Grundy NewBrain

Grundy NewBrain
Type	Emphasis: Education, Portable computing, Programming, Small business
Release date	1982;42 years ago
Introductory price	Model AD 229.00 GBP,; Model A 199.00 GBP (United Kingdom, 1982),; 48,000.00 GRD (Greece, 1985)
System on a chip	Keyboard and one-line VF display chip: COP420 MCU
CPU	8 bits Zilog Z80A @ 4 MHz
Memory	32 KiB RAM (Maximum 2 MiB); 24 KiB ROM
Display	Text modes: 32×25, 32×30, 40×25, 40×30, 64×25, 64×30, 80×25, 80×30
Graphics	Composite video, UHF TV output; Graphics modes: 256×256, 320×256, 512×256, 640×256; Total number of colours: 2
Input	62 keys; I/O Ports:2× Tape recorder (1,200 Baud), Expansion, 2x RS-232 (to 19,000 Baud)

Last updated March 04, 2024

The Grundy NewBrain was a microcomputer sold in the early 1980s by Grundy Business Systems Ltd of Teddington and Cambridge, England. A contemporary of the ZX80 and BBC Micro, the NewBrain was mostly used in business settings. It is notable for its chicklet keyboard and models that featured a one-line display in addition to television output. Another unique feature of the system was NewBrain BASIC, a BASIC programming language that featured an on-the-fly compiler.

Originally designed at Sinclair Radionics, government ownership of that company led to Clive Sinclair leaving the company and starting a new low-cost design, the ZX80. It was considered for the BBC Micro project, but development was not complete and that was won by Acorn Computers instead. The design was then sold off by the government to recently-formed Grundy. Grundy produced the system between 1982 and 1983, with approximately 50,000 units sold during this period. The design was then sold to Dutch firm Tradecom to fill a contract for computers in training centres. These units came from existing stocks, and plans to open a factory in India never materialized.

History

Beginnings

Through the mid-1970s, Clive Sinclair's firm Sinclair Radionics entered a period of financial difficulties. This led to investment from the National Enterprise Board (NEB) in 1976 to ensure the company did not foreclose.^[2] The NEB had formed the previous year to nationalize technology companies considered critical to the UK.

Seeing his management of the company would suffer, Sinclair dusted off a company he had purchased and left unused, a shelf company, and formed Sinclair Instrument. He asked Radionics employee Christopher Curry to start it up, and in July 1977, Sinclair Instrument was renamed Science of Cambridge Ltd. Around the same time, Curry was introduced to a new small computer designed by Ian Williamson that combined a National Semiconductor SC/MP central processing unit (CPU) with parts from one of Sinclair's calculator designs. Curry put this on the market as the MK14 in June 1978, for the very low price of £40.^[2]

Curry wanted to start the development of a larger machine similar to the Apple II, but the company simply didn't have the funds to develop it. In 1978, the NEB agreed to fund the development of such a machine at Radionics. This prompted Curry to leave Science of Cambridge, and partner with Hermann Hauser to form Acorn Computers. At Radionics, development began with Mike Wakefield as the designer and Basil Smith as the software engineer.^[2]

In early 1979, the NEB sold off Radionics' calculator product lines. In July, Sinclair had enough of the NEB and quit, moving to Science of Cambridge. In return, the NEB renamed Radionics to Sinclair Electronics in September and the company was dedicated to bringing the new machine to market. Meanwhile, at Science of Cambridge, Sinclair began the development of a much simpler machine with the goal of hitting a sub-£100 price point. This would emerge in early 1980 as the ZX80. The company was renamed Sinclair Research in 1981 and the ZX81 launched.^[2]

In January 1980 the former Radionics once again renamed to become Thandar Electronics, but the 1979 Conservative government under Margaret Thatcher began selling off government-owned properties and did so in this case by selling Thandar to Thurlby Electronics, who had no interest in the computer project. The NEB then transferred the project to another NEB-owned company, Newbury Laboratories.^[2]

Newbury gave it the name NewBrain and announced the imminent release of three models, including a battery-powered portable computer.^[2] By this time the machine was no longer as innovative as it had been when first designed; in 1980 Personal Computer World said it was "significantly in advance of anything that had been seen in the field of handheld computing", but by the end of that year with the systems still not released, and it was not long before Your Computer noted "the endless delays in its development mean that it has now lagged behind a new generation of personal computers."^[2]

BBC micro project

In early 1980, the British Broadcasting Corporation (BBC) Further Education department conceived the idea of a computer literacy programme, principally in response to the impact of a 1979 six-part ITV documentary series, The Mighty Micro, in which Dr Christopher Evans from the UK National Physical Laboratory predicted the coming (micro) computer revolution. It was a very influential documentary — so much so that questions were asked in Parliament.

