قائمة الرواد في علم الحاسوب
(تم التحويل من List of pioneers in computer science)
هذا المقال يقدم قائمة من الأفراد الذين قاموا باختراقات هامة في خلق وتطوير وتخيل ما يمكن أن يكون عليه الحاسب.
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
الرواد
- لوضع القائمة في ترتيب زمني، انقر على أيقونة السهم الصغير "المتجه لأعلى" في عمود التاريخ. عمود الشخص يمكن الترتيب بمقتضاه أبجدياً.
تاريخ الإنجاز |
الشخص | الإنجاز |
---|---|---|
1977 | آدلمن، ليونارد | Ingenious contribution and making public-key cryptography useful in practice. |
1944 | إيكن، هوارد | Conceived and codesigned the Harvard Mark I. |
830~ | الخوارزمي | The term "algorithm" is derived from the algorism, the technique of performing arithmetic with Hindu–Arabic numerals popularised by al-Khwarizmi in his book On the Calculation with Hindu Numerals.[1][2][3] |
1970, 1989 | آلن، فرانسس | Developed bit vector notation and program control-flow graphs. Became the first female IBM Fellow in 1989. In 2006, she became the first female recipient of the ACM's Turing Award. |
1939 | أتناسوف، جون | Built the first electronic digital computer, the Atanasoff–Berry Computer, though it was neither programmable nor Turing-complete. |
1822, 1837 | بابدج، تشارلز | Originated the concept of a programmable general-purpose computer. Designed the Analytical Engine and built a prototype for a less powerful mechanical calculator. |
1973 | باكمن، تشارلز | Outstanding contributions to database technology.[4] |
1954, 1963 | Backus, John | Led the team that created FORTRAN (Formula Translation), the first practical high-level programming language, and he formulated the Backus–Naur form that described the formal language syntax. |
850~ | بنو موسى | The Banū Mūsā brothers wrote the Book of Ingenious Devices, where they described what appears to be the first programmable machine, an automatic flute player.[5] |
1960–1964 | باران، پول | One of two independent inventors of the concept of digital packet switching used in modern computer networking including the Internet.[6][7] Baran published a series of briefings and papers about dividing information into "message blocks" and sending it over distributed networks between 1960 and 1964.[8][9] |
1874 | Baudot, Émile | A French telegraphic engineer patents the Baudot code, the first means of digital communication.[10] The modem speed unit baud is named after him. |
1960s | Bauer, Friedrich L. | Proposed the stack for expression evaluation, with Edsger W. Dijkstra. Was influential in establishing computer science as an independent discipline of science, coined the term software engineering. Contributed to numerical analysis, fundamentals of interpretation and translation of programming languages, systematics of program development, program transformation, and cryptology. |
1953 | Bellman, Richard E. | An American applied mathematician, who introduced dynamic programming in 1953 |
2018 | Bengio, Yoshua; Hinton, Geoffrey; Lecun, Yann | Conceptual and engineering breakthroughs that have made deep neural networks a critical component of computing.[11] |
1989, 1990 | برنرز-لي، تيم | Invented World Wide Web. With Robert Cailliau, sent first HTTP communication between client and server. |
1995 | Blum, Manuel | Contributions to the foundations of computational complexity theory and its application to cryptography and program checking.[12] |
1966 | بوم، كورادو | Theorized of the concept of structured programming. |
1847, 1854 | بول، جورج | Formalized Boolean algebra, the basis for digital logic and computer science. |
1947 | Booth, Kathleen | Invented the first assembly language. |
1969, 1978 | Brinch Hansen, Per | Developed the RC 4000 multiprogramming system which introduced the concept of an operating system kernel and the separation of policy and mechanism, effectively the first microkernel architecture.[13] Co-developed the monitor with Tony Hoare, and created the first monitor implementation.[14] Implemented the first form of remote procedure call in the RC 4000,[13] and was first to propose remote procedure calls as a structuring concept for distributed computing.[15] |
1959, 1995 | Brooks, Fred | Manager of IBM System/360 and OS/360 projects; author of The Mythical Man-Month. |
1908 | Brouwer, Luitzen Egbertus Jan | Founded intuitionistic logic which later came to prevalent use in proof assistants. |
1954 | Burks, Arthur | Proposed Reverse Polish Notation with Don Warren and Jesse Wright, a notation later independently reinvented by Friedrich L. Bauer and Edsger W. Dijkstra for use with stacks. |
1930 | بوش، ڤانيڤار | Analogue computing pioneer. Originator of the Memex concept, which led to the development of Hypertext. |
1951 | Caminer, David | With John Pinkerton, developed the LEO computer, the first business computer, for J. Lyons and Co |
2019 | Catmull, Edwin | For fundamental contributions to 3-D computer graphics, and the revolutionary impact of these techniques on computer-generated imagery (CGI) in filmmaking and other applications |
1978 | Cerf, Vint | With Bob Kahn, designed the Transmission Control Protocol and Internet Protocol (TCP/IP), the primary data communication protocols of the Internet and other computer networks. |
1956 | Chomsky, Noam | Made contributions to computer science with his work in linguistics. He developed Chomsky hierarchy, a discovery which has directly impacted programming language theory and other branches of computer science. |
1936 | Church, Alonzo | Made fundamental contributions to theoretical computer science, specifically in the development of computability theory in the form of lambda calculus. Independently of Alan Turing, he formulated what is now known as Church-Turing Thesis and proved that first-order logic is undecidable. |
1962 | Clark, Wesley A. | Designed LINC, the first functional computer scaled down and priced for the individual user. Put in service in 1963, many of its features are seen as prototypes of what were to be essential elements of personal computers. |
1981 | Clarke, Edmund M. | Developed model checking and formal verification of software and hardware together with E. Allen Emerson. |
1987 | Cocke, John | Significant contributions in the design and theory of compilers, the architecture of large systems and the development of reduced instruction set computers (RISC). |
