Ridge Computers

Last updated
Ridge Computers, Inc.
Industry Computer hardware
Computer software
FoundedMay 1980;44 years ago (1980-05) in Santa Clara, California, USA
Founders
  • Edward J. Basart
  • Dave Folger
  • Ron Kolb
  • Hugh Martin
  • John Sell
  • Neil C. Wilhelm
DefunctApril 1990 (1990-04)
FateDissolved
Headquarters
,
USA
ProductsRidge workstations and minicomputers
Ridge Operating System (ROS)
Number of employees
150 [3]

Ridge Computers, Inc., was an American computer manufacturer active from 1980 to 1990. The company began as a builder of deskside workstations and workgroup servers and progressed to superminicomputers. They claimed to have produced the first commercially available Reduced instruction set computer (RISC) systems. [4] [5] [6]

Contents

Company history

Ridge Computers was established in May 1980 in Santa Clara, California by six original founders, five of whom had come from Hewlett-Packard (HP), and one from Zilog. [3] [7]

The company was named for the Montebello Ridge, where two of the founders used to go cycling. [8]

Ridge's first prototype was running by autumn 1981, and entered beta testing one and a half years later in early 1983. The system was presented at the Comdex show in autumn 1983. The earliest CPUs were bit slice processors built from "Fast" ("F" infix) type 7400-series integrated circuits and Programmable Array Logic (PAL) devices. [3]

The Ridge CPU's qualification as a RISC design has been challenged due to its use of variable length instructions, multiple-cycle instruction decode, microcoded control store, and relatively rich instruction set, with over 100 instructions. [9] Other sources reaffirm the Ridge's RISC bona fides. [10] [11]

Ridge faced competition not only from Digital Equipment Corporation's popular VAX-11, but also from other early RISC adopters Celerity Computing and Pyramid Technology, the latter of which began shipping systems in March 1984. [9] [12] [13] [11] [14]

Although considered closer in configuration and capability to contemporary workstations, Ridge described their early systems as "personal mainframes". [15] [16] [3] [17] Their original target market was designers and engineers running scientific and technical applications, including computer-aided design, computer imaging and animation, and scientific research. [16] [18] [7] [19] A significant customer was Pacific Data Images, who switched from DEC VAXen to Ridge 32s, reporting a doubling of performance. [19] [20]

In the early 1980s, the French government was negotiating cooperative technology agreements between French and foreign companies. Also around this time, Jacques Stern, newly installed Director and CEO of Groupe Bull, became interested in adding RISC-based products to his company's offerings. [21] [22] Bull finalized an agreement to share technologies with both Convergent Technologies and Ridge Computers. [23] [5]

Around September 1985, Ridge named Robert J. Kunze, of Hambrecht & Quist Group and Hambrecht & Quist Venture Partners, to their Board of Directors. [24]

In the mid-1980s Ridge began to experience financial difficulties. In early 1986 the company was refinanced, receiving US$1,000,000 out of a planned US$10,000,000 from Hambrecht & Quist, and Groupe Bull. Bob O. Evans, a general partner in Hambrecht & Quist, was appointed chief executive officer. [25] [21]

In mid-1986, Ridge launched an Academic discount program in the UK similar to a program they had already established in the US. [26]

In 1987, Ridge and Apollo Computer entered into a joint marketing agreement that promoted a hybrid configuration of Apollo workstations networked to a Ridge supermini. [27] [28]

By the late 1980s Ridge realized that unless they implemented their architecture in Very Large Scale Integration (VLSI) semiconductor technology, it would become uncompetitive. While some experimental CPUs were produced using gate array technology from Fujitsu, no VLSI-based systems were shipped. [3]

In early 1988, Ridge underwent a restructuring that saw a 45% reduction in personnel, Michael Preletz installed as CEO, and a new focus on commercial sales, while delivery of the new CPU for the 5100 model was further delayed. [29] Ridge was dissolved in April 1990. [30]

Reports of the number of systems sold by Ridge Computers vary from four hundred to six hundred units. Several hundred others were manufactured and sold under license by Bull. The total system count has been estimated to have been one thousand systems. [30] [3]

Although not a product of Ridge Computers, the Cerberus multiprocessor simulator used a processor model with an instruction set architecture derived from that of the Ridge 32's CPU. [31]

People

At their peak, Ridge employed about one hundred fifty people. [3] The founders and some former employees are listed below:

Founders

Other staff

Also at Ridge in some capacity were Doug Klein, Dana Craig, and David Marlin Hanttula. [52] Klein was one of three that left Ridge to establish NCD. [34]

Products

Ridge Operating System (ROS)

Early Ridge Computers systems ran the Ridge Operating System (ROS). ROS is a message-passing operating system (OS) with inexpensive processes and virtual memory. [64] Its internal structure is significantly different from that of Unix. [15] [65] The ROS kernel and that of the related Groupe Bull SPS 9 OS were described as microkernels by the developers who worked on them. [66] [46] ROS is based on Stanford University's V-system, and Ridge's long-term goal was to provide a distributed system with full network transparency. [67]

The basic operating system comprises a small kernel, originally only 8 KB in size, which handles memory management, interprocess communications, and interrupt handling, with other functions provided by a set of server processes. The User Monitor server process presented a Unix-compatible interface to user processes, and the Directory Manager and Volume Manager emulated the Unix file system. [64] Collectively these services were called a Unix compatibility layer. [15] ROS incorporated features from both Unix System V and BSD universes. [18]

One assessment reported poor performance when running ROS in multiuser mode. [15] A paper by Basart identified issues with how ROS handled programs written for a Unix environment, particularly how the OS handled Unix's process fork and kill. Suggested improvements included moving the file system into the kernel, and revising the message primitives used by ROS. [64] Later even the founders saw ROS as a liability in the market. [3]

By 1987 Ridge began to offer a standard version of Unix that had been ported to the Ridge architecture by Bull. This operating system, called RX/V on Ridge-branded systems, eventually supplanted ROS on most Ridge models. [59] [68]

Ridge 32

The original Ridge 32 (or Ridge Thirty Two) system was announced by the third quarter of 1982. [69] It shipped with Ridge's V1 CPU design, development name Waterfall. [70] [3] This processor was partitioned into separate integer, memory management, and floating point units, each with a set of their own registers. [11] [59] Implemented in bit-slice technology, the architecture supported instruction lengths of 16, 32, and 48 bits. [71] [11]

Ridge 32C

The updated Ridge 32C was released in 1984. It could support from one to four users. [18]

Ridge 32S

The Ridge 32S was a single-user system released in 1984, slightly after the 32C. [18] It received a revised V2 CPU board set. [70]

Ridge 32/1x0, 32/3x0, 32/5x0

In 1985, Ridge released the 32/1x0 and 32/3x0 lines, which included the 32/110, 32/130, 32/310, and 32/330 models. [72] [73] The Ridge 32/530 was released in 1986. [16]

Ridge 32 Turbo RX

In mid- to late-1987, the Ridge 32 Turbo RX model replaced the 32/1x0 and 32/3x0 lines. [59] [68]

Server/RT

Ridge's Server/RT was released in March 1986. [74] [51] It was intended for hybrid networks where the Server/RT provided file and processing services to a group of IBM PC workstations.

Ridge 3200

The Ridge 3200 series was announced in May 1986, with models that could support up to 64 users. [59] The line included the Ridge 3200/90, and 3200/95. [68] These systems used the Headwall CPU. [3]

Ridge 5100

The Ridge 5100 system was announced in September 1987, and was expected to ship in February 1988. The 5100 was to use a new VLSI-based CPU. [75] [76] Ridge called the 5100 their fourth generation RISC system. [11] It was expected to support up to 128 users, and provide performance of 14 MIPS. [77]

The CPU for the 5100 was developed under the name Project Sunrise, and was to be a VLSI CPU implemented in Fujitsu gate arrays. In March 1987, Ridge announced that it had obtained financing for Sunrise. Performance of the early chips were disappointing. In December 1987, Ridge also proposed several architectural modifications that included an increase in the number of registers, the extension of addressing to 64 bits, and fixed-length instructions. The Sunrise CPU never shipped. [3] [15]

Groupe Bull

Its original agreement with Ridge, signed in April 1984, granted Bull a license to build and sell Ridge-based systems. These would be produced by Bull-SEMS, Groupe Bull's minicomputer division, at their factory in Echrollyes near Grenoble, France, and sold as the SPS 9 series. Under the terms of the agreement, Bull made a capital investment in Ridge, and received a seat on Ridge's board of directors. [3] [21] [22] [78] [79] [80] [81] [82] [83]

In October 1984, Bull acquired 11% of Ridge. Sales of the SPS 9 started in December of the same year. [84] [85]

