John Parker, founding president of Engineering Research Associates. The photograph on the wall shows one of the large wooden gliders manufactured at Parker's Northwest Aeronautical Corporation in St. Paul, later the ERA factory
Engineering Research Associates, circa 1950. John Parker's wartime Northwest Aeronautical Corporation glider factory became the first plant of ERA, surrounded by fencing because of its classified military work.
St. Paul's Midway industrial district, 1923. The ERA plant on West Minnehaha Avenue was located next to the rail yard of the Minnesota Transfer Railroad Compan, formerly the Union Stockyards (far left). University Avenue is labeled as "The Direct…
Engineering Research Associates plant number 1, circa 1955. Minnehaha Avenue runs east-west along the right side, while Prior Avenue runs north-south at the top of this view. Sperry Univac, ERA's successor, occupied these buildings until 1991.
This "ERA 1103" computer was used for analyzing wind-tunnel data at NASA Lewis Research Center in Cleveland. ERA computers were used extensively by military agencies and aerospace companies.
St. Paul was assigned the engineering for the second-generation Univac II, an expensive transistor-tube hybrid that failed in the commercial market. Here is an installation at the U.S. Navy Electronics Supply Office in Great LAkes, Illinois, 1961.
Univac NTDS system configuration, 1961. The NTDS computer was designed "to remove from the [human] operator, to the maximum practicable extent, tiring and repetitive operations in order to concentrate his effort in areas requiring judgement and…
The mammoth SAGE computer (circa 1961) required fifty-five thousand vacuum tubes. Univac engineers built a transistprized substitute for it with the NTDS system.
Control Data's debut as "CDA" on the New York Stock Exchange, March 6, 1963. From left: Edward C. Gray, NYSE vice president; William C. Norris; Robert J. Silver, specialist trader.
Manufacturing Honeywell's signature "round" thermostat, circa 1955. Honeywell created a major industrial district in South Minneapolis. The "round" thermostat was among the 150 Minnesota icons recognized by the Minnesota Historical Society.
Interior of Honeywell Relay Department, circa 1930. Precision manufacturing begun by Swiss technicians augmented the metro's high-tech industrial district.
Engineer Leonard Aske demonstrates the sensitivity of Honeywell's nine-ton spacecraaft simulation platform in 1964. Honeywell built control systems for airplanes, missiles, spacecraft, and other high-tech applications.
A joint venture between Honeywell and Raytheon resulted in the sprawling Datamatic 1000, circa 1960. The thirty-five-ton machine (with 3,600 vacuum tubes, 500 transistors, and 60,000 crystal diodes) was installed at the Baltimore & Ohio Railroad, the…
Honeywell building, Twenty-seventh Street and Fourth Avenue South, Minneapolis, circa 1955. In 1942, Honeywell expanded its nort addition to the main plant (here at far left) to ten stories. This complex can be seen today next to the Wells Fargo Home…
Honeywell's civilian-sector "literate laser" for data storage, 1967. Honeywell worked on military lasers for years, then sought publicity for its Minneapolis-based research in 1967, even before the Honeywell Project sought to convert the company to…
IBM Rochester designed and developed the Application System/ 400 family of midsize computers. Sales of these units brought hefty revenues to IBM's bottom line, including $14 billion in 1990 alone.
Blue Gene development team at IBM Rochester, circa 2004. This group was responsible for the design, development, and testing of Blue Gene and manufactured sixty-four "racks" for Lawrence Livermore National Laboratory.
Hand assembly of one "rack" of Blue Gene /L at IBM Rochester, circa 2004. Supercomputers ever since Seymour Cray's were a mix of high-tech engineering and one-at-a-time craft assembly.
Blue Gene /L at Lawrence Livermore National Laboratory was the world's fastest supercomputer for more than three years (from November 2004 until June 2008), bringing Lawrence Livermore, IBM, and Rochester significant bragging rights.
IBM Rochester first gained fame for its modern and efficient assembly line (here circa 1960) as well as its development of new lines of computers. Source: IBM.
Programming ENIAC at the Moore School. The two women working on ENIAC were cropped out for a 1946 army recruiting advertisement, in which only Corporal Irwin Goldstine (foreground) remained after the man in the back was also removed.
Military officials and men of the ENIAC team, 1946. From left: J. Presper Eckert Jr., chief engineer; J. G. Brainerd, supervisor; Sam Feltman, chief engineer for ballistics, Ordnance Department; Captain H. H. Goldstine, liaison officer; John W.…
Eckert and Mauchly's patent on ENIAC, filed June 26, 1947, was overturned in Honeywell v. Sperry Rand (1971-73); see chapter 5. This top-down view shows ENIAC's twenty accumulators and control units.
Bell relay computer Model V, circa 1947. Bell Laboratories built- and patented- a series of sophisticated relay-based computers between 1940 and 1947. Here is the room-sized installation of a fully programmable Model V. Bell's patent interferences…