1970 | Codd, Edgar F. | Proposed and formalized the relational model of data management, the theoretical basis of relational databases. |
1971 | Conway, Lynn | Superscalar architecture with multiple-issue out-of-order dynamic instruction scheduling. |
1967 | Cook, Stephen | Formalized the notion of NP-completeness, inspiring a great deal of research in computational complexity theory. |
1965 | Cooley, James | With John W. Tukey, created the fast Fourier transform. |
1989 | Corbató, Fernando J. | Pioneering work organizing the concepts and leading the development of the general-purpose, large-scale, time-sharing and resource-sharing computer systems, CTSS and Multics. |
1964 – 1996 | Cray, Seymour | Designed a series of computers that were the fastest in the world for decades, and founded Cray Research which built many of these machines. Called "the father of supercomputing", Cray has been credited with creating the supercomputer industry. |
1978, 1993 | Cutler, David N. | Major pioneer of operating systems design through his work at Digital Equipment Corporation and Microsoft, where he was the lead engineer of the VMS and Windows NT kernels, respectively. |
1962 | Dahl, Ole-Johan | With Kristen Nygaard, invented the proto-object oriented language SIMULA. |
1965 | Davies, Donald | One of two independent inventors of the concept of digital packet switching used in modern computer networking including the Internet.[6][16] Davies conceived of and named the concept for data communication networks in 1965 and 1966.[17][18] Many of the wide-area packet-switched networks built in the 1970s, including the ARPANET, were similar "in nearly all respects" to his original 1965 design.[19] |
1976 | Diffie, Whitfield | Fundamental contributions to modern cryptography. Diffie and Hellman's groundbreaking 1976 paper, "New Directions in Cryptography,"[20] introduced the ideas of public-key cryptography and digital signatures, which are the foundation for most regularly-used security protocols on the Internet today.[21] |
1968 | Dijkstra, Edsger | Made advances in algorithms, pioneered and coined the term structured programming, invented the semaphore, and famously suggested that the GOTO statement should be considered harmful. |
1918 | Eccles, William and Jordan, Frank Wilfred | British physicists patent the Eccles–Jordan trigger circuit.[22] The so-called bistable flip-flop, this circuit is a building block of all digital memory cells. Built from Vacuum tubes, their concept was essential for the success of the Colossus codebreaking computer. |
1943, 1951 | Eckert, J. Presper | With John Mauchly, designed and built the ENIAC, the first modern (all electronic, Turing-complete) computer, and the UNIVAC I, the first commercially available computer. |
1981 | Emerson, E. Allen | Developed model checking and formal verification of software and hardware together with Edmund M. Clarke. |
1963 | Engelbart, Douglas | Best known for inventing the computer mouse (in a joint effort with Bill English); as a pioneer of human–computer interaction whose Augment team developed hypertext, networked computers, and precursors to GUIs. |
1971 | Faggin, Federico | Designed the first commercial microprocessor (Intel 4004). |
1994 | Feigenbaum, Edward | Pioneering the design and construction of large scale artificial intelligence systems, demonstrating the practical importance and potential commercial impact of artificial intelligence technology.[23] |
1974 | Feinler, Elizabeth | Her team defined a simple text file format for Internet host names. The list evolved into the Domain Name System and her group became the naming authority for the top-level domains of .mil, .gov, .edu, .org, and .com. |
1943 | Flowers, Tommy | Designed and built the Mark 1 and the ten improved Mark 2 Colossus computers, the world's first programmable, digital, electronic, computing devices. |
1978 | Floyd, Robert W. | Having a clear influence on methodologies for the creation of efficient and reliable software, and helping to found the following important subfields of computer science: the theory of parsing, the semantics of programming languages, automatic program verification, automatic program synthesis, and analysis of algorithms.[24] |
1994 | فلويد، سالي | Founded the field of Active Queue Management and co-invented Random Early Detection which is used in almost all Internet routers. |
1879 | Frege, Gottlob | Extended Aristotelian logic with first-order predicate calculus, independently of Charles Sanders Peirce, a crucial precursor in computability theory. Also relevant to early work on artificial intelligence, logic programming. |
1985 | Furber, Stephen Sophie Wilson |
Are known for their work on creating ARM 32-bit RISC microprocessor.[25] |
1958, 1961, 1967 | Ginsburg, Seymour | Proved "don't-care" circuit minimization does not necessarily yield optimal results, proved that the ALGOL programming language is context-free (thus linking formal language theory to the problem of compiler writing), and invented AFL Theory. |
1931 | گودل، كورت | Proved that Peano arithmetic could not be both logically consistent and complete in first-order predicate calculus. Church, Kleene, and Turing developed the foundations of computation theory based on corollaries to Gödel's work. |
1989 | Goldwasser, Shafi | Zero-knowledge proofs invented by Goldwasser, Micali and Rackoff. Goldwasser and Micali awarded the Turing Award in 2012 for this and other work. |
2011 | Graham, Susan L. | Awarded the 2009 IEEE John von Neumann Medal for "contributions to programming language design and implementation and for exemplary service to the discipline of computer science". |
1953 | Gray, Frank | Physicist and researcher at Bell Labs, developed the reflected binary code (RBC) or Gray code.[26] Gray's methodologies are used for error detection and correction in digital communication systems, such as QAM in digital subscriber line networks. |
1974, 2005 | Gray, Jim | Innovator in database systems and transaction processing implementation. |