The first models included the SPS 9/40 and SPS 9/60 running ROS. [86] [87] Later models included the SPS 9/400, SPS 9/600, SPS 9/800, and 9/830. [68] [88]

Bull did an in-house port of a version of Unix SystemV with the BSD 4.2 extensions to the Ridge architecture. They called the resulting operating system SPIX, and began selling it on their SPS 9 systems. It was sold on Ridge-branded systems as RX/V. [59] [68] [89]

By September 1987, Bull ownership of Ridge had risen to just under 20%. [59] In early 1988, Bull's remaining SPS model was renamed the DPX 5000. [89]

At the same time that Ridge was starting work on the Sunrise VLSI CPU, Bull's Research Department formed a group with Jean-Michel Pernot to develop a next-generation Ridge-compatible CPU called Aurore. The Aurore project was cancelled in March 1987, after Ridge announced that they had obtained financing for their Sunrise CPU. The porting effort that Bull faced to accommodate Ridge's proposed architectural changes in the Sunrise CPU, and concerns about the relationship between Ridge, Bull, and Ridge's compiler supplier resulted in Bull deciding to pivot away from the Ridge architecture. [15] [85]

Software and applications

Some software packages and specialized applications either developed for or hosted on Ridge and Bull-SEMS SPS 9 computers are listed below:

Related Research Articles

<span class="mw-page-title-main">IBM AIX</span> Series of Unix operating systems from IBM

AIX is a series of proprietary Unix operating systems developed and sold by IBM for several of its computer platforms.

<span class="mw-page-title-main">PA-RISC</span> Instruction set architecture by Hewlett-Packard

Precision Architecture RISC (PA-RISC) or Hewlett Packard Precision Architecture, is a general purpose computer instruction set architecture (ISA) developed by Hewlett-Packard from the 1980s until the 2000s.

<span class="mw-page-title-main">Reduced instruction set computer</span> Processor executing one instruction in minimal clock cycles

In electronics and computer science, a reduced instruction set computer (RISC) is a computer architecture designed to simplify the individual instructions given to the computer to accomplish tasks. Compared to the instructions given to a complex instruction set computer (CISC), a RISC computer might require more instructions in order to accomplish a task because the individual instructions are written in simpler code. The goal is to offset the need to process more instructions by increasing the speed of each instruction, in particular by implementing an instruction pipeline, which may be simpler to achieve given simpler instructions.

<span class="mw-page-title-main">VAX</span> Line of computers sold by Digital Equipment Corporation

VAX is a series of computers featuring a 32-bit instruction set architecture (ISA) and virtual memory that was developed and sold by Digital Equipment Corporation (DEC) in the late 20th century. The VAX-11/780, introduced October 25, 1977, was the first of a range of popular and influential computers implementing the VAX ISA. The VAX family was a huge success for DEC, with the last members arriving in the early 1990s. The VAX was succeeded by the DEC Alpha, which included several features from VAX machines to make porting from the VAX easier.

The NS32000, sometimes known as the 32k, is a series of microprocessors produced by National Semiconductor. The first member of the family came to market in 1982, briefly known as the 16032 before becoming the 32016. It was the first general-purpose microprocessor on the market that used 32-bit data internally: the Motorola 68000 had 32-bit registers and instructions to perform 32-bit arithmetic, but used a 16-bit ALU for arithmetic operations on data, and thus took twice as long to perform those arithmetic operations. However, the 32016 contained many bugs and often could not be run at its rated speed. These problems, and the presence of the otherwise similar 68000 which had been available since 1980, led to little use in the market.

The 88000 is a RISC instruction set architecture developed by Motorola during the 1980s. The MC88100 arrived on the market in 1988, some two years after the competing SPARC and MIPS. Due to the late start and extensive delays releasing the second-generation MC88110, the m88k achieved very limited success outside of the MVME platform and embedded controller environments. When Motorola joined the AIM alliance in 1991 to develop the PowerPC, further development of the 88000 ended.

<span class="mw-page-title-main">Acorn Computers</span> British computer manufacturer

Acorn Computers Ltd. was a British computer company established in Cambridge, England, in 1978. The company produced a number of computers which were especially popular in the UK, including the Acorn Electron and the Acorn Archimedes. Acorn's BBC Micro computer dominated the UK educational computer market during the 1980s.

