Introduction to nMOS & VLSI systems design
Introduction to nMOS & VLSI systems design
Algorithms on strings, trees, and sequences: computer science and computational biology
Algorithms on strings, trees, and sequences: computer science and computational biology
Introduction to VLSI Systems
Large scale reconstruction of haplotypes from genotype data
RECOMB '03 Proceedings of the seventh annual international conference on Research in computational molecular biology
Combinatorial Approaches to Finding Subtle Signals in DNA Sequences
Proceedings of the Eighth International Conference on Intelligent Systems for Molecular Biology
A Practical Algorithm for Optimal Inference of Haplotypes from Diploid Populations
Proceedings of the Eighth International Conference on Intelligent Systems for Molecular Biology
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In 1952, the transistor was invented. In 1953, the double helix structure of DNA was discovered. These two milestones have revolutionized the respective fields of computer science and biology. Biology is now on the verge of another revolution in which computation is playing a central role.