1986, 1990 | Grosz, Barbara[undue weight? ] | Created the first computational model of discourse, which established the field of research and influenced language-processing technologies. Also developed SharedPlans model for collaboration in multi-agent systems. |
1988, 2015 | Gustafson, John | Proved the viability of parallel computing experimentally and theoretically Gustafson's Law. Developed high-efficiency formats for representing real numbers Unum and Posit. |
1971 | Hamilton, Margaret | Developed the concepts of asynchronous software, priority scheduling, end-to-end testing, and human-in-the-loop decision capability, such as priority displays which then became the foundation for ultra reliable software design. |
1950 | Hamming, Richard | Created the mathematical field of error-correcting code, Hamming code, Hamming matrix, the Hamming window, Hamming numbers, sphere-packing (or Hamming bound), and the Hamming distance.[27][28] He established concept of perfect code.[29][30] |
1956, 1958, 1974 | Händler, Wolfgang | Pioneering work on automata theory, parallel computing, artificial intelligence, man-machine interfaces and computer graphics. One of the lead architects of the de (TR 4:TR 4 (Rechner)|TR 4 (computer)|TR 4) supercomputer. Invented Händler diagrams for logic function minimization. Devised the de (Erlangen Classification System) (ECS) for parallel computers. |
2019 | Hanrahan, Pat | For fundamental contributions to 3-D computer graphics, and the revolutionary impact of these techniques on computer-generated imagery (CGI) in filmmaking and other applications |
1993 | Hartmanis, Juris | Foundations for the field of computational complexity theory.[31] |
1981, 1995, 1999 | Hejlsberg, Anders | Author of Turbo Pascal while at Borland, the chief architect of Delphi, and designer and lead architect of C# at Microsoft. |
1976 | Hellman, Martin | Fundamental contributions to modern cryptography. Diffie and Hellman's groundbreaking 1976 paper, "New Directions in Cryptography,"[20] introduced the ideas of public-key cryptography and digital signatures, which are the foundation for most regularly-used security protocols on the Internet today.[21] |
2017 | هنسي، جون | For pioneering a systematic, quantitative approach to the design and evaluation of computer architectures with enduring impact on the microprocessor industry. |
2008, 2012, 2018 | هنتون، جفري | Popularized and enabled the use of artificial neural networks and deep learning, which rank among the most successful tools in modern artificial intelligence efforts. Received the Turing Award in 2018 for conceptual and engineering breakthroughs that have made deep neural networks a critical component of computing.[11] |
1961, 1969, 1978, 1980 | Hoare, C. A. R. | Developed the formal language Communicating Sequential Processes (CSP), Hoare logic for verifying program correctness, and Quicksort. Fundamental contributions to the definition and design of programming languages. |
1968 | Holberton, Betty | Wrote the first mainframe sort merge on the Univac |
1889 | هولريث، هرمان | Widely regarded as the father of modern machine data processing. His invention of the punched card tabulating machine marks the beginning of the era of semiautomatic data processing systems. |
1986 | Hopcroft, John | Fundamental achievements in the design and analysis of algorithms and data structures. |
1952 | Hopper, Grace | Pioneered work on the necessity for high-level programming languages, which she termed automatic programming, and wrote the A-O compiler, which heavily influenced the COBOL language. |
1997 | Hsu Feng-hsiung | Work led to the creation of the Deep Thought chess computer, and the architect and the principal designer of the IBM Deep Blue chess computer which defeated the reigning World Chess Champion, Garry Kasparov, in 1997. |
1952 | Huffman, David | Known for Huffman coding. |
1952 | Hurd, Cuthbert | Helped the International Business Machines Corporation develop its first general-purpose computer, the IBM 701. |
1945, 1953 | Huskey, Harry | Early computer design including contributions to the ENIAC, EDVAC, Pilot ACE, EDVAC, SEAC, SWAC, and Bendix G-15 computers. The G-15 has been described as the first personal computer, being operable by one person. |
1954, 1962 | Iverson, Kenneth | Assisted in establishing the first graduate course in computer science (at Harvard) and taught that course; invented the APL programming language and made contribution to interactive computing. |
1801 | جاكار، جوزيف ماري | Built and demonstrated the Jacquard loom, a programmable mechanized loom controlled by a tape constructed from punched cards. |
1206 | ابن الرزاز الجزري | Invented programmable machines, including programmable humanoid robots,[32] and the castle clock, an astronomical clock considered the first programmable analog computer.[33] |
1989 | Kahan, William | Fundamental contributions to numerical analysis. One of the foremost experts on floating-point computations. Kahan has dedicated himself to "making the world safe for numerical computations. |
1978 | كان، بوب | Designed the Transmission Control Protocol and Internet Protocol (TCP/IP), the primary data communication protocols of the Internet and other computer networks. |
1952, 1953 | Karnaugh, Maurice | Creator of the Karnaugh map, a variation on Edward Veitch's Veitch chart and rediscovery of Allan Marquand's much earlier logical diagram - Used for logic function minimization. |
1985 | Karp, Richard M. | 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. |
1973 | Karpinski, Jacek | Developed the first differential analyzer that used transistors, and developed one of the first machine learning algorithms for character and image recognition. Also was the inventor of one of the first minicomputers, the K-202. |
1970~ | كاي، ألان | Pioneered many of the ideas at the root of object-oriented programming languages, led the team that developed Smalltalk, and made fundamental contributions to personal computing. |
