Sophie Wilson: Difference between revisions
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{{Short description|English computer scientist}} |
{{Short description|English computer scientist (born 1957)}} |
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{{Use British English|date=August 2023}} |
{{Use British English|date=August 2023}} |
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{{Distinguish|Sophia Wilson |
{{Distinguish|Sophia Wilson}} |
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{{Infobox scientist |
{{Infobox scientist |
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'''Sophie Mary Wilson''' |
'''Sophie Mary Wilson''' (born '''Roger Wilson'''; June 1957) is an English [[computer scientist]], a co-designer of the Instruction Set for the [[ARM architecture]].<ref name="Award1">{{cite web |title=Award of Draper Prize |url=https://www.broadcom.com/blog/broadcoms-sophie-wilson-awarded-nae-draper-prize |website=Broadcom |access-date=11 December 2023}}</ref><ref>{{cite web |title=Sophie Wilson (Profile) |url=https://computerhistory.org/profile/sophie-wilson/ |website=Computer History Museum |access-date=11 December 2023}}</ref><ref>{{cite web |title=Sophie Wilson: ARM And How Making Things Simpler Made Them Faster & More Efficient |url=https://hackaday.com/2018/05/08/sophie-wilson-arm-and-how-making-things-simpler-made-them-faster-more-efficient/ |website=Hackaday |date=8 May 2018 |access-date=11 December 2023}}</ref> |
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Wilson first designed a microcomputer during a break from studies at [[Selwyn College, Cambridge]]. She subsequently joined [[Acorn Computers]] and was instrumental in designing the BBC Microcomputer, including the [[BBC BASIC]] [[programming language]].<ref name="Electronics1"/> She first began designing the ARM [[reduced instruction set computer]] (RISC) in 1983, which entered production two years later. It became popular in [[embedded system]]s and is now the most widely used processor architecture in [[smartphone]]s. In 2011, she was listed in ''[[Maximum PC]]'' as number 8 in an article titled "The 15 Most Important Women in Tech History".<ref name="maximumpc 2011">{{cite news|url=http://www.maximumpc.com/article/features/15_most_important_women_tech_history|title=The 15 Most Important Women in Tech History|author=Bouman, Amber|date=1 March 2011|work=[[Maximum PC]]|access-date=12 March 2012|archive-date=2 May 2015|archive-url=https://web.archive.org/web/20150502055512/http://www.maximumpc.com/article/features/15_most_important_women_tech_history|url-status=deviated}}</ref> She was made a [[Commander of the Order of the British Empire]] in 2019. |
Wilson first designed a microcomputer during a break from studies at [[Selwyn College, Cambridge]]. She subsequently joined [[Acorn Computers]] and was instrumental in designing the BBC Microcomputer, including the [[BBC BASIC]] [[programming language]].<ref name="Electronics1"/> She first began designing the ARM [[reduced instruction set computer]] (RISC) in 1983, which entered production two years later. It became popular in [[embedded system]]s and is now the most widely used processor architecture in [[smartphone]]s. In 2011, she was listed in ''[[Maximum PC]]'' as number 8 in an article titled "The 15 Most Important Women in Tech History".<ref name="maximumpc 2011">{{cite news|url=http://www.maximumpc.com/article/features/15_most_important_women_tech_history|title=The 15 Most Important Women in Tech History|author=Bouman, Amber|date=1 March 2011|work=[[Maximum PC]]|access-date=12 March 2012|archive-date=2 May 2015|archive-url=https://web.archive.org/web/20150502055512/http://www.maximumpc.com/article/features/15_most_important_women_tech_history|url-status=deviated}}</ref> She was made a [[Commander of the Order of the British Empire]] in 2019. |
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==Early life and education== |
==Early life and education== |
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Wilson was born in [[Leeds]] and |
