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• MOS Technology 6502
  ...croprocessor]] that was designed by Chuck Peddle and Bill Mensch for [[MOS Technology]] in 1975. When it was introduced at around $25 it was the least expensive ...plus of course [[Commodore]], the company which eventually bought out MOS Technology.
  8 KB (1,369 words) - 17:59, 25 June 2021
• Through-hole technology
  33 bytes (4 words) - 11:26, 17 December 2017
• Through hole technology
  33 bytes (4 words) - 11:27, 17 December 2017
• Technology Square
  [[Image:Technology_Square.png|thumb|250px|right|Technology Square in 1994; Building NE43 at lower right]] ...'' was the nickname for [[MIT]] building NE43; its formal address was '545 Technology Square', but everyone just called it by the shortened form, '''Tech Sq'''.
  7 KB (1,012 words) - 06:46, 20 February 2024
• Massachusetts Institute of Technology
  The '''Massachusetts Institute of Technology''' (usually '''MIT''') is a university in Cambridge, Massachusetts. It was * [[Technology Square]]
  938 bytes (118 words) - 03:21, 28 February 2024
• VAXcluster Technology
  24 bytes (2 words) - 15:07, 1 June 2022
• Storage Technology Corporation
  '''Storage Technology Corporation''' was an [[Original Equipment Manufacturer|OEM]] which made [[
  558 bytes (70 words) - 00:19, 13 February 2024
• Seagate Technology
  ...s as 'Shugart Technology' (the name was fairly quickly changed to 'Seagate Technology' to avoid being sued by Shugart Associates - which had also been founded by
  1 KB (182 words) - 16:48, 16 February 2024

Page text matches

• PDP-11
  ...an half their life, [[core memory]] was still the standard [[main memory]] technology. By the end, the now-ubiquitous [[microprocessor]]s and [[dynamic RAM]] had
  10 KB (1,393 words) - 16:03, 23 April 2024
• Xerox
  ...elion/OSD-R8203A_Xerox_Office_System_Technology_Jan1984.pdf Office Systems Technology - A Look into the World of the Xerox 8000 Series Products: Workstations, Se
  1 KB (206 words) - 02:11, 4 October 2023
• PDP-11/03
  : ''1975. With the use of LSI semiconductor technology (the [[LSI-11]] and [[LSI-11/2]] processor), it was a compact implementatio
  2 KB (343 words) - 18:59, 8 February 2024
• Digital Equipment Corporation
  * [http://www.decconnection.org/digitalstechnology.htm Digital's Technology Heritage]
  5 KB (624 words) - 19:19, 19 March 2024
• VAX-11/780
  | CPU-technology = Bipolar Schottky
  8 KB (1,030 words) - 21:30, 25 April 2024
• VAX-11/782
  | CPU-technology = Bipolar Schottky
  3 KB (420 words) - 09:14, 15 July 2023
• International Business Machines
  * Emerson W. Pugh, ''Building IBM: Shaping an Industry and Its Technology'', M.I.T. Press, Cambridge, 1995
  3 KB (381 words) - 17:58, 23 January 2024
• MOS 6502
  #REDIRECT [[MOS Technology 6502]]
  33 bytes (3 words) - 21:18, 16 May 2007
• MOS Technology 6502
  ...croprocessor]] that was designed by Chuck Peddle and Bill Mensch for [[MOS Technology]] in 1975. When it was introduced at around $25 it was the least expensive ...plus of course [[Commodore]], the company which eventually bought out MOS Technology.
  8 KB (1,369 words) - 17:59, 25 June 2021
• MOS 6510
  #REDIRECT [[MOS Technology 6502#MOS_6510]]
  42 bytes (4 words) - 12:37, 1 March 2013
• Applesoft BASIC
  ...ndeed shared a common code base with) BASIC implementations on other [[MOS Technology 6502|6502]]-based computers, such as [[Commodore BASIC]]: it used line numb
  8 KB (1,203 words) - 19:34, 20 June 2023
• Commodore Business Machines
  ...gle board computer designed by [[Chuck Peddle]] and originally sold by MOS Technology.
  2 KB (323 words) - 21:09, 14 January 2024
• VAX-11/730
  | CPU-technology = Bipolar Schottky
  5 KB (708 words) - 12:22, 29 March 2023
• NORD-10
  ...5_progress_log] and [[Trondheim]] by [[Norwegian University of Science and Technology|NTNU]].
  8 KB (1,313 words) - 13:52, 11 July 2023
• MicroVAX II
  | CPU-technology = ZMOS
  5 KB (716 words) - 13:37, 6 May 2024
• KIM-1
  | manufacturer = [[MOS Technology]], [[Commodore Business Machines]] The KIM-1 was developed by [[MOS Technology]] to prototype and show off the abilities of their [[CPU]], the [[MOS 6502]
  2 KB (270 words) - 19:16, 18 December 2018
• PDP-7
  ...ire-wrap]]ped PDP. It was the first to use their [[FLIP CHIP|Flip-Chip®]] technology, but also included the older [[System Module]]s.
  3 KB (418 words) - 14:35, 11 July 2023
• Bus
  * [[Advanced Technology Attachment]] or ATA (aka PATA, IDE, EIDE, ATAPI, etc.) disk/tape peripheral
  14 KB (2,170 words) - 05:09, 5 September 2019
• VAX-11/785
  | CPU-technology = Advanced Schottky
  2 KB (193 words) - 04:26, 13 January 2024
• FLIP CHIP
  ...[[integrated circuit]]. FLIP CHIPs incorporating [[integrated circuit|IC]] technology eventually followed, and the limited number of contact pins eventually beca (They should not be confused with the generic technology term [http://en.wikipedia.org/wiki/Flip_chip 'flip chip']; the DEC version,
  10 KB (1,460 words) - 15:50, 6 March 2024
• IBM System/360
  All of these models were built with SLT (Solid Logic Technology) a hybrid technology where thin film resistors were deposited on 1/2" square ceramic substrates, This was pretty low-density technology, generally there were 2 2-input gates per SLT module, consisting of 4 diode
  15 KB (2,167 words) - 14:58, 23 January 2024
• Sweet16
  ...emory. SWEET16 runs about 10 times slower than the equivalent native [[MOS Technology 6502|6502]].
