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The ORACLE or Oak Ridge Automatic Computer and Logical Engine, [1] an early computer built by Oak Ridge National Laboratory, was based on the IAS architecture developed by John von Neumann.
The Oak Ridge National Laboratory Review states:
[Oak Ridge National] Laboratory engineers assisted Argonne [National Laboratory] during the early 1950s in design and fabrication of the Oak Ridge Automatic Computer and Logical Engine. Its name was selected with reference to a lyrical acronym from Greek mythology—ORACLE, defined as 'a shrine in which a deity reveals hidden knowledge.'
Assembled before the development of transistors and microchips, the ORACLE was a large scientific digital computer that used vacuum tubes. It had an original storage capacity of 1024 words of 40 bits each (later doubled to 2048 words). The computer also contained a magnetic-tape auxiliary memory and an on-line cathode-tube plotter, a recorder, and a typewriter. Operational in 1954, for a time the ORACLE had the fastest speed and largest data storage capacity of any computer in the world. Problems that would have required two mathematicians with electric calculators three years to solve could be done on the ORACLE in 20 minutes.
[Alston] Householder and the Mathematics Panel used the ORACLE to analyze radiation and shielding problems. In 1957, Hezz Stringfield and Ward Foster, both of the Budget Office, also adopted the ORACLE for more mundane but equally important tasks—annual budgeting and monthly financial accounting. As one of the last 'homemade computers,' the ORACLE became obsolete by the 1960s. The Laboratory then purchased or leased its mainframe computers from commercial suppliers. From the initial applications of the ORACLE to nuclear aircraft problems, computer enthusiasm spread like lightning throughout the Laboratory, and in time, use of the machines became common in all the Laboratory's divisions. [2]
ORACLE was operational (passed acceptance test) in 1953, [3] [4] [5] [6] [7] and replaced [1] the USAF-Fairchild Computer (or "SPEC" - Special Purpose Electronic Computer). [8]
As with all computers of its era, the ORACLE computer was a one-of-a-kind machine that could not exchange programs with other computers (even other IAS machines). It used vacuum tubes, transistors, and diodes. It used a Williams tube for 2048 words of memory. Its addition time was 70 microseconds, the multiplication time was 370-590 microseconds, and the division time was 590 microseconds. These times include the storage access time, which was about 62 microseconds.
The ORACLE pre-dated input from disks and the use of punch cards with computers; it used paper tape for input and breakage of the tape was a frequent problem.
The Electronic Delay Storage Automatic Calculator (EDSAC) was an early British computer. Inspired by John von Neumann's seminal First Draft of a Report on the EDVAC, the machine was constructed by Maurice Wilkes and his team at the University of Cambridge Mathematical Laboratory in England. EDSAC was the second electronic digital stored-program computer to go into regular service.
The history of computing hardware covers the developments from early simple devices to aid calculation to modern day computers.
Oak Ridge National Laboratory (ORNL) is a federally funded research and development center in Oak Ridge, Tennessee, United States. Founded in 1943, the laboratory is now sponsored by the United States Department of Energy and administered by UT–Battelle, LLC.
EDVAC was one of the earliest electronic computers. It was built by Moore School of Electrical Engineering, Pennsylvania. Along with ORDVAC, it was a successor to the ENIAC. Unlike ENIAC, it was binary rather than decimal, and was designed to be a stored-program computer.
A stored-program computer is a computer that stores program instructions in electronically or optically accessible memory. This contrasts with systems that stored the program instructions with plugboards or similar mechanisms.
The IBM 701 Electronic Data Processing Machine, known as the Defense Calculator while in development, was IBM’s first commercial scientific computer and its first series production mainframe computer, which was announced to the public on May 21, 1952. It was invented and developed by Jerrier Haddad and Nathaniel Rochester based on the IAS machine at Princeton.
The IAS machine was the first electronic computer built at the Institute for Advanced Study (IAS) in Princeton, New Jersey. It is sometimes called the von Neumann machine, since the paper describing its design was edited by John von Neumann, a mathematics professor at both Princeton University and IAS. The computer was built under his direction, starting in 1946 and finished in 1951. The general organization is called von Neumann architecture, even though it was both conceived and implemented by others. The computer is in the collection of the Smithsonian National Museum of American History but is not currently on display.
The ORDVAC, is an early computer built by the University of Illinois for the Ballistic Research Laboratory at Aberdeen Proving Ground. It was a successor to the ENIAC. It was based on the IAS architecture developed by John von Neumann, which came to be known as the von Neumann architecture. The ORDVAC was the first computer to have a compiler. ORDVAC passed its acceptance tests on March 6, 1952, at Aberdeen Proving Ground in Maryland. Its purpose was to perform ballistic trajectory calculations for the US Military. In 1992, the Ballistic Research Laboratory became a part of the U.S. Army Research Laboratory.
The IBM 700/7000 series is a series of large-scale (mainframe) computer systems that were made by IBM through the 1950s and early 1960s. The series includes several different, incompatible processor architectures. The 700s use vacuum-tube logic and were made obsolete by the introduction of the transistorized 7000s. The 7000s, in turn, were eventually replaced with System/360, which was announced in 1964. However the 360/65, the first 360 powerful enough to replace 7000s, did not become available until November 1965. Early problems with OS/360 and the high cost of converting software kept many 7000s in service for years afterward.
The von Neumann architecture—also known as the von Neumann model or Princeton architecture—is a computer architecture based on a 1945 description by John von Neumann, and by others, in the First Draft of a Report on the EDVAC. The document describes a design architecture for an electronic digital computer with these components:
The Manchester Baby, also called the Small-Scale Experimental Machine (SSEM), was the first electronic stored-program computer. It was built at the University of Manchester by Frederic C. Williams, Tom Kilburn, and Geoff Tootill, and ran its first program on 21 June 1948.