As a result of the questions in Parliament, the Department of Industry (DoI) became interested in the programme. BBC Engineering was instructed to attempt to draw up an objective specification for a machine that the program could be tailored to, and under pressure from the DoI, they wanted to choose a UK-built system. The market provided few alternatives, so the BBC specification was closely written around the NewBrain specification with the expectation they would bid on the project.

The BBC released the specification in 1981, but at this time Newbury was nowhere near ready to go into production as they were having problems with the uncommitted logic arrays (ULAs) that provided much of the customization. The BBC's programmes, initially scheduled for Autumn 1981, were moved back to Spring 1982. By this time, Sinclair and Curry had also heard of the project, and demanded they be allowed to bid on it. Sinclair were well down the road with the ZX80, which was a much simpler machine that could not come close to meeting the original specification. Curry visited the BBC and convinced them they were ready to go with a machine that could mostly meet the specification. Acorn won the contract.

As a result of the BBC's decision, Newbury no longer had a launch customer for the NewBrain. The British Technology Group, which had replaced the NEB by this time, sold the final design and production rights to Grundy. Grundy had been looking for an entrant into the personal computer business, as they were already producing a CP/M 2.2-based machine, built into a 'dumb terminal' as a virtual clone of the Intertec Superbrain.

Commercial use

Over 50,000 NewBrain units were sold to educational, scientific, industry, small business and banking sectors; as well as to home users. Scientific use was strong because of the unusually high precision of the NewBrain's floating point computations and its very high-resolution graphics. Business use was also proportionally high due to the availability of CP/M based software. The main industrial use was within the pharmaceutical industry. The computer was widely used by the Angolan Government; the central planning of the Angolan Ministry of Commerce in 1981 - 1984 were made using this machine instead of much more expensive computers.^[3]

Demise

Tradecom purchased Grundy Business Systems in 1983 in order to fulfil a contract to supply microcomputers to schools and training centres in the Netherlands. They created a server to which several NewBrains could use its floppy discs to load programs down the serial cable and simple switching enabled the teacher to view the screen of the students. They also demonstrated a keyboard with predictive text laid out in a non-QWERTY fashion. They were given television coverage, but the NewBrain's part in this was not mentioned. Tradecom's NewBrains were supplied entirely by existing stock. A press release was made of a new factory in India to provide NewBrains for the Indian market and to supply Europe, but nothing materialised.

Today

The Dutch NewBrain user group has PDF downloads of various publications and a link to a Greek website that contains a PC-based emulator. The Dutch website has many of the programs that were available for the NewBrain, and these can be run on the emulator.

Models

Two main models were released. The model 'A' needed to display on either a TV or a monitor. The model 'AD' also included a one-line, 16-character, vacuum fluorescent (VF) display on the unit which permitted operation with or without a TV screen or monitor — the VF display responded to the cursor keys and scrolled around the screen display area. One additional model was released, but this was a custom version for a pharmaceutical chain, with no screen display — only the VF display — and was not widely known.

An expansion chassis was released, providing an additional 64 kB of paged memory. Since the Z80 has a 16-bit address bus, it can only address 64 kB of memory at a time. The paged memory system in the expansion chassis used bank switching to allow the NewBrain to take advantage of several 64 kB modules. The expansion module included a parallel printer port and two hardware based serial ports and an expansion bus to connect further modules such as the 8 and 16 way serial modules under development. The expansion module included Series 2 software, replacing those in the processor module as well as software for the new devices.