Wilson was born in [[Leeds]] to schoolteacher parents, her father specialising in English and her mother physics.<ref name="computerhistory.org" /> She spent her childhood in the village of [[Burn Bridge]], [[North Yorkshire]]. After secondary schooling at [[Harrogate Grammar School]],<ref name="Selwyn 2024">{{Cite magazine |last=Wilson |first=Sophie |author-link=Sophie Wilson |date=Summer 2024 |title=The AI PC era begins |magazine=Selwyn Magazine |pages=11 |issue=Summer 2024}}</ref> in 1976 Wilson went up to [[Selwyn College, Cambridge]],<ref name=":2">{{Cite web|title=Recognition for Computer Pioneer|url=http://www.sel.cam.ac.uk/news/recognition-for-computer-pioneer/|date=21 April 2016|website=Selwyn College|language=en-GB|access-date=15 May 2020|archive-date=2 November 2019|archive-url=https://web.archive.org/web/20191102120335/http://www.sel.cam.ac.uk/news/recognition-for-computer-pioneer/|url-status=live}}</ref> where she studied [[Mathematical Tripos|mathematics]] for her first two years, switching to [[Computer Science Tripos|computer science]] in her final year.<ref name="everything2" /> She was a member of the university Microprocessor society.<ref>{{Cite web|last=Wilson|first=Sophie|title=ARM inventor: Sophie Wilson (Part 1)|website=[[YouTube]]|date=9 May 2015 |url=https://www.youtube.com/watch?v=jhwwrSaHdh8&t=221s| archive-url=https://ghostarchive.org/varchive/youtube/20211211/jhwwrSaHdh8| archive-date=11 December 2021|url-status=live}}{{cbignore}}</ref> |
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==Career== |
==Career== |
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Wilson's success with the cow-feeder project and paper designs for a more general system based on it caught the notice of [[Hermann Hauser]], at the time a Cambridge postgraduate student. Hauser was impressed, and supported Wilson to stay in Cambridge for the 1978 summer vacation to see if she could turn the design into reality. At the same time a small microcomputer kit, the [[MK14]], was just being launched by [[Science of Cambridge]], led by [[Christopher Curry (businessman)|Chris Curry]] on behalf of Cambridge electronics businessman [[Clive Sinclair]]. Wilson was convinced she could do better, and Hauser encouraged her to do so, using parts from the MK14.{{sfn|Gelenbe|2009|p=118}} |
Wilson's success with the cow-feeder project and paper designs for a more general system based on it caught the notice of [[Hermann Hauser]], at the time a Cambridge postgraduate student. Hauser was impressed, and supported Wilson to stay in Cambridge for the 1978 summer vacation to see if she could turn the design into reality. At the same time a small microcomputer kit, the [[MK14]], was just being launched by [[Science of Cambridge]], led by [[Christopher Curry (businessman)|Chris Curry]] on behalf of Cambridge electronics businessman [[Clive Sinclair]]. Wilson was convinced she could do better, and Hauser encouraged her to do so, using parts from the MK14.{{sfn|Gelenbe|2009|p=118}} |
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In December 1978 Hauser and Curry set up Cambridge Processor Unit Ltd (CPU), initially as a consultancy designing microprocessor-based control systems. Their first customer was Ace Coin Equipment Ltd, who needed controllers for their [[slot machine|fruit machines]], with Wilson designing a device to prevent cigarette lighter sparks triggering payouts.<ref name=reg /> Meanwhile Wilson's computer design, combined with a cassette interface |
In December 1978 Hauser and Curry set up Cambridge Processor Unit Ltd (CPU), initially as a consultancy designing microprocessor-based control systems. Their first customer was Ace Coin Equipment Ltd, who needed controllers for their [[slot machine|fruit machines]], with Wilson designing a device to prevent cigarette lighter sparks triggering payouts.<ref name=reg /> Meanwhile Wilson's computer design, combined with a cassette interface designed by [[Steve Furber]], became the [[Acorn System 1|Acorn Micro-Computer]], the first of a long line of computers sold by the company.<ref name="bbcbasic">{{cite web|url=http://www.bbcbasic.co.uk/bbcbasic/history.html|title=A History of BBC BASIC|last=Russell|first=R. T.|access-date=10 June 2007|archive-date=23 October 2018|archive-url=https://web.archive.org/web/20181023080726/http://www.bbcbasic.co.uk/bbcbasic/history.html|url-status=live}}</ref>{{sfn|Gelenbe|2009|p=118}} Wilson started at the company in 1979.<ref name="Selwyn 2024" /> |
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Based on this processor board CPU Ltd developed an increasing number of different interface, display, control, and test add-ons for different customers, which in turn led to the [[Acorn Eurocard systems|Acorn Eurocard rack systems]] made generally available, and then the [[Acorn Atom]] released in March 1980. Wilson, initially [[side job|moonlighting]] from the final year of her degree, contributed first the [[machine code monitor]], then an [[Assembler (computing)|assembler]], then a version of [[BASIC]] and multiple [[device driver]]s for the machines ("an incredible task of [[bootstrapping]] things up"), as well as pitching in with everything else in the office.<ref name="computerhistory.org" /> |