<span class="mw-page-title-main">Apollo Computer</span> Manufacturer of Apollo/Domain workstations in the 1980s

Apollo Computer Inc., founded in 1980 in Chelmsford, Massachusetts, by William Poduska and others, developed and produced Apollo/Domain workstations in the 1980s. Along with Symbolics and Sun Microsystems, Apollo was one of the first vendors of graphical workstations in the 1980s. Like computer companies at the time and unlike manufacturers of IBM PC compatibles, Apollo produced much of its own hardware and software.

<span class="mw-page-title-main">Ultrix</span> Series of discontinued Unix operating systems by DEC

Ultrix is the brand name of Digital Equipment Corporation's (DEC) discontinued native Unix operating systems for the PDP-11, VAX, MicroVAX and DECstations.

<span class="mw-page-title-main">Zilog Z8000</span> 16-bit microprocessor

The Zilog Z8000 is a 16-bit microprocessor designed by Zilog in early 1979.

Pyramid Technology Corporation was a computer company that produced a number of RISC-based minicomputers at the upper end of the performance range. It was based in the San Francisco Bay Area of California

Convergent Technologies, Inc., was an American computer company formed by a small group of people who left Intel Corporation and Xerox PARC in 1979. Among the founders were CEO Allen Michels, VP Engineering Bob Garrow, head of marketing Kal Hubler, and operating system architect Ben Wegbreit. Convergent was primarily an OEM vendor with their computers resold by other manufacturers such as ADP, AT&T, Burroughs, Four-Phase Systems, Gould, Mohawk, Monroe Data Systems, NCR, and Prime. The company was purchased by Unisys in 1988.

<span class="mw-page-title-main">DEC PRISM</span> RISC instruction set architecture

PRISM was a 32-bit RISC instruction set architecture (ISA) developed by Digital Equipment Corporation (DEC). It was the outcome of a number of DEC research projects from the 1982–1985 time-frame, and the project was subject to continually changing requirements and planned uses that delayed its introduction. This process eventually decided to use the design for a new line of Unix workstations. The arithmetic logic unit (ALU) of the microPrism version had completed design in April 1988 and samples were fabricated, but the design of other components like the floating point unit (FPU) and memory management unit (MMU) were still not complete in the summer when DEC management decided to cancel the project in favor of MIPS-based systems. An operating system codenamed MICA was developed for the PRISM architecture, which would have served as a replacement for both VAX/VMS and ULTRIX on PRISM.

<span class="mw-page-title-main">Xerox Daybreak</span> Workstation computer (1985–1989)

Xerox Daybreak is a workstation computer marketed by Xerox from 1985 to 1989.

<span class="mw-page-title-main">RISC iX</span> Discontinued Unix operating system

RISC iX is a discontinued Unix operating system designed to run on a series of workstations based on the Acorn Archimedes microcomputer. Heavily based on 4.3BSD, it was initially completed in 1988, a year after Arthur but before RISC OS. It was introduced in the ARM2-based R140 workstation in 1989, followed up by the ARM3-based R200-series workstations in 1990.

<span class="mw-page-title-main">AMD Am29000</span> Family of RISC microprocessors and microcontrollers

The AMD Am29000, commonly shortened to 29k, is a family of 32-bit RISC microprocessors and microcontrollers developed and fabricated by Advanced Micro Devices (AMD). Based on the seminal Berkeley RISC, the 29k added a number of significant improvements. They were, for a time, the most popular RISC chips on the market, widely used in laser printers from a variety of manufacturers.

<span class="mw-page-title-main">Clipper architecture</span> 32-bit RISC-like computing architecture

The Clipper architecture is a 32-bit RISC-like instruction set architecture designed by Fairchild Semiconductor. The architecture never enjoyed much market success, and the only computer manufacturers to create major product lines using Clipper processors were Intergraph and High Level Hardware, although Opus Systems offered a product based on the Clipper as part of its Personal Mainframe range. The first processors using the Clipper architecture were designed and sold by Fairchild, but the division responsible for them was subsequently sold to Intergraph in 1987; Intergraph continued work on Clipper processors for use in its own systems.

<span class="mw-page-title-main">NEC V60</span> CISC microprocessor

The NEC V60 is a CISC microprocessor manufactured by NEC starting in 1986. Several improved versions were introduced with the same instruction set architecture (ISA), the V70 in 1987, and the V80 and AFPP in 1989. They were succeeded by the V800 product families, which is currently produced by Renesas Electronics.

