International Computers Limited


International Computers Limited was a large British computer hardware, computer software and computer services company that operated from 1968 until 2002. It was formed through a merger of International Computers and Tabulators, English Electric Leo Marconi and Elliott Automation in 1968. The company's most successful product line was the ICL 2900 Series range of mainframe computers.
In later years, ICL diversified its product line but the bulk of its profits always came from its mainframe customers. New ventures included marketing a range of powerful IBM clones made by Fujitsu, various minicomputer and personal computer ranges and a range of retail point-of-sale equipment and back-office software. Although it had significant sales overseas, ICL's mainframe business was dominated by large contracts from the UK public sector, including Post Office Ltd, the Inland Revenue, the Department for Work and Pensions and the Ministry of Defence. It also had a strong market share with UK local authorities and nationalized utilities including the water, electricity, and gas boards.
The company had an increasingly close relationship with Fujitsu from the early 1980s, culminating in Fujitsu becoming sole shareholder in 1998. ICL was rebranded as Fujitsu in April 2002.
The ICL brand is still used by the former Russian joint-venture of the company, founded in 1991.

Origins

International Computers Limited was formed in 1968 as a part of the Industrial Expansion Act of the Wilson Labour Government. ICL was an initiative of Tony Benn, the Minister of Technology, to create a British computer industry that could compete with major world manufacturers like IBM; the formation of the company was the last in a series of mergers that had taken place in the industry since the late 1950s.
The main portions of ICL were formed by merging International Computers and Tabulators with English Electric Computers, the latter a recent merger of Elliott Automation with English Electric Leo Marconi computers, which itself had been a merger of the computer divisions of English Electric, LEO and Marconi. Upon its creation, the British government held a 10% stake in the company and provided a $32.4 million research-and-development grant spread across four years.

International Computers and Tabulators (ICT)

ICT was itself the result of a merger of two UK companies that had competed with each other throughout the 1930s and 1940s during the punched card era: British Tabulating Machine Company and Powers-Samas. ICT had thus emerged with equipment that would process data encoded on punched cards with 40, 80 or 160 columns, compared to the 64 or 80 columns used by IBM and its predecessors.
In 1962, ICT delivered the first ICT 1300 series computer, its first transistor machine and also the first to use core memory. A small team from Ferranti's Canadian subsidiary, Ferranti-Packard, visited the various Ferranti computer labs and saw their work on a next-generation machine. On their return home they quickly produced the Ferranti-Packard 6000, developing the machine, compilers and an operating system and putting it on the market by 1963. A feature of the Executive operating system was its ability to multitask, using dynamic memory allocation enabled with a magnetic drum as an intermediate random access device. The machine went on to have some success and sold in small numbers in Canada and the United States.
In 1964, ICT purchased the computer division of Ferranti in another government-forced merger. Ferranti had been building a small number of scientific machines based on various university designs since the 1950s. None of these could be considered commercially successful, however, and Ferranti always seemed to be slow bringing its designs to market.
Meanwhile, ICT management in England was looking to rejuvenate their line-up; their latest developments, the ones used to develop the FP 6000, were still not on the market. Management looked at the FP 6000 as well as licensing the RCA Spectra 70. In the end it was decided to go with the FP 6000 as the basis for a small line of small-to-midrange machines. The result was the ICT 1900 series, which would eventually go on to sell into the thousands.
The 1900 Series, which derived from the Canadian Ferranti-Packard 6000, competed successfully in the UK with the IBM System/360 range from the mid-1960s to the mid-1970s. The design was based on a 24-bit word, divided up into 6-bit characters. Lower case and control characters were provided for by "shift" characters. The early machines had only 15-bit addressing. Later machines had extended addressing modes, up to 22 bits.
The operating systems were
A later development was GEORGE3, remembered with great affection by a generation of British programmers.
A series of smaller machines were developed by the ICL Stevenage operation, consisting initially of the 1901 / 1902 / 1903 systems running E3 series executives and versions of the GEORGE operating system. Later developments were the 1901A / 1902A / 1903A with their own Executives and GEORGE2.
At a time when IBM/360 series programs had to be recompiled to run in different machine and/or operating system environments, one significant feature of the 1900 series was that programs would function unaltered on any 1900 system, without the need for recompilation. Unfortunately ICT, and later ICL, were unable to capitalise on this advantage to make significant inroads into IBM's customer base.