Based on this processor board CPU Ltd developed an increasing number of different interface, display, control, and test add-ons for different customers, which in turn led to the [[Acorn Eurocard systems|Acorn Eurocard rack systems]] that were made generally available, and then the [[Acorn Atom]] released in March 1980. Wilson, initially [[side job|moonlighting]] from the final year of her degree, contributed first the [[machine code monitor]], then an [[Assembler (computing)|assembler]], then a version of [[BASIC]] and multiple [[device driver]]s for the machines ("an incredible task of [[bootstrapping]] things up"), as well as pitching in with everything else in the office.<ref name="computerhistory.org" /> |
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=== BBC micro === |
=== BBC micro === |
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Wilson was |
Wilson was at the forefront of creating the prototype that enabled Acorn to win the contract with the [[BBC|British Broadcasting Corporation (BBC)]] for their ambitious computer education project.{{sfn|Gelenbe|2009|p=119}} |
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The BBC had planned that the project |
The BBC had planned that the centrepiece of their project would be an [[The Computer Programme|upcoming tv series]] that would relate the possibilities that computers were opening up to demonstrations shown running on a standard reference microcomputer, that viewers would then be able to experiment with themselves. However by the end of 1980 it had become clear that the BBC's intended machine, the government-backed [[Grundy Newbrain|Newbury Newbrain]], would not be able to meet either the capability or the timetable the BBC sought, and the programme team began an urgent search for other options. Curry pressed the already existing Acorn Atom, but when this was rejected at the start of February 1981 as being too limited and too non-standard, Curry instead offered for the BBC to come to Cambridge the following week to view a prototype of Acorn's next computer — a machine that in reality did not as yet exist, beyond some general design discussion and a name, the Acorn Proton. Hauser employed a deception, telling both Wilson and colleague Steve Furber that the other had agreed a prototype could be built within a week.<ref name=revolution2008>{{cite news|url=http://news.bbc.co.uk/1/hi/technology/7307636.stm|title=BBC Micro ignites memories of revolution|publisher=BBC News|date=21 March 2008|access-date=26 October 2015|archive-date=7 April 2008|archive-url=https://web.archive.org/web/20080407140141/http://news.bbc.co.uk/1/hi/technology/7307636.stm|url-status=live}}</ref><ref>[https://www.youtube.com/watch?v=YTNrseS4DeE A week to remember: race to the BBC Micro prototype], [[The National Museum of Computing]], 14 January 2022. via [[YouTube]].</ref> Taking up the challenge, the Acorn team designed the system including the circuit board and components from Monday to Wednesday, which required fast new [[Dynamic random-access memory|DRAM]] [[integrated circuit]]s to be sourced directly from [[Hitachi]]. By Thursday evening, a prototype had been built, but it was only on Friday morning that it was actually working, allowing Wilson (who had managed to catch a few hours sleep in the night) to start porting over an operating system,<ref name=revolution2008 /> in time to be able to show it consistently drawing a line to a high-res graphics screen by the time the BBC arrived, with full text and graphics on screen by the time the BBC returned from an unproductive visit to the nearby [[Sinclair Research]]. |
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The Proton was accepted to become the [[BBC Micro]],<ref>[https://www.bbcbasic.co.uk/bbcbasic/agenda.html Meeting agenda], 12 February 1981. Agenda for the meeting at which the decision was taken. Made available by [[Richard T. Russell|Richard Russell]], 2016.</ref> with it falling to Wilson to develop its operating system and its version of BASIC, [[BBC BASIC]]<ref name="Electronics1">{{cite web |title=ARM's way |url=https://www.electronicsweekly.com/news/archived/resources-archived/arms-way-1998-04/ |website=Electronics Weekly |date=29 April 1998 |access-date=13 December 2023}}</ref> |
