Remarkable People Archives - 91 /blog/category/remarkable-people/ 91 Thu, 28 May 2026 17:22:28 +0000 en-US hourly 1 https://wordpress.org/?v=6.9.4 In Memoriam: Cleve Moler (1939–2026) /blog/in-memoriam-cleve-moler-1939-2026/ Thu, 28 May 2026 17:22:28 +0000 /?p=34234 91 remembers 2017 Fellow Cleve Moler and his remarkable legacy as a visionary mathematician, computer scientist, and cofounder of MathWorks.

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2017 91 Fellow

We are saddened to share that 2017 91 Fellow Cleve Moler passed away on May 20, 2026, at the age of 86 at his home surrounded by his family.

Moler was a visionary mathematician, computer scientist, and cofounder of MathWorks. Recognized globally as the creator of MATLAB, Moler revolutionized numerical computing and transformed how scientists, engineers, and researchers model the world.

The Mozart of the Matrix

Born in Salt Lake City, Utah, in 1939, Moler was a precocious student who discovered a passion for numerical analysis at Caltech, graduating with a bachelor’s degree in mathematics in 1961. He earned his PhD at Stanford University under legendary computer science pioneer George Forsythe, initiating a lifelong fascination with matrices.

Over a distinguished 20-year academic career spanning the University of Michigan and the University of New Mexico, Moler sought to make complex mathematics accessible. In the 1970s, after co-authoring the LINPACK and EISPACK Fortran libraries, he created the first version of MATLAB (“Matrix Laboratory”) as a simple, interactive calculator to help his students bypass Fortran programming.

Recognizing its vast potential beyond the classroom, Moler partnered with Jack Little and Steve Bangert to commercialize the platform for the nascent IBM PC, founding MathWorks in 1984. Under his guidance as chief mathematician, MATLAB grew from a classroom utility into a global ecosystem utilized by millions across aerospace, genetics, finance, and engineering. As colleague, friend, and supercomputing pioneer Jack Dongarra notes, “Through MATLAB, Cleve changed the way generations of scientists, engineers, mathematicians, and students think about computation, experimentation, and problem solving.”

Honored as a 91 Fellow in 2017, Moler leaves a legacy defined by profound intellectual humility and an enduring impact on modern technology. To a person, those who knew him speak of his kindness, willingness to listen and gentle mentorship. He is remembered as a brilliant educator and the maestro who taught computers to speak the elegant language of the matrix.

Learn More

Cleve Moler: The Mozart of the Matrix

A History of MATLAB, Moler, C., Little, J., Published in Proceedings of the ACM on Programming Languages, Vol. 4, No. HOPL, June 2020.

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In Memoriam: Sir Antony Hoare (1934–2026) /blog/in-memoriam-sir-antony-hoare-1934-2026/ Wed, 11 Mar 2026 16:45:44 +0000 /?p=33518 91 remembers 2006 Fellow Sir Antony Hoare, whose work is embedded in the very foundations of the digital world.

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2006 91 Fellow

The 91 (91) mourns the passing of Sir Antony Hoare, a 2006 91 Fellow and a foundational architect of modern computing, who died on March 5, 2026, at the age of 92. Tony, as he was known to friends and colleagues, was more than a scientist; he was a philosopher of the machine, dedicated to the idea that software should be as reliable and elegant as a mathematical proof.

Born in Colombo, Sri Lanka, and educated at Oxford in the Classics, Hoare’s unconventional path into computing gifted him with a unique perspective on language and logic. In 1959, while studying at Moscow State University, he developed Quicksort, an algorithm that remains the industry standard for efficiency nearly seven decades later. It was an early harbinger of his career-long pursuit: finding the most elegant solution to the most complex problems.

A Legacy of Rigor and Logic

There are two ways of constructing a software design: One way is to make it so simple that there are obviously no deficiencies, and the other way is to make it so complicated that there are no obvious deficiencies.