The First Draft of a Report on the EDVAC is an incomplete 101-page document written by John von Neumann and distributed on June 30, 1945 by Herman Goldstine, security officer on the classified ENIAC project. It contains the first published description of the logical design of a computer using the stored-program concept, which has come to be known as the von Neumann architecture; the name has become controversial due to von Neumann's failure to name other contributors.
SEAC was a first-generation electronic computer, built in 1950 by the U.S. National Bureau of Standards (NBS) and was initially called the National Bureau of Standards Interim Computer, because it was a small-scale computer designed to be built quickly and put into operation while the NBS waited for more powerful computers to be completed. The team that developed SEAC was organized by Samuel N. Alexander. SEAC was demonstrated in April 1950 and was dedicated in June 1950; it is claimed to be the first fully operational stored-program electronic computer in the US.
The BRLESC I was one of the last of the first-generation electronic computers. It was built by the United States Army's Ballistic Research Laboratory (BRL) at Aberdeen Proving Ground with assistance from the National Bureau of Standards, and was designed to take over the computational workload of EDVAC and ORDVAC, which themselves were successors of ENIAC. It began operation in 1962. The Ballistic Research Laboratory became a part of the U.S. Army Research Laboratory in 1992.
The MANIAC II was a first-generation electronic computer, built in 1957 for use at Los Alamos Scientific Laboratory.
James Wallace Givens, Jr. was a mathematician and a pioneer in computer science. He is the eponym of the well-known Givens rotations. Born the son of two teachers in Alberene, Virginia, he obtained his bachelor's degree from their young alma mater, Lynchburg College in 1928 at the age of 17; his master's degree from the University of Virginia under Ben Zion Linfield in 1931 ; and his doctorate from Princeton University in 1936 under Oswald Veblen.
The National Center for Computational Sciences (NCCS) is a United States Department of Energy (DOE) Leadership Computing Facility that houses the Oak Ridge Leadership Computing Facility (OLCF), a DOE Office of Science User Facility charged with helping researchers solve challenging scientific problems of global interest with a combination of leading high-performance computing (HPC) resources and international expertise in scientific computing.
The IBM Naval Ordnance Research Calculator (NORC) was a one-of-a-kind first-generation computer built by IBM for the United States Navy's Bureau of Ordnance. It went into service in December 1954 and was likely the most powerful computer at the time. The Naval Ordnance Research Calculator (NORC), was built at the Watson Scientific Computing Laboratory under the direction of Wallace Eckert.
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Philco was one of the pioneers of transistorized computers. After the company developed the surface barrier transistor, which was much faster than previous point-contact types, it was awarded contracts for military and government computers. Commercialized derivatives of some of these designs became successful business and scientific computers. The TRANSAC Model S-1000 was released as a scientific computer. The TRANSAC S-2000 mainframe computer system was first produced in 1958, and a family of compatible machines, with increasing performance, was released over the next several years.
In 1947, Weinberg created a Mathematics and Computing Section within the Physics Division under the direction of Alston Householder, a mathematical biophysicist from the University of Chicago, who in 1948 converted the section into an independent Mathematics Panel to manage the Laboratory's acquisition of computers. [...] Before 1948, complex, multifaceted computations at the Y-12 and K-25 plants were done on electric calculators and card programming machines. Because of its participation in the nuclear aircraft project, the Laboratory obtained a matrix multiplier to solve linear equations. At the Laboratory's urging, the AEC also leased Harvard University's early Mark I computer. Householder and Weinberg insisted that the Laboratory should also acquire its own "automatic sequencing computer" to be used by staff scientists doing difficult computations for the nuclear aircraft project. The computer, they contended, could also serve to educate university faculty and researchers visiting the Laboratory. When purchased, it became the first electronic digital computer in the South. [...] Householder and the Laboratory's leadership were familiar with the pioneering work of Wigner's friend, John von Neumann, who had pursued experimental computer development near the end of the war for the Navy. Admiral Lewis Strauss thought the Navy needed computers to aid in weather forecasting, vital to ships at sea. With his urging, the Navy in 1946 sponsored fabrication of the first von Neumann digital computer at Princeton University. After considering Raytheon and other commercial computers, the Laboratory and Argonne National Laboratory decided to build their own von Neumann-type computers, tailored specifically to solve nuclear physics problems. Laboratory engineers assisted Argonne during the early 1950s in design and fabrication of the Oak Ridge Automatic Computer and Logical Engine. Its name was selected with reference to a lyrical acronym from Greek mythology—ORACLE, defined as 'a shrine in which a deity reveals hidden knowledge.' [...] Assembled before the development of transistors and microchips, the ORACLE was a large scientific digital computer that used vacuum tubes. It had an original storage capacity of 1024 words of 40 bits each (later doubled to 2048 words). The computer also contained a magnetic-tape auxiliary memory and an on-line cathode-tube plotter, a recorder, and a typewriter. Operational in 1954, for a time the ORACLE had the fastest speed and largest data storage capacity of any computer in the world. Problems that would have required two mathematicians with electric calculators three years to solve could be done on the ORACLE in 20 minutes. [...]Householder and the Mathematics Panel used the ORACLE to analyze radiation and shielding problems. In 1957, Hezz Stringfield and Ward Foster, both of the Budget Office, also adopted the ORACLE for more mundane but equally important tasks—annual budgeting and monthly financial accounting. As one of the last 'homemade computers,' the ORACLE became obsolete by the 1960s. The Laboratory then purchased or leased its mainframe computers from commercial suppliers. From the initial applications of the ORACLE to nuclear aircraft problems, computer enthusiasm spread like lightning throughout the Laboratory, and in time, use of the machines became common in all the Laboratory's divisions.
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