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Shafi Goldwasser and Silvio Micali

Shafi Goldwasser and Silvio Micali, along with Ronald Rivest, lead the Information and Computer Security Group at CSAIL.

On June 15, EECS professor Shafi Goldwasser and engineering professor Silvio Micali will receive the A. M. Turing Award for their pioneering work in cryptography and complexity theory. The two developed new mechanisms for encrypting and securing information, which are widely applicable today in communication protocols, Internet transactions, and cloud computing. They also made fundamental advances in the theory of computational complexity, which focuses on classifying computational problems according to their inherent difficulty.

Goldwasser and Micali were credited with “revolutionizing the science of cryptography” and developing the gold standard for enabling secure Internet transactions. The $250,000 award, presented annually by the Association for Computing Machinery, is often described as the “Nobel Prize in computing.”

Goldwasser and Micali began collaborating as graduate students at the University of California, Berkeley, in 1980. While toying with the idea of how to securely play poker over the phone, they devised a scheme for encrypting single bits of data. From there, they proved that their scheme could be scaled up to tackle much more complex problems.

Their 1982 paper “Probabilistic Encryption” laid the framework for modern cryptography by pioneering randomized methods for encryption and introducing formal security definitions that remain in use to this day. They proved that encryption schemes must be randomized, with many possible encrypted texts corresponding to each message.

In a 1985 paper with Charles Rackoff, they introduced knowledge complexity, a concept that deals with hiding information from an adversary and offers a quantifiable measure of how much useful information can be extracted from a conversation. The paper initiated the idea of zero-knowledge proofs, in which interaction (the ability of provers and verifiers to send each other messages) and probabilism (in this case, using the result of several coin tosses to decide which messages to send) make it possible to establish a fact through a statistical argument without any additional information as to why it is true.

Past MIT recipients of the Turing Award include Barbara Liskov; Ronald L. Rivest; Manuel Blum 59, SM 61, PhD 64, who served as thesis advisor to both ­Goldwasser and Micali at UC Berkeley; Butler Lampson; Fernando Corbato, PhD 56; Ivan Sutherland, PhD 63; John McCarthy; Marvin Minsky; and Alan ­Perlis, SM 49, PhD 50.

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Credit: Jason Dorfman, CSAIL | MIT

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