<span class="mw-page-title-main">Honeywell Level 6</span> Minicomputer models

The Honeywell Level 6 was a line of 16-bit minicomputers, later upgraded to 32-bit, manufactured by Honeywell, Inc. from the mid 1970s. Honeywell literature for Models 6/06, 6/34 and 6/36 say "Series 60 ". In 1979 the Level 6 was renamed the DPS 6, subsequently DPS 6 Plus and finally DPS 6000.

The NCR/32 VLSI Processor family was a 32-bit microprocessor architecture and chipset developed by NCR Corporation in the early 1980s. Generally used in minicomputer systems, it was noteworthy for being externally microprogrammable.

References

  1. Callahan, Judith P.; Berkeley, Edmund C.; Poole VIII, Will; Macdonald, Neil D., eds. (15 October 1987). The Computer Directory and Buyers' Guide 28th Edition, 1986-87 (PDF). Vol. 36. Berkeley Enterprises Inc. p. 54.
  2. Enderle, Günter; Grave, Michel; Lillehagen, Frank, eds. (31 July 1986). Advances in Computer Graphics I. Heidelberg: Springer Berlin. p. 151. doi:10.1007/978-3-642-46514-7. ISBN   978-3-540-13804-4. S2CID   203669237.
  3. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 Crosby, Kip (Fall 1996). "Up On The Ridge: The Story of a Workstation Pioneer" (PDF). The Analytical Engine. Vol. 3, no. 4. The Computer History Association of California. pp. 13–21.
  4. Basart, E.; Folger, D. (October 1983). "Ridge 32 Architecture—A RISC variation". Proceeding of the IEEE ICCD '83. IEEE International Conference on Computer Design: VLSI in Computers. Port Chester, New York: IEEE. pp. 315–318. OSTI   5209856.
  5. 1 2 "Company Profiles — 14 Groupe Bull" (PDF). Datamation. Vol. 33, no. 191, 645 The Datamation 100. The Cahners Publishing Company, A Division of Reed Publishing USA. 15 June 1987. p. 60.
  6. 1 2 3 Takahashi, Dean (24 June 2019). "Why longtime Xbox chip architect John Sell moved to Intel". venturebeat.com.
  7. 1 2 3 Verity, John W. (September 1982). "The View today — Startup Fever is Spreading" (PDF). Datamation . Vol. 28, no. 10. pp. 180–192.
  8. S., John. "All Member Stories". www.ridgewine.com.
  9. 1 2 Colwell, Robert P.; Hitchcock III, Charles Y.; Jensen, E. Douglas; Sprunt, H. M. Brinkley; Kollar, Charles P. (September 1985). "Instruction Sets and Beyond: Computers, Complexity, and Controversy" (PDF). Computer . IEEE. pp. 8–19.
  10. Al-Ghitany, Nashat El-Khameesy (1988). "III — Reduced Instruction Set Computers (RISC): an Overview". Performance evaluation of RISC-based architectures for image processing (PhD). The Ohio State University. p. 42.
  11. 1 2 3 4 5 Aletan, Samuel O. (1 April 1992). "An overview of RISC architecture". Proceedings of the 1992 ACM/SIGAPP Symposium on Applied computing: technological challenges of the 1990's. SAC '92. Kansas City, Missouri: Association for Computing Machinery. pp. 11–20. doi:10.1145/143559.143570.
  12. Markoff, John (November 1984). "New Chips — RISC Chips". Byte . Vol. 9, no. 12. McGraw-Hill. pp. 191–206.
  13. Boursin de l'Arc, Philippe. "Histoire de l'Informatique et d'Internet". boursinp.free.fr.
  14. Manuel, Tom (3 September 1987). "Inside Technology — The Frantic Search for More Speed" (PDF). Electronics . McGraw-Hill. pp. 59–62.
  15. 1 2 3 4 5 6 Chevance, René J. (December 2004). "Ridge". Contribution à l'histoire d'Unix chez Bull [Contribution to the history of Unix at Bull](PDF) (Report) (in French).
  16. 1 2 3 Raimondi, Donna (24 February 1986). "Systems & Peripherals — Ridge offers departmental system". Computerworld . pp. 33, 38.
  17. 1 2 3 Folger, David (13–14 August 1984). The Role of Proprietary Architectures in Workstation Design (PDF). Focus Conference — "Workstations" The Evolution of an Industry. Burlington, Massachusetts: Dataquest Incorporated.