The Proton was accepted to become the [[BBC Micro]],<ref>[https://www.bbcbasic.co.uk/bbcbasic/agenda.html Meeting agenda], 12 February 1981. Agenda for the meeting at which the decision was taken. Made available by [[Richard T. Russell|Richard Russell]], 2016.</ref> with it falling to Wilson to develop its operating system and its version of BASIC, [[BBC BASIC]]<ref name="Electronics1">{{cite web |title=ARM's way |url=https://www.electronicsweekly.com/news/archived/resources-archived/arms-way-1998-04/ |website=Electronics Weekly |date=29 April 1998 |access-date=13 December 2023}}</ref> — at 16K and 16K respectively a fourfold increase on the 4K and 4K of the Atom, including a full set of [[floating point]] mathematical routines. Wilson's "Acorn SuperBASIC" development had reached about 10K by the time of the BBC's visit, and she was keen to preserve the improvements she considered she had made with [[Acorn System BASIC]] over previous versions of the language.<ref>[https://www.bbcbasic.co.uk/bbcbasic/beebspec.html BBC outline specification for tenders] and [https://www.bbcbasic.co.uk/bbcbasic/proposal.html Acorn initial response], December 1980/January 1981. Made available by [[Richard T. Russell|Richard Russell]], 2016. Accessed 2024-02-06. See also [https://stardot.org.uk/forums/viewtopic.php?t=11935 discussion thread]</ref> But the BBC, in particular their external consultant [[John Coll]] and BBC Engineering's [[Richard T. Russell|Richard Russell]], were adamant that the core established features of the language needed to be present with recognisably standard syntax. On the other hand extensions that Wilson had written to allow more [[structured programming]] in BASIC chimed closely with the BBC team's ambitions, and [[Naming_convention_(programming)#Length_of_identifiers|long fully-significant variable name]]s, [[Repeat until loop|repeat/until loops]], and multi-line [[Procedure (computer science)|procedure]]s and [[Function (computer programming)|function]]s with variables that could be [[Local variable|declared local]] all became hallmarks of BBC BASIC. Work on the system design, operating system, and BASIC language (and fitting everything into the memory available) continued through the summer, and Wilson recalled watching the [[wedding of Prince Charles and Lady Diana Spencer]] in July 1981 on a small portable television while attempting to debug and re-solder the prototype.<ref name=revolution2008 /> Along with Furber, Wilson was present backstage at the machine's first studio recordings for television, in case any software fixes were required. She later described the event as "a unique moment in time when the public wanted to know how this stuff works and could be shown and taught how to program."<ref name=revolution2008 /> |
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=== ARM processor === |
=== ARM processor === |
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In October 1983, Wilson began designing the instruction set for one of the first [[reduced instruction set computer]] (RISC) processors, the [[ARM architecture|Acorn RISC Machine]] (ARM).{{sfn|Gelenbe|2009|p=121}} The ARM1 was delivered on 26 April 1985 and worked first time |
In October 1983, Wilson began designing the instruction set for one of the first [[reduced instruction set computer]] (RISC) processors, the [[ARM architecture|Acorn RISC Machine]] (ARM).{{sfn|Gelenbe|2009|p=121}} The ARM1 was delivered on 26 April 1985 and worked first time,{{sfn|Hohl|Hinds|2014|pp=5–6}} entering into production the same year.<ref name="Selwyn 2024" /> This processor type was later to become one of the most successful [[Semiconductor intellectual property core|IP core]]s – a licensed [[central processing unit|CPU]] core – and by 2012 was being used in 95% of [[smartphone]]s.<ref name="reg" /> Wilson also designed Acorn Replay, the video architecture for Acorn machines. This included operating system extensions for video access, as well as the [[codec]]s, optimised to run high frame rate video on ARM CPUs from the ARM 2 onwards.<ref name="acornuser199207_replay">{{cite magazine | url=https://archive.org/details/AcornUser120-Jul92/page/n108/mode/1up | title=Action Replay | magazine=Acorn User | date=July 1992 | access-date=29 October 2021 | last1=Drage | first1=Chris | pages=107–109 }}</ref> |
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Wilson designed Acorn Replay, the video architecture for Acorn machines. This included operating system extensions for video access, as well as the [[codec]]s, optimised to run high frame rate video on ARM CPUs from the ARM 2 onwards.<ref name="acornuser199207_replay">{{ cite magazine | url=https://archive.org/details/AcornUser120-Jul92/page/n108/mode/1up | title=Action Replay | magazine=Acorn User | date=July 1992 | access-date=29 October 2021 | last1=Drage | first1=Chris | pages=107–109 }}</ref> |
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She was a non-executive director of the technology and games company Eidos plc, which bought and created [[Square Enix Europe#Eidos Interactive|Eidos Interactive]], for the years following its [[Initial public offering|flotation]] in 1990.<ref name="acornusr199308_eidos">{{ cite news | url=https://archive.org/details/AcornUser133-Aug93/page/n30/mode/1up | title=The cutting edge | work=Acorn User | date=August 1993 | access-date=29 October 2021 | last1=Burley | first1=Ian | pages=29–31 }}</ref> She was a consultant to [[Arm (company)|ARM Ltd]] when it was split off from Acorn in 1990. |
