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I'm always confused about how dynamic programming uses the matrix to solve a problem. I understand roughly that the matrix is used to store the results from previous subproblems, so that it can be used in later computation of a bigger problem.

But, how does one determine the dimension of the matrix, and how do we know what value each row/column of the matrix should represent? ie, is there like a generic procedure of constructing the matrix?

For example, if we're interested in making changes for S amount of money using coins of value c1,c2,....cn, what should be the dimension of the matrix, and what should each column/row represent?

Any directional guidance will help. Thank you!

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3 Answers 3

Rough steps for some kinds of DP problems:

  1. Find recursive solution

  2. If some intermediate results of recursive calls are calculated again and again - remember them and use - build a table with appropriate dimensions - it is memoization

  3. This table usually could be filled from starting cell to final (result) - cell by cell, row by row and so on...

For change problem:

  1. F(s) = F(s-c1) + F(s-c2) +...

Try to elaborate full recursive solution and determine what table is needed to store intermediate results

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This chapter explains it very well: http://www.cs.berkeley.edu/~vazirani/algorithms/chap6.pdf At page 178 it gives some approaches to identify the sub problems that allow you to apply dynamic programming.

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An array used by a DP solution is almost always based on the dimensions of the state space of the problem - that is, the valid values for each of its parameters

For example

fib[i+2] = fib[i+1] + fib[i]

Is the same as

def fib(i):
    return fib(i-1)+fib(i-2]

You can make this more apparent by implementing memoization in your recursive functions

def fib(i): 
    if( memo[i] == null ) 
         memo[i] = fib(i-1)+fib(i-2)
    return memo[i]

If your recursive function has K parameters, you'll likely need a K-dimensional matrix.

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