  3 KB (387 words) - 01:28, 17 December 2018
• PDP-8
  ...nstructed with discrete [[transistor]]s, packaged into DEC's [[FLIP CHIP]] technology; mostly R- and S-series, in [[DEC card form factor|standard-length single-h
  3 KB (365 words) - 18:28, 8 February 2024
• 6502
  #REDIRECT [[MOS Technology 6502]]
  33 bytes (3 words) - 05:37, 19 May 2007
• MicroVAX 3800/3900
  | CPU-technology = CMOS
  3 KB (380 words) - 07:06, 31 January 2024
• MicroVAX 3500/3600
  | CPU-technology = CMOS
  3 KB (410 words) - 20:26, 10 March 2024
• Zork
  Dungeon was created at the Programming Technology Division of the MIT
  21 KB (3,303 words) - 07:30, 6 September 2023
• History of Zork
  ...ence) and especially in the Dynamic Modelling Group (later the Programming Technology Division). The Dynamic Modelling Group (DM), in addition to its other accom
  38 KB (6,681 words) - 16:32, 19 December 2018
• OS/2
  ...Instead, the industry worked around OS/2, and developed [[DOS extender]] technology, and Microsoft practically gave away the Windows SDK, allowed for [[OEM]] c
  22 KB (3,500 words) - 04:39, 13 January 2024
• NeXTSTEP
  ...rt that was helped by [[Sun Microsystems|Sun]] into making the NeXT object technology a [[portable]] framework. Sun dropped the effort just before launch in fav
  4 KB (609 words) - 13:05, 28 January 2023
• UNIX Sixth Edition
  ...al operating system called '[[xv6]]', used at [[Massachusetts Institute of Technology|MIT]] for an operating systems course.
  7 KB (1,183 words) - 18:57, 29 February 2024
• Gordon Letwin OS/2 usenet post
  technology and a stagnant OS/2 wouldn't. NT would have the latest tools
  21 KB (3,783 words) - 03:41, 17 December 2018
• Incompatible Timesharing System
  ...its operational lifetime, ITS ran on only a handful of machines (all at [[Technology Square‎]]):
  12 KB (1,926 words) - 21:29, 8 February 2024
• Solaris
  SunSoft added to its object technology foundation with the introduction
  10 KB (1,426 words) - 17:55, 13 January 2024
• Windows NT
  This was the first Microsoft multiuser version of Windows, with technology given back from Citrix. I recall Microsoft strong armed the Citrix people
  15 KB (2,465 words) - 20:47, 13 January 2024
• Windows NT 3.1 HCL
  Fountain Technology 486DX/33 VL Fountain Technology 486DX2/50 VL
  144 KB (18,526 words) - 03:17, 17 December 2018
• Watcom C
  Watcom sold all the compiler technology to Sybase where it languished, then it was swept up by Powersoft. It was t
  3 KB (426 words) - 18:50, 18 December 2018
• Windows NT 3.5 HCL
  Edge Technology EDGE-PCI P60 Fountain Technology 486DX2/66
  279 KB (34,581 words) - 03:21, 17 December 2018
• VIC-20
  The VIC-20 released in 1980, containing a ~1 MHz [[MOS Technology 6502|6502]] CPU and 5 KB of RAM. While the RAM could be expanded, the defau
  724 bytes (100 words) - 09:41, 7 February 2024
• Geos
  ...lable on both the Commodore 64 and the Apple II. Both machines were [[MOS Technology 6502|6502]] based, allowing a lot of code to be shared between the two plat
  3 KB (414 words) - 15:12, 7 March 2021
• Intel 4004
  ...tp://www.intel4004.com/ The Intel 4004 Microprocessor and the Silicon Gate Technology]
  5 KB (796 words) - 16:01, 14 July 2023
• Dynamic RAM
  ...usually abbreviated as '''DRAM''', is currently the ubiquitous [[memory]] technology used for [[main memory]] in computers. Contemporary DRAM is implemented in
  2 KB (240 words) - 02:30, 17 February 2024
• KA630 CPU
  | CPU-technology = CMOS
  2 KB (174 words) - 06:15, 28 June 2022
• Real Programmers Don't Use Pascal
  ...book for an EMACS, B.S. Thesis, MIT/LCS/TM-165, Massachusetts Institute of Technology, May 1980.
  22 KB (3,770 words) - 14:23, 25 August 2021
• VAX 8650
  | CPU-technology = ECL Gate Array
  2 KB (270 words) - 20:13, 6 May 2024
• 386BSD 0.1 announcement
  ment in operating systems and networking technology by pro- viding this base technology in a broadly accessible manner.
  9 KB (1,346 words) - 16:13, 16 December 2018
• Single Inline Memory Module
  ...dule''' (usually abbreviated to '''SIMM''') was a standard [[main memory]] technology in the early [[Pentium]] era.
  538 bytes (84 words) - 01:43, 20 December 2018
• AIX
  ...1057_IBM_RT_Personal_Computer_Technology_1986.pdf IBM RT Personal Computer Technology] - covers AIX 1 * [http://ieeexplore.ieee.org/document/109275/ AIX 3 Technology]
  3 KB (383 words) - 18:08, 2 March 2021
• 386BSD 0.0 announcement
  development in operating systems and networking technology by broadening access to base technology. In cooperation with
  25 KB (3,920 words) - 05:43, 15 July 2019
• Seagate ST1144A
  Seagate Technology Seagate Technology online services
  25 KB (3,017 words) - 18:47, 13 January 2024
• SPARC
  ...was manufactured by several companies including Atmel, Bipolar Integrated Technology, Cypress Semiconductor, Fujitsu, Matsushita and [[Texas Instruments]], etc.
