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Got asked in an interview. They asked to order the following in terms of speed:

  • CPU register access,
  • Context switch
  • Memory access
  • Disk seek.

pretty sure the disk seek is the slowest and register access is the fastest, but not quite sure about the two in between. Can anyone explain it a bit?

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closed as off topic by martin clayton, Jeremy, PeeHaa, bmargulies, Nambari Sep 5 '12 at 1:09

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A main memory access takes roughly 100 ns. Context switches occur roughly every 1,000,000 ns. Of course, not all the time is spent switching contexts, but it should be pretty easy to see we are taking about constructs on vastly different scales. – Andrew Tomazos Oct 20 '13 at 16:16
up vote 10 down vote accepted

I happened to find a surprisingly good answer on Yahoo!:

Disk access may be significantly faster at times due to caching ... so can memory access (CPUs sometimes manage a caches from main memory to help speed up access and avoid competition for the bus).

Memory access could also be as slow or slightly slower than disk access at times, due to virtual memory page swapping.

Context switching needs to be extremely fast in general ... if it was slow then your CPU could begin to spend more time switching between processes than actually performing meaningful work when several processes are running concurrently.

Register access is nearly instantaneous.

(emphasis mine)

I agree with that answer.

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On the other hand, a context switch probably involves several memory accesses. On average, those locations will be in the active set, but then, for the most part, that is also the case for your typical memory access. – tripleee Sep 4 '12 at 19:28
@tripleee I agree. If you compare the best case memory access and the worst case context switching, the order probably would be different. – woz Sep 4 '12 at 19:31
@tripleee: not necessarily. If your hardware has shadow registers or multiple contexts on chip, it might not involve any actual accesses off chip. – Chris Dodd Sep 4 '12 at 20:38
I find it slightly amusing that a Google interview question can be answered by using Yahoo!. – Mark McDonald Oct 31 '12 at 5:17
@MikeB: ARM chips all have shadow registers for fast interrupt context switches. The Tera MTA had many registers sets and did a context switch every cycle; some GPUs work the same way. The SparcT4 has multiple register contexts and does a context switch when a memory access misses the cache. – Chris Dodd Jul 27 '14 at 18:41

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