English Electric LEO Marconi (EELM)

During the same period, LEO was struggling to produce its own machines that would be able to compete with IBM. Its parent company, J. Lyons and Co., did not have the financial might to develop a new line of machines. Not wanting to see its work go to waste, it sold its computer division to English Electric.
English Electric had developed a series of machines over the years, notably the famous KDF9 and the commercially-oriented KDF8, but never had much commercial success.
Now with serious financial backing at its disposal, the new company nevertheless decided not to come up with its own design, and instead licensed the RCA Spectra 70. The result was the System 4 series. While there were a number of models in the range, the smaller 4/10 and 4/30 were seen as underpowered, and the more successful variants were the larger 4/50 and 4/70 models. A model 4/75 was also supplied to the EELM Bureau subsidiary and installed at Winsford, Cheshire as the hardware for a bureau-developed commercial system for interactive use by bureau customers. Although several multi-user commercial packages were developed and trialled with customers, this was not commercially successful, and the service was soon withdrawn.
The System 4 series ran the J operating system. This was a batch operating system, although there was a variant that allowed interactive access called MultiJob. Under a framework called Driver J was a successful operating environment for high volume commercial real time systems. Programming languages used were assembler and COBOL and Fortran. The system was controlled from a console composed of a mechanical printer and keyboard - very like a Teletype. The assembly language non-privileged instruction set was identical to IBM System 360 Assembly Language; in privileged mode there were a few extras.
System 4's compatibility with the IBM 360 made it particularly attractive to customers in Eastern Europe and the Soviet Union, as the sale and installation of IBM computers there was politically sensitive and commercially restricted during the Cold War.

Leo computers

The following remained with Elliott Automation and were never included in the formation of ICL:

The 900 series were 18 bit binary computers. The 90x series were commercial machines. The 920x series were built to military specifications and used in military aircraft, mobile field deployed air defence systems and tanks.

Locations

ICL was concentrated in the United Kingdom, with its corporate headquarters in Putney in the London borough of Wandsworth.
At the time of the original merger, the company inherited extensive engineering and manufacturing facilities in West Gorton, Manchester; Castlereagh in Belfast, Stevenage and Croydon from ICT, and from English Electric in Kidsgrove, Staffordshire and Winsford, Cheshire. Manufacture and assembly also took place at several factories in Letchworth Garden City and Croydon. The company had a large research, operating system and software development and support centre in Bracknell, another smaller one at Dalkeith in Scotland and a software development centre in Adelaide, South Australia, between 1970 and 1973, application development in Reading, and training centres at Moor Hall, Beaumont College and Letchworth . The company also had manufacturing facilities in Park Road Mill, Dukinfield; later replaced by a purpose built factory at Ashton-under-Lyne. A state of the art printed circuit board plant was built on Plymouth Grove, Manchester in 1979, however financial troubles within the company forced its closure in 1981. Other offices included a facility at Bridgeford House in Nottingham which is now the headquarters of Rushcliffe Borough Council.
For some years ICL maintained a training and presentation facility for senior management at Hedsor House, near Taplow, Berkshire.
Outside the UK, ICL's offices around the world were mainly sales and marketing operations, with some application development for the local market. The exceptions were development and manufacturing sites arising from acquisitions, such as Utica in the United States from the Singer merger, and a variety of former Nokia Data sites in Sweden and Finland.
ICL and its customers often referred to these locations by the Site Code, especially where multiple sites might exist in a town, for instance with the Putney headquarters building being LON11, the training college at Beaumont being WSR01 and the southern System Support Centre at Bracknell, Berkshire being BRA01. BRA05 was the new headquarters of ICL Ltd, the company's UK sales and customer service division which moved from its original base at Putney Bridge House in Fulham, London to a new building in Bracknell in the late 1980s.