She was a non-executive director of the technology and games company Eidos plc, which bought and created [[Square Enix Europe#Eidos Interactive|Eidos Interactive]], for the years following its [[Initial public offering|flotation]] in 1990.<ref name="acornusr199308_eidos">{{ cite news | url=https://archive.org/details/AcornUser133-Aug93/page/n30/mode/1up | title=The cutting edge | work=Acorn User | date=August 1993 | access-date=29 October 2021 | last1=Burley | first1=Ian | pages=29–31 }}</ref> She was a consultant to [[Arm (company)|ARM Ltd]] when it was split off from Acorn in 1990. |
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=== Firepath === |
=== Firepath === |
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Wilson was the Chief Architect of [[Broadcom Corporation|Broadcom's]] Firepath processor.<ref>{{cite web|last=Smotherman|first=Mark|title=Which Machines Do Computer Architects Admire?|url=http://www.cs.clemson.edu/~mark/admired_designs.html|access-date=22 May 2012|archive-date=4 April 2006|archive-url=https://web.archive.org/web/20060404093907/http://www.cs.clemson.edu/~mark/admired_designs.html|url-status=live}}</ref> Firepath has its history in Acorn Computers,<ref>{{cite web |url=http://wit.library.cornell.edu/show.html?id=64|title=League of Women Coders |author=<!--Not stated--> |archive-url=https://web.archive.org/web/20221128234642/http://wit.library.cornell.edu/show.html?id=64 |website=Cornell University Library |archive-date=28 November 2022 |quote=}}</ref> which, after being renamed to [[Element 14 (company)|Element 14]], was broken up in an acquisition, with the Element 14 name being transferred to a new company,<ref name="ac-prelim-results-for-1998">{{cite web|url=http://www.marutan.net/wikiref/msdw/19990427%20-%20Acorn%20audited%20results%20for%201998.pdf|title=Acorn Group PLC – Preliminary Announcement of Audited Results for the Year Ended 31 December 1998|website=marutan.net|url-status=dead|archive-url=https://web.archive.org/web/20110718122337/http://www.marutan.net/wikiref/msdw/19990427%20-%20Acorn%20audited%20results%20for%201998.pdf|archive-date=18 July 2011|access-date=14 January 2011}}</ref> this company eventually being bought by Broadcom in 2000.<ref name="register20001014">{{cite news | url=https://www.theregister.com/2000/10/14/broadcom_eats_element/ | title=Broadcom eats Element 14 | work=The Register | date=14 October 2000 | access-date=31 January 2021 | last1=Cullen | first1=Drew | archive-date=12 November 2020 | archive-url=https://web.archive.org/web/20201112031746/https://www.theregister.com/2000/10/14/broadcom_eats_element/ | url-status=live }}</ref> In 2001 she became a research fellow and director at Broadcom.<ref name="Selwyn 20243">{{Cite magazine |last=Wilson |first=Sophie |author-link=Sophie Wilson |date=Summer 2024 |title=The AI PC era begins |magazine=Selwyn Magazine |pages=11 |issue=Summer 2024}}</ref> |
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Wilson was listed in 2011 in ''[[Maximum PC]]'' as number 8 in an article titled "The 15 Most Important Women in Tech History".<ref name="maximumpc 2011" /> |
Wilson was listed in 2011 in ''[[Maximum PC]]'' as number 8 in an article titled "The 15 Most Important Women in Tech History".<ref name="maximumpc 2011" /> |
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Latest revision as of 03:04, 16 December 2024
Sophie Wilson | |
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Born | June 1957 (age 67)[1][3] |
Education | |
Known for | |
Awards |
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Scientific career | |
Institutions | |
Website |
Sophie Mary Wilson (born Roger Wilson; June 1957) is an English computer scientist, a co-designer of the Instruction Set for the ARM architecture.[5][6][7]
Wilson first designed a microcomputer during a break from studies at Selwyn College, Cambridge. She subsequently joined Acorn Computers and was instrumental in designing the BBC Microcomputer, including the BBC BASIC programming language.[8] She first began designing the ARM reduced instruction set computer (RISC) in 1983, which entered production two years later. It became popular in embedded systems and is now the most widely used processor architecture in smartphones. In 2011, she was listed in Maximum PC as number 8 in an article titled "The 15 Most Important Women in Tech History".[9] She was made a Commander of the Order of the British Empire in 2019.
