This museum number covers a pamphlet entitled "ADM-3 interactive display terminal operator's handbook" that dates from 1975. It also includes a spiral-bound set of sheets entitled "Assembly Instructions ADM-3 Dumb Terminal" and dated 1976. Berg owned an ADM-3 display terminal, but disposed of it when he got a better terminal for his IMSAI 8080. For the IMSAI, see 2010.0239.01.
According to the title page, this is "a brief description of SEAC on its dedication and demonstration and of the computer program at the National Bureau of Standards."
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
These are Calculator 401 and Calculator 402 for the Bell Telephone Laboratories Model V electromechanical computer. They are in one frame. Most circuitry in these two units is covered by metal doors. Calculator 401 has five rows of capacitors at the top; calculator 402 six rows.
These parts are part of a very large programmable calculator built by Bell Telephone Laboratories of New York for the U.S. Army. By the mid-twentieth century, improving communications required complicated calculations. In order to improve the clarity and range of long distance voice signals, George Stibitz, a research mathematician at Bell Labs, needed to do calculations using complex numbers. Stibitz and Bell Labs engineer Sam Williams completed a machine for this purpose in 1939–it later was called the Bell Labs Model I. With the outbreak of World War II, Stibitz and Bell Labs turned their attention to calculations related to the aiming and firing of antiaircraft guns. Stibitz proposed a new series of relay calculators that could be programmed by paper tape to do more than one kind of calculation. The BTL Model 5 was the result. The machine consisted of twenty-seven standard telephone relay racks and assorted other equipment. It had over 9000 relays, a memory capacity of thirty seven-digit decimal numbers, and took about a second to multiply two numbers together. Two copies of the machine were built. This one was used by the U.S. Army for ballistics work at Aberdeen, Maryland and then at Fort Bliss, Texas. Machines that used relays were reliable, but slower than those using vacuum tubes, and soon gave way to electronic computers.
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
This document, two 8.5 x 11 inch pages folded in half and entitled “Computers Their Application in Data Processing a Reading List,” was produced by The Public Library of the District of Columbia in 1961. The document lists titles on computing from the period 1955-1960. On the back is a list of library locations.
This is a "Technical Support Note" for the program dBase II 2.3B issued by Ashton-Tate in March of 1983. It concerns the specific topic of assembly code interfaces for that version of dBAS3II, runing on the CP/M 2.2 operating system.
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
This is the perforator for the Bell Telephone Laboratories Model V electromechanical computer. This teletype unit, used to print the paper tapes that served as input for the machine, has a gray-green metal frame. It includes a typewriter with paper tape as well as three disjoint parts, a gray box, a disc that serves as a cover for the paper tape, and a gray metal rectangular piece.
The object is part of a very large programmable calculator built by Bell Telephone Laboratories of New York for the U.S. Army. By the mid-twentieth century, improving communications required complicated calculations. In order to improve the clarity and range of long distance voice signals, George Stibitz, a research mathematician at Bell Labs, needed to do calculations using complex numbers. Stibitz and Bell Labs engineer Sam Williams completed a machine for this purpose in 1939–it later was called the Bell Labs Model I. With the outbreak of World War II, Stibitz and Bell Labs turned their attention to calculations related to the aiming and firing of antiaircraft guns. Stibitz proposed a new series of relay calculators that could be programmed by paper tape to do more than one kind of calculation. The BTL Model 5 was the result. The machine consisted of twenty-seven standard telephone relay racks and assorted other equipment. It had over 9000 relays, a memory capacity of thirty seven-digit decimal numbers, and took about a second to multiply two numbers together. Two copies of the machine were built. This one was used by the U.S. Army for ballistics work at Aberdeen, Maryland and then at Fort Bliss, Texas. Machines that used relays were reliable, but slower than those using vacuum tubes, and soon gave way to electronic computers.
This green cardboard leaflet provides data on the IBM System/360 computer. It was used by the donor, programmer David A. Studebaker. It has form number X20-1. 03-3
The computing collection contains several schematics of the computer system X-66744, created by Samuel B. Williams and George Stibitz at Bell Telephone Laboratories in New York City. Williams and Stibitz designed a series of six electromechanical relay computers between 1939 and 1949. The X-66744 was fifth in the series of computers, later called Models I through VI, which were deployed in defense efforts, including executing calculations for antiaircraft guns at federal agencies and military research hubs. This computer was one of two duplicate Model V versions created between 1946 and 1947. The Model V computers were sophisticated digital calculating machines that employed about 9,000 telephone relays for switching elements and paper tape for programming. They could perform multiple calculations using floating point numbers and contained a system for self-checking errors. The Model V represented the limits of what was possible with electromechanical relay technology for the time. Even though relays would fail intermittently, the self-checking system and ability to automatically switch to other calculations afforded the machine its reliable reputation and impressive track record for continuous around-the-clock operation.
In 1946, the x-66744 was delivered to the National Advisory Committee for Aeronautics (NACA) in Langley Field, Virginia. Then, in 1958 it was given to Texas Technical College, although according to a 1963 article in The Bell System Technical Journal, the machine suffered extensive damage in that shipment and its parts were salvaged for the other Model V computer that was in operation at Fort Bliss, Texas and later New Mexico State University at Las Cruces before portions of it were acquired by NMAH. The article erroneously mentions that the latter computer was transferred to the University of Arizona rather than New Mexico State University. See the Model V (or Model 5) Control Panel in the NMAH collection (1987.0821.01).
References:
Andrews, E.G. “Telephone Switching and the Early Bell Laboratories Computers.” The Bell System
Technical Journal 42:2 March 1963): 341 – 353.
Ceruzzi, Paul. Reckoners: The Prehistory of the Digital Computer from Relays to the Stored Program
This folded card lists codes for programming the IBM 7094 computer. It includes file control orders, hypertape control orders, data channel commands, both alphabetic and arithmetic instruction listings, status data bit assignments, input-output device addresses, and IBM card code (FORTRAN).