  1 KB (153 words) - 07:11, 20 February 2024
• VAX-11/725
  | CPU-technology = Bipolar Schottky
  2 KB (201 words) - 17:24, 29 August 2023
• RM05 Disk Drive
  ...3600 RPM. It was [[Digital Equipment Corporation|DEC]]'S first Winchester-technology disk; it used [[microprocessor]]-based control.
  1 KB (177 words) - 18:09, 15 August 2023
• RX50 dual-diskette drive
  * [https://rc.xqwv.org.uk/2014/rx50.html RX50 technology]
  2 KB (284 words) - 14:45, 15 September 2023
• Surface mount
  '''Surface mount''' is the generation of packaging technology after [[Dual Inline Package]]s; instead of leads which are placed in throug
  601 bytes (88 words) - 03:30, 3 January 2019
• Tri-state
  [[Category: Technology]]
  281 bytes (42 words) - 22:20, 3 March 2019
• Inside OS/2
  technology--potential users evaluate it by trying to fit it into present Another impedance to the acceptance of a breakthrough technology is
  627 KB (92,395 words) - 03:42, 17 December 2018
• Dual Inline Package
  ...circuit]]s from the late 1960s until the development of [[surface mount]] technology; e.g. the [[74 series]] [[transistor-transistor logic‎|TTL]] series, and ...lled in [[printed circuit board]]s, using the so-called '''through-hole''' technology (also used for discrete components such as [[resistor]]s, [[capacitor]]s, e
  725 bytes (109 words) - 02:15, 16 December 2018
• ARM
  Acorn Computers used the [[MOS Technology 6502|6502]] 8-bit CPU, e.g. in their [[BBC Micro]], which started to get a ...which was a competitor in the market at the time. Apple, Acorn, and [[VLSI Technology]] thus together founded a separate company, ARM Limited. The Newton did not
  5 KB (845 words) - 07:16, 20 February 2024
• UNIX* System V and 4.1C BSD
  California at Berkeley, Nina McCloskey of AT&T Technology
  113 KB (13,419 words) - 02:06, 17 December 2018
• KL10
  ...nology Goals] - interesting memo discussing the analog aspects of the chip technology used in the KL10
  11 KB (1,737 words) - 13:06, 2 April 2024
• SINTEF
  ...NTH in Trondheim, Norway (Norsk Teknisk Høyskole / Norwegian Institute of Technology, now merged into the University of Trondheim) established
  1 KB (147 words) - 23:05, 18 December 2018
• Printed circuit board
  A '''printed circuit board''' (often abbreviated as '''PCB''') is a technology used for cost-effective production of multiple instances of a module. [[Category: Technology]]
  1 KB (193 words) - 15:58, 12 June 2020
• Main memory
  The very earliest computers used technology such as acoustic [[delay line]]s and storage [[cathode ray tube]]s; in some
  2 KB (250 words) - 17:10, 11 September 2019
• Wire-wrap
  '''Wire-wrap''' was once a popular technology for production of electronics, especially computers. The basic concept is t ...Wire-wrap finally fell out of use for production when multi-layer [[PCB]] technology allowed use of PCB's in backplanes.
  2 KB (284 words) - 20:57, 14 December 2018
• Time-sharing
  ...puter in real-time was John McCarthy (then of [[Massachusetts Institute of Technology|MIT]]), who in January 1959 wrote an influential memo which described clear
  3 KB (491 words) - 02:53, 23 January 2023
• Personal computer
  Changing technology made personal computers both possible, and also desirable, instead of shari
  2 KB (338 words) - 19:13, 12 June 2023
• CDU-710/M disk controller
  The '''CDU-710/M''' is a [[UNIBUS]] [[SCSI]] disk controller made by [[CMD Technology Inc.]]. It fits in a [[DEC card form factor|quad]] [[Small Peripheral Contr
  980 bytes (142 words) - 00:05, 13 January 2024
• Integrated circuit
  Experience, and improved production technology, allowed the amount of circuitry in ICs to increase rapidly. Initial ICs, i [[Category: Technology‎]]
  2 KB (285 words) - 18:30, 6 April 2023
• VAXstation 8000
  | CPU-technology = ZMOS
  1 KB (140 words) - 15:16, 15 January 2024
• VAXstation II
  | CPU-technology = ZMOS
  2 KB (254 words) - 16:59, 15 January 2024
• PDP-6
  ...a 'bridge too far' at the then-current state of [[printed circuit board]] technology.