Early products: 1900 Series and System 4

On its formation, the company inherited two main product lines: from ICT the 1900 Series of mainframes, and from English Electric Computers the System 4, a range of IBM System/360-compatible mainframe clones, based on the RCA Spectra 70.
, the United Kingdom was unusual in Europe for IBM not having more than 50% of the computer market, although an observer stated that the company constrained the size of its British subsidiary to keep ICL alive. Although still the largest European computer company, in 1971 ICL had a poor reputation. When the companies were first merged the EEC order books were full, while ICT was struggling, perhaps because it was already obvious that the 1900 series was incompatible with the rest of the industry, with an architecture based on a 24 bit word and 6 bit character rather than the 8 bit byte that was becoming the industry norm.
The new board decided that the 1900 should be phased out in favour of the System 4, but shortly afterwards reversed their decision. It is probable that this was due to union and political pressure from the Wilson government. In any event, most of the original EEC board resigned over the interference as they believed that the 1900 series was doomed from the outset, being incompatible with the rest of the marketplace. ICL initially thrived, but relied almost wholly on supplying the UK public sector with computers. The 1900s were sold in several countries worldwide, but the largest slice of the market was always in the UK, and the largest part of that in government, local authorities, and nationalised industries.
Until the 1970s launch of the 2900 Series, the UK government had a single-tender preferential purchase agreement wherever ICL could meet the requirements.

New range: 2900 Series

Even before the merger that created ICL was complete, a working party had recommended that the new company should develop a new range of machines offering "acceptable compatibility with the current ranges of both companies". This was also seen as a way to help "achieve company unity" for the newly formed organization. The resulting 2900 Series was launched on 9 October 1974. Its design drew on many sources, one being the Manchester University MU5.
It ran the VME operating systems, and supported emulation of both the earlier architectures, either standalone or concurrently with native-mode operation. In the early 1980s ICL struck a deal to acquire semiconductor technology from Fujitsu, on whom they became increasingly dependent as the years progressed.
The term "New Range" was used during development for the product line that was eventually launched as the 2900 Series, the operating system being known initially as VME/B and later simply as VME. Models included:
These ran the VME and DME operating systems, and were available in both single and multi-processor configurations, the later being known as Duals and SuperDuals. The company also developed:
followed the same essential architecture as 2900 series, but was a dramatic step forward in hardware technology. It was the first commercial mainframe to exploit optical fibres for central interconnect, and also introduced a multi-CPU architecture transparent to the applications.
The series included:
The training video for the Series 39 featured the comedy duo Hugh Laurie and Stephen Fry.
ICL received the Queen's Award for Technological Achievement for the Series 39 in 1988.

Operating systems

At the inception of New Range development, two operating systems were planned: System B for the large processors, and System D for the mid-range. System B was subsequently renamed VME/B. A third operating system, System T, was subsequently targeted at small machines. System D was dropped in order to focus efforts on VME/B and System T, renamed to VME/K The first large machines were launched with VME/B. VME/K first saw service on the 2960.
The chief architect of VME/B was Brian Warboys, who subsequently became professor of software engineering at the University of Manchester. VME/B was developed using the pioneering software engineering system CADES as the development environment. The architect of CADES was David Pearson.
VME/K development continued independently for several reasons. Early VME/B customers suffered significant performance and reliability problems, and the existence of an alternative product provided a safety net. Perhaps more significantly, VME/K was the brainchild of Ed Mack, who had been brought in by managing director Geoff Cross as ICL's head of research and development. Despite his wide responsibilities, Mack took a detailed personal interest in every aspect of VME/K design. To quote historian Martin Campbell-Kelly, "Mack had a good deal more autonomy than was good for the company." Not only was too much resource going into VME/K at the expense of the VME/B system that ICL's biggest customers were actually using, but the development of mainframe systems was also diverting expenditure from small business systems such as the 2903, whose sales were growing much more rapidly.
ICL's finances deteriorated during the late 1970s, leading to the appointment of a new management team led by Robb Wilmot and Peter Bonfield. One of their first actions was to end VME/K development. This happened just at the time that VME/K had finally reached a level of performance and reliability that made it saleable; however, the customer base was very small, and by this time VME/B had also matured sufficiently to give confidence that it would meet the future requirements for the entire mainframe range.
VME 2900 subsequently became simply VME and then Open VME, and continued to evolve. In 1980 it was marketed as "Your system for the 80s", and indeed that decade proved to be its heyday. It continued to give service to many loyal and demanding users, but has attracted few new users since 1990 or so.

Superstructure software

ICL used the term superstructure to refer to the compilers, data management tools, and transaction processing software sitting above the operating system but below the user application – a category now often labelled middleware.