  18. 1 2 3 4 Machover, Carl; Dill, John C., eds. (August 1984). "New Products — Special Section: Engineering Workstations — Ridge introduces single-user 32-bit workstation". IEEE Computer Graphics and Applications. IEEE. p. 72.
  19. 1 2 Carlson, Wayne E. (20 June 2017). "6". Computer Graphics and Computer Animation: A Retrospective Overview. Ohio State University.
  20. "Pacific Data Images Demo '84" (PDF). Electronic Theater. SIGGRAPH '84. Minneapolis, Minnesota: Association for Computing Machinery. 23–27 July 1984. p. 9.
  21. 1 2 3 Bellec, Jean (20 February 2003). "UNIX and Bull". www.feb-patrimoine.com.
  22. 1 2 Brulé, Jean-Pierre (18 October 1993). l'Informatique Malade de l'État [Computer Sick State](PDF) (in French). Belles Lettres. pp. 139, 222. ISBN   978-2251480008. Archived from the original (PDF) on 2006-08-18.
  23. Gutmanis, Ivars (1990). "8.5.3 French Government Policies in the Advanced Materials Sector". On the advancement of science and technology among nations: the importance of government policies upon the development of advanced technology industries in five countries (PDF) (PhD). Durham University. pp. 442, 443.
  24. "Executive Changes". The New York Times . 12 September 1985. p. 2.
  25. "Bottom Lines — Ridge Receives $2 Million Funding" (PDF). Electronics . Vol. 59, no. 24. McGraw-Hill. 16 June 1986. p. 62.
  26. "News and Views — Ridge Computers: low cost scheme for universities". Bioinformatics. 2 (2): 130. 1 June 1986. doi:10.1093/bioinformatics/2.2.126.
  27. "Networking". Computerworld . 21 September 1987. p. 69.
  28. "Company Briefs". New York Times . 1 September 1987. p. 6.
  29. "Spectre at the Unix Feast: Ridge Cuts Workforce by 45%". techmonitor.ai. 15 February 1988.
  30. 1 2 Oliva, S.M. (6 August 2022). "Computer Chronicles Revisited, Part 65 — The IBM RT PC". www.smoliva.blog.
  31. Brooks III, Eugene D.; Axelrod, Timothy S.; Darmohray, Gregory A. (1–4 December 1987). "The Cerberus Multiprocessor Simulator". Proceedings of the Third SIAM Conference on Parallel Processing for Scientific Computing. PPSC 1987. Los Angeles, California. pp. 384–390.
  32. Pollack, Andrew (17 November 1985). "Hewlett Bets the Store on Spectrum". New York Times.
  33. "Ed Basart". www.linkedin.com.
  34. 1 2 3 Keefe, Patricia; Leong, Kathy Chin (29 August 1988). "X marks the sport for Carrico's new venture". Computerworld. Vol. 22, no. 35. pp. 75, 80.
  35. Pelkey, James L. (23 June 1988). "Interview of Judith (Judy) Estrin and William (Bill) Carrico" (PDF). Computer History Museum (Interview). Los Alto, California.
  36. "Industry Notes". Computerworld . 14 April 1986. p. 154.
  37. "Hugh Martin". techonomy.com.
  38. "Meet our Directors — Hugh Martin". themmrf.org.
  39. Babbage (28 May 2023). "The First 'Apple Silicon' : The Aquarius Processor Project". thechipletter.substack.com.
  40. "Our Entrepreneurial Alumni" (PDF). Measure. Hewlett Packard. July–August 1984. pp. 16–19.
  41. "Biographies — Neil C. Wilhelm" (PDF). Digital Technical Journal. Vol. 2, no. 2. Digital Equipment Corporation. Spring 1990. p. 8.
  42. "Classnotes — Sally Ahnger". DCS Alumni News. Vol. 2, no. 3. University of Illinois Alumni Association. Winter 1999. p. 18.
  43. "Judy Bruner". computerhistory.org.
  44. Annual Report 2002 (PDF) (Report). Palm. p. 16.
  45. "Bob Cook". www.linkedin.com.
  46. 1 2 "Dave Cornelius". www.linkedin.com.
  47. Smith, Mark (2022-06-01). "Meet Washington's 101 Top Founders in the Health Care Space — Dale Dell'Ario". beststartup.us.
  48. "Aprelle Deuell". www.facebook.com.
  49. 1 2 Jazayeri, Mehdi; Haden, Mike (May 1986). "Optimizing Compilers Are Here (mostly)". ACM SIGPLAN Notices. 21 (5): 61–63. doi:10.1145/14947.14951. S2CID   14280658.
