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Sorry for the vague thread title; hard to succinctly describe my question.

I have a collection of a large number of objects (couple thousand), defined as...

public class Item
    public int ID;
    public float A;
    public float B;
    public float C;
    public float D;
    public float E;
    public float F;
    public float G;

If I'm given a multiplier for each one of those float fields, what's the fastest way to find which Item in my large collection has the largest total of those floats multiplied by their multiplier.

For example, I've currently got something like...

public Item FindLargest(float aMult, float bMult, float cMult, float dMult, float eMult, float fMult, float gMult)
    Item largest = null;
    float largestTotal = 0f;
    foreach(Item item in ItemsCollection)
        float total = item.A * aMult + 
                      item.B * bMult + 
                      item.C * cMult + 
                      item.D * dMult + 
                      item.E * eMult + 
                      item.F * fMult + 
                      item.G * gMult;
        if (total > largestTotal)
            largest = item;
            largestTotal = total;
    return largest;

The performance of this is lacking, and so I'm wondering if there's anything I can do to restructure the data in such a way, ahead of time, so that the FindLargest call is much much faster. I've been doing it like this for a while, and performance was fine, with ~40-50 items in the ItemsCollection, but now the design of a different part of my application has changed, and as a byproduct, I need to process much larger set of data (~2000ish instead of ~50ish), so I'm interested in optimizing this further. Thanks for any help anyone can offer!

EDIT: I should have mentioned this to start with: I'm already parallelizing this in that what's calling this is already heavily parallelized. And what's calling this is indeed calling it many times, with many different parameters, very quickly. Every time a value changes in the open document in my app, this needs to be called about a hundred times, and it should feel 'responsive' (already doing all the calculations on multiple background threads, so I don't mean UI lockup).

EDIT 2: See my comments in the accepted answer.

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This is also valid on Code Review. –  Steven Jeuris Mar 24 '11 at 3:02
Are you trying to implement matrix multiplication? –  Margus Mar 24 '11 at 3:05
@Chadd -- Out of curiosity, how long is it taking you right now? And what sort of number ranges are we talking about? –  Pandincus Mar 24 '11 at 3:35
Wonder if a mathematician would come up with a mathematical solution –  Juan Mar 24 '11 at 3:46
@Chadd: Why do you need to call it around 100 times? Is the expected output different every time? –  Steven Jeuris Mar 24 '11 at 17:14

4 Answers 4

up vote 5 down vote accepted

I don't think the problem is with your function here. I'm taking way less than 0.1 seconds to complete the function with 500,000 items in the collection.

You might want to find a way to optimize the part of the code that calls this function. Using PLINQ at that level should yield better results.

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@Fun Mun Pieng - Yeah, thanks for stating this. I was testing this in LinqPad and its running super fast with like 1,000,000 items. I was starting to think I was doing something wrong! –  Pandincus Mar 24 '11 at 3:41
+1. The code is pretty much as good as you can get for that particular task - you have to walk all items as there is no way to define ordering between items for such multiplication so any sort of binary search approaches do not work. It is likely called way more times than expected and as result slowing things down. –  Alexei Levenkov Mar 24 '11 at 4:57
@Alexei Levenkov: who said anything about binary search? what is called more than expected and what slows down? –  Steven Jeuris Mar 24 '11 at 12:46
@Steven Jeuris:Agree that my comment is not the clearest one :). I mentioned binary search as it is an easiest way to find max IF one can sort items in a some way, but in this case you can't sort in advance as order itself depend on vector of arguments. I think FindLargest is called more often then expected - verifying/fixing this fact could speed code up much more than parallel execution. –  Alexei Levenkov Mar 24 '11 at 15:51
It is indeed being called a lot, and I've verified that it's only being called as much as is currently expected. If I can't find some way to speed this up, I'll resort to some sort of corner cutting; redesigning it such that it needs to be called half as often. –  Chadd Nervig Mar 24 '11 at 16:31

One option is using PLINQ to make use of multiple cores.

        var result = (from item in ItemsCollection
                      let total = item.A * aMult + 
                                  item.B * bMult + 
                                  item.C * cMult + 
                                  item.D * dMult + 
                                  item.E * eMult + 
                                  item.F * fMult + 
                                  item.G * gMult
                      select new {item, total}).AsParallel().Max(i => i.total);
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@Steven - Seems like this would return the largest value, not the largest item. no? –  Naraen Mar 24 '11 at 3:20
@Naraen: You are right, let's see whether I can further linqify it. :) –  Steven Jeuris Mar 24 '11 at 3:22
@Steven: Pretty cool. –  Naraen Mar 24 '11 at 3:31
Why is this going to be faster? Just wondering. Isn't that going to do the same amount of multiplications anyway? –  Juan Mar 24 '11 at 3:42
@jsoldi: PLINQ should be smart enough to process multiple multiplications in parallel at the same time on different cores. –  Steven Jeuris Mar 24 '11 at 3:44

Divide your dataset into 6 contiguous ranges. Assign each range to a different thread that is launched asynchronously to calculate the largest value. When all threads are done you'll have 6 different items - one from each range. Iterate through the 6 to find the one that is the biggest for the whole dataset.

There are further optimizations you could do.

Instead of launching .NET threads yourself, you could simply the coding using Microsoft's PLINQ library

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How would multiple threads help in this scenario? Multiple threads don't magically make a long running process faster! Only as many threads as there are CPU cores would be useful. –  Steven Jeuris Mar 24 '11 at 3:19
True. I was assuming multiple CPUs/cores. Should have stated that explicitly. –  Naraen Mar 24 '11 at 3:23
Sorry, just updated the question with this clarification: I'm already parallelizing this in that what's calling this is already heavily parallelized. –  Chadd Nervig Mar 24 '11 at 16:28

Consider using Parallel.ForEach when doing the multiplication above. You may also consider having a lookup table implemented as a Dictionary holding the Item.ID and it's total. So when the multiplication is done, you can use LINQ to sort and pluck the item with the largest total. Something like:

var sortedItems = from item in ItemsTotalsDictionary orderby item.Value descending select item.Key;

share|improve this answer
Sorry, just updated the question with this clarification: I'm already parallelizing this in that what's calling this is already heavily parallelized. –  Chadd Nervig Mar 24 '11 at 16:25

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