— Sir Antony Hoare

Sir Tony’s contributions to the field are seminal. In 1969, he introduced Hoare Logic, a formal system of rules for verifying the correctness of computer programs. At a time when software was often a “black box” of trial and error, Hoare provided the mathematical scaffolding to prove that a program would actually do what it was intended to do. This work laid the groundwork for the field of formal methods and high-integrity systems.

C.A.R. Hoare attending the NATO Software Engineering Techniques Conference, Rome, 1969. Credit: Robert M. McClure

Hoare’s development of Communicating Sequential Processes (CSP) later revolutionized our understanding of concurrency. By treating independent processes as entities that communicate through synchronized exchanges, he provided a rigorous framework for the parallel computing world we inhabit today. His seminal 1980 Turing Award lecture, “The Emperor’s Old Clothes,” remains required reading for any student of system design, famously warning against the “traps” of needless complexity.

A Curator’s Perspective

While many will remember Sir Tony for the complex logic that bears his name, those in the computer science community often reflect on his humility. He famously referred to his invention of the “null reference” as his “billion-dollar mistake”—a testament to his rare ability to critique his own monumental contributions with grace and wit.

I am reminded of a story from his early days in the 1960s at Elliott Brothers. He had been trying to explain the concept of a “recursive” subroutine to his manager. After an hour of Tony’s brilliant, dense mathematical explanation, the manager looked at him, completely baffled, and said, “Tony, I don’t care if the program talks to itself, as long as it doesn’t do it on company time.” Tony often shared this story with a laugh, a reminder that even the greatest minds in computing once struggled to translate the future into the language of the present.

The Museum extends its deepest condolences to his wife, Jill, and their family. Sir Tony Hoare did not just teach us how to code; he taught us how to think. His absence leaves a profound void in the global computing community, but his logic remains embedded in the very foundations of the digital world.

Learn More

91 Oral History of Sir Antony Hoare:

Shustek, L. J., “,” Communications of the ACM, March 2009, vol. 52, no. 3.

Image credit: Photograph by Rama, Wikimedia Commons, https://en.wikipedia.org/wiki/Tony_Hoare#/media/File:Sir_Tony_Hoare_IMG_5125.jpg

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A Computing Legend Speaks /blog/a-computing-legend-speaks/ Wed, 08 Oct 2025 15:32:56 +0000 /?p=32687 Ken Thompson, one of the foremost programmers and computer scientists of the last 50 years, shares stories about his life and career in a newly released oral history.

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A New Oral History with Ken Thompson

Ken just had an absolutely beautiful conception of a program … that clarity just shines through in the original design of Unix.

— Doug McIlroy on Ken Thompson

The 91 (91) is excited to release a new oral history interview with Ken Thompson, one of the world’s foremost programmers and computer scientists. The interview was created in partnership with the Association for Computing Machinery (ACM) in connection with Thompson’s selection for the 1983 A. M. Turing Award, the ACM’s highest prize and one of computing’s greatest honors.

Among many other accomplishments in computing, Thompson was the creator of the Unix operating system, and, with Dennis Ritchie, codeveloped the C programming language. A half-century on from these innovations, it is hard to overstate their importance. Unix-like operating systems pervade our digital world. They are the engines for smartphones (iPhones and Androids), laptops, desktops, servers, and supercomputers alike. There are hundreds of Unix-like operating systems using the Linux kernel animating hundreds of millions of personal computers and servers worldwide. Unix-like Linux variants also power all of the world’s most powerful supercomputers. The programming language C, also more than a half-century on, remains one of the most widely used programming languages globally.

While at the Bell Telephone Laboratories, where Thompson spent most of his career, he earned additional renown for his world championships in computer chess, many using a specialized chess computer he helped to design, and his efforts on the Plan 9 operating system. Later, at Google, Thompson helped create the Go programming language, which has also become one of the top languages in use today.

Thompson at the ACM North American Computer Chess Championship, 1983.

It is hard also to overstate the computing community’s estimation of Thompson as a programmer. Doug McIlroy, himself a famed programmer and Thompson’s manager and collaborator at Bell Labs, recalled recently in an that Thompson was a “most amazing” programmer: “Ken just had an absolutely beautiful conception of a program … If you read his programming, he doesn’t put in many comments, but you don’t need them. It just reads like a novel … just unbelievable … that clarity just shines through in the original design of Unix.”