  50. Franklin, Craig; Haden, Mike (8 December 2011). "Advanced Optimizing Compilers Boost Performance on TRON Specification Chip Pipelined CISC Architectures". In Sakamura, Ken (ed.). TRON Project 1989. Open-Architecture Computer Systems. Springer Tokyo. pp. 253–270. doi:10.1007/978-4-431-68102-1. ISBN   978-4-431-68104-5.
  51. 1 2 Forbes, Jim (24 March 1986). "RISC-Based File Servers Target CAD/CAM Nets". InfoWorld . p. 16.
  52. 1 2 Heirman, Don, ed. (July–September 2015). "Completed Careers — David Marlin Hanttula". IEEE Electromagnetic Compatibility Magazine. Vol. 4. IEEE. p. 92.
  53. Jazayeri, Mehdi (28 February 2005). "Mehdi Jazayeri — Curriculum Vitae" (PDF). static.aminer.org.
  54. "Mehdi Jazayeri". www.inf.usi.ch. University of Lugano.
  55. "Marjorie Kondo". www.linkedin.com.
  56. "The following is an excerpt from a 10-K SEC Filing, filed by MOLECULAR DYNAMICS INC". sec.edgar-online.com. 26 March 1998.
  57. "People and Position: Alan Blatecky Leaves SDSC Joins RENCI. CA Execs Plead Guilty. CSC's Copeland Appointed VP Of IT-ISAC". www.hpcwire.com. 16 April 2004.
  58. Raimondi, Donna (3 March 1986). "New Directions: Gambling on RISC-based Architecture". Computerworld . p. 31.
  59. 1 2 3 4 5 6 7 McLeod, Jonah (3 September 1987). "Technology to Watch — RISC to Help Ridge Move Up Into Supermini Camp" (PDF). Electronics . McGraw-Hill. pp. 70–71.
  60. 1 2 "Class Notes — 60". Cornell Alumni News. Cornell Alumni Association. May 1988. p. 54.
  61. "Michael Schulman". www.linkedin.com.
  62. "Michael Splain". www.linkedin.com.
  63. "Sun's chief technical officer promoted to vice president". sunsite.uakom.sk. August 1988.
  64. 1 2 3 Basart, Ed (11–14 November 1985). "The Ridge Operating System: High Performance Through Message-passing and Virtual Memory". Proceedings : 1st International Conference on Computer Workstations. 1st International Conference on Computer Workstations. Washington, D.C.: IEEE. pp. 134–143.
  65. Mogul, Jeffrey C.; Rashid, Richard F.; Accetta, Michael J. (November 1987). "The Packet Filter: An Efficient Mechanism for User-level Network Code" (PDF). Proceedings of the 11th Symposium on Operating Systems Principles. ACM SIGOPS. Austin, Texas: Association for Computing Machinery. pp. 39–51.
  66. "Jerome Moisand". www.linkedin.com.
  67. Meer, Veigh S. (January 1985). "After Newcastle, What? A Report on the Distributed UNIX Meeting" (PDF). Australian Unix Users Group Newsletter. Vol. 5, no. 6. Australian Unix Users Group. pp. 5–9.
  68. 1 2 3 4 5 "Ridge Computers Launches Unix System V.2-Conformant RISC-Based Machine". techmonitor.ai. 4 August 1987.
  69. Michalopoulos, Demetrios, ed. (October 1982). "New Products — System has interactive workstations for engineers". Computer. IEEE Computer Society. p. 108.
  70. 1 2 Kossow, Al (ed.). "Orphaned computers — Ridge 32 / 3200". The Minicomputer Orphanage.
  71. McDonald, John Alan; Pedersen, Jan (February 1985). Computing Environments for Data Analysis* — Part 2: Hardware (PDF) (Report). Stanford University.
  72. "Ridge Computers adds four Risc processors". Computerworld . 24 June 1985. pp. 73, 75.
  73. "New Products — RISC-Based Computer Systems" (PDF). Digital Design. Morgan-Grampian. September 1985. p. 94.
  74. Hamilton, Rosemary (17 March 1986). "Systems & Peripherals — Ridge announces Server/RT". Computerworld . pp. 19, 23.
  75. Chin Leong, Kathy (28 September 1987). "Ridge aims to ruffle DEC, Sun with supermini". Computerworld . p. 17.
  76. "RISCy maneuvers among minicomputer makers" (PDF). Mini-Micro Systems. January 1988. p. 56.