Languages

2903 range

A rapid development to produce a small business computer from, as far as possible, existing hardware and software. It was urgently needed to generate a cash flow that would support continuing 2900 development. The hardware was based on the 2900 DFC, and used the MICOS engine. The 2903/4 system cabinet housed the MICOS engine, Drico FEDS disk storage and an absolutely terrible punched card reader. On a wing attached at 45 degrees there was the operators console which was a visual display unit. For 1900 users who were accustomed to the Westrex teletype as console this was a major advance. The printers abutted to the wing and were initially integrated, much of the logic was held in the system, soon substituted by the CPI shuttle printer and PBS but maintaining their position. The printers ran at 300 or 600 lpm controlled by a hidden link so that a 300 lpm mode could easily be switched to 600.
The 2903 used microcode to emulate 1900 hardware. The operating system was George 1* running on top of the UDAS Executive. In consequence, all the normal 1900 compilers and utilities ran on the 290x range without any changes or recompilation. For some sites a micro code floppy was available that would make the system work as an IBM 360 along with the IBM operating system this did entail changing over the removable hard drives as the formats were completely different but this allowed IBM jobs to run unchanged - well mostly, as JCL might need the odd modification.
One major new facility provided on this range was Direct Data Entry, a system comprising up to eight dedicated VDU data entry stations, with which card image files could be created; these could be assigned to a program's card reader and processed accordingly.
There were three models in the range:
290x computers would run in an office environment, still quite an innovation for this class of machine, and were a runaway success. Roughly 3000 systems were sold. This was ten times as many as ICL had anticipated.
The smaller machines in the 290x family were replaced in 1980 by the ME29 system.

Operating systems and software

Executive

The 290x operating system, known as 'Executive', allowed the machines to be operated 'manually' via a video console. GEORGE1* ran on top of Executive to control batch processes by means of JCL, which was based very closely upon the macro language of the 1900 GEORGE1S operating system.

TME (Transaction Machine Environment)

TME was the operating system on the ME29 and required CL to run jobs - 'manual' operation being discouraged.
Practically all the software packages available on the 1900 range ran on the 290x and ME29 systems.
In about 1982, a new Transaction Processing System TME-TP was introduced for the ME29, with a subset of the facilities of TPMS.
TME came bundled with a Hierarchical Database Management System called RAPID. This was actually built around 1900 IDMS, and consisted of a set of user interfaces which provided a "user friendly" GUI based Database Schema design and configuration environment, and an "RML COBOL" based programming environment. Everything was compiled into the equivalent 1900 IDMS objects for use at run time.

Departmental systems

For many years ICL marketed departmental computers under the 'DRS' brand, standing originally for Distributed Resource System. During the mid 80s separate Office Systems business units had produced a disparate range of products including IBM-compatible PCs such as the PWS, small servers branded DRS, and various larger Unix servers sold under the Clan range. A re-branding in late 1988 pulled these together under the DRS brand, with a consistent grey and green livery.
In the mid-1980s ICL developed the DRS 300 in Kidsgrove, and ran down Utica.
In 1994 the DRS range was superseded by the SuperServer and TeamServer ranges of SPARC and Intel-based machines, running Unix or Microsoft operating systems.

OEM products

In the early 1970s ICL signed an OEM agreement with the Canadian company, Consolidated Computers Ltd to distribute CCL's key to disk data entry product, Key-Edit in the British Commonwealth of countries as well as in both western and eastern Europe. Models included Key Edit 100, Key Edit 50, 59, 1000, and 2000. In the mid-1980s a version of the Key Edit 59 operating system was ported to the DRS 20 series and marketed as Data Entry 20.

Subsidiaries

Dataskil

Dataskil Ltd or ICL Dataskil was a software house, formed from an internal department known as the User Programming Service, that developed commercial programs and some utility software for the ICL marketplace. Dataskil also provided consultants and project teams to work on ICL's or direct clients' 1900 and 2900 projects. There were several divisions within Dataskil, including Consultancy Services, Transition Services, Project Management Services, etc.
Dataskil software products included:

1900 Filan

The ICL 1900 Filan manual describes Filan as:
"a totally integrated system for the analysis of large quantities of complex data such as that collected in censuses and other surveys".

It was used to process the 1971 Indonesian Population Census. In the UK, Filan was used during the 1970s by OPCS to process the General Household Survey data. As there was only a small user community, ICL decided not to convert the software to run on its 2900 range of computers in the 1980s.

