Richard Manning Karp
Born	January 3, 1935 Boston, Massachusetts
Nationality	American
Fields	Computer Science
Institutions	IBM University of California, Berkeley University of Washington
Doctoral students	at the Mathematics Genealogy Project
Known for	Edmonds-Karp algorithm
Notable awards	Turing Award National Medal of Science Benjamin Franklin Medal Kyoto Prize

Richard Manning Karp (born 1935) is a computer scientist and computational theorist, notable for research in the theory of algorithms, for which he received a Turing Award in 1985 and the Kyoto Prize in 2008.[1]

Biography

Born to Abraham and Rose Karp in Boston, Massachusetts, Karp has three younger siblings: Robert, David, and Carolyn. He attended Harvard University, where he received his Bachelor's degree in 1955, his Master's degree in 1956, and his Ph.D. in applied mathematics in 1959.

He started working at IBM's Thomas J. Watson Research Center. In 1968, he became Professor of Computer Science, Mathematics, and Operations Research at the University of California, Berkeley. Apart from a 4-year period as a professor at the University of Washington, he has remained at Berkeley.

Richard Karp was awarded the National Medal of Science, and was the recipient of the Harvey Prize of the Technion and the 2004 Benjamin Franklin Medal in Computer and Cognitive Science for his insights into computational complexity. In 1994 he was inducted as a Fellow of the Association for Computing Machinery. He is the recipient of several honorary degrees.

Work

He has made many other important discoveries in computer science and operations research in the area of combinatorial algorithms. His major current research interests include bioinformatics.

Edmonds-Karp algorithm

In 1971 he co-developed with Jack Edmonds the Edmonds-Karp algorithm for solving the max-flow problem on networks, and in 1972 he published a landmark paper in complexity theory, "Reducibility Among Combinatorial Problems", in which he proved 21 Problems to be NP-complete.

In 1980, along with Richard J. Lipton, Karp proved the Karp-Lipton theorem (which proves that, if SAT can be solved by Boolean circuits with a polynomial number of logic gates, then the polynomial hierarchy collapses to its second level).

In 1987 he co-developed with Michael O. Rabin the Rabin-Karp string search algorithm.

Turing Award

His citation for the Turing Award was as follows:

For his continuing contributions to the theory of algorithms including the development of efficient algorithms for network flow and other combinatorial optimization problems, the identification of polynomial-time computability with the intuitive notion of algorithmic efficiency, and, most notably, contributions to the theory of NP-completeness. Karp introduced the now standard methodology for proving problems to be NP-complete which has led to the identification of many theoretical and practical problems as being computationally difficult.

References

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External links

• ACM Crossroads magazine interview/bio of Richard Karp
• Karp's Home Page at Berkeley
• American Mathematical Society Genealogy for Richard Karp