Pairwise alignment of DNA sequencing data is a ubiquitous task in bioinformatics and typically represents a heavy computational burden. A standard approach to speed up this task is to compute sketches of the DNA reads (typically via hashing-based techniques) that allow the efficient computation of pairwise alignment scores. We propose a rate-distortion framework to study the problem of computing sketches that achieve the optimal tradeoff between sketch size and alignment estimation distortion. We consider the simple setting of i.i.d. error-free sources of length $n$ and introduce a new sketching algorithm called locational hashing. While standard approaches in the literature based on min-hashes require $B = (1/D) cdot Oleft( log n right)$ bits to achieve a distortion $D$, our proposed approach only requires $B = log^2(1/D) cdot O(1)$ bits. This can lead to significant computational savings in pairwise alignment estimation.
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