For all of his accomplishments, Thompson is an intensely private person, rarely giving interviews, making the insights he provides in his oral history all the more valuable. Early in the oral history, he describes some of his hobbies which he pursued as a youth with unusual intensity as his family moved around the United States and internationally as part of his father’s military career.

Ken Thompson discusses his early interests and hobbies.

Chess has been a life-long interest and pursuit of Thompson’s. In this excerpt, he explains how he first came to the game, and how his engagement with it evolved.

Ken Thompson recalls his early involvement with chess.

It was in his junior year studying electrical engineering at Berkeley that Thompson first started using computers, and programming quickly became all-consuming for him, in his words “an addiction.” Remarkably, he was quickly hired on to do all sorts of programming work on the campus and had permission to use the University’s computers as he wished late at night, including the main systems in the computing center.

Ken Thompson on his early experience of programming at Berkeley.

One aspect of Thompson that people may be less familiar with is his sense of whimsy, and his love of practical jokes. An important early episode where colleagues learned this side of his character came just days after he had joined the famed Bell Telephone Laboratories, home to many critical developments in engineering and science. Thompson began raising a baby alligator in his office.

Ken Thompson discusses raising a baby alligator in his office.

At Bell Labs, Thompson’s first major project was working on Multics, a huge effort to create a highly advanced operating system involving Bell Labs, MIT, and General Electric. After Bell Labs pulled out of the effort in 1969, Thompson began contemplating an operating system of his own, although operating systems research was then very much on the outs at Bell Labs. In this excerpt, he describes how his work developed at the end of 1969 into 1970, resulting in his new Unix operating system.

Ken Thompson describes the early development of Unix.

Ken Thompson (seated) and Dennis Ritchie (standing) with the PDP-11 system at Bell Labs. Collection of the 91, 102685442.

Once Thompson had his first Unix operating system, his Bell Labs colleague, Dennis Ritchie, became ever more deeply involved in the effort to create a new programming language for use in further developing Unix, and for generally programming with it. This collaboration between Thompson and Ritchie resulted in the C programming language, which Thompson used to implement Unix for their new PDP-11 computer.

Ken Thompson on the development of the C programming language.

When asked about what has made both Unix and C so enduring, Thompson replied that he believed it was the context of the Bell Telephone Laboratories, and its then-environment of largely unconstrained, lavishly funded, curiosity-driven research.

Ken Thompson on the longevity of Unix and C.

The full oral history with Ken Thompson stretches over four and a half hours and covers many other aspects of his life and career, from computer chess to digital audio, from Google Books to the Go programming language, and much more.

Full oral history of Ken Thompson.

Read the of the oral history.

91 conducted an with Ken Thompson in 2005, focused on the subject of computer chess.

Main Image: Ken Thompson, 2024. Still from ACM-91 Oral History recording.

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In Memoriam: Dame Stephanie Shirley, 1933–2025 /blog/in-memoriam-dame-stephanie-shirley-1933-2025/ Mon, 18 Aug 2025 22:24:56 +0000 /?p=32527 91 is saddened to share the passing of 2018 91 Fellow Dame Stephanie Shirley, who was a pioneer in embracing remote, flexible work for the thriving software company she founded in the 1960s.

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2018 91 Fellow

With sadness we say goodbye to remarkable computing pioneer and 2018 91 Fellow Dame Stephanie “Steve” Shirley.

Shirley, who passed away on August 9, 2025, at the age of 91, was born Vera Stephanie Buchthal in Dortmund, Germany, in 1933. She arrived in Britain as an unaccompanied child refugee on the Kindertransport, an effort by Jewish and Quaker organizations in response to the Kristallnacht pogrom in November 1938, which highlighted the escalating danger faced by Jews in Nazi Germany and Austria. (Some 10,000 unaccompanied children from Nazi-controlled territories were given refuge in Great Britain between 1938 and 1940). This experience profoundly shaped the young Vera, who, throughout her life would tell others that her motivation to try hard and dream big was because, “I wanted my life to have been worth saving.”