1972–1994 | Kildall, Gary | Introduced the theory of data-flow analysis in optimizing compilers (global expression optimization, Kildall's method). Worked on instruction set emulators (INTERP), found an innovative software relocation method (page boundary relocation), and laid the foundation to the concepts of binary recompilation (XLT86). Developed the first high-level programming language and compiler for microcomputers (PL/M) and the first mainstream operating system for microcomputers (CP/M). Invented the concept of a hardware abstraction layer called the BIOS, with both conceptually laying the foundation to all DOS-based operating systems on personal computers. Worked on diskette track buffering schemes, read-ahead algorithms, virtual disk drives, and file system caching. Developed the first computer interface for video disks and pioneered CD-ROM file systems, introducing the first encyclopedia for computers (The Electronic Encyclopedia). Pioneered a modular PBX communication system integrating land-lines with mobile phones (Intelliphone) and to remotely connect with home appliances. |
1957 | Kirsch, Russell Gray | Whilst working for the National Bureau of Standards (NBS), Kirsch used a recently developed image scanner to scan and store the first digital photograph.[34] His scanned photo of his three-month-old son was deemed by Life magazine as one of the "100 Photographs That Changed The World." |
1961–1970s | Kleinrock, Leonard | Pioneered the application of queueing theory to model delays in message switching networks in his Ph.D. thesis in 1961–1962, published as a book in 1964.[35] He later published several of the standard works on the subject. In the early 1970s, he applied this theory to model the performance of packet switching networks. Kleinrock played an influential role in the development of the ARPANET, the precursor to the Internet. His theoretical work on hierarchical routing in the late 1970s with student Farouk Kamoun remains critical to the operation of the Internet today. |
1936 | Kleene, Stephen Cole | Pioneered work with Alonzo Church on the Lambda Calculus that first laid down the foundations of computation theory. |
1968, 1989 | كنوث، دونالد | Wrote The Art of Computer Programming and created TeX. Coined the term "analysis of algorithms" and made major contributions to that field, including popularizing Big O notation. |
1974, 1978 | Lamport, Leslie | Formulated algorithms to solve many fundamental problems in distributed systems (e.g. the bakery algorithm). Developed the concept of a logical clock, enabling synchronization between distributed entities based on the events through which they communicate. Created LaTeX. |
1992 | Lampson, Butler W. | Development of distributed, personal computing environments and the technology for their implementation: workstations, networks, operating systems, programming systems, displays, security and document publishing. |
1951 | Lebedev, Sergei Alekseyevich | Independently designed the first electronic computer in the Soviet Union, MESM, in Kiev, Ukraine. |
1670~ | لايبنتس، گوتفريد | Made advances in symbolic logic, such as the Calculus ratiocinator, that were heavily influential on Gottlob Frege. He anticipated later developments in first-order predicate calculus, which were crucial for the theoretical foundations of computer science. |
1960 | Licklider, J. C. R. | Began the investigation of human–computer interaction, leading to many advances in computer interfaces as well as in cybernetics and artificial intelligence. |
1987 | ليسكوڤ، باربرا | Developed the Liskov substitution principle, which guarantees semantic interoperability of data types in a hierarchy. |
1300~ | ليول، رامون | Designed multiple symbolic representations machines, and pioneered notions of symbolic representation and manipulation to produce knowledge—both of which were major influences on Leibniz. |
1852 | لڤليس، إدا | An English mathematician and writer, chiefly known for her work on Charles Babbage's proposed mechanical general-purpose computer, the Analytical Engine. She was the first to recognize that the machine had applications beyond pure calculation, and created the first algorithm intended to be carried out by such a machine. As a result, she is often regarded as the first to recognize the full potential of a "computing machine" and the first computer programmer. |
1909 | Ludgate, Percy | Charles Babbage in 1843 and Percy Ludgate in 1909 designed the first two Analytical Engines in history. Ludgate's engine used multiplication as its basis (using his own discrete Irish logarithms), had the first multiplier-accumulator (MAC), was first to exploit a MAC to perform division, stored numbers as displacements of rods in shuttles, and had several other novel features, including for program control. |
1971 | Martin-Löf, Per | Published an early draft on the type theory that many proof assistants build on. |
1943, 1951 | Mauchly, John | With J. Presper Eckert, designed and built the ENIAC, the first modern (all electronic, Turing-complete) computer, and the UNIVAC I, the first commercially available computer. Also worked on BINAC (1949), EDVAC (1949), UNIVAC (1951) with Grace Hopper and Jean Bartik, to develop early stored program computers. |
1958 | مكارثي، جون | Invented LISP, a functional programming language. |
1956, 2012 | McCluskey, Edward J. | Fundamental contributions that shaped the design and testing of digital systems, including the first algorithm for digital logic synthesis, the Quine-McCluskey logic minimization method. |
1986 | Meyer, Bertrand | Developed design by contract in the guise of the Eiffel programming language. |
2012 | Micali, Silvio | For transformative work that laid the complexity-theoretic foundations for the science of cryptography and in the process pioneered new methods for efficient verification of mathematical proofs in complexity theory. |
1991 | Milner, Robin | 1) LCF, the mechanization of Scott's Logic of Computable Functions, probably the first theoretically based yet practical tool for machine assisted proof construction; 2) ML, the first language to include polymorphic type inference together with a type-safe exception-handling mechanism; 3) CCS, a general theory of concurrency. In addition, he formulated and strongly advanced full abstraction, the study of the relationship between operational and denotational semantics.[36] |
1963 | منسكي، مارڤن | Co-founder of Artificial Intelligence Lab at Massachusetts Institute of Technology, author of several texts on AI and philosophy. Critic of the perceptron.
