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Given a enter image description here we first define two real-valued functions enter image description here and enter image description here as follows:

enter image description here
enter image description here

and we also define a value m(X) for each matrix X as follows:

enter image description here

Now given an enter image description here, we have many regions of G, denoted as enter image description here. Here, a region of G is formed by a submatrix of G that is randomly chosen from some columns and some rows of G. And our problem is to compute enter image description here as fewer operations as possible. Is there any methods like building hash table, or sorting to get the results faster? Thanks!

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For example, if G={{1,2,3},{4,5,6},{7,8,9}}, then

G_1 could be {{1,2},{7,8}}
G_2 could be {{1,3},{4,6},{7,9}}
G_3 could be {{5,6},{8,9}}

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Currently, for each G_i we need mxn comparisons to compute m(G_i). Thus, for m(G_1),...,m(G_r) there should be rxmxn comparisons. However, I can notice that G_i and G_j maybe overlapped, so there would be some other approach that is more effective. Any attention would be highly appreciated!

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Edit your question for readability or we won't read it. –  High Performance Mark Sep 5 '12 at 14:21
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I edited it for him. –  0x499602D2 Sep 5 '12 at 14:26
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How are Gs represented? Given Gi, is it directly obvious which rows and which columns of X it has? For example, does the representation of Gi say: "Gi is rows 2, 5, 7 and columns 1, 6 of X"? –  Shahbaz Sep 5 '12 at 14:36
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@David: Too bad you can't get reputation for amazing edits like this. Really helps the community. –  ereOn Sep 5 '12 at 14:40
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So the real question is, why can't we have the same features here that math.stackexchange has? –  Mr Lister Sep 5 '12 at 14:41

1 Answer 1

up vote 1 down vote accepted

Depending on how many times the min/max type data is needed, you could consider a matrix that holds min/max information in-between the matrix values, i.e. in the interstices between values.. Thus, for your example G={{1,2,3},{4,5,6},{7,8,9}} we would define a relationship matrix R sized ((mxn),(mxn),(mxn)) and having values from the set C = {-1 = less than, 0 = equals and 1 = greater than}.

R would have nine relationship pairs (n,1), (n,2) to (n,9) where each value would be a member of C. Note (n,n is defined and will equal 0). Thus, R[4,,) = (1,1,1,0,-1,-1,-1,-1,-1). Now consider any of your subsets G_1 ..., Knowing the positional relationships of a subset's members will give you offsets into R which will resolve to indexes into each R(N,,) which will return the desired relationship information directly without comparisons.

You, of course, will have to decide if the overhead in space and calculations to build R exceeds the cost of just computing what you need each time it's needed. Certain optimizations including realization that the R matrix is reflected along the major diagonal and that you could declare "equals" to be called, say, less than (meaning C has only two values) are available. Depending on the original matrix G, other optimizations can be had if it is know that a row or column is sorted.

And since some computers (mainframes, supercomputers, etc) store data into RAM in column-major order, store your dataset so that it fills in with the rows and columns transposed thus allowing column-to-column type operations (vector calculations) to actually favor the columns. Check your architecture.

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One last thought, C++ for this kind of math? Isn't this more a modern, vectorized, pipeline FORTRAN problem? –  Wes Miller Sep 5 '12 at 20:50
    
@ Wes Miller, Is there a reference for modern, vectorized, pipeline FORTRAN problem? –  John Smith Sep 9 '12 at 10:11
    
Sadly, @JohnSmith This is a fragment of a memory from a grad course of 1684 when Cray and CDC were selling like gangbusters. I suspect there are still such machines out there, but I haven't really looked for them. –  Wes Miller Sep 17 '12 at 18:13

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