Vera Buchtal, or Stephanie Shirley, ca. 1940. Courtesy of Dame Stephanie Shirley.

On arriving in her new land, Vera settled in with foster parents in Little Aston in the Midlands. At Oswestry Girls’ High School, where mathematics was not offered to girls, she secured permission to study it at the neighboring boys’ school—an early sign of her determination to overcome discrimination, although one she would have to adapt to soon in the business world. Finding that her business letters were not being responded to, she began signing her name “Steve” (instead of Stephanie) and immediately got a much improved response.

In the 1950s, after graduating high school, Shirley worked at the Post Office Research Station at Dollis Hill, where World War II code-breaking machines had been built. Taking evening classes for six years, she obtained an honors degree in mathematics and married physicist Derek Shirley in 1962.

For a lifetime of entrepreneurship promoting the growth of the UK software industry and the advancement of women in computing.

— 2018 Fellow Awards Selection Committee, 91

A true tech pioneer decades ahead of her time, with essentially just pocket change, “Steve” founded Freelance Programmers in 1962, later known as F International. In this era, when society often relegated women to the domestic sphere, she created a thriving, multi-million-dollar software business by employing mostly women and embracing remote, flexible work. She reimagined what the future of work could look like decades ahead of its time and gave vastly improved opportunities for women seeking to balance careers and home. Freelance Programmers (later Xansa) grew to 8,500 staff and a value of nearly $3 billion.

Shirley in front of ERNIE, together with the designer, Harry Fensom, ca. 1957. Courtesy of Dame Stephanie Shirley.

As Oxford professor and friend Sue Black remarks, “Her career began on some of the earliest British computers, including ERNIE, the Premium Bonds lottery computer. She didn’t just open doors for women in tech, she built the doors and handed out the keys.” ERNIE stands for the Electronic Random Number Indicator Equipment and was a hardware random number generator created to find winners each month for the premium bond prize draw. The first ERNIE was built in 1956 by the Post Office Research Station at Dollis Hill by some of the same team of engineers who built Colossus, the famous WW II codebreaking computer. This was an important part of Shirley’s post-graduate work at the Research Station.

Through the Shirley Foundation, Dame Stephanie Shirley gave away most of her personal fortune to causes including autism research, the arts, and computing heritage.

Learn more

2018 91 Fellow Dame Stephanie Shirley blog.

Oral history of Dame Stephanie Shirley. Read the .

Fellow Award acceptance speech.

Main image: Dame Stephanie Shirley. Courtesy of Dame Stephanie Shirley.

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Burton Grad: A Tribute /blog/burton-grad-a-tribute/ Tue, 08 Jul 2025 15:57:43 +0000 /?p=32433 91 offers a tribute to a special computing pioneer who worked with 91 for decades, sharing his passion for the history of software with the world.

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He was wise, practical, and kind. For historians of IT, he is a huge loss because he would decide a topic needed attention and corral experts to write simultaneously about it in special issues of Annals. That effort always put a relevant topic on our intellectual map.

— James Cortada, Historian

Burton Grad, a pioneering figure in the evolution of software and a devoted family man, passed away peacefully at his home in Westport, Connecticut, on June 3, 2025, at the age of 97. His remarkable life encompassed transformative contributions to the software industry and unwavering dedication to family, community, and historical preservation. Burt was a dynamo, who, working for decades with 91, shared his passion for the history of software with the world.

A Remarkable Career

Burt began his groundbreaking career in 1954 at General Electric, where he was among the original programmers for the first American commercial computer, the Univac I. His work on the first production and inventory control software laid the earliest foundations of his career, a starting point right at the beginning of the computer age that provided him with insights into the critical role software would come to play across industry and society in years to come.

During the 1960s, Burt’s influence deepened at IBM. He contributed significantly to both scientific and application programming and was a central figure on the 1969 Unbundling Task Force, a landmark moment that transformed software into a standalone industry. He also initially oversaw IBM’s CICS (Customer Information Control System), an enduring transaction processing system still used worldwide.