|
1950, 1960 | Nakamatsu Yoshirō | Invented the first floppy disk at Tokyo Imperial University in 1950,[37][38] receiving a 1952 Japanese patent[39][40] and 1958 US patent for his floppy magnetic disk sheet invention,[41] and licensed to Nippon Columbia in 1960[42] and IBM in the 1970s.[39][37] |
2008 | Nakamoto, Satoshi | The anonymous creator or creators of Bitcoin, the first peer-to-peer digital currency. Nakamoto's 2008 white-paper introduced the concept of the blockchain, a database structure that allows full trust in the decentralized and distributed public transaction ledger of the cryptocurrency.[43] |
1934, 1938 | Nakashima Akira | NEC engineer introduced switching circuit theory in papers from 1934 to 1936, laying the foundations for digital circuit design, in digital computers and other areas of modern technology. |
1960 | Naur, Peter | Edited the ALGOL 60 Revised Report, introducing Backus-Naur form |
1945 | نويمان، جون فون | Formulated the von Neumann architecture upon which most modern computers are based. |
1956 | نيووِل، آلن | Together with J. C. Shaw[44] and Herbert Simon, the three co-wrote the Logic Theorist, the first true AI program, in the first list-processing language, which influenced LISP. |
1943 | Newman, Max | Instigated the production of the Colossus computers at Bletchley Park. After the second world war he established the Computing Machine Laboratory at the University of Manchester where he created the project that built the world's first stored-program computer, the Manchester Baby. |
1962 | Nygaard, Kristen | With Ole-Johan Dahl, invented the proto-object oriented language SIMULA. |
500 BC ~ | Pāṇini | Ashtadhyayi Sanskrit grammar was systematised and technical, using metarules, transformations, and recursions, a forerunner to formal language theory and basis for Panini-Backus form used to describe programming languages. |
1642 | پاسكال، بليز | Invented the mechanical calculator. |
2017 | Patterson, David | For pioneering a systematic, quantitative approach to the design and evaluation of computer architectures with enduring impact on the microprocessor industry. |
2011 | Pearl, Judea | Fundamental contributions to artificial intelligence through the development of a calculus for probabilistic and causal reasoning.[45] |
1952 | Perlis, Alan | On Project Whirlwind, member of the team that developed the ALGOL programming language, and the first recipient of the Turing Award |
1985 | Perlman, Radia | Invented the Spanning Tree Protocol (STP), which is fundamental to the operation of network bridges, while working for Digital Equipment Corporation. Has done extensive and innovative research, particularly on encryption and networking. She received the USENIX Lifetime Achievement Award in 2007, among numerous others. |
1964 | Perotto, Pier Giorgio[undue weight? ] | Computer designer for Olivetti, designed one of the first electronic programmable calculators, the Programma 101[46][47][48] |
1932 | Péter, Rózsa | Published a series of papers grounding recursion theory as a separate area of mathematical research, setting the foundation for theoretical computer science. |
1995 | Picard, Rosalind[undue weight? ] | Founded Affective Computing, and laid the foundations for giving computers skills of emotional intelligence. |
1996 | Pnueli, Amir | Introducing temporal logic into computing science and for outstanding contributions to program and systems verification.[49] |
1936 | Post, Emil L. | Developed the Post machine as a model of computation, independently of Turing. Known also for developing truth tables, the Post correspondence problem used in recursion theory as well as proving what is known as Post's theorem. |
1976 | Rabin, Michael O. | The joint paper "Finite Automata and Their Decision Problems,"[50] which introduced the idea of nondeterministic machines, which has proved to be an enormously valuable concept. Their (Scott & Rabin) classic paper has been a continuous source of inspiration for subsequent work in this field.[51][52] |
1994 | ردي، راج | Pioneering the design and construction of large scale artificial intelligence systems, demonstrating the practical importance and potential commercial impact of artificial intelligence technology.[23] |
1967–2011 | Ritchie, Dennis | With Ken Thompson, pioneered the C programming language and the Unix computer operating system at Bell Labs. |
1977 | ريڤست، رون | Ingenious contribution and making public-key cryptography useful in practice. |
1958–1960 | Rosen, Saul | Designed the software of the first transistor-based computer. Also influenced the ALGOL programming language. |
1910 | رسل، برتراند | Made contributions to computer science with his work on mathematical logic (example: truth function). Introduced the notion of type theory. He also introduced type system (along with Alfred North Whitehead) in his work, Principia Mathematica. |
1975 | Salton, Gerard[undue weight? ] | A pioneer of automatic information retrieval, who proposed the vector space model and the inverted index. |
1962 | Sammet, Jean E. | Developed the FORMAC programming language. She was also the first to write extensively about the history and categorization of programming languages in 1969, and became the first female president of the Association for Computing Machinery in 1974. |
1880, 1898 | Sanders Peirce, Charles | Proved the functional completeness of the NOR gate. Proposed the implementation of logic via electrical circuits, decades before Claude Shannon. Extended Aristotelian logic with first-order predicate calculus, independently of Gottlob Frege, a crucial precursor in computability theory. Also relevant to early work on artificial intelligence, logic programming. |
1976 | Scott, Dana | The joint paper "Finite Automata and Their Decision Problems,"[50] which introduced the idea of nondeterministic machines, which has proved to be an enormously valuable concept. Their (Scott & Rabin) classic paper has been a continuous source of inspiration for subsequent work in this field.[51][52] |
1977 | Shamir, Adi | Ingenious contribution and making public-key cryptography useful in practice. |
1937, 1948 | شانون، كلود | Founded information theory, and laid foundations for practical digital circuit design. |
1971 | Shima Masatoshi | Designed the Intel 4004, the first commercial microprocessor,[53][54] as well as the Intel 8080, Zilog Z80 and Zilog Z8000 microprocessors, and the Intel 8259, 8255, 8253, 8257 and 8251 chips.[55] |