CP/M 2.2 was also available. Under CP/M 2.2 the internal BASIC ROM was paged out for the CP/M ROM but this gave only 32 kB memory to CP/M. With the expansion module fitted the three 8 kB ROMs of the processor module were paged out to give the NewBrain one of the highest available TPA (Transient Program Area — memory left after the OS demands are satisfied) to CP/M. Grundy Business Systems released two 5.25" drive formats, 40 track 200 kB single sided and 80 track 800 kB double sided. Several independent dealers provided 40 track 400 kB double sided drive. In 1983 the Sony 3.5" became available and single and paired units were supplied to dealers in the NewBrain cream cases. The 3.5" 800 kB discs also got a more effective format allowing the files from 4x200 kB floppies to be stored on one 800 kB disc.

Software

The unexpanded NewBrain contains software provided in ROM, primarily BASIC, a full screen editor and device drivers. Other packages were also included within the ROM (e.g. maths and graphics packages) and were accessible to BASIC and any other software.

All I/O was stream-based, and orthogonal: any device could be replaced by an alternative, although the manual did warn that devices had to be chosen with care. This approach did make it easy to write programs that could swap between input and output coming from a screen, keyboard or tape.

The maths package^[4] had 12 figures of accuracy and a dynamic range of 10⁻¹⁵⁰ to 10¹⁵⁰, compared to most common machines having 6 figure accuracy and a dynamic range of 10⁻³⁸ to 10⁺³⁸. This was achieved by using base 256 for the floating point format, rather than the more common base 2, and using six bytes for storing numbers, rather than the more common four. Five bytes stored the basic number, with the last byte storing the sign in the first bit, and the remaining seven bits storing the exponent. For example, π was stored as 3.14159265358.

Benchmarks show that even though the NewBrain performed double accuracy calculations, it was one of the fastest 8-bit computers available for several years, completing PCW Benchmark 8 in 7.0 seconds.^[5] For comparison against other contemporary machines, the Sinclair Spectrum took 25.3 seconds, the BBC Micro took 5.1 seconds, but with fewer significant digits. The 16-bit IBM PC took 3.5 seconds.

The graphics screen was separate from the text screen and was opened as a new output stream that shared space with the text screen. The graphics commands were based on 'turtle' keywords and provided a flexible means of drawing. The last two generations of NewBrain ROMs included additional graphics commands — ROM 1.9 had two more commands, and ROM 2.0 some more. But to ensure compatibility little software would use these additional commands. The programmers were working on version 2.2 as well as versions for different keyboards, including Greek and Swedish as well as French and German. Grundy had been considering offering the Series 2 ROMs to existing users. This required the existing soldered in ROMs to be removed from the circuit board and a socket soldered in. The tight fit and labour cost was high on this retrofitting, and the failure of the company in 1983 meant that users were never aware that this was being considered.

The version of BASIC was an extended version of ANSI BASIC, the facilities of which were similar to those in Microsoft BASIC. The graphics package included commands that could draw dots, lines, arcs, filled-in areas and annotated axes.

Grundy offered a 'Software Technical Manual'. This manual documented various routines that could be called in the ROM and the calling parameters. It was left to the NewBrain user groups to publish the details of how to access these routines through the indirect call. (A low-memory address was called with the relevant routine parameters, and this address would call the ROM-specific location of a jump table which, in turn, then called the final routine.) Even screen access required this indirect use, as the screen location would change as new input and output streams were created, including high-resolution (for the time) graphic streams. Memory maps and other technical information were included in numerous technical notes which were supplied to dealers and owners free of charge. The Technical Manual had a retail price of £50.

HiSoft Systems produced NewBrain versions of their Pascal compiler and editor. A number of CP/M applications were converted to using the NewBrain's CP/M terminal and made available on NewBrain 5.25" and 3.5" formatted diskettes. These included Z80 Assemblers and debuggers, Pro Pascal and Pro Fortran, TCL Pascal, dBase II, WordStar 3.3, Peachtree Accounting applications, the Superfile database and CP/M versions of Hisoft Pascal, Modula-2, Z80 Assembler and text editor.

Many third party software houses (e.g. IEL, MicroMart, Black Knight Computers) provided independent software for the NewBrain, which was supplied to users such as the British Ministry of Defence, and Cambridge University.