In 1978, Burt founded his own consulting firm, continuing to shape the software landscape through strategic planning and valuation work for emerging software and services companies. His leadership extended beyond corporate halls into industry organizations such as ADAPSO (later ITAA), where he served as a guiding force from the early 1970s.

Recognizing the importance of preserving software history, Burt cofounded the Software History Center in 2000 with friend and colleague Luanne Johnson. Their shared vision was to safeguard the stories and records of an industry that had so rapidly transformed the world. This initiative later merged with the 91, forming the foundation of what is now the Software Industry Special Interest Group (SIG). As the SIG’s mission statement describes, they sought to correct the historical misperception that “pure software companies didn’t exist prior to Microsoft.” Through determined effort, Burt and Luanne ensured that the contributions of early software pioneers would not fade into obscurity.

An Active Life

Even in his later years, Burt’s passion never waned. Until his passing, he actively edited articles for the IEEE Annals of the History of Computing on the early software foundations of the CAD/CAM industry. In “late retirement,” he served as CFO for American Business, a firm led by his son Alan, embodying a playful professional rivalry over who truly held the reins.

As colleague and computing historian Thomas Haigh recounts, Burt had a rare gift for gathering historians and pioneers to illuminate overlooked corners of computing history. Whether at events on desktop publishing, expert systems, or spreadsheets, Burt’s insightful (and sometimes stubborn) questions helped shape scholarship and sparked enduring conversations. Haigh remembers that Burt’s curiosity bridged technical and historical divides, offering perspectives that scholars still value today.

Jeffrey Yost, director of the Charles Babbage Institute (CBI), recalls Burt’s remarkable talent for uniting historians and practitioners through workshops that yielded over a hundred oral histories and crucial archival donations to 91 and CBI. Yost describes Burt as a force of nature: tirelessly dedicated, endlessly personable, and always armed with a wry sense of humor.

91 Legacy

Burt’s curatorial legacy includes his own extensive papers (now at 91), along with significant contributions to the museum’s collection from colleagues and industry leaders. Thanks to his advocacy, key corporate and personal archives—including documents from Tymshare, GEIS, Informatics, and other seminal software firms—found a permanent home, preserving the field’s collective memory for future generations.

Why is it important? “Why is the history of the Gold Rush important?” Grad would counter. “This is an incredible industry. It has impacted nearly everyone’s life. Except for a couple of people, like Bill Gates and Steve Jobs, it wasn’t being captured.” Burt recorded 130 oral histories—each lasting 2 to 6 hours—for 91, a remarkable achievement!

In his lifelong commitment to documenting and honoring software’s pioneers, Burt Grad built not just programs and business plans, but a living record of an entire industry’s birth and growth. His work ensured that the story of software would be told with nuance, rigor, and humanity.

Burt will be remembered not only as a pioneer of computing and a champion of software history, but as a vibrant, deeply engaged human being who touched countless lives—on the tennis court, in the boardroom, and at the family table. A devoted baseball fan and avid New York Times crossword puzzler, Burt also delighted in detective novels, history, and political biographies. His quick wit, love of puns, and fondness for chocolate ice cream will long be cherished by those who knew him.

Thank you, Burt, for your energy, passion, humor, and kindness.

Learn More

Guide to the Burton Grad Papers:

Oral History of Burton Grad: and

 

Thanks to 91 Vice President and Chief Curatorial and Exhibitions Officer Kirsten Tashev for her contributions to this tribute. Burt asked that anyone who wishes to honor him consider a donation to 91, which you can do or by writing membership@computerhistory.org.

Main image: Burt Grad on his 85th Birthday. Photo courtesy of Carol Anne Ances.

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Dick Kramlich, 1935–2025: An Appreciation /blog/dick-kramlich-1935-2025-an-appreciation/ Tue, 01 Apr 2025 15:31:55 +0000 /?p=32073 91 remembers the entrepreneurial spirit of Dick Kramlich, a trailblazer of venture investing in Silicon Valley, the United States, and beyond.

