The Honeywell Level 6 was a line of 16-bit minicomputers, later upgraded to 32-bit, manufactured by Honeywell, Inc. from the mid 1970s. [1] Honeywell literature for Models 6/06, 6/34 and 6/36 say "Series 60 (Level 6)". [2] In 1979 the Level 6 was renamed the DPS 6, subsequently DPS 6 Plus and finally DPS 6000.
As initially introduced the Level 6 consisted of three models: the 6/06, the 6/34, and the 6/36. The CPU featured a real-time clock, a ROM bootstrap loader and 64 interrupt levels. The architecture provided a variety of addressing modes and 18 programmer-visible registers. Rack-mount and tabletop versions were available.
These systems supported up to 64 K words (KW) of MOS memory with a cycle time of 650 nanoseconds.
All three models all featured the Megabus, which was a proprietary asynchronous bus architecture.
By 1978 the line had been extended downwards with the introduction of the 6/23 and 6/33, and upwards with the 6/43, 6/47, 6/53, and 6/57. The 6/23 did not support the Megabus. The 6/33 was the new entry-level upgradable model. The other four models supported up to 1 MW (Mega Words) of memory and 26 registers. A memory management unit (MMU), optional on the 6/43 and 6/47, and standard on the 6/53 and 6/57, supported memory segmentation and four protection rings. An optional Scientific Instruction Processor (SIP) added single- and double-precision hardware floating-point instructions. The 6/47 and 6/57 were enhanced versions of the 6/43 and 6/53 respectively which added a Commercial Instruction Processor (CIP) including 30 additional instructions for character-string manipulation and decimal arithmetic. [3] Among the final developments in the line were the high-end 32-bit 6/95-1, 6/98-1 and dual processor 6/95-2 and 6/98-2 models. [4]
In the 1980s, Honeywell's Datanet 8 [5] line of communications processors, often used as front-end processors for DPS 8 mainframes, shared many hardware components with DPS 6. Another specialised derivative of the Level 6 was the Honeywell Page Printing System. [6]
In June 1986, following Honeywell Information Systems' merger with Bull, Honeywell Bull introduced the DPS 6 Plus line of symmetric multiprocessing 32-bit systems, models 410 and 420 (code named MRX - Medium Range eXtended) with up to four processors. [7] In 1987 they introduced the uniprocessor models 210 and 220 (code named LRX - Low Range eXtended), announced the HRX (High Range eXtended), and Computerworld reported that there were more than 50,000 DPS 6 systems installed worldwide. [8] The HRX was introduced as the DPS 6000 600 series. Recognising the commercial success of Unix, in 1988 Honeywell Bull introduced an 80386-based Unix co-processor for the DPS 6 Plus 400 series.
The operating system for the Level 6 was GCOS 6:
Multics is an influential early time-sharing operating system based on the concept of a single-level memory. Nathan Gregory writes that Multics "has influenced all modern operating systems since, from microcomputers to mainframes."
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The GE-600 series was a family of 36-bit mainframe computers originating in the 1960s, built by General Electric (GE). When GE left the mainframe business the line was sold to Honeywell, which built similar systems into the 1990s as the division moved to Groupe Bull and then NEC.
RT-11 is a discontinued small, low-end, single-user real-time operating system for the full line of Digital Equipment Corporation PDP-11 16-bit computers. RT-11 was first implemented in 1970. It was widely used for real-time computing systems, process control, and data acquisition across all PDP-11s. It was also used for low-cost general-use computing.
Norsk Data was a minicomputer manufacturer located in Oslo, Norway. Existing from 1967 to 1998, it had its most active period from the early 1970s to the late 1980s. At the company's peak in 1987, it was the second largest company in Norway and employed over 4,500 people.
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Scientific Data Systems (SDS), was an American computer company founded in September 1961 by Max Palevsky, Arthur Rock and Robert Beck, veterans of Packard Bell Corporation and Bendix, along with eleven other computer scientists. SDS was an early adopter of integrated circuits in computer design and the first to employ silicon transistors. The company concentrated on larger scientific workload focused machines and sold many machines to NASA during the Space Race. Most machines were both fast and relatively low priced. The company was sold to Xerox in 1969, but dwindling sales due to the oil crisis of 1973–74 caused Xerox to close the division in 1975 at a loss of hundreds of millions of dollars. During the Xerox years the company was officially Xerox Data Systems (XDS), whose machines were the Xerox 500 series.
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The Honeywell System 700 is a family of discontinued 16-bit minicomputers from Honeywell, Inc..
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