A Sub-quadratic Sequence Alignment Algorithm for Unrestricted Cost Matrices
Résumé
The classical algorithm for computing the similarity between two sequences [36, 39] uses a dynamic programming matrix, and compares two strings of size n in O(n²) time. We address the challenge of computing the similarity of two strings in sub-quadratic time, for metrics which use a scoring matrix of unrestricted weights. Our algorithm applies to both local and global alignment computations.The speed-up is achieved by dividing the dynamic programming matrix into variable sized blocks, as induced by Lempel-Ziv parsing of both strings, and utilizing the inherent periodic nature of both strings. This leads to an O(n²/log n) algorithm for an input of constant alphabet size. For most texts, the time complexity is actually O(hn²/log n) where h ≤ 1 is the entropy of the text.
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