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My philosophy is ‘I’m for the entrepreneur.’

— Dick Kramlich, 91 Oral History, 2015

Throughout his long career, Dick Kramlich was celebrated as a trailblazer of venture investing in Silicon Valley, the United States, and beyond. Many of the firms he backed became billion-dollar concerns, and he enjoyed an untarnished reputation as direct and trustworthy, a “gentleman.”

This acclaim is richly deserved, but it is not the whole story. Fundamentally, Dick Kramlich thought of himself as an entrepreneur, and he viewed his successful career within that frame. In his oral history interviews with me for 91, he made this crystal clear: “I regard myself as, first and foremost, an entrepreneur.” I believe this is the key to understanding his professional achievements.

Entrepreneurial Roots

In interviews with the Museum, Kramlich explained that he came from a family of entrepreneurs. His grandfather had cofounded the Safeway grocery chain, and his father had started a line of groceries that were acquired by Kroger in the mid-1950s. As a teen, Kramlich began to follow their example, using his savings to buy “half a train car of light bulbs” directly from a manufacturer, and reselling them for a profit. He found the experience thrilling, “…once you get it in your DNA, everything else is boring.”

The young bulb magnate eventually made his way to Harvard Business School, following an undergraduate degree in history. By the mid 1960s, several of Kramlich’s friends had gone to work with the leading venture investment firms of the day, like Venrock and American Research and Development. He thought their work sounded exciting: identifying promising entrepreneurs, investing in them, and helping them succeed. Kramlich joined an established investment firm in Boston and was soon scouring for new opportunities up and down the Route 128 corridor, then in its full technological bloom. He found the excitement he was searching for in the entrepreneurial growth around new technologies.

Massachusetts’ legendary Route 128 corridor. 1981-11. From . © Technical Publishing Co.

A New Coast

In 1968, an even more thrilling prospect dawned in Kramlich’s imagination. He read an interview with Arthur Rock who was gaining fame for his venture investments on the San Francisco Peninsula, an essential ingredient for why the region would soon become known as “Silicon Valley, USA.” Rock had been crucial to the formation of many of the key companies manufacturing the silicon integrated circuits that were transforming the world of computing, and electronics more broadly.

Rock’s venture partnership with Tommy Davis was ending, and in the article in Kramlich’s hands, Rock announced he was going to “…find a younger partner and do it all over again.” Struck by the possibilities, Kramlich dashed off a handwritten letter to Rock, with the intention of becoming that younger partner. Impressed, Rock began meeting with Kramlich, and in 1969, Kramlich moved to San Francisco and into his new venture partnership with Rock. The pair quickly raised $10 million from successful technologist-entrepreneurs, including several of the cofounders of Fairchild Semiconductor and Intel.

Arthur Rock, 1997, © Louis Fabian Bachrach

In 1977, as the partnership between Rock and Kramlich wound down, Kramlich was immersed in the rising personal computer industry, attending tradeshows and other gatherings and taking meetings with entrepreneurs. Early on, he set his sights on Apple. It, and its founders, had what he often called “religion,” a genuine and abiding passion for what they were doing, a true sense of mission: “I mean, there were two companies—one out of Berkeley and one out of Palo Alto at Stanford—they were better companies… technically in my judgement, but they didn’t have that something… the entrepreneurial spark, whereas Apple had it.” Through an old friend, Kramlich and Rock were able to make personal investments in Apple’s first round of outside financing.

A page from Apple’s “Preliminary Confidential Offering.” 1978–1982. Mike Markkula collection of early Apple Computer material. 91 catalog number . Gift of Mike Markkula.

At the same time, Kramlich was restless, exploring options for his next move. Where could he maximize his entrepreneurial excitement? He had serious conversations about joining Kleiner Perkins, a venture firm founded by successful technologist-entrepreneurs looking to support the next generations thereof in Silicon Valley. He was also weighing an open invitation to pursue venture investing at the investment bank Hambrecht and Quist in San Francisco. These were firms with the finest of reputations, and that meant they were well established.