  77. "RISC Wars: Ridge Unveils 14 MIPS, 128-User Unix Monster". techmonitor.ai. 27 September 1987.
  78. "News — International Report — France". Computerworld. Vol. XVIII, no. 16. 16 April 1984. p. 25.
  79. "Kooperation zwischen Bull-Sems und Ridge" [Cooperation between Bull-Sems and Ridge]. www.computerwoche.de (in German). 27 April 1984.
  80. Talbot, Jacques (2017). Paloque-Berges, Camille; Petitgirard, Loïc (eds.). "Unix vu de province : 1982-1992" [Unix of the province: 1982-1992]. Cahiers d'histoire du CNAM (in French). 7–8: 160. ISSN   1240-2745.
  81. Élie, Michel; Picard, Philippe (2017). Paloque-Berges, Camille; Petitgirard, Loïc (eds.). "Unix et les systèmes ouverts dans Bull, avant l'Internet" [Unix and open systems in Bull, before the Internet]. Cahiers d'histoire du CNAM (in French). 7–8: 167, 170. ISSN   1240-2745.
  82. Gosch, John (3 September 1987). "Inside Technology — Europe Bets on Standards to get More Performance" (PDF). Electronics . McGraw-Hill. pp. 62–63.
  83. "Bull wird Mega-Mini in Frankreich fertigen" [Bull will manufacture Supermini in France]. www.computerwoche.de (in German). 19 April 1984.
  84. Arvonny, Maurice (21 November 1984). "Bull va fabriquer en France un ordinateur scientifique américain" [Bull will manufacture an American scientific computer in France]. Le Monde .
  85. 1 2 "BULL computers chronological history". www.feb-patrimoine.com. 29 April 2002.
  86. "Mighty Minicomputers" (PDF). Datamation . 1 July 1985. p. 88-15.
  87. "32-Bit-Rechner unter Unix — Bull greift nach technischen Bereichen" [32-bit machines on Unix — Bull reaches for technical areas]. www.computerwoche.de (in German). 7 December 1984.
  88. "Bull Hopes For Greater Market Share Outside France With New Unix Boxes". techmonitor.ai. 25 February 1987.
  89. 1 2 "Bull Replaces Its Unix Lines With Integrated DPX Range…". techmonitor.ai. 3 May 1988.
  90. "Software & Services — Applications Packages". Computerworld . 11 February 1985. p. 74.
  91. "Autofact 1984 — Terminals and Workstations" (PDF). Nielsen-Dataquest Research Newsletter. No. 66. Dataquest. 26 October 1984. p. 3.
  92. "Briefs". Network World . 13 July 1987. p. 10.
  93. "Software & Services — Ridge Computers, Inc. Swanson Analysis Systems, Inc. Ansys agreement". Computer World . 3 September 1984. p. 56.
  94. Brown, Bruce Eric, ed. (October 1988). "SIGGRAPH '88 Technical Slide Set Credits". Computer Graphics. Vol. 22, no. 5. pp. 247–255. doi:10.1145/378267.378275.
  95. Meyer, Bertrand; Nerson, Jean-Marc; Masanobu, Matsuo (9–11 September 1987). "Eiffel: Object-Oriented Design for Software Engineering" (PDF). Lecture Notes in Computer Science. European Software Engineering Conference (ESEC) 1987. Strasbourg, France. pp. 221–229.
  96. "New Products/Software & Services". Computerworld . 20 January 1986. p. 84.
  97. Girard, Michael; Maciejewski, A. A. (22–26 July 1985). "Computational Modelling for the Computer Animation of Legged Figures" (PDF). Proceedings of the ACM SIGGRAPH conference. SIGGRAPH '85. San Francisco: Association for Computing Machinery. pp. 263–270.
  98. W. F. McKenzie; T. J. Wolery; J. M. Delany; R. J. Silva; K. J. Jackson; W. L. Bourcier; D. O. Emerson (28 August 198). Geochemical Modeling (EQ3/6) Plan: Office of Civilian Radioactive Waste Management Program (PDF) (Report). Lawrence Livermore National Laboratory.
  99. Talbert, John. "A Technical History of Computer Music". Archived from the original on 2011-07-20. Retrieved 2023-07-18.
  100. ""Lisp" und "Mainsail" auf SPS 9-Megamini von Bull" ["Lisp" and "Mainsail" on SPS 9 Supermini by Bull]. www.computerwoche.de (in German). 2 August 1985.

Further reading

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.