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Ed Fredkin working on PDP-1, c. 1960
|Born||October 2, 1934|
Los Angeles, California, US
|Alma mater||California Institute of Technology|
|Known for||Fredkin gate, Trie data structure|
|Awards||Dickson Prize in Science 1984|
|Fields||Computer science, physics, business|
|Institutions||Massachusetts Institute of Technology (MIT) |
Carnegie Mellon University (CMU)
Capital Technologies, Inc.
Fredkin's primary contributions include work on reversible computing and cellular automata. While Konrad Zuse's book, Calculating Space (1969), mentioned the importance of reversible computation, the Fredkin gate represented the essential breakthrough. In recent work, he uses the term digital philosophy (DP).
During his career, Fredkin was a professor of computer science at the Massachusetts Institute of Technology, was a Fairchild Distinguished Scholar at Caltech, and was Research Professor of Physics at Boston University.
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Fredkin has worked with a number of companies in the computer field and has held academic positions at a number of universities. He is a computer programmer, a pilot, an advisor to businesses and governments, and a physicist. His main interests concern digital computer-like models of basic processes in physics.
Fredkin's initial focus was physics; however, he became involved with computers in 1956 when he was sent by the Air Force, where he had trained as a jet pilot, to the MIT Lincoln Laboratory. On completing his service in 1958, Fredkin was hired by J. C. R. Licklider to work at the research firm, Bolt Beranek & Newman (BBN). After seeing the PDP-1 computer prototype at the Eastern Joint Computer Conference in Boston, in December 1959, Fredkin recommended that BBN purchase the very first PDP-1 to support research projects at BBN. The new hardware came with no software whatsoever.
Fredkin wrote a PDP-1 assembler called FRAP (Free of Rules Assembly Program, also sometimes called Fredkin's Assembly Program), and its first operating system (OS). He organized and founded a user group called DECUS, and he participated in early projects. Working with Ben Gurley, the designer of the PDP-1, Fredkin designed significant modifications to the hardware to support time-sharing via the BBN Time-Sharing System. He invented and designed the first modern interrupt system, which Digital called the "Sequence Break". He went on to become a contributor in the field of Artificial Intelligence (AI).
In 1968, Fredkin returned to academia, starting at the Massachusetts Institute of Technology (MIT) as a full professor. From 1971 to 1974, Fredkin was the Director of Project MAC at MIT. (Project MAC was renamed the MIT Laboratory for Computer Science in 1976.) He spent a year at Caltech as a Fairchild Distinguished Scholar, working with Richard Feynman, and was a Professor of Physics at Boston University for 6 years.
More recently, Fredkin has been a Distinguished Career Professor of Computer Science at Carnegie Mellon University (CMU). and also a Visiting Scientist at MIT Media Laboratory. He is currently[when?] associated with CMU.
Fredkin founded Information International Inc. in 1961, and has served as the founder or CEO of a diverse set of companies, including Information International, Three Rivers Computer Corporation, and New England Television Corporation (owner of Boston's then CBS affiliate, WNEV, channel 7), The Reliable Water Company (manufacturer of advanced sea water desalination plants).
Fredkin has been broadly interested in computation: hardware and software. He is the inventor of the trie data structure, radio transponders for vehicle identification, the concept of computer navigation for automobiles, the Fredkin gate, and the Billiard-Ball Computer Model for reversible computing. He has also been involved in computer vision, chess, and other areas of Artificial Intelligence research.
Fredkin also worked at the intersection of theoretical issues in the physics of computation and computational models of physics. He invented the SALT Cellular Automata family. Dan Miller designed and programmed the Busy Boxes implementation of Salt, with assistance from Suresh Kumar Devanathan. The early SALT models are 2+1 dimensional quasi-physical, reversible, universal cellular automata, that are 2nd order in time and that follow rules that model CPT reversibility.(Miller & Fredkin 2005) harv error: no target: CITEREFMillerFredkin2005 (help).
Fredkin has also had an association with Carnegie Mellon for a number of years. His current academic interests are in the area digital mechanics, which is the study of discrete models of fundamental process in Physics.
Digital philosophy (DP) is one type of digital physics/pancomputationalism, a school of philosophy which claims that all the physical processes of nature are forms of computation or information processing at the most fundamental level of reality. Pancomputationalism is related to several larger schools of philosophy: atomism, determinism, mechanism, monism, naturalism, philosophical realism, reductionism, and scientific empiricism.
Pancomputationalists believe that biology reduces to chemistry which reduces to physics which reduces to the computation of information. Fredkin's career and achievements have much of their motivation in digital philosophy, a particular type of pancomputationalism described in Fredkin's papers: "Introduction to Digital Philosophy", "On the Soul", "Finite Nature", "A New Cosmogony", and "Digital Mechanics".
In 1984, Fredkin was awarded the 'Dickson Prize in Science', which is awarded annually to the person who has been judged by Carnegie Mellon University to have made the most progress in the scientific field in the United States during that year.
In Fredkin's honor, Carnegie Mellon University has established the Fredkin professorship.
A profile of Fredkin, along with a readable explanation of some of his theories, can be found in the first part of Three Scientists and Their Gods by Robert Wright (1988). The section of the book covering Fredkin was excerpted in The Atlantic Monthly in April 1988.