BARIC

This was a joint venture of International Computer Services Ltd, a division of ICL, and Barclays Bank, that provided computer services. In the early days of computing many organizations avoided the capital costs of purchasing their own equipment and the recruitment of technical specialists by putting their work out to service companies which were then known as computer bureaux such as BARIC. This kind of business diminished during the 1980s, only to reappear in the 1990s under a new name – outsourcing. BARIC also ran special groups such as the Advanced Videotex team, which investigated how new technologies such as Prestel could be leveraged. This team was based in Feltham, Middlesex. In 1979 Chris Gent was appointed Managing Director. He left in 1985 to join Vodafone and was widely credited with transforming Vodafone into a global giant. In 1985 most of BARIC's traditional bureau business was acquired by CMG.

ICIM

ICL had established a presence in India in its earliest days, through a partly owned subsidiary International Computers Indian Manufacture Ltd. As the name implies, ICIM took on some of the manufacturing of ICL-designed equipment, generally for overseas markets. In later years ICIM, from its offices in Pune, started to establish a presence in the market for offshore software development and eventually outsourcing of the operation of computer services. ICIM subsequently became a joint operation with Fujitsu, establishing links to Japan that were as strong as its traditional links to the UK. Reflecting the shift in its business, the company was renamed ICIL, and is now .

DESC

DESC Ltd was a subsidiary focused on defence systems spun out from ICL at the time of the Fujitsu takeover to avoid concerns about defence systems ownership by the Japanese firm. These qualms were overcome and eventually it was merged back into the parent company.

iBANK Systems

iBANK Systems was a joint venture with Xcelsoft, Inc. of Canada to develop a UNIX-based integrated retail banking system capable of distributed operation. Supported platforms included the DRS-6000 and DRS-3000 while the product was written in COBOL with some 'glue' written in C. The international team was based in Greenville SC, US.
The venture lasted from 1992 through 1995 when the two companies dissolved the relationship and each went forward independently, thereby forking the project. The ICL branch was renamed "Fujitsu-ICL International Banking Products". That branch continued operations until 2000 when ICL withdrew completely from all operations in North America. Customers of IBANK Systems included: Moscow Savings Bank, Suprimex, Chelindbank, Mineral Bank, Romanian Bank for Development, PTC, People's Own Savings Bank, Mutual Bank of the Caribbean, National Commercial Bank, and Caisse Populaire.

Corporate history

This section describes the various takeovers of and by ICL that followed its formation in 1969.

Singer Business Machines

Early in 1976, ICL acquired the international part of Singer Business Machines. The Singer group, a holding company which had diversified by adding many divisions, the most well-known of which was its early roots in sewing machines, and others such as the Business Machine division which was acquired by purchasing Friden, a San Leandro computer company, whose flagship product was the System Ten, a small business minicomputer. SBM had also acquired Cogar Corporation, a manufacturer of desktop intelligent terminals in Utica, New York, which after the ICL acquisition became the development and manufacturing plant for both minicomputers and terminals. The acquisition shifted the geographical balance of ICL's sales away from the UK, and also gave a presence in industry markets such as retail and manufacturing. ICL subsequently developed the System Ten into the System 25, and used the product to spearhead the growth of its Retail Systems business during the 1980s.

1981 crisis

ICL was in financial difficulty in 1981, with weak export performance against American and Japanese competition, and a takeover by an American manufacturer seemed likely. Christophor Laidlaw, deputy chairman of British Petroleum, was appointed as chairman and achieved a financial reconstruction, supported by loan guarantees from the government; he also oversaw the start of a technology agreement with Japan's Fujitsu. In 1984, Laidlaw was succeeded by Sir Michael Edwardes, previously chairman of motor manufacturer British Leyland.

STC

On 26 July 1984 a £400 million takeover bid for ICL arrived from Sir Kenneth Corfield, head of Standard Telephones and Cables. The stated rationale was the predicted convergence of computers and telecommunications. The ICL board recommended acceptance of the bid, and the takeover was completed on 10 September. Sir Michael Edwardes, who had been chairman for just six months, resigned, and Laidlaw returned briefly as chairman. Robb Wilmot, who had arrived as managing director in 1981 remained, along with Peter Bonfield as marketing director.
The takeover caused losses at STC, leading in 1985 to a rights issue and Corfield's replacement by Lord Keith as STC chairman, with Arthur Walsh as chief executive. Wilmot resigned, and Bonfield was appointed chairman and managing director of ICL. Within a few years ICL was contributing 60% of the profits and turnover of the combined group. Bonfield was appointed CBE for his role in turning the company around.