2007 | Sifakis, Joseph | Developing model checking into a highly effective verification technology, widely adopted in the hardware and software industries.[56] |
1956, 1957 | سايمون، هربرت | A political scientist and economist who pioneered artificial intelligence. Co-creator of the Logic Theory Machine and the General Problem Solver programs. |
1953 | Spärck Jones, Karen[undue weight? ] | One of the pioneers of information retrieval and natural language processing. |
1972 | ستالمن، ريتشارد | Stallman launched the GNU Project in September 1983 to create a Unix-like computer operating system composed entirely of free software. With this, he also launched the free software movement. |
1993 | Stearns, Richard E. | Foundations for the field of computational complexity theory.[31] |
1981 | Stepanov, Alexander | Stepanov is one of the pioneers when it comes to Generic Programming and he is also the primary designer and implementer of the C++ Standard Template Library. |
1937, 1941 | Stibitz, George R. | Father of modern digital computing and remote job entry. Coined the term "digital". Discovered the reflected binary code known as Gray code. Excess-3 code is named after him as well (Stibitz code). |
1982 | Stonebraker, Michael | Researcher at MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL) who revolutionized the field of database management systems (DBMSs) and founded multiple successful database companies |
1979 | ستروستروب، بيارنه | اخترع C++ في معامل بل |
1963 | سذرلاند، آيڤان | Author of Sketchpad, the ancestor of modern computer-aided drafting (CAD) programs and one of the early examples of object-oriented programming. |
1986 | Tarjan, Robert | Fundamental achievements in the design and analysis of algorithms and data structures. |
1973 | Thacker, Charles P. | Pioneering design and realization of the Xerox Alto, the first modern personal computer, and in addition for his contributions to the Ethernet and the Tablet PC. |
1972, 1973 | Thi, André Truong Trong and François Gernelle[undue weight? ] | Invention of the Micral N, the earliest commercial, non-kit personal computer based on a microprocessor. |
1967 | Thompson, Ken | Created the Unix operating system, the B programming language, Plan 9 operating system, the first machine to achieve a Master rating in chess, and the UTF-8 encoding at Bell Labs and the Go programming language at Google. |
1993 | Toh Chai Keong | Created mobile ad hoc networking; Implemented the first working wireless ad hoc network of laptop computers in 1998 using Linux OS, Lucent WaveLan 802.11 radios, and a new distributed routing protocol transparent to TCP/UDP/IP. |
1912, 1914 | Torres Quevedo, Leonardo | In 1912, Leonardo Torres Quevedo built El Ajedrecista (the chess player), one of the first autonomous machines capable of playing chess. As opposed to the human-operated The Turk and Ajeeb, El Ajedrecista was a true automaton built to play chess without human guidance. It played an endgame with three chess pieces, automatically moving a white king and a rook to checkmate the black king moved by a human opponent. In his work Essays on Automatics, published in 1914, Torres Quevedo formulates what will be a new branch of engineering: automation and designed an electromechanical version of Babbage's Analytical machine which included floating-point arithmetic. |
1991 | تورڤالدس، لينوس | Created the first version of the Linux kernel. |
1965 | Tukey, John W. | With James Cooley, created the fast Fourier transform. He invented the term "bit".[57] |
1936 | تورنگ، آلان | Made several fundamental contributions to theoretical computer science, including the Turing machine computational model, the conceiving of the stored program concept and the designing of the high-speed ACE design. Independently of Alonzo Church, he formulated the Church-Turing thesis and proved that first-order logic is undecidable. He also explored the philosophical issues concerning artificial intelligence, proposing what is now known as Turing test. |
2010 | Valiant, Leslie | Transformative contributions to the theory of computation, including the theory of probably approximately correct (PAC) learning, the complexity of enumeration and of algebraic computation, and the theory of parallel and distributed computing. |
1875, 1875 | Verea, Ramón | Designed and patented the Verea Direct Multiplier, the first mechanical direct multiplier. |
1950~ | وانگ، آن | Made key contributions to the development of magnetic core memory. |
1955, 1960s, 1974 | Ware, Willis | Co-designer of JOHNNIAC. Chaired committee that developed the Code of Fair Information Practice and led to the Privacy Act of 1974. Vice-chair of the Privacy Protection Study Commission. |
1964, 1966 | وايزنباوم، جوسف | One of the fathers of modern artificial intelligence. Creator of the ELIZA program using natural language processing to emulate conversations with a psychologist. |
1968 | Wijngaarden, Adriaan van | Developer of the W-grammar first used in the definition of ALGOL 68 |
1949 | Wilkes, Maurice | Built the first practical stored program computer (EDSAC) to be completed and for being credited with the ideas of several high-level programming language constructs. |
1970 | Wilkinson, James H. | Research in numerical analysis to facilitate the use of the high-speed digital computer, having received special recognition for his work in computations in linear algebra and "backward" error analysis.[58] |
1970, 1978 | Wirth, Niklaus | Designed the Pascal, Modula-2 and Oberon programming languages. |
2000 | Yao, Andrew | Fundamental contributions to the theory of computation, including the complexity-based theory of pseudorandom number generation, cryptography, and communication complexity. |
1955–1958 | Zemanek, Heinz | Developed an early fully transistorized computer, the Mailüfterl. Crucial in the creation of the formal definition of the programming language PL/I. |
1938, 1945 | تسوزه، كونراد | Built the first digital freely programmable computer, the Z1. Built the first functional program-controlled computer, the Z3.[59] The Z3 was proven to be Turing-complete in 1998. Produced the world's first commercial computer, the Z4. Designed the first high-level programming language, Plankalkül. |
~ التواريخ المميزة بعلامة ~ هي تواريخ تقريبية.