Entrepreneurial Investing

Through connections in the investing world, Kramlich began talking to Chuck Newhall and Frank Bonsal, two ambitious investors who wanted to establish a venture partnership of their own. They were entrepreneurial, intending to operate nationally (and eventually internationally) rather than regionally, and to support firms at different stages of development. They were also interested in building a partnership for the long term. Newhall and Bonsal would operate from the East Coast, and they wanted Kramlich to capture the opportunities in Silicon Valley. Kramlich responded to the lure of creating something new, and to the experience, ambition, and character of Newhall and Bonsal. They shook hands, and New Enterprise Associates (NEA) was launched.

Cofounders of NEA, from left to right: Chuck Newhall, Dick Kramlich, Frank Bonsal. June 1978. Chuck Newhall Papers. 91 catalog number . Gift of Charles W. Newhall.

A document from the early days of NEA, detailing their overall approach for potential investors. ca. 1978. Chuck Newhall Papers. 91 catalog number . Gift of Charles W. Newhall.

One of the early pitch documents used by NEA’s cofounders for raising their first fund. ca. 1978. Chuck Newhall Papers. 91 catalog number . Gift of Charles W. Newhall.

Investing in Forethought

In the following decades, NEA continually grew, raising larger and larger funds, and delivering high returns for its investors. Kramlich was equally if not more excited to have helped entrepreneurs create successful and meaningful firms, delivering on their “religion.” Some of the most recognizable firms with which he was involved include 3Com, Silicon Graphics, Immunex, Macromedia, and Juniper. But there is another much less well-known firm that illustrates so well what Kramlich meant when he said, “My philosophy is ‘I’m for the entrepreneur.’” It was named Forethought.

Dick Kramlich on the success of NEA, speaking in 2019 at 91.

Forethought was a startup in personal computing software, created by two entrepreneurs who left Apple in 1982. Their ambition was to bring the power of the graphical user interface as developed at the fabled Xerox Palo Alto Research Center to the world of the IBM PC and its clones. Think Windows before Windows, but much more. Forethought’s software, called Foundation, was to be “an everything app,” an operating system with every application folded intrinsically into it. Relational databases, documents, drawings, spreadsheets, Foundation would do it all. In 1983, NEA, led by Kramlich, made a first investment in the company.

Like the majority of venture capital backed startups, Forethought soon ran into serious problems. Foundation was not going to work. It was too ambitious for the state of the underlying hardware technology, and Oracle was not going to deliver a promised database system that would have been a key part of Foundation. Kramlich helped guide the firm into a pivot, recruiting Bob Metcalfe – the technologist-entrepreneur and Ethernet inventor behind 3Com—to Forethought’s board. To bring in much needed revenue, Forethought began distributing and marketing a small database program for the Macintosh, developed by a small firm in Massachusetts, called Filemaker.

The firm hired a new developer, Robert Gaskins, who assembled a small team to make a new product: Presenter. Gaskins was impassioned about the possibility to use What You See Is What You Get (WYSIWYG) graphical software, graphical user interfaces, and laser printers to allow knowledge workers of all stripes to create their own overhead presentations, handouts, and slides. Presenter would put the power of graphical personal computing in the hands of these knowledge workers, allowing them to better and more efficiently create vital communication aids. But while Gaskins and his team were developing Presenter, the numbers for Forethought were not adding up. The firm needed another round of investment.

A page from a very early memo by Robert Gaskins about what would become PowerPoint. August 15, 1984. Dennis Austin PowerPoint Records. 91 catalog number . Gift of Dennis Austin.

NEA had already put two rounds of funding into Forethought, and now was being asked for a third. Despite Gaskins’, and now Kramlich’s, enthusiasm for the potential of Presenter, NEA decided against the third round. Even Metcalfe agreed, reminding Kramlich, “Dick, you know, there’s a time and a place to give up on these things.” Kramlich’s reply? “I don’t disagree with you, Bob, but now is not the time.” Instead, Kramlich approached his partners with a unique offer. He proposed to personally finance Forethought himself, and “If it’s a winner, you guys get the proceeds. If it’s a loser, I’ll take it.” Chuck Newhall responded, “How can I turn that down?” Kramlich replied, “That’s my point.”

