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Algorithm Analysis Dr. Bernard Chen Ph.D. University of Central Arkansas Fall 2008.

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1 Algorithm Analysis Dr. Bernard Chen Ph.D. University of Central Arkansas Fall 2008

2 Outline Big O notation Two examples Search program Max. Contiguous Subsequence

3 Why Algorithm analysis Generally, we use a computer because we need to process a large amount of data. When we run a program on large amounts of input, besides to make sure the program is correct, we must be certain that the program terminates within a reasonable amount of time.

4 What is Algorithm Analysis? Algorithm: A clearly specified finite set of instructions a computer follows to solve a problem. Algorithm analysis: a process of determining the amount of time, resource, etc. required when executing an algorithm.

5 Big O Notation Big O notation is used to capture the most dominant term in a function, and to represent the growth rate. Also called asymptotic upper bound. Ex: 100n 3 + 30000n =>O(n 3 ) 100n 3 + 2n 5 + 30000n =>O(n 5 )

6 Upper and lower bounds of a function

7 Functions in order of increasing growth rate FunctionName CConstant LogNLogarithmic Log 2 NLog-squared NLinear NlogN N2N2 Quaratic N3N3 Cubic 2n2n Exponential

8 Functions in order of increasing growth rate

9 Examples of Algorithm Running Times Min element in an array :O(n) Closest points in the plane (an X-Y coordinate), ie. Smallest distance pairs: n(n-1)/2 => O(n 2 ) Colinear points in the plane, ie. 3 points on a straight line: n(n-1)(n-2)/6 => O(n 3 )

10 Various growth rates

11 Worst-case vs. Average-case A worst-case bound is a guarantee over all inputs of size N. In an average-case bound, the running time is measured as an average over all of the possible inputs of size N. We will mainly focus on worst-case analysis, but sometimes it is useful to do average one.

12 6.6 Static Searching problem Static Searching Problem Given an integer X and an array A, return the position of X in A or an indication that it is not present. If X occurs more than once, return any occurrence. The array A is never altered.

13 Cont. Sequential search: =>O(n) Binary search (sorted data): => O(logn) Interpolation search (data must be uniform distributed): making guesses and search =>O(n) in worse case, but better than binary search on average Big-Oh performance, (impractical in general).

14 Sequential Search A sequential search steps through the data sequentially until an match is found. A sequential search is useful when the array is not sorted. A sequential search is linear O(n) (i.e. proportional to the size of input) Unsuccessful search --- n times Successful search (worst) ---n times Successful search (average) --- n/2 times

15 Binary Search If the array has been sorted, we can use binary search, which is performed from the middle of the array rather than the end. We keep track of low_end and high_end, which delimit the portion of the array in which an item, if present, must reside. If low_end is larger than high_end, we know the item is not present.

16 Binary Search 3-ways comparisons template int binarySearch(int a[], int x){ int low = 0; int high = a.size() – 1; int mid; while(low < high) { mid = (low + high) / 2; if(a[mid] < x) low = mid + 1; else if( a[mid] > x) high = mid - 1; else return mid; } return NOT_FOUND; // NOT_FOUND = -1 }//binary search using three-ways comparisons

17 The Max. Contiguous Subsequence Given (possibly negative) integers A1, A2,.., An, find (and identify the sequence corresponding to) the max. value of sum of Ak where k = i -> j. The max. contiguous sequence sum is zero if all the integer are negative. {-2, 11, -4, 13, -5, 2} =>20 {1, -3, 4, -2, -1, 6} => 7

18 Brute Force Algorithm O(n 3 ) template int maxSubSum(int a[]){ int n = a.size(); int maxSum = 0; for(int i = 0; i < n; i++){ // for each possible start point for(int j = i; j < n; j++){ // for each possible end point int thisSum = 0; for(int k = i; k <= j; k++) thisSum += a[k];//dominant term if( thisSum > maxSum){ maxSum = thisSum; seqStart = i; seqEnd = j; } return maxSum; } //A cubic maximum contiguous subsequence sum algorithm

19 O(n 3 ) Algorithm Analysis We do not need precise calculations for a Big-Oh estimate. In many cases, we can use the simple rule of multiplying the size of all the nested loops

20 O(N 2 ) algorithm An improved algorithm makes use of the fact that If we have already calculated the sum for the subsequence i, …, j-1. Then we need only one more addition to get the sum for the subsequence i, …, j. However, the cubic algorithm throws away this information. If we use this observation, we obtain an improved algorithm with the running time O(N 2 ).

21 O(N 2 ) Algorithm cont. template int maxSubsequenceSum(int a[]){ int n = a.size(); int maxSum = 0; for( int i = 0; i < n; i++){ int thisSum = 0; for( int j = i; j < n; j++){ thisSum += a[j]; if( thisSum > maxSum){ maxSum = thisSum; seqStart = i; seqEnd = j; } return maxSum; }//figure 6.5

22 O(N) Algorithm template int maxSubsequenceSum(int a[]){ int n = a.size(); int thisSum = 0, maxSum = 0; int i=0; for( int j = 0; j < n; j++){ thisSum += a[j]; if( thisSum > maxSum){ maxSum = thisSum; seqStart = i; seqEnd = j; }else if( thisSum < 0) { i = j + 1; thisSum = 0; } return maxSum; }//figure 6.8

23 Checking an Algorithm Analysis If it is possible, write codes to test your algorithm for various large n.

24 Limitations of Big-Oh Analysis Big-Oh is an estimate tool for algorithm analysis. It ignores the costs of memory access, data movements, memory allocation, etc. => hard to have a precise analysis. Ex:2nlogn vs. 1000n. Which is faster? => it depends on n

25 Common errors For nested loops, the total time is effected by the product of the loop size, for consecutive loops, it is not. Do not write expressions such as O(2N 2 ) or O(N 2 +2). Only the dominant term, with the leading constant removed is needed.

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