Related Research Articles

The Acorn Electron was a lower-cost alternative to the BBC Micro educational/home computer, also developed by Acorn Computers Ltd, to provide many of the features of that more expensive machine at a price more competitive with that of the ZX Spectrum. It had 32 kilobytes of RAM, and its ROM included BBC BASIC II together with the operating system. Announced in 1982 for a possible release the same year, it was eventually introduced on 25 August 1983 priced at £199.

<span class="mw-page-title-main">ZX80</span> Cheap home computer by Sinclair, 1980

The Sinclair ZX80 is a home computer launched on 29 January 1980 by Science of Cambridge Ltd.. It is notable for being one of the first computers available in the United Kingdom for less than a hundred pounds. It was available in kit form for £79.95, where purchasers had to assemble and solder it together, and as a ready-built version at £99.95.

<span class="mw-page-title-main">ZX Spectrum</span> 1982 series of home computers

The ZX Spectrum is an 8-bit home computer developed and marketed by Sinclair Research. It was first released in the United Kingdom on 23 April 1982, and around the world in the following years, most notably in Europe, the United States, and Eastern Bloc countries, wherein it was especially popular. In addition to being one of the most influential computers ever made, with over five million units sold, the Spectrum is also one of the bestselling models of computer ever, with several analysts suggesting that it sold the second-most among the microcomputers behind only the Commodore 64.

<span class="mw-page-title-main">ZX81</span> Inexpensive home computer by Sinclair Research, 1981

The ZX81 is a home computer that was produced by Sinclair Research and manufactured in Dundee, Scotland, by Timex Corporation. It was launched in the United Kingdom in March 1981 as the successor to Sinclair's ZX80 and designed to be a low-cost introduction to home computing for the general public. It was hugely successful; more than 1.5 million units were sold. In the United States it was initially sold as the ZX-81 under licence by Timex. Timex later produced its own versions of the ZX81: the Timex Sinclair 1000 and Timex Sinclair 1500. Unauthorized ZX81 clones were produced in several countries.

BBC BASIC is an interpreted version of the BASIC programming language. It was developed by Acorn Computers Ltd when they were selected by the BBC to supply the computer for their BBC Literacy Project in 1981.

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">Clive Sinclair</span> English entrepreneur and inventor (1940–2021)

Sir Clive Marles Sinclair was an English entrepreneur and inventor, best known for being a pioneer in the computing industry and also as the founder of several companies that developed consumer electronics in the 1970s and early 1980s.

Sinclair BASIC is a dialect of the programming language BASIC used in the 8-bit home computers from Sinclair Research, Timex Sinclair and Amstrad. The Sinclair BASIC interpreter was written by Nine Tiles Networks Ltd.

The Enterprise is a Zilog Z80-based home computer announced in 1983, but due to a series of delays, was not commercially available until 1985. It was developed by British company Intelligent Software and marketed by Enterprise Computers.

<span class="mw-page-title-main">Christopher Curry (businessman)</span> British businessman

Christopher Curry is the co-founder of Acorn Computers, with Hermann Hauser and Andy Hopper. He became a millionaire as a result of Acorn's success.

Sinclair Research Ltd was a British consumer electronics company founded by Clive Sinclair in Cambridge. It was originally incorporated in 1973 as Westminster Mail Order Ltd, renamed Sinclair Instrument Ltd, then Science of Cambridge Ltd, then Sinclair Computers Ltd, and finally Sinclair Research Ltd. It remained dormant until 1976, when it was activated with the intention of continuing Sinclair's commercial work from his earlier company Sinclair Radionics, and adopted the name Sinclair Research in 1981.

Mallard BASIC is a BASIC interpreter for CP/M produced by Locomotive Software and supplied with the Amstrad PCW range of small business computers, the ZX Spectrum +3 version of CP/M Plus, and the Acorn BBC Micro's Zilog Z80 second processor.

<span class="mw-page-title-main">Beta BASIC</span> BASIC interpreter for the Sinclair Research ZX Spectrum microcomputer

Beta BASIC is a BASIC interpreter for the Sinclair Research ZX Spectrum microcomputer, written by Dr Andrew Wright in 1983 and sold by his one-man software house BetaSoft. BetaSoft also produced a regular newsletter/magazine, BetaNews.

