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Here is program for memoized version matrix chain multiplication program from Introduction to Algorithms by cormen etc

MEMOIZED-MATRIX-CHAIN(p)

1 n  length[p] - 1   
2 for i = 1 to n
3      do for j = i to n
4             do m[i, j]  = infinity   
5 return LOOKUP-CHAIN(p, 1, n)

LOOKUP-CHAIN(p, i, j)

1 if m[i,j] < infinity
2    then return m[i, j]
3 if i = j
4    then m[i, j]  0
5    else for k =  i to j - 1
6             do q = LOOKUP-CHAIN(p, i, k) +
                     LOOKUP-CHAIN(p, k + 1, j) +
                     p(i - 1)* p(k) *p(j) 
7                if q < m[i, j]
8                   then m[i, j] = q
9 return m[i, j]

It is mentioned in description as we can categorize the calls of LOOKUP-CHAIN into two types:

  1. calls in which m[i,j] = infinity, so that lines 3-9 are executed.
  2. calls in which m[i,j] is less than infinity, so that LOOKUP-CHAIN simply returns in line

There are n square calls of first type, one per table entry. All calls of the second type are made as recursive calls by calls of the first type. Whenever, a given call of LOOKUP-CHAIN makes recursive calls, it makes "n" of them. Therfore, there are n cube calls of the second type in all. Each call of the second type takes O(1) time, and each call of the first type takes O(n) time plus the spent in recursive calls. There for total time is O(n cube).

My question is

  1. What does author mean by "All calls of the second type are made as recursive calls by calls of the first type" ?
  2. How author came up with " given call of LOOKUP-CHAIN makes recursive calls, it makes "n" of them" in above sentence?

Thanks!

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1 Answer

up vote 1 down vote accepted
  1. I think they meant that if you consider the tree of recursive calls, the calls of the second type appear as leaves (no more recursion), while the calls of the first type are the inner nodes of the tree. So yes, the second type is called by the first type.

  2. The for loop on line 5 of LOOKUP-CHAIN performs at most n iterations (because 1≤i≤j≤n) so it can make up to 2n=O(n) recursive calls.

Maybe it is easier to understand the complexity of this recursive algorithm if you picture it as a tree:

  • The inner node corresponds to "type 2", there cannot be more than n² of them (because of the memoization), and they each perform O(n) operations

  • The leaves correspond to "type 1". Because there are at most n² inner nodes with at most 2n children, so you cannot have more than 2n³ leaves and each of these performs θ(1) operations

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