similarly for writing, the disk interface reads a 4 byte word from the memory in each DMA cycle. Memory Cycle time is 40 ns. The maximum percentage of time that the CPU gets blocked during DMA operation is?

the solution to this question provided on the only site is :

  Revolutions Per Min = 3000 RPM 
     or   3000/60 = 50 RPS 
  In 1 Round it can read = 512 KB 
  No. of tracks read per second = (2^19/2^2)*50
                                = 6553600 ............. (1)
          Interrupt = 6553600 takes 0.2621 sec
          Percentage Gain = (0.2621/1)*100
                          = 26 %

I have understood till (1).

Can anybody explain me how has 0.2621 come ? How is the interrupt time calculated? Please help .

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3 Answers 3

up vote 1 down vote accepted

Reversing form the numbers you've given, that's 6553600 * 40ns that gives 0.2621 sec.

One quite obvious problem is that the comments in the calculations are somewhat wrong. It's not

Revolutions Per Min = 3000 RPM ~ or   3000/60 = 50 RPS 
In 1 Round it can read = 512 KB 
No. of tracks read per second = (2^19/2^2)*50   <- WRONG

The numbers are 512K / 4 * 50. So, it's in bytes. How that could be called 'number of tracks'? Reading the full track is 1 full rotation, so the number of tracks readable in 1 second is 50, as there are 50 RPS.

However, the total bytes readable in 1s is then just 512K * 50 since 512K is the amount of data on the track.

But then it is further divided by 4..

So, I guess, the actual comments should be:

Revolutions Per Min = 3000 RPM ~ or   3000/60 = 50 RPS 
In 1 Round it can read = 512 KB 
Interrupts per second = (2^19/2^2) * 50 = 6553600 (*)

Interrupt triggers one memory op, so then:

total wasted: 6553600 * 40ns = 0.2621 sec. 

However, I don't really like how the 'number of interrupts per second' is calculated. I currently don't see/fell/guess how/why it's just Bytes/4.

The only VAGUE explanation of that "divide it by 4" I can think of is:

At each byte written to the controller's memory, an event is triggered. However the DMA controller can read only PACKETS of 4 bytes. So, the hardware DMA controller must WAIT until there are at least 4 bytes ready to be read. Only then the DMA kicks in and halts the bus (or part of) for a duration of one memory cycle needed to copy the data. As bus is frozen, the processor MAY have to wait. It doesn't NEED to, it can be doing its own ops and work on cache, but if it tries touching the memory, it will need to wait until DMA finishes.

However, I don't like a few things in this "explanation". I cannot guarantee you that it is valid. It really depends on what architecture you are analyzing and how the DMA/CPU/BUS are organized.

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thanks... i too agree with you that why the total bytes have been divided by 4 but then i took it as if solution is provided by considering only the reading part. but the vague thing is why is it only considering that part because main memory cycle time will be same for reading and writing, i guess? –  POOJA GUPTA Nov 29 '13 at 13:28
and that is 40 ns. one more thing you took controller's memory as the memory mentioned in the question . why? –  POOJA GUPTA Nov 29 '13 at 13:30
ok, forget that last comment I've just deleted. I understood your question finally. By "controller's memory" I meant the vague thing that serves as the DMA's input buffer. It is said that the DMA can transfer only in chunks of 4bytes. So if the drive/whatever emits the data byte-per-byte, then somewhere must be a small 'cache' that accumulates them into 4B packets available for the DMA to transfer. I named it 'controller's memory', because probably it'd be some IO buffer of the drive controller linked by the DMA to some main memory location. But I have no idea where would this buffer be. –  quetzalcoatl Nov 29 '13 at 13:50
thanks quetzalcoatl –  POOJA GUPTA Nov 29 '13 at 17:36
there is one more doubt. can you pls see my updated question and tell m whether my approach is correct or not? –  POOJA GUPTA Dec 3 '13 at 10:51

The only mistake is its not

no. of tracks read

Its actually no. of interrupts occured (no. of times DMA came up with its data, these many times CPU will be blocked)

But again I don't know why 50 has been multiplied,probably because of 1 second, but I wish to solve this without multiplying by 50

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My Solution:-

Here, in 1 rotation interface can read 512 KB data. 1 rotation time = 0.02 sec. So, one byte data preparation time = 39.1 nsec ----> for 4B it takes 156.4 nsec. Memory Cycle time = 40ns. So, the % of time the CPU get blocked = 40/(40+156.4) = 0.2036 ~= 20 %. But in the answer booklet options are given as A) 10 B)25 C)40 D)50. Tell me if I'm doing wrong ?

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