The Machine Operating System (MOS) or OS is a discontinued computer operating system (OS) used in Acorn Computers' BBC computer range. It included support for four-channel sound, graphics, file system abstraction, and digital and analogue input/output (I/O) including a daisy-chained expansion bus. The system was single-tasking, monolithic and non-reentrant.

The Memotech MTX500 and MTX512 were a range of 8-bit Zilog Z80A based home computers released by the British company Memotech in 1983 and sold mainly in the UK, France, Germany and Scandinavia. Originally a manufacturer of memory add-ons for Sinclair machines, Memotech developed their own competing computer when it was perceived the expansion pack business would no longer be viable.

Nigel Searle is the former managing director of Sinclair Research Ltd, and one of the company's longest-serving employees. He joined Sinclair Radionics in 1973, and for most of the 1970s, Searle worked for Sinclair in the United States to promote the company's calculators and other products. In 1977, with Sinclair in financial trouble, Searle left the company. He rejoined in 1979 when Sir Clive Sinclair formed Science of Cambridge and continued to work from the US, successfully promoting the ZX80 and ZX81 personal computers. In spring 1982, he moved back to the United Kingdom as Sinclair's managing director, a post he retained until 1986 when Amstrad took over the company's computer business.

The MK14 was a computer kit sold by Science of Cambridge of the United Kingdom, first introduced in 1977 for £39.95. The price was very low for a complete computer system at the time, and Science of Cambridge eventually sold over fifteen thousand kits.

A BBC Micro expansion unit, for the BBC Micro is one of a number of peripherals in a box with the same profile and styling as the main computer.

The history of the personal computer as a mass-market consumer electronic device began with the microcomputer revolution of the 1970s. A personal computer is one intended for interactive individual use, as opposed to a mainframe computer where the end user's requests are filtered through operating staff, or a time-sharing system in which one large processor is shared by many individuals. After the development of the microprocessor, individual personal computers were low enough in cost that they eventually became affordable consumer goods. Early personal computers – generally called microcomputers – were sold often in electronic kit form and in limited numbers, and were of interest mostly to hobbyists and technicians.

The British Broadcasting Corporation Microcomputer System, or BBC Micro, is a series of microcomputer designed and built by Acorn Computers Limited in the 1980s for the Computer Literacy Project of the BBC. Designed with an emphasis on education, it was notable for its ruggedness, expandability, and the quality of its operating system. An accompanying 1982 television series, The Computer Programme, featuring Chris Serle learning to use the machine, was broadcast on BBC2.

References

Citations

↑ "Musée Bolo" . Retrieved 2022-01-03.
1 2 3 4 5 6 7 Smith 2012.
↑
- "Entry for New Brain". Old-Computers.com. Retrieved 2022-01-03.
↑ NewBrain Handbook, Appendix 2
↑ Personal Computer World, 1983 and 1984 Benchtest Summaries

Bibliography

Smith, Tony (2 July 2012). "The Grundy NewBrain is 30". The Register.

NewBrain Handbook
NewBrain Model AD, Serial # 610802
Personal Computer World, 1982 review.
The Computer Programme, BBC Television.
NBUG magazines

External links

"History of Grundy Business Systems". Binary Dinosaurs. Retrieved 2022-01-03.
"GBS Gerald McMullon - an inside view". Binary Dinosaurs. Retrieved 2022-01-03.
"Press release on the sale of the NewBrain to Grundy". Binary Dinosaurs (Press release). Retrieved 2022-01-03.
"Dutch NewBrain User Group" (in Dutch). Archived from the original on 2016-03-03. Retrieved 2022-01-03.
"Newbrain Emulator" . Retrieved 2022-01-03.
"Grundy Newbrain Reparatur/Repair". 8bit-homecomputermuseum.at. Retrieved 2022-01-03.

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.

[1] "Musée Bolo" . Retrieved 2022-01-03.

[FOOTNOTESmith2012-2] 1 2 3 4 5 6 7 Smith 2012.

[3] 
"Entry for New Brain". Old-Computers.com. Retrieved 2022-01-03.

[mwzQ] "Entry for New Brain". Old-Computers.com. Retrieved 2022-01-03.

[4] NewBrain Handbook, Appendix 2

[5] Personal Computer World, 1983 and 1984 Benchtest Summaries

[2]

[3]

[4]

[5]