  3 KB (510 words) - 07:28, 6 September 2023
• MicroVAX 2000
  | CPU-technology = ZMOS
  5 KB (595 words) - 17:41, 13 January 2024
• MicroVAX 3100 Model 90/90A
  | CPU-technology = CMOS-4
  1 KB (110 words) - 04:36, 24 May 2023
• MicroVAX 3100 Model 95
  | CPU-technology = KA820
  1 KB (128 words) - 04:37, 24 May 2023
• MicroVAX 3100 Model 96
  | CPU-technology = CMOS-4
  1 KB (106 words) - 04:38, 24 May 2023
• MicroVAX 3100 Model 98
  | CPU-technology = CMOS-4
  436 bytes (40 words) - 04:38, 24 May 2023
• VAX 4000 Model 105A
  | CPU-technology = CMOS-4 [[#ref_1|[1]]]
  1 KB (156 words) - 01:39, 24 May 2023
• VAX 4000 Model 106A
  | CPU-technology = CMOS-4
  1 KB (142 words) - 01:40, 24 May 2023
• VAX 4000 Model 108
  | CPU-technology = CMOS-4
  653 bytes (64 words) - 01:40, 24 May 2023
• VAX 4000 Model 400
  | CPU-technology = CMOS-4
  1 KB (128 words) - 08:22, 12 September 2023
• VAX 4000 Model 500
  | CPU-technology = CMOS-4
  2 KB (157 words) - 08:23, 12 September 2023
• VAX 4000 Model 500A
  | CPU-technology = CMOS-4
  1 KB (140 words) - 01:55, 24 May 2023
• VAX 4000 Model 505A
  | CPU-technology = CMOS-4
  1 KB (138 words) - 01:55, 24 May 2023
• VAX 4000 Model 600A
  | CPU-technology = CMOS-4
  1 KB (159 words) - 08:23, 12 September 2023
• VAX 4000 Model 700A
  | CPU-technology = CMOS-4
  1 KB (127 words) - 01:56, 24 May 2023
• VAX 4000 Model 705A
  | CPU-technology = CMOS-4
  1 KB (137 words) - 15:59, 23 May 2023
• VAX 6000 Model 200
  | CPU-technology = CMOS-2
  2 KB (196 words) - 18:24, 29 March 2023
• VAX 6000 Model 300
  | CPU-technology = CMOS-2
  1 KB (133 words) - 18:19, 29 March 2023
• VAX 6000 Model 400
  | CPU-technology = CMOS-2 [[#ref_2|[2]]]
  1 KB (151 words) - 15:01, 30 March 2023
• VAX 6000 Model 600
  | CPU-technology =
  2 KB (167 words) - 18:06, 29 March 2023
• VAX 8200
  | CPU-technology = ZMOS [[#ref_1|[1]]]
  2 KB (208 words) - 23:08, 28 March 2024
• VAX 8250
  | CPU-technology = ZMOS
  2 KB (191 words) - 14:16, 22 May 2023
• VAX 8300
  | CPU-technology = ZMOS [[#ref_1|[1]]]
  2 KB (210 words) - 23:10, 28 March 2024
• VAX 8350
  | CPU-technology = ZMOS
  2 KB (201 words) - 23:11, 28 March 2024
• VAX 8500/VAX 8530
  | CPU-technology = ECL Gate Array [[#ref_1|[1]]]
  2 KB (174 words) - 16:57, 23 May 2023
• VAX 8550
  | CPU-technology = ECL Gate Array [[#ref_1|[1]]]
  1 KB (124 words) - 16:35, 19 May 2023
• VAX 8600
  | CPU-technology = ECL Gate Array
  2 KB (199 words) - 01:48, 7 May 2024
• VAX 8700
  | CPU-technology = ECL Gate Array [[#ref_1|[1]]]
  2 KB (189 words) - 04:28, 13 January 2024
• VAX 8800
  | CPU-technology = ECL Gate Array [[#ref_1|[1]]]
  2 KB (235 words) - 00:10, 2 January 2024
• VAX 88x0
  | CPU-technology = ECL Gate Array
  2 KB (204 words) - 04:31, 13 January 2024
• VAX 9000 Model 210
  | CPU-technology = ECL (MCA III) [[#ref_1|[1]]]
  2 KB (197 words) - 00:52, 7 May 2024
• VAX 9000 Model 4x0
  | CPU-technology = ECL (MCA III) [[#ref_1|[1]]]
  2 KB (213 words) - 00:53, 7 May 2024
• VAXft Model 310
  | CPU-technology = CMOS-II
  955 bytes (99 words) - 13:39, 8 May 2024
• VAXstation 2000
  | CPU-technology = ZMOS
  2 KB (230 words) - 19:05, 15 January 2024
• VAXstation 3100 Model 30/40
  | CPU-technology = CMOS-1
  2 KB (229 words) - 16:15, 15 January 2024
• VAXstation 3100 Model 38/48
  | CPU-technology = CMOS-2
  2 KB (177 words) - 16:16, 15 January 2024
• VAXstation 3100 Model 76
  | CPU-technology = CMOS-2
  2 KB (217 words) - 19:25, 18 February 2024
• VAXstation 4000 Model 90
  | CPU-technology = CMOS-4
  2 KB (144 words) - 16:34, 15 January 2024
• DECpc axp 150 and DEC 2000 Model 300 AXP
  | CPU-technology = CMOS
  2 KB (200 words) - 00:25, 13 January 2024
• DEC 3000 Model 300
  | CPU-technology = CMOS
  950 bytes (104 words) - 19:13, 31 July 2017
• DEC 3000 Model 300L
  | CPU-technology = CMOS
  897 bytes (99 words) - 19:14, 31 July 2017
• DEC 3000 Model 300X
  | CPU-technology = CMOS
  911 bytes (100 words) - 19:15, 31 July 2017
• DEC 3000 Model 300LX
  | CPU-technology = CMOS
  940 bytes (102 words) - 19:15, 31 July 2017
• DEC 3000 Model 400/400S AXP
  | CPU-technology = CMOS-4
  960 bytes (107 words) - 19:17, 31 July 2017
• DEC 3000 Model 500/500S AXP
  | CPU-technology = CMOS-4
  1 KB (122 words) - 19:17, 31 July 2017
• DEC 3000 Model 500X AXP
  | CPU-technology = CMOS-4
  833 bytes (93 words) - 19:18, 31 July 2017
• DEC 3000 Model 600
  | CPU-technology = CMOS-4
  1 KB (117 words) - 19:18, 31 July 2017
• DEC 3000 Model 800/800S
  | CPU-technology = CMOS
  735 bytes (79 words) - 19:20, 31 July 2017
• DEC 3000 Model 900
  | CPU-technology = CMOS
  1 KB (140 words) - 19:20, 31 July 2017
• DEC 7000 Model 600
  | CPU-technology = CMOS
  208 bytes (21 words) - 02:14, 1 August 2017
• DEC 7000 Model 700
  | CPU-technology = CMOS
  693 bytes (72 words) - 02:15, 1 August 2017
• AlphaServer 4100
  | CPU-technology = 0.5 micron CMOS ^{[[#ref_1|[1]]]}
  399 bytes (40 words) - 19:36, 31 July 2017
• VAXstation 3100 series
  | CPU-technology = CMOS It used the second generation of [[VAX]] CMOS chip-set technology, the same as in the [[MicroVAX 3500/3600]] and [[VAXstation 3200/3500]].
  3 KB (373 words) - 19:07, 15 January 2024
• VAXstation 3200/3500
  | CPU-technology = CMOS
  2 KB (296 words) - 07:15, 31 January 2024
• SINTRAN
  ...ikipedia.org/wiki/Norwegian_Institute_of_Technology Norwegian Institute of Technology] in cooperation with the affiliated research institute, [https://en.wikiped
  1 KB (204 words) - 19:00, 29 October 2021
• Ethernet
  For a variety of reasons, this technology (called 10BASE5) was not the best approach for wide-scale service: it was r ...problem domain - and one susceptible to easy conversion to [[fiber optic]] technology.)