Early life and education
[edit]Wilson was born in Leeds to schoolteacher parents, her father specialising in English and her mother physics.[3] She spent her childhood in the village of Burn Bridge, North Yorkshire. After secondary schooling at Harrogate Grammar School,[10] in 1976 Wilson went up to Selwyn College, Cambridge,[11] where she studied mathematics for her first two years, switching to computer science in her final year.[4] She was a member of the university Microprocessor society.[12]
Career
[edit]Before going to university, Wilson had designed and built two electronic systems for ICI Fibres Research in Harrogate near her home village. The following year, in the 1977 summer vacation after her first year at university, she designed a small system around a MOS Technology 6502 microprocessor, which was used to electronically control feed for cows.[13]
Wilson's success with the cow-feeder project and paper designs for a more general system based on it caught the notice of Hermann Hauser, at the time a Cambridge postgraduate student. Hauser was impressed, and supported Wilson to stay in Cambridge for the 1978 summer vacation to see if she could turn the design into reality. At the same time a small microcomputer kit, the MK14, was just being launched by Science of Cambridge, led by Chris Curry on behalf of Cambridge electronics businessman Clive Sinclair. Wilson was convinced she could do better, and Hauser encouraged her to do so, using parts from the MK14.[14]
In December 1978 Hauser and Curry set up Cambridge Processor Unit Ltd (CPU), initially as a consultancy designing microprocessor-based control systems. Their first customer was Ace Coin Equipment Ltd, who needed controllers for their fruit machines, with Wilson designing a device to prevent cigarette lighter sparks triggering payouts.[13] Meanwhile Wilson's computer design, combined with a cassette interface designed by Steve Furber, became the Acorn Micro-Computer, the first of a long line of computers sold by the company.[15][14] Wilson started at the company in 1979.[10]
Based on this processor board CPU Ltd developed an increasing number of different interface, display, control, and test add-ons for different customers, which in turn led to the Acorn Eurocard rack systems that were made generally available, and then the Acorn Atom released in March 1980. Wilson, initially moonlighting from the final year of her degree, contributed first the machine code monitor, then an assembler, then a version of BASIC and multiple device drivers for the machines ("an incredible task of bootstrapping things up"), as well as pitching in with everything else in the office.[3]
BBC micro
[edit]Wilson was at the forefront of creating the prototype that enabled Acorn to win the contract with the British Broadcasting Corporation (BBC) for their ambitious computer education project.[16]
The BBC had planned that the centrepiece of their project would be an upcoming tv series that would relate the possibilities that computers were opening up to demonstrations shown running on a standard reference microcomputer, that viewers would then be able to experiment with themselves. However by the end of 1980 it had become clear that the BBC's intended machine, the government-backed Newbury Newbrain, would not be able to meet either the capability or the timetable the BBC sought, and the programme team began an urgent search for other options. Curry pressed the already existing Acorn Atom, but when this was rejected at the start of February 1981 as being too limited and too non-standard, Curry instead offered for the BBC to come to Cambridge the following week to view a prototype of Acorn's next computer — a machine that in reality did not as yet exist, beyond some general design discussion and a name, the Acorn Proton. Hauser employed a deception, telling both Wilson and colleague Steve Furber that the other had agreed a prototype could be built within a week.[17][18] Taking up the challenge, the Acorn team designed the system including the circuit board and components from Monday to Wednesday, which required fast new DRAM integrated circuits to be sourced directly from Hitachi. By Thursday evening, a prototype had been built, but it was only on Friday morning that it was actually working, allowing Wilson (who had managed to catch a few hours sleep in the night) to start porting over an operating system,[17] in time to be able to show it consistently drawing a line to a high-res graphics screen by the time the BBC arrived, with full text and graphics on screen by the time the BBC returned from an unproductive visit to the nearby Sinclair Research.
