Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

My question is largely about x86/x64 code optimization, primarily on Windows if that makes a difference.

What learning resources would you recommend for someone who want to dedicate a fair amount of time about optimizations in the lowest levels possible? Links, books, tools, APIs, all advice is recommended. It would also be nice if you wrote a very short description of why you recommend a particular link and maybe what I should expect to learn from it.

Ultimately I hope at some point I get skilled in easily detecting performance bottle necks and understand why there is a bottle neck or why a particular function is stalling and hopefully realise what options I have available to get rid of the bottle necks.

I have been coding for quite some time professionally but I feel I want to dedicate a fair portion of my time to learn optimization thoroughly. I understand Assembly language, C, C++ and how you can write code that is cache friendly by localizing data structures to avoid cache misses et.c. but I feel I overall lack much knowledge about fine tuning applications. I have used some profilers that help me indicate issues in various functions and I usually am able to "get it more performable". But I don't know if the code still is performing worse than it should and I would like to learn to understand how to analyse the program in minute detail.

What I don't know is if this assembly instruction here is better or worse with another instruction there that could do the same job, nor if there is any way to easily detect functions or even instructions that are busy waiting for a particular process in the computer. My rookie impression that I accumulated through my years is that the problem is more complex than just looking at the instructions in isolation. This is probably because I don't fully understand subjects like speculative execution and other features. Heck, I don't even know what a clock cycle means to my instructions as I found out that 1 clock pulse doesn't correspond to 1 executed instruction. So that would also be something I'd like to bridge my gap on.

I'm a sort of person who picks a subject and then obsesses about it to the point it gets ridiculous. Some people may ask "but why would you want to optimize something further than that? Is it even a problem?" and the answer I'd typically give is "oh, it doesn't have to be faster than this. I just want to make it faster, in order to learn more about it. I want to understand the system as totally as I can".

share|improve this question

closed as not a real question by Binary Worrier, EvilTeach, Chris Laplante, Bob Kaufman, Hasturkun Mar 13 '13 at 17:59

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

I'm not sure this is really a question for SO - check the FAQ. – Roger Rowland Mar 13 '13 at 16:11
I sort of had a feeling for it. I'll remove the question if people object. I guess the responses would become a list of links and it's hard to say that a particular answer would be better than another. – Statement Mar 13 '13 at 16:12
Maybe better in – Andy Lester Mar 13 '13 at 16:13
The probably best optimization you can do is think before you write code, in particular think about data, its layout, and how it will be accessed (think ALU/bandwidth scissor). Avoid the most known performance antipatterns and try not to use O(N^2) or worse algorithms unless you know that N < 100. The compiler will do the rest, and a modern compiler will optimize much better than you could possibly do anyway (unless you have 20+ years of experience and dedicate weeks for optimization, and even then there's the chance you do worse). – Damon Mar 13 '13 at 16:32

1 Answer 1

The one thing you must do is learn to always measure before you optimize. If you go by gut feel, you will waste your time optimizing the wrong thing.

The Rules of Optimization Club:

  1. The first rule of Optimization Club is, you do not Optimize.
  2. The second rule of Optimization Club is, you do not Optimize without measuring.
  3. If your app is running faster than the underlying transport protocol, the optimization is over.
  4. One factor at a time.
  5. No marketroids, no marketroid schedules.
  6. Testing will go on as long as it has to.
  7. If this is your first night at Optimization Club, you have to write a test case.
share|improve this answer
Though I do not agree with those rules, they are so funny that they still deserve an upvote :-) – Damon Mar 13 '13 at 16:24
I agree with Damon. While the general guidelines here are best in most cases, it isn't the only approach - let alone always the best approach. Which is why I prefer to avoid blanket statements like these about optimization (or anything in general). – Mysticial Mar 13 '13 at 16:37
Which of those rules do you disagree with? In what circumstances? – Andy Lester Mar 13 '13 at 19:08
I'm not agreeing with 1) and not necessarily with 3). "You do not optimize" almost sounds like optimization is a bad thing. Only senseless ("premature") optimization is bad. It often does not cost more (apart from proper planning) to do a thing properly and efficiently, but this consumes less resources. Similar is true for 3). While it is true that if you are limited by a transport protocol's bandwidth you cannot get any faster (though your processing latency adds up too!), you can nevertheless produce less heat and use less energy by optimizing, which becomes more and more important. – Damon Mar 14 '13 at 11:34
Some people go as far as saying "it's all about conserving battery" (I think that is a quote from Larry Osterman, if I'm not mistaken, though I might remember wrong). And in a world with computers becoming more and more mobile, they're probably right. Optimized code runs faster (which may or may not matter) but it also eats less battery. – Damon Mar 14 '13 at 11:35

Not the answer you're looking for? Browse other questions tagged or ask your own question.