  8 KB (1,199 words) - 22:00, 5 October 2023
• Honeywell 6000 series
  ...on an attempt was made to 'break' this limit by developing 'port sharing' technology. 6-CPU Multics systems did exist, however. ...he DPS-8/47, /49, /52, /62 and /70 (the first two being implemented in 74F technology). The /47 was limited to a single CPU and IOM, and the /49 to four CPUs and
  12 KB (1,837 words) - 19:24, 3 January 2024
• Drum
  '''Drums''' were the predecessor [[magnetic storage]] technology to [[disk]]s; they were (as the name suggests) in physical form a drum.
  2 KB (257 words) - 20:45, 18 March 2024
• Fixed-head disk
  .... They were direct descendants of [[drum]]s, a prior [[secondary storage]] technology, which also had a head per track.
  659 bytes (101 words) - 16:41, 13 December 2018
• Transistor
  ...signals in an [[electronic]] system. It replaced an earlier generation of technology which performed the same function, [[vacuum tube]]s. They are made out of [ ...the physical nature of transistors allows them to be made very small, and technology was developed to allow creating more than one transistor on a single piece
  3 KB (488 words) - 18:18, 17 December 2023
• KS10
  ...mesharing System]] was made to run on it, and [[Massachusetts Institute of Technology|MIT]] had several. [[Tymshare]] ran a version of their operating system ca
  8 KB (1,237 words) - 19:48, 14 July 2023
• IBM 709
  Its lifetime was shortened by the switch to [[transistor]]s as the technology for computers.
  2 KB (304 words) - 02:19, 9 August 2022
• IBM 7090
  It was upwardly compatible with its [[vacuum tube]] technology predecessor, the [[IBM 709]]. It had a performance of six times that of a 7
  2 KB (287 words) - 02:18, 9 August 2022
• Light Emitting Diode
  [[Category: Technology]]
  2 KB (379 words) - 16:30, 16 December 2018
• Vacuum tube
  '''Vacuum tubes''' ('''valves''' in the UK) were the technology used in the first generation of [[electronic]] devices, through the first h [[Category: Technology‎]]
  2 KB (299 words) - 20:15, 14 December 2018
• Semiconductor
  * [https://ocw.mit.edu/courses/sts-340j-introduction-to-the-history-of-technology-fall-2006/a96089fb1b0343cb358c982a9bb3c072_fox_crystalfire.pdf Crystal Fire [[Category: Technology]]
  2 KB (279 words) - 00:36, 11 January 2024
• MACLISP
  ...' was an influential dialect of [[LISP]] from [[Massachusetts Institute of Technology|MIT]]. Developed initially as the standalone ''[[PDP-6]] LISP'' at [[Proje
  1 KB (167 words) - 08:22, 19 January 2024
• Comart
  ...rrent DOS), which supported multitasking and Comart Net, a proprietary LAN technology. The case had two 5.25" drive bays. Models were available with one or two 7
  2 KB (247 words) - 20:05, 19 September 2023
• Chaosnet
  ...[protocol suite|protocol family]], and an early [[Local area network|LAN]] technology, both invented at the [[MIT AI Laboratory]]; the latter was the LAN on whic
  8 KB (1,211 words) - 16:55, 10 April 2024
• TYMCOM-X
  * [http://vtda.org/bits/software/DEC/PDP-10/tymshare/ Vintage Technology Digital Archive] - a set of tape images from TYMCOM-X
  807 bytes (109 words) - 08:57, 13 March 2024
• TX-2
  ...low-on to the ground-breaking [[TX-0]] at the [[Massachusetts Institute of Technology|MIT]] [[Lincoln Laboratory]]. Innovations around [[interrupt]]s used on the
  2 KB (346 words) - 22:11, 3 March 2024
• PDP-1
  A PDP-1 at [[Massachusetts Institute of Technology|MIT]]'s [[Research Laboratory of Electronics|RLE]] served as the nucleus fo
  4 KB (536 words) - 23:18, 27 February 2024
• Technology Square
  [[Image:Technology_Square.png|thumb|250px|right|Technology Square in 1994; Building NE43 at lower right]] ...'' was the nickname for [[MIT]] building NE43; its formal address was '545 Technology Square', but everyone just called it by the shortened form, '''Tech Sq'''.
  7 KB (1,012 words) - 06:46, 20 February 2024
• Packet switch
  ...interfaces (since [[synchronous]] serial lines the only data transmission technology available for the first packet data networks), such as the [[Interface Mess
  2 KB (246 words) - 19:29, 11 January 2024
• Flat cable
  The technology has almost entirely replaced older round cables, especially inside computer
  1 KB (176 words) - 23:15, 21 January 2020
• Xerox PARC
  ...net]], was similarly influential on the now-ubiquitous [[WiFi]] networking technology;
  4 KB (516 words) - 02:53, 10 January 2024
• UNIVAC I
  * Arthur Lawrence Norberg; ''Computers and Commerce: A Study of Technology and Management at Eckert-Mauchly Computer Company, Engineering Research Ass
  2 KB (319 words) - 01:12, 12 July 2023
• Lear Siegler ADM-3A
  ...long before the era of [[microprocessor]]s, or any other [[program]]mable technology.