انظر أيضاً
- Computer Pioneer Award
- IEEE John von Neumann Medal
- Grace Murray Hopper Award
- List of computer science awards
- List of computer scientists
- List of Internet pioneers
- List of people considered father or mother of a field § Computing
- List of Russian IT developers
- List of Women in Technology International Hall of Fame inductees
- The Man Who Invented the Computer (2010 book)
- Timeline of computing
- Turing Award
- Women in computing
المراجع
- ^ Mario Tokoro, ed. (2010). "9". e: From Understanding Principles to Solving Problems. pp. 223–224. ISBN 978-1-60750-468-9.
- ^ Cristopher Moore; Stephan Mertens (2011). The Nature of Computation. Oxford University Press. p. 36. ISBN 978-0-19-162080-5.
- ^ A. P. Ershov, Donald Ervin Knuth, ed. (1981). Algorithms in modern mathematics and computer science: proceedings, Urgench, Uzbek SSR, 16–22 September 1979. Springer. ISBN 978-3-540-11157-3.
- ^ Bachman, C. W. (1973). "The programmer as navigator". Communications of the ACM. 16 (11): 653–658. doi:10.1145/355611.362534.
- ^ Koetsier, Teun (2001). "On the prehistory of programmable machines: musical automata, looms, calculators". Mechanism and Machine Theory. 36 (5): 589–603. doi:10.1016/S0094-114X(01)00005-2.
- ^ أ ب "The real story of how the Internet became so vulnerable". Washington Post (in الإنجليزية الأمريكية). 2015-05-30. Archived from the original on 2015-05-30. Retrieved 2020-02-18.
Historians credit seminal insights to Welsh scientist Donald W. Davies and American engineer Paul Baran
- ^ "Inductee Details - Paul Baran". National Inventors Hall of Fame. Archived from the original on 6 September 2017. Retrieved 6 September 2017.
- ^ Baran, Paul (2002). "The beginnings of packet switching: some underlying concepts" (PDF). IEEE Communications Magazine (in الإنجليزية). 40 (7): 42–48. doi:10.1109/MCOM.2002.1018006. ISSN 0163-6804.
Essentially all the work was defined by 1961, and fleshed out and put into formal written form in 1962. The idea of hot potato routing dates from late 1960.
- ^ Monica, 1776 Main Street Santa; California 90401-3208. "Paul Baran and the Origins of the Internet". www.rand.org (in الإنجليزية). Retrieved 2020-02-15.
{{cite web}}
: CS1 maint: numeric names: authors list (link) - ^ "Jean-Maurice- Emile Baudot. Système de télégraphie rapide, June 1874. Brevet 103,898; Source: Archives Institut National de la Propriété Industrielle (INPI)".
- ^ أ ب Fathers of the Deep Learning Revolution Receive ACM A.M. Turing Award
- ^ "A.M. Turing Award Laureate – Manuel Blum". amturing.acm.org. Retrieved 4 November 2018.
- ^ أ ب "Per Brinch Hansen • IEEE Computer Society". Computer.org. Retrieved 2015-12-15.
- ^ Brinch Hansen, Per (April 1993). "Monitors and Concurrent Pascal: a personal history" (PDF). 2nd ACM Conference on the History of Programming Languages.
- ^ Brinch Hansen, Per (November 1978). "Distributed processes: a concurrent programming concept" (PDF). Communications of the ACM. 21 (11): 934–941. CiteSeerX 10.1.1.107.3108. doi:10.1145/359642.359651. S2CID 11610744.
- ^ "Inductee Details - Donald Watts Davies". National Inventors Hall of Fame. Archived from the original on 6 September 2017. Retrieved 6 September 2017.
- ^ Roberts, Dr. Lawrence G. (November 1978). "The Evolution of Packet Switching". Archived from the original on 2016-03-24. Retrieved 5 September 2017.
Almost immediately after the 1965 meeting, Donald Davies conceived of the details of a store-and-forward packet switching system
; Roberts, Dr. Lawrence G. (May 1995). "The ARPANET & Computer Networks". Archived from the original on 2016-03-24. Retrieved 13 April 2016.Then in June 1966, Davies wrote a second internal paper, "Proposal for a Digital Communication Network" In which he coined the word packet,- a small sub part of the message the user wants to send, and also introduced the concept of an "Interface computer" to sit between the user equipment and the packet network.
- ^ Donald Davies (2001), "A Historical Study of the Beginnings of Packet Switching", Computer Journal, British Computer Society, http://comjnl.oxfordjournals.org/content/44/3/152.extract[dead link]
- ^ Roberts, Dr. Lawrence G. (November 1978). "The Evolution of Packet Switching" (PDF). IEEE Invited Paper. Retrieved 2017-09-17.
In nearly all respects, Davies' original proposal, developed in late 1965, was similar to the actual networks being built today.
- ^ أ ب Diffie, W.; Hellman, M. (1976). "New directions in cryptography" (PDF). IEEE Transactions on Information Theory. 22 (6): 644–654. CiteSeerX 10.1.1.37.9720. doi:10.1109/TIT.1976.1055638.
- ^ أ ب "Cryptography Pioneers Receive 2015 ACM A.M. Turing Award". ACM.
- ^ William Henry Eccles and Frank Wilfred Jordan, "Improvements in ionic relays" British patent number: GB 148582 (filed: 1918-06-21; published: 1920-08-05). Available on-line at: http://v3.espacenet.com/origdoc?DB=EPODOC&IDX=GB148582&F=0&QPN=GB148582 .
- ^ أ ب Reddy, R. (1996). "To dream the possible dream". Communications of the ACM. 39 (5): 105–112. doi:10.1145/229459.233436.
- ^ Floyd, R. W. (1979). "The paradigms of programming". Communications of the ACM. 22 (8): 455–460. doi:10.1145/359138.359140.