Datachecker

In 1988 STC acquired US retail systems specialist Datachecker Systems from National Semiconductor Corporation. At the time this was the second largest supplier in the US retail market, and greatly expanded ICL's US presence.

Regnecentralen

In 1989, ICL acquired Regnecentralen of Denmark, a company with a distinguished history and reputation in that country, but which was best known internationally for its front-end communications handling equipment.

Computer Consoles Inc

Also in 1989 STC acquired CCI, suppliers of ICL's Clan 5, 6 and 7 ranges and originator of OfficePower. By 1990 CCI's Computer Products Division in Irvine, California and Office Products Centre in Reston, Virginia had been transferred to ICL.

Nokia Data

In 1991 ICL acquired Nokia Data, part of the Finnish Nokia Group. Nokia Data was itself the result of Nokia's mid-1980s acquisition of Ericsson Information Systems, whose origins lay in the purchase by Ericsson of the computer business of Saab, known as Datasaab. ICL's acquisition added 9,500 employees to the company, and brought with it a PC manufacturing capability, a suite of desktop software products, and more importantly a strong presence in the Nordic market and an awareness of the high-volume end of the IT market.

ICL KME-CS

In July, 1991 ICL acquired more than half of the Russian company KME-CS. The agreement was signed between Peter Bonfield and Mintimer Shaimiev.

Fujitsu relationship

ICL's relationship with Fujitsu started in 1981, when ICL needed a cheaper source of technology to develop lower-end machines in the 2900 range to compete with the IBM 4300 series. At this stage ICL was developing its own LSI technology for use in the higher-end machines, designed as a successor to the highly successful 2966 processor. ICL had visited a number of companies during 1980, including Fujitsu and Hitachi, to identify potential suppliers.
As part of the 1981 restructuring, Robb Wilmot – an electronics engineer and former head of Texas Instruments' British-based calculator operation – arrived as CEO in May 1981. He cancelled in-house LSI technology development, and negotiated an agreement that gave access to Fujitsu's LSI and packaging technologies, which, when combined with ICL's in-house CAD capability, enabled ICL to design and manufacture the DM1 and Estriel machines, later marketed profitably as Series 39 level 30 and 80.
Initially the collaboration with Fujitsu was presented as being an arm's length one, to avoid diluting ICL's credentials as a European and British company. However, Fujitsu's involvement with ICL at both the financial and the technical level steadily increased over the subsequent two decades, and in 1990 Fujitsu acquired 80% of ICL plc from its parent STC plc, paying US$1.29 billion. In 1998 Fujitsu became ICL's sole shareholder and the ICL brand was dropped in 2002.

Fujitsu Siemens

Following the acquisition of Nokia Data in 1991, personal computers and servers were marketed under the ICL brand. This changed when Fujitsu Siemens Computers was formed in 1999 as a joint venture between Fujitsu and Siemens. The joint venture absorbed all ICL's hardware business with the exception of VME mainframes, and all the business of Siemens Nixdorf with the exception of its banking and retail systems. Fujitsu Siemens was merged back into Fujitsu in 2009.

PC Interworks Ltd

PC Interworks was incorporated in October 1995. It was created as a sales company, selling personal computer and other IT equipment to the employees of large organisations. The company, which evolved from a concept developed within ICL, began business with a contract from ICL to provide computer related products to its staff, as a part of its Employee Benefit Programme. PC Interworks was subsequently absorbed by International Computer Logistics Limited.

Transfer of ICL trademark to International Computer Logistics

International Computer Logistics, a British company specializing in IT repair and data recovery, secured the intellectual property rights to the ICL brand in 2014. It is based in Kidsgrove, North Staffordshire and was formed in 2012.

ICL Fellowship

ICL Engineers responsible for pioneering achievements in the field of Computing could be recognised through the ICL Fellowship, established in 1990 by then-CEO Sir Peter Bonfield. The Fellows represented the peak of technological expertise within ICL and directly advised the company leadership on technology matters.