  1 KB (177 words) - 01:25, 8 June 2018
• Cathode ray tube
  ...de ray tube''' (usually '''CRT''' for short) is a now-obsolete [[display]] technology that was the mainstay of visual output devices for a century, until display
  1 KB (164 words) - 17:17, 13 December 2018
• Cycle time
  ...t in time when the memory is ready to accept another one. Depending on the technology used for the memory, it may or may not be the same for read and write cycle
  1 KB (230 words) - 02:11, 20 September 2022
• Serial computer
  ...ly used fewer components - an acceptable trade-off at that stage, when the technology (e.g. [[vacuum tube]]s) was more expensive, and physically bulky. In realit
  1 KB (173 words) - 12:02, 12 May 2024
• PDP-8/S
  ...nstructed with discrete [[transistor]]s, packaged into DEC's [[FLIP CHIP]] technology. It could perform an addition to the [[accumulator]] in 64 μseconds. It ha
  2 KB (253 words) - 14:10, 14 July 2023
• Vector graphics
  '''Vector graphics''' was the technology used in the first generation of [[graphics]] [[display]]s, all [[video disp
  1 KB (177 words) - 17:22, 13 December 2018
• Display
  ...n large [[array]]s, for physical reasons they were the only viable display technology for use in lap-top [[personal computer]]s, and that drove their development ...plays consisting of arrays of tiny LEDs, those rapidly because the display technology of choice.
  1 KB (198 words) - 16:36, 15 February 2024
• Memory
  ...to things used as [[main memory]], but it can refer to other uses of such technology, e.g. the [[cache]]s often now found in [[disk]] [[device controller]]s.
  597 bytes (95 words) - 16:32, 15 December 2018
• IBM 7030 Stretch
  ...nized as the foundation of the success of the [[IBM System/360]]; both its technology (it was the first machine IBM built with [[transistor]]s, and Stretch hardw
  3 KB (467 words) - 16:37, 11 January 2024
• Standard Modular System
  SMS was used in all IBM computers until the [[Solid Logic Technology]] system used in the [[IBM System/360]] was developed in 1964; but even the
  1 KB (215 words) - 01:50, 20 December 2018
• IBM 7000 series
  ...t part of an existing line, was effectively a 7000 series machine; much of technology used in the others was pioneered by the 7030, including the [[Standard Modu
  1 KB (208 words) - 13:34, 11 July 2023
• Delay line
  ...[[signal]], and sends it out again after a short delay. They were the base technology for a common choice for early [[main memory]].
  2 KB (290 words) - 20:29, 18 March 2024
• Laser printer
  ...e technology was adapted by [[Xerox PARC]] from earlier Xerox photocopying technology.
  993 bytes (163 words) - 17:05, 13 December 2018
• IBM 7070
  Like its [[vacuum tube]] technology predecessors, the [[IBM 650]] and [[IBM 705]], for which it was the intende
  3 KB (478 words) - 14:49, 9 April 2024
• Gate array
  [[Category: Technology]]
  1 KB (167 words) - 21:20, 14 December 2018
• Fiber optic
  '''Fiber optics''' is a [[data communication]] technology which uses light to carry data over a [[communication link]]. The light is [[Category: Technology]]
  875 bytes (146 words) - 20:06, 14 December 2018
• MIT Artificial Intelligence Laboratory
  It was housed in the building at 545 [[Technology Square]], where Project MAC had been housed. They shared the machine room o
  2 KB (226 words) - 00:38, 28 February 2024
• MIT Laboratory for Computer Science
  ...lligence Laboratory|AI Lab]] split from the former. It too was housed in [[Technology Square]]. ...Brochure.html Laboratory for Computer Science - Massachusetts Institute of Technology] - brochure published in 1975
  736 bytes (100 words) - 01:05, 28 February 2024
• Charles Babbage Institute
  ...me a graduate research center in the department of the History of Science, Technology, and Medicine of the University in 2018.
  1 KB (158 words) - 20:38, 23 December 2023
• KA650 CPU
  | CPU-technology = CMOS
  3 KB (369 words) - 08:32, 12 September 2023
• Etch
  [[Category: Technology]]
  565 bytes (96 words) - 15:55, 12 June 2020
• Trace
  [[Category: Technology]]
  105 bytes (13 words) - 15:43, 12 June 2020
• Terminal emulator
  ...that models some terminal down to hardware detail level. This category of technology has not yet been widely explored, but e.g. there are simulators that run th
  897 bytes (140 words) - 09:52, 7 May 2021
• Massachusetts Institute of Technology
  The '''Massachusetts Institute of Technology''' (usually '''MIT''') is a university in Cambridge, Massachusetts. It was * [[Technology Square]]
  938 bytes (118 words) - 03:21, 28 February 2024
• MIT
  #REDIRECT [[Massachusetts Institute of Technology]]
  51 bytes (5 words) - 12:43, 20 August 2021
• VAXstation 100
  * [[Massachusetts Institute of Technology|MIT]] Project Athena had a terminal emulator that handled multiple VAXstati
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• Tech Square
  #REDIRECT [[Technology Square]]
  31 bytes (3 words) - 16:27, 27 October 2021
• Terminal Interface Processor
  ...rfaced through a seral line, to a TIP; for instance, on the 5th floor of [[Technology Square]], there was a [[printer|line printer]] hooked up to the MIT TIP. Th
  2 KB (262 words) - 20:25, 17 December 2023
• International Network Working Group
  ...endant, the [[Internet Engineering Task Force]], is today in charge of the technology of the [[Internet]], the [[internetwork|internet]] which the INWG laid the
  1 KB (185 words) - 18:10, 20 January 2024
• Packet Radio Network
  ...onemeyer, Jerry Burchfiel, Ronald C. Kunzelman, ''Advances in Packet Radio Technology'', Proceedings of the IEEE (Volume: 66, Issue: 11, Nov. 1978), pp. 1468-149
  4 KB (557 words) - 20:49, 29 January 2024
• Wired-OR
  [[Category: Technology]]
  856 bytes (134 words) - 02:27, 21 February 2022
• C Gateway
  * [http://web.mit.edu/Saltzer/www/publications/nin/csr-nin-025.pdf 545 Technology Square Internet Status] - lists the first C Gateways at MIT
  2 KB (288 words) - 06:58, 25 March 2022
• Living Computer Museum