The Proton was accepted to become the BBC Micro,[19] with it falling to Wilson to develop its operating system and its version of BASIC, BBC BASIC[8] — at 16K and 16K respectively a fourfold increase on the 4K and 4K of the Atom, including a full set of floating point mathematical routines. Wilson's "Acorn SuperBASIC" development had reached about 10K by the time of the BBC's visit, and she was keen to preserve the improvements she considered she had made with Acorn System BASIC over previous versions of the language.[20] But the BBC, in particular their external consultant John Coll and BBC Engineering's Richard Russell, were adamant that the core established features of the language needed to be present with recognisably standard syntax. On the other hand extensions that Wilson had written to allow more structured programming in BASIC chimed closely with the BBC team's ambitions, and long fully-significant variable names, repeat/until loops, and multi-line procedures and functions with variables that could be declared local all became hallmarks of BBC BASIC. Work on the system design, operating system, and BASIC language (and fitting everything into the memory available) continued through the summer, and Wilson recalled watching the wedding of Prince Charles and Lady Diana Spencer in July 1981 on a small portable television while attempting to debug and re-solder the prototype.[17] Along with Furber, Wilson was present backstage at the machine's first studio recordings for television, in case any software fixes were required. She later described the event as "a unique moment in time when the public wanted to know how this stuff works and could be shown and taught how to program."[17]
ARM processor
[edit]In October 1983, Wilson began designing the instruction set for one of the first reduced instruction set computer (RISC) processors, the Acorn RISC Machine (ARM).[21] The ARM1 was delivered on 26 April 1985 and worked first time,[22] entering into production the same year.[10] This processor type was later to become one of the most successful IP cores – a licensed CPU core – and by 2012 was being used in 95% of smartphones.[13] Wilson also designed Acorn Replay, the video architecture for Acorn machines. This included operating system extensions for video access, as well as the codecs, optimised to run high frame rate video on ARM CPUs from the ARM 2 onwards.[23]
She was a non-executive director of the technology and games company Eidos plc, which bought and created Eidos Interactive, for the years following its flotation in 1990.[24] She was a consultant to ARM Ltd when it was split off from Acorn in 1990.
Since the demise of Acorn Computers, Wilson has made a small number of public appearances to talk about work done there.[25]
Firepath
[edit]Wilson was the Chief Architect of Broadcom's Firepath processor.[26] Firepath has its history in Acorn Computers,[27] which, after being renamed to Element 14, was broken up in an acquisition, with the Element 14 name being transferred to a new company,[28] this company eventually being bought by Broadcom in 2000.[29] In 2001 she became a research fellow and director at Broadcom.[30]
Wilson was listed in 2011 in Maximum PC as number 8 in an article titled "The 15 Most Important Women in Tech History".[9]
Honours and awards
[edit]Wilson was awarded the Fellow Award by the Computer History Museum in California in 2012 "for her work, with Steve Furber, on the BBC Micro computer and the ARM processor architecture."[1][31] In 2009, she was elected as a Fellow of the Royal Academy of Engineering and, in 2013, as a Fellow of the Royal Society.[32] Wilson received the 2014 Lovie Lifetime Achievement Award in acknowledgement for her invention of the ARM processor.[33] In 2016, she became an honorary fellow of her alma mater, Selwyn College, Cambridge.[11] In 2020, she was honoured as a Distinguished Fellow of the British Computer Society.[2]
Wilson was appointed Commander of the Order of the British Empire (CBE) in the 2019 Birthday Honours for services to computing.[34]
In 2022 the Charles Stark Draper Prize for Engineering was awarded in Washington D.C. to David A. Patterson, John L. Hennessy, Stephen B. Furber, and Sophie M. Wilson for their "invention, development, and implementation" of the RISC chips.[35]
Personal life
[edit]Wilson underwent gender reassignment surgery and transitioned from male to female in 1994.[36][37] She enjoys photography and is involved in a local theatre group, where she is in charge of costumes and set pieces and has acted in a number of productions. She has also played a cameo role as a pub landlady in the BBC television drama Micro Men, in which a younger Wilson is played by Stefan Butler.[37]
See also
[edit]References
[edit]- ^ a b c "Sophie Wilson: 2012 Fellow". Computer History Museum. Archived from the original on 19 September 2020. Retrieved 15 May 2020.
- ^ a b "Sophie Wilson". BCS. 2020. Archived from the original on 7 May 2021. Retrieved 7 May 2021.
- ^ a b c d "Oral History of Sophie Wilson 2012 Computer History Museum Fellow" (PDF). Archive.computerhistory.org. Archived (PDF) from the original on 3 March 2016. Retrieved 10 April 2018.
- ^ a b "Sophie Wilson@Everything2.com". Archived from the original on 4 December 2009. Retrieved 1 January 2010.
- ^ "Award of Draper Prize". Broadcom. Retrieved 11 December 2023.
- ^ "Sophie Wilson (Profile)". Computer History Museum. Retrieved 11 December 2023.
- ^ "Sophie Wilson: ARM And How Making Things Simpler Made Them Faster & More Efficient". Hackaday. 8 May 2018. Retrieved 11 December 2023.
- ^ a b "ARM's way". Electronics Weekly. 29 April 1998. Retrieved 13 December 2023.
- ^ a b Bouman, Amber (1 March 2011). "The 15 Most Important Women in Tech History". Maximum PC. Archived from the original on 2 May 2015. Retrieved 12 March 2012.