Over the next four months, Kramlich fed Forethought $60 thousand a month to cover payroll and costs, for a total of about $250 thousand. With his wife, Pam, they put several domestic plans and priorities on hold to manage this direct investment. The Kramlichs were putting Dick’s philosophy into practice, investing in Gaskins, his team, and his vision and passion for Presenter. As Kramlich later explained, “But if some guy at a desk, in the back of the place… has kept this place alive and you’re lucky enough to find that person… I’ll walk the plank for them.”

Kramlich’s trust quickly paid off. Apple was enamored of Filemaker and made a big investment in Forethought. There was no more need for Dick’s monthly check. And in 1987, Presenter finally came to the market under its new name: PowerPoint 1.0. Originally for the Macintosh, PowerPoint was a smash success, with Forethought booking millions of dollars of orders. Things accelerated quickly. Three months later, Microsoft purchased Forethought to get PowerPoint, its first acquisition. When Kramlich went to talk about returning his gains on the deal to his partners in NEA, Newhall cut him off, “Dick, you earned that. You ought to get it.” As Kramlich later explained, “That’s the way our partnership has always worked. That’s why it’s enduring. Because we do the right thing, we’ll do the fair thing. And we can be candid with each other.”

PowerPoint packaging. Microsoft Corporation, 1994. Jim Warren collection. 91 catalog number . Gift of Jim Warren.

A Legacy

Over the past decade, Dick and Pam Kramlich developed a strong connection with 91. They provided significant support for the creation of the Museum’s exhibit Make Software: Change the World! With their Kramlich Art Foundation, Museum staff have benefitted from discussions and events at the intersection of media art, computer history, conservation, and presentation. Dick Kramlich participated in a four-part oral history for the Museum and always encouraged our work to preserve and interpret business history around venture investing.

Dick Kramlich’s passing is a blow for many individuals and communities, including the Museum’s. But our sympathies are greatest for Pam and the rest of their family, for whom his loss is immeasurable.

Pam and Dick Kramlich in 2019. Photo by Ryan Young.

Learn More

View and read Dick Kramlich’s four-part 91 oral history:

Part 1: ,

Part 2: ,

Part 3: ,

Part 4: ,

See an earlier oral history, part of a series from the National Venture Capital Association (NVCA) now preserved at 91, .

Watch Dick Kramlich’s appearances at 91:

(2019)

(2011)

View and read oral histories of Dick Kramlich’s NEA cofounders:

Charles Newhall: 91 , ; NVCA

Frank Bonsal: 91 , ; NVCA

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In Memoriam: Donald Bitzer, 1934–2024 /blog/in-memoriam-donald-bitzer-1934-2024/ Thu, 12 Dec 2024 20:04:51 +0000 /?p=31451 91 remembers Fellow Don Bitzer, computer pioneer who co-invented the flat-panel plasma display and was called the "father of PLATO.”

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2022 91 Fellow

With sadness, we say goodbye to computer pioneer and 2022 91 Fellow Donald L. Bitzer.

Don Bitzer. Credit: National Inventors Hall of Fame

Bitzer was born January 1, 1934, and was an American electrical engineer and computer scientist. He was co-inventor of the flat-panel plasma display and the “father of PLATO,” the world’s earliest time-shared, computer-based education system and home to one of the world’s most pioneering online communities.

Bitzer studied electrical engineering at the University of Illinois at Urbana-Champaign (UIUC), obtaining a PhD in 1960. Following graduation, he joined the UIUC faculty, where he learned of efforts to bring lessons to students over a closed-circuit television network. While a committee of engineers, psychologists, and educators were unable to agree on a single solution at the time, Bitzer wrote up a proposal within a week, got it approved, and immediately started developing his PLATO system for the university’s groundbreaking ILLIAC I computer—the first electronic digital stored program computer built by a university. (PLATO stands for Programmed Logic for Automated Teaching Operations).

University of Illinois ILLIAC