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Smarter Than Their Machines: Oral Histories of the Pioneers of Interactive Computing is based on oral histories archived at the Charles Babbage Institute, University of Minnesota. Included are the oral histories of some key pioneers of the computer industry selected by John that led to interactive computing, such as Richard Bloch, Gene Amdahl, Herbert W. Robinson, Sam Wyly, J.C.R. Licklider, Ivan Sutherland, Larry Roberts, Robert Kahn, Marvin Minsky, Michael Dertouzos, and Joseph Traub, as well as his own. John has woven them together via introductions that is, in essence, a personal walk down the computer industry road. John had the unique advantage of having been part of, or witness to, much of the history contained in these oral histories beginning as a co-op student at Arthur D. Little, Inc., in the 1950’s. Eventually, he would become a pioneer in his own right by creating the computer industry's first successful software products company (Cullinane Corporation). However, an added benefit of reading these oral histories is that they contain important messages for our leaders of today, at all levels, including that government, industry, and academia can accomplish great things when working together in an effective way. This is how the computer industry was created, which then led to the Internet, both totally unanticipated just 75 years ago.
Maurice Wilkes was one of the leading scientific explorers in the development of the modern digital computer. He directed the Mathematical Laboratory (later named the Computer Laboratory) at Cambridge University, where he and his team built the EDSAC, the first stored program digital computer to go into service. Wilkes describes in nontechnical detail the growth of EDSAC and its successor, EDSAC 2, his introduction of microprogramming, and the first experiments with time-sharing systems. In the 1950s, when machines were still getting larger rather than smaller, Wilkes was one of the few who foresaw a time when nonspecialists would be using computers almost universally, and he reviews his anticipatory efforts to develop simple programming systems. But his book is more than a history of computing, it also recounts the allied scientific effort when he was one of those scientists and engineers ("boffins" as they were called by the RAF) who were in the thick of it, his electronics skills enlisted in the new and exciting development of radar. In this absorbing autobiography, Wilkes is as concerned with people and places as he is with computer components and programs of development. He deftly sketches his childhood in the English midlands and his student days at Cambridge where he studied mathematical physics, and his boyhood fascination with radio matured. He conveys the excitement of sudden insights and long-sought breakthroughs against life's simpler pleasures and trials. His account brims with assessments and anecdotes of such contemporaries as Turing, Hartree, von Neumann, Aiken, and a dozen others. And with his impressions of America and Germany formed during his scientific journeys.
Traces physics professor John Vincent Atanasoff's role in the invention of the computer, describing his innovative construction of an unpatented electronic device that eased the lives of burdened scientists by performing calculations using binary numbers.
This illuminating biography reveals how the daughter of Lord Byron, Britain’s most infamous Romantic poet, became the world’s first computer programmer. Even by 1800s standards, Ada Byron Lovelace had an unusual upbringing. Her strict mother worked hard at cultivating her own role as the long-suffering ex-wife of bad-boy poet Lord Byron while raising Ada in isolation. Tutored by the brightest minds, Ada developed a hunger for mental puzzles, mathematical conundrums, and scientific discovery that kept pace with the breathtaking advances of the industrial and social revolutions taking place in Europe. At seventeen, Ada met eccentric inventor Charles Babbage, a kindred spirit. Their ensuing collaborations resulted in ideas and concepts that presaged computer programming by almost two hundred years, and Ada Lovelace is now recognized as a pioneer and prophet of the information age. Award-winning author Emily Arnold McCully opens the window on a peculiar and singular intellect, shaped — and hampered — by history, social norms, and family dysfunction. The result is a portrait that is at once remarkable and fascinating, tragic and triumphant.