- ^ "Computer History Museum | Fellow Awards – Steve Furber". Archived from the original on 2013-04-02.
- ^ Gray, Frank (1953-03-17). "Pulse code communication" (PDF). U.S. patent no. 2,632,058
- ^ Morgan 1998, pp. 973–975.
- ^ Hamming 1950, pp. 147–160.
- ^ Ling & Xing 2004, pp. 82–88.
- ^ Pless 1982, pp. 21–24.
- ^ أ ب Stearns, R. E. (1994). "Turing Award lecture: It's time to reconsider time". Communications of the ACM. 37 (11): 95–99. doi:10.1145/188280.188379.
- ^ "articles58". Shef.ac.uk. 29 June 2007. Archived from the original on 29 June 2007. Retrieved 25 October 2017.
- ^ "Ancient Discoveries, Episode 11: Ancient Robots". History Channel. Retrieved 2008-09-06.قالب:Dead Youtube links
- ^ Kirsch, Russell A., Earliest Image Processing, National Institute of Standards and Technology, http://museum.nist.gov/panels/seac/EARLIEST.HTM
- ^ Kleinrock, Leonard (1961), "Information flow in large communication nets", RLE Quarterly Progress Report (1)
- ^ Milner, R. (1993). "Elements of interaction: Turing award lecture". Communications of the ACM. 36: 78–89. doi:10.1145/151233.151240.
- ^ أ ب G. W. A. Dummer (1997), Electronic Inventions and Discoveries, page 164, Institute of Physics
- ^ Valerie-Anne Giscard d'Estaing (1990), The Book of Inventions and Discoveries, page 124, Queen Anne Press
- ^ أ ب Lazarus, David (April 10, 1995). "'Japan's Edison' Is Country's Gadget King : Japanese Inventor Holds Record for Patent". The New York Times. Retrieved 2010-12-21.
- ^ YOSHIRO NAKAMATSU – THE THOMAS EDISON OF JAPAN, Stellarix Consultancy Services, 2015
- ^ Magnetic record sheet, Patent US3131937
- ^ Graphic Arts Japan, Volume 2 (1960), pages 20–22
- ^ Nakamoto, Satoshi (24 May 2009). ""Bitcoin: A Peer-to-Peer Electronic Cash System" (PDF)" (PDF). bitcoin.org.
- ^ Fred Joseph Gruenberger, The History of the JOHNNIAC, RAND Memorandum 5654
- ^ "Judea Pearl". ACM.
- ^ "Olivetti Programma 101 Electronic Calculator". The Old Calculator Web Museum.
technically, the machine was a programmable calculator, not a computer.
- ^ "2008/107/1 Computer, Programma 101, and documents (3), plastic / metal / paper / electronic components, hardware architect Pier Giorgio Perotto, designed by Mario Bellini, made by Olivetti, Italy, 1965–1971". www.powerhousemuseum.com (in الإنجليزية). Retrieved 2016-03-20.
- ^ "Olivetti Programma 101 Electronic Calculator". The Old Calculator Web Museum.
It appears that the Mathatronics Mathatron calculator preceeded [ك] the Programma 101 to market.
- ^ "A.M. Turing Award Laureate – Amir Pnueli". amturing.acm.org. Retrieved 4 November 2018.
- ^ أ ب Rabin, M. O.; Scott, D. (1959). "Finite Automata and Their Decision Problems". IBM Journal of Research and Development. 3 (2): 114. doi:10.1147/rd.32.0114. S2CID 3160330.
- ^ أ ب Rabin, M. O. (1977). "Complexity of computations". Communications of the ACM. 20 (9): 625–633. doi:10.1145/359810.359816.
- ^ أ ب Scott, D. S. (1977). "Logic and programming languages". Communications of the ACM. 20 (9): 634–641. doi:10.1145/359810.359826.
- ^ Nigel Tout. "The Busicom 141-PF calculator and the Intel 4004 microprocessor". Retrieved 2009-11-15.
- ^ Federico Faggin, The Making of the First Microprocessor, IEEE Solid-State Circuits Magazine, Winter 2009, IEEE Xplore
- ^ Japan, Information Processing Society of. "Shima Masatoshi-Computer Museum". museum.ipsj.or.jp. Retrieved 25 October 2017.
- ^ 2007 Turing Award Winners Announced
- ^ Claude Shannon (1948). "Bell System Technical Journal". Bell System Technical Journal.
- ^ Wilkinson, J. H. (1971). "Some Comments from a Numerical Analyst". Journal of the ACM. 18 (2): 137–147. doi:10.1145/321637.321638. S2CID 37748083.
- ^ Copeland, B. Jack (25 October 2017). Zalta, Edward N. (ed.). The Stanford Encyclopedia of Philosophy. Metaphysics Research Lab, Stanford University. Retrieved 25 October 2017 – via Stanford Encyclopedia of Philosophy.
المصادر
- Hamming, Richard W. (1950). "Error detecting and error correcting codes" (PDF). Bell System Technical Journal. 29 (2): 147–160. doi:10.1002/j.1538-7305.1950.tb00463.x. MR 0035935. Archived from the original (PDF) on May 25, 2006.
- Ling, San; Xing, Chaoping (2004). Coding Theory: a First Course. Cambridge: Cambridge University Press. ISBN 978-0-521-82191-9.
- Pless, Vera (1982). Introduction to the Theory of Error-Correcting Codes. New York: Wiley. ISBN 978-0-471-08684-0.
- Morgan, Samuel P. (September 1998). "Richard Wesley Hamming (1915–1998)" (PDF). Notices of the AMS. 45 (8): 972–977. ISSN 0002-9920. Retrieved 2014-08-30.