- ^ a b c Wilson, Sophie (Summer 2024). "The AI PC era begins". Selwyn Magazine. No. Summer 2024. p. 11.
- ^ a b "Recognition for Computer Pioneer". Selwyn College. 21 April 2016. Archived from the original on 2 November 2019. Retrieved 15 May 2020.
- ^ Wilson, Sophie (9 May 2015). "ARM inventor: Sophie Wilson (Part 1)". YouTube. Archived from the original on 11 December 2021.
- ^ a b c Bidmead, Chris (2 May 2012). "Unsung Heroes of Tech: ARM creators Sophie Wilson and Steve Furber". The Register. Archived from the original on 13 April 2019. Retrieved 9 November 2015.
- ^ a b Gelenbe 2009, p. 118.
- ^ Russell, R. T. "A History of BBC BASIC". Archived from the original on 23 October 2018. Retrieved 10 June 2007.
- ^ Gelenbe 2009, p. 119.
- ^ a b c d "BBC Micro ignites memories of revolution". BBC News. 21 March 2008. Archived from the original on 7 April 2008. Retrieved 26 October 2015.
- ^ A week to remember: race to the BBC Micro prototype, The National Museum of Computing, 14 January 2022. via YouTube.
- ^ Meeting agenda, 12 February 1981. Agenda for the meeting at which the decision was taken. Made available by Richard Russell, 2016.
- ^ BBC outline specification for tenders and Acorn initial response, December 1980/January 1981. Made available by Richard Russell, 2016. Accessed 2024-02-06. See also discussion thread
- ^ Gelenbe 2009, p. 121.
- ^ Hohl & Hinds 2014, pp. 5–6.
- ^ Drage, Chris (July 1992). "Action Replay". Acorn User. pp. 107–109. Retrieved 29 October 2021.
- ^ Burley, Ian (August 1993). "The cutting edge". Acorn User. pp. 29–31. Retrieved 29 October 2021.
- ^ "CU Computer Preservation Society 1998–1999". Cambridge University Computer Preservation Society. 29 August 2002. Archived from the original on 31 March 2012. Retrieved 28 June 2011.
On 20th October 1998, Sophie Wilson spoke to an audience of 22 about Acorn from the BBC to the ARM.
- ^ Smotherman, Mark. "Which Machines Do Computer Architects Admire?". Archived from the original on 4 April 2006. Retrieved 22 May 2012.
- ^ "League of Women Coders". Cornell University Library. Archived from the original on 28 November 2022.
- ^ "Acorn Group PLC – Preliminary Announcement of Audited Results for the Year Ended 31 December 1998" (PDF). marutan.net. Archived from the original (PDF) on 18 July 2011. Retrieved 14 January 2011.
- ^ Cullen, Drew (14 October 2000). "Broadcom eats Element 14". The Register. Archived from the original on 12 November 2020. Retrieved 31 January 2021.
- ^ Wilson, Sophie (Summer 2024). "The AI PC era begins". Selwyn Magazine. No. Summer 2024. p. 11.
- ^ Williams, Alun (20 January 2012). "Four ARM cores for every person on earth – Furber, Wilson honoured". Electronics Weekly. Archived from the original on 23 January 2012. Retrieved 7 March 2012.
- ^ "Ms Sophie Wilson FREng FRS". Royal Society. Archived from the original on 22 February 2014.
- ^ "Sophie Wilson's ARM Microprocessor" (in Italian). 5 May 2015. Archived from the original on 4 September 2020. Retrieved 12 March 2019.
- ^ "No. 62666". The London Gazette (Supplement). 8 June 2019. p. B10.
- ^ "Draper Prize". National Academy of Engineering. Retrieved 11 December 2023.
- ^ "You are beautiful and don't you forget it. A word about acceptance". Beyond Positive. 9 May 2012. Archived from the original on 10 August 2020. Retrieved 27 April 2020.
- ^ a b Williams, Chris (8 October 2009). "BBC4's Micro Men: an interview and review". Drobe. Archived from the original on 16 March 2012. Retrieved 20 June 2010.
Sources
[edit]- Hohl, William; Hinds, Christopher (2014). ARM Assembly Language: Fundamentals and Techniques, Second Edition. CRC Press. ISBN 978-1-482-22985-1.
- Gelenbe, Erol (2009). Fundamental Concepts in Computer Science. Imperial College Press. ISBN 978-1-848-16291-4.
External links
[edit]- 1957 births
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