This history of computing focuses not on chronology (what came first and who deserves credit for it) but on the actual architectures of the first machines that made electronic computing a practical reality. The book covers computers built in the United States, Germany, England, and Japan. It makes clear that similar concepts were often pursued simultaneously and that the early researchers explored many architectures beyond the von Neumann architecture that eventually became canonical. The contributors include not only historians but also engineers and computer pioneers. An introductory chapter describes the elements of computer architecture and explains why "being first" is even less interesting for computers than for other areas of technology. The essays contain a remarkable amount of new material, even on well-known machines, and several describe reconstructions of the historic machines. These investigations are of more than simply historical interest, for architectures designed to solve specific problems in the past may suggest new approaches to similar problems in today's machines. Contributors Titiimaea F. Ala'ilima, Lin Ping Ang, William Aspray, Friedrich L. Bauer, Andreas Brennecke, Chris P. Burton, Martin Campbell-Kelly, Paul Ceruzzi, I. Bernard Cohen, John Gustafson, Wilhelm Hopmann, Harry D. Huskey, Friedrich W. Kistermann, Thomas Lange, Michael S. Mahoney, R. B. E. Napper, Seiichi Okoma, Hartmut Petzold, Raúl Rojas, Anthony E. Sale, Robert W. Seidel, Ambros P. Speiser, Frank H. Sumner, James F. Tau, Jan Van der Spiegel, Eiiti Wada, Michael R. Williams
SECOND EDITION - 'The PC Pioneers' looks at how the personal computer and Internet were developed. It celebrates the people rather than the products - the creative clusters, dynamic duos and inspiring individuals who created and evolved the personal computer - and just what an interesting group they were! How did it all come about? Was it Bill Gates and Steve Jobs who created the personal computer industry? Certainly their PR machines might lead you to believe that this was the case. And most of the press and literature would suggest that this was largely an American evolution. The PC Pioneers looks at how in fact progress was made right around the world. The catalyst was Ukrainian, convict number N1442. He was beaten in KGB interrogations and sent to the Kolyma gulag work camp. But he made a remarkable comeback that generated such fear that the USA was moved unwittingly to fund the development of the Internet and the PC. The vital precursor to PCs was the microprocessor, first developed by Ray Holt, part Cherokee. But the project was a military secret and initially the MPU patent was granted to Gilbert Hyatt. The original designer of the mainframe was settled at law as being John Atanasoff and the French courts ruled that the personal computer was developed by Francois Gernelle. Heard of them? These are just some of the cast of over 1,000 PC innovators that are featured in 'The PC Pioneers'. It's packed cover to cover with stories of enthusiasms pursued, moments of serendipity, fortunes made and lost. It is a must-read for those who use PC products and programs and for those considering launching their own bids to become PC billionaires! The book has four sister websites - wikiPCpedia.com, thePCpioneers.com, thePCtimeline.com and thePCstory.com - these combine to create a superb resource for those studying computer science. wikiPCpedia.com is a wiki site so that any contributor can add, comment and review the material so that it stays fresh and current. 'The PC Pioneers' as a book will be regularly updated by this material to remain your essential reference source.
In early 1945, the United States military was recruiting female mathematicians for a top-secret project to help win World War II. Betty Jean Jennings (Bartik), a twenty-year-old college graduate from rural northwest Missouri, wanted an adventure, so she applied for the job. She was hired as a "computer" to calculate artillery shell trajectories for Aberdeen Proving Ground, and later joined a team of women who programmed the Electronic Numerical Integrator And Computer (ENIAC), the first successful general-purpose programmable electronic computer. In 1947, Bartik headed up a team that modified the ENIAC into the first stored-program electronic computer. Even with her talents, Bartik met obstacles in her career due to attitudes about women's roles in the workplace. Her perseverance paid off and she worked with the earliest computer pioneers and helped launch the commercial computer industry. Despite their contributions, Bartik and the other female ENIAC programmers have been largely ignored. In the only autobiography by any of the six original ENIAC programmers, Bartik tells her story, exposing myths about the computer's origin and properly crediting those behind the computing innovations that shape our daily lives.
A lucid statement of the philosophy of modular programming can be found in a 1970 textbook on the design of system programs by Gouthier and Pont [1, l Cfl0. 23], which we quote below: A well-defined segmentation of the project effort ensures system modularity. Each task fonos a separate, distinct program module. At implementation time each module and its inputs and outputs are well-defined, there is no confusion in the intended interface with other system modules. At checkout time the in tegrity of the module is tested independently; there are few sche duling problems in synchronizing the completion of several tasks before checkout can begin. Finally, the system is maintained in modular fashion; system errors and deficiencies can be traced to specific system modules, thus limiting the scope of detailed error searching. Usually nothing is said about the criteria to be used in dividing the system into modules. This paper will discuss that issue and, by means of examples, suggest some criteria which can be used in decomposing a system into modules. A Brief Status Report The major advancement in the area of modular programming has been the development of coding techniques and assemblers which (1) allow one modu1e to be written with little knowledge of the code in another module, and (2) alJow modules to be reas sembled and replaced without reassembly of the whole system.
Silicon Valley gets all the credit for digital creativity, but this account of the pre-PC world, when computing meant more than using mature consumer technology, challenges that triumphalism. The invention of the personal computer liberated users from corporate mainframes and brought computing into homes. But throughout the 1960s and 1970s a diverse group of teachers and students working together on academic computing systems conducted many of the activities we now recognize as personal and social computing. Their networks were centered in New Hampshire, Minnesota, and Illinois, but they connected far-flung users. Joy Rankin draws on detailed records to explore how users exchanged messages, programmed music and poems, fostered communities, and developed computer games like The Oregon Trail. These unsung pioneers helped shape our digital world, just as much as the inventors, garage hobbyists, and eccentric billionaires of Palo Alto. By imagining computing as an interactive commons, the early denizens of the digital realm seeded today’s debate about whether the internet should be a public utility and laid the groundwork for the concept of net neutrality. Rankin offers a radical precedent for a more democratic digital culture, and new models for the next generation of activists, educators, coders, and makers.