  ...ers which led to today's computers, by experiencing that actual, original, technology first-hand. Towards that goal, they proudly reckon to have "the world's lar
  2 KB (217 words) - 17:55, 14 January 2024
• VAXcluster
  The evolution of VAXcluster technology led to increasing degrees of resource availability. * In 1991 Micro Technology, Inc. (MTI) introduced the '''[[CIQBA]]''' CI-to-[[QBUS]] adapter, which en
  13 KB (1,908 words) - 19:25, 27 April 2024
• Control Data Corporation
  * Arthur Lawrence Norberg; ''Computers and Commerce: A Study of Technology and Management at Eckert-Mauchly Computer Company, Engineering Research Ass
  2 KB (319 words) - 16:19, 11 January 2024
• RA90 disk drive
  * ''Disk Drive Technology Improvements in the RA90'', in [[Digital Technical Journal|DTJ]] [http://ww
  1,005 bytes (129 words) - 03:13, 31 August 2023
• VAXstation I
  | CPU-technology = ZMOS
  1 KB (147 words) - 17:19, 15 January 2024
• Bell Laboratories
  ...ents of Bell Labs were important early work on [[semiconductor]]s (the key technology in all of modern [[electronic]]s - in the late 1930s); the [[transistor]] (
  2 KB (306 words) - 23:10, 7 December 2023
• Remington Rand
  * Arthur Lawrence Norberg; ''Computers and Commerce: A Study of Technology and Management at Eckert-Mauchly Computer Company, Engineering Research Ass
  1 KB (157 words) - 20:33, 7 February 2024
• Digital Storage Architecture
  * ''Digital Storage Technology Handbook'', 1989 (EC-H0374-45/89) - Chapter 3, The Digital Storage Architec
  6 KB (698 words) - 21:26, 18 August 2023
• Static RAM
  ...' ('static random-access memory') is a simple, high-performance [[memory]] technology. Unlike [[dynamic RAM]] (DRAM), it does not need to be [[memory refresh|ref
  1 KB (183 words) - 02:06, 20 September 2022
• Standard Disk Interconnect
  ...d other sequential storage applications. It shares its physical connection technology (called the [[Standard Drive Bus]], SDB) with SDI; the higher layer [[proto * ''Digital Storage Technology Handbook'', 1989 (EC-H0374-45/89) - Chapter 4, The Digital Storage Intercon
  4 KB (512 words) - 15:29, 29 December 2023
• General Turtle
  ...ral Turtle''' was a company spun off from the [[Massachusetts Institute of Technology|MIT]] [[Logo]] group, first to make floor turtles. It later made [[Turtle
  638 bytes (97 words) - 07:44, 8 September 2023
• Field-programmable gate array
  [[Category: Technology]]
  464 bytes (70 words) - 01:30, 3 August 2023
• Stanford University
  * [[Massachusetts Institute of Technology|MIT]]
  879 bytes (115 words) - 19:06, 3 March 2024
• Standard Drive Bus
  * ''Digital Storage Technology Handbook'', 1989 (EC-H0374-45/89) - Chapter 4, The Digital Storage Intercon
  2 KB (301 words) - 12:59, 19 April 2024
• Tech Sq
  #Redirect [[Technology Square]]
  31 bytes (3 words) - 20:27, 15 March 2023
• The VMS-MicroVMS Merge
  ...proved useful for all VMS users. Licensing policies have evolved, as chip technology has brought the computer power to the user's desktop. As MICROVMS merges ba
  21 KB (3,330 words) - 03:40, 16 January 2024
• VAX 85x0, 8700, 88xx, and 897x systems
  ...sign process, automated tools helped to correct design bugs early. [[ECL]] technology and a two-phase clock system achieve a 45-nanosecond cycle time. [[Microcod
  6 KB (844 words) - 22:15, 29 April 2024
• Microcontroller
  [[Category: Technology]]
  515 bytes (73 words) - 01:57, 30 July 2023
• Fusible link
  The technology was first developed for use in [[PROM]]s; it later appeared in other config [[Category: Technology]]
  370 bytes (54 words) - 18:49, 3 August 2023
• Programmable Array Logic
  [[Category: Technology]]
  849 bytes (127 words) - 19:41, 3 August 2023
• Programmable Logic Array
  [[Category: Technology]]
  690 bytes (96 words) - 19:12, 3 August 2023
• Registered
  [[Category: Technology]]
  517 bytes (84 words) - 21:27, 3 August 2023
• Solid state
  [[Category: Technology]]
  176 bytes (25 words) - 20:08, 4 December 2023
• Solid state disk
  ...ad it stores data in [[semiconductor]] [[memory]], i.e. in [[solid state]] technology (hence the name).
  505 bytes (68 words) - 13:50, 2 December 2023
• Xerox Graphics Printer
  ...es and research institutes by 1972, including [[Massachusetts Institute of Technology|MIT]], [[Stanford Artificial Intelligence Laboratory|Stanford]], Carnegie-M ...e [[Rubin 10-11 interface]], and it remained the mainstay of printing at [[Technology Square]] until [[Xerox PARC]] donated a [[Dover]] printer (one of the first
  4 KB (577 words) - 12:34, 27 February 2024
• MIT UNIBUS XGP interface
  The XGP at [[Massachusetts Institute of Technology|MIT]] was one of a number provided to various entities by [[Xerox]] in 1972
  5 KB (869 words) - 13:30, 27 February 2024
• VT36 Color Graphics Display Control System
  === Field-proven technology === The VT36 architecture is based on proven technology in the color graphics market. The system is fully supported and maintained
  16 KB (2,398 words) - 12:26, 27 February 2024
• Hack (term)
  ...uding practical jokes. The term originated at [[Massachusetts Institute of Technology|MIT]], where it much later became especially associated with smart computer
  1 KB (198 words) - 21:25, 19 October 2023
• Research Laboratory of Electronics
  ...' is an inter-departmental research center at [[Massachusetts Institute of Technology|MIT]]; it was started in 1946 as the successor to the famous Radiation Labo
  1 KB (168 words) - 01:22, 28 February 2024
• Notable early computing devices
  ...var Bush created his Differential Analyzer at [[Massachusetts Institute of Technology|MIT]] in 1928–1931; it was an [[analog]] device, mostly mechanical. Many
  6 KB (826 words) - 14:58, 11 February 2024
• Bell Telephone Laboratories relay computing devices
  They were [[binary]] internally, suitable for the relay technology of which they were built, but could do [[input/output|I/O]] in decimal, for
  6 KB (856 words) - 17:43, 4 December 2023
• Xv6
  ...language|C]], for instructional purposes, at [[Massachusetts Institute of Technology|MIT]].
