# calculating the best speedup

I have been going over a previous exam for my computer architecture course that i got an incorrect answer, how could i calculate the best possibly speedup? I understand theres a limit as to how mucha program can be sped up im just unsure of the forumla (he problem is part b). Any help will be upvoted and very much appreciated thanks!

1. (6 points) To accelerate an application, two enhancements with the following speedups are proposed:
Speedup1 = 25
Speedup2 = 15

Enhancement 1 is usable for 40% of the instructions and enhancement 2 is usable for 30% of the instructions. Two enhancements do not overlap.

a) What is the speedup if both enhancements are applied?

b) If you keep improving these two enhancements, what is the best speedup you can reach?

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What does a Speedup of 25 mean? –  Scott Hunter Apr 28 '12 at 21:59
Scott, I don't think it matters (I'd guess 25x rather than 25% but I agree it's unclear) because part (b) is what jfisk is looking for help with. –  Gareth McCaughan Apr 28 '12 at 22:01
I think that can be computed by Amdahl's law. –  Dan D. Apr 28 '12 at 22:02
-1: Is it too much work for you to retype the question from that poorly readable photo? What does Speedup=25 mean? 25% more code in the same time? 25 times as fast? 25 times faster? –  user unknown Apr 28 '12 at 22:02
@Gareth McCaughan: How can one answer (b) if it isn't clear what Speedup means? I mean, you can DESCRIBE it, but the question sounds like it is looking for a number. –  Scott Hunter Apr 28 '12 at 22:03

Rather than trying to memorize a formula, use common sense. Imagine that both portions of speed-up-able code could be sped up infinitely: that is, made to take no time at all. What would be left? How much time would it take?

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No, the question states you keep advancing these improvements, and according to amdahl's law, the speed up is limited. –  amit Apr 28 '12 at 22:05
I was hoping to nudge jfisk towards discovering Amdahl's law for {him,her}self. I'm not sure why you say "no" -- did you perhaps think I was saying "if you speed up those portions of the code infinitely, nothing will be left"? That wasn't my intention at all. –  Gareth McCaughan Apr 28 '12 at 22:09
Then I misunderstood you, and am reverting the comment. please edit the answer, so I can remove the -1 as well. –  amit Apr 28 '12 at 22:12
I've made a small change which I hope makes it a bit clearer what I'm not saying, while not making it too clear (i.e., giving too much of the game away for the student) what I am saying :-). –  Gareth McCaughan Apr 28 '12 at 22:16

Let `t` be the total run rime, then:

(a) Since you are not asking for this section, I am giving a full solution, for future readers.
`t' = modified run time = 0.4t / 25 + 0.3t / 15 + 0.3t = 0.336t`,
Thus, `speedup = t/t' = t / 0.336t ~= 2.97`

(b) The question asks keep advancing THESE speed ups, so you cannot improve the whole program. Then the best speed up you can get, according to amdahl's law is bounded by the sequential, un-improveable part. Amdahl's law says that the maximum speed up will be `1/SEQUENTIAL_PART` What is the sequential part in your case? Make sure you understand why.

The idea of amdahl's law is, assuming you can speed up the improved part to infinite speed up, the total speed up will still be bounded by the non-improved part.

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It is usually considered poor style to give full explicit answers to students' homework problems. It is better to provide just enough assistance that they can find the solutions for themselves. –  Gareth McCaughan Apr 28 '12 at 22:11
@GarethMcCaughan: I accept the comment and editted the answer, to be more informative and less feeding. –  amit Apr 28 '12 at 22:19
Yeah, that's better. –  Gareth McCaughan Apr 28 '12 at 22:35