  701 bytes (92 words) - 19:07, 29 February 2024
• Storage Technology Corporation
  '''Storage Technology Corporation''' was an [[Original Equipment Manufacturer|OEM]] which made [[
  558 bytes (70 words) - 00:19, 13 February 2024
• STC
  #Redirect [[Storage Technology Corporation]]
  44 bytes (4 words) - 21:28, 24 December 2023
• Institute of Electrical and Electronics Engineers
  ...world's largest technical professional organization dedicated to advancing technology for the benefit of humanity".
  705 bytes (102 words) - 13:51, 24 April 2024
• Standard Tape Interconnect
  ...]] (SDI), is used with [[disk]] systems. It shares its physical connection technology (called the [[Standard Drive Bus]], SDB) with STI; the higher layer [[proto * ''Digital Storage Technology Handbook'', 1989 (EC-H0374-45/89) - see Chapter 4, The Digital Storage Inte
  3 KB (392 words) - 04:13, 19 April 2024
• Computer Corporation of America
  ...nded in 1965, in Cambridge, Massachusetts; they initially had offices in [[Technology Square|Tech Square]]. They ran the [[Datacomputer]] experiment on the [[AR
  425 bytes (51 words) - 06:22, 20 February 2024
• MIT AI memo 105
  MASSACHUSETTS INSTITUTE OF TECHNOLOGY
  2 KB (320 words) - 20:42, 10 January 2024
• Jerry Saltzer
  ...t, who was a professor of computer science at [[Massachusetts Institute of Technology|MIT]].
  2 KB (309 words) - 00:27, 23 March 2024
• ITS machine configurations
  ...n to run it 'in production') are given here. They were all physically in [[Technology Square]].
  6 KB (863 words) - 15:11, 24 April 2024
• Knight TV system
  ...(about 30 were actually installed, on the 3rd, 8th and 9th floors of the [[Technology Square]] building), each consisting of a relatively square [[cathode ray tu ...ation to computer professionals at the time; no other contemporary display technology, not even [[vector graphics]] displays, could produce the kind of detail se
  3 KB (482 words) - 18:06, 20 March 2024
• Engineering Research Associates
  * Arthur L. Norberg, ''Computers and Commerce: A Study of Technology and Management at Eckert-Mauchly Computer Company, Engineering Research Ass
  1 KB (193 words) - 16:59, 7 February 2024
• Eckert-Mauchly Computer Corporation
  * Arthur Lawrence Norberg; ''Computers and Commerce: A Study of Technology and Management at Eckert-Mauchly Computer Company, Engineering Research Ass
  1 KB (157 words) - 20:31, 7 February 2024
• TU70 Magnetic Tape Drive
  ...ion|DEC]]. It was [[Original Equipment Manufacturer|OEMed]] from [[Storage Technology Corporation]]; the STC 3470 model. The TU70 supported 9-track operation at
  1 KB (197 words) - 18:24, 12 February 2024
• TX02 Magnetic Tape Controller
  ...er''' seems to be [[Original Equipment Manufacturer|OEMed]] from [[Storage Technology Corporation]]; the STC 3800-IV Tape Control Unit. It supported [[TU70 Magne
  1 KB (151 words) - 22:44, 12 February 2024
• TX01 Magnetic Tape Controller
  ...er''' seems to be [[Original Equipment Manufacturer|OEMed]] from [[Storage Technology Corporation]]; apparently it was the STC 3800-III Tape Control Unit. It sup
  968 bytes (140 words) - 22:38, 12 February 2024
• TU72 Magnetic Tape Drive
  ...ion|DEC]]. It was [[Original Equipment Manufacturer|OEMed]] from [[Storage Technology Corporation]]; apparently the STC 3650E model. It supported 9-track operati
  1 KB (191 words) - 00:14, 13 February 2024
• Seagate Technology
  ...s as 'Shugart Technology' (the name was fairly quickly changed to 'Seagate Technology' to avoid being sued by Shugart Associates - which had also been founded by
  1 KB (182 words) - 16:48, 16 February 2024
• Seagate
  #REDIRECT [[Seagate Technology]]
  32 bytes (3 words) - 02:51, 15 February 2024
• Intel 1103
  ...in the world; it killed off [[core memory]], the preceding [[main memory]] technology.
  2 KB (235 words) - 16:41, 17 February 2024
• Lincoln Laboratory
  ...ncoln Laboratory''', while formally a part of [[Massachusetts Institute of Technology|MIT]], is effectively an independent research organization. * Ed. Eva C. Freeman, ''MIT Lincoln Laboratory: Technology in the National Interest'', MIT Lincoln Laboratory, Lexington, 1995
  5 KB (646 words) - 13:04, 4 March 2024
• John von Neumann
  His overall importance in the development of science and technology in the 20th century is almost impossible to overstate. Some people think he ...a non-technical person (Macrae's own work on economics is on the fringe of technology); but still readable
  3 KB (534 words) - 00:15, 23 March 2024
• Information Processing Techniques Office
  * Arthur L. Norberg, Judy E. O'Neill; ''Transforming Computer Technology: Information Processing for the Pentagon, 1962-1986''; Johns Hopkins Univer
  1 KB (188 words) - 13:03, 12 March 2024
• IAS computer
  * BESK (Royal Institute of Technology, Sweden) - November, 1953 (included hardware [[floating point]])
  16 KB (2,475 words) - 07:10, 10 April 2024
• Parallel computer
  ...ly used fewer components - an acceptable trade-off at that stage, when the technology (e.g. [[vacuum tube]]s) was more expensive and physically bulky. In reality
  1 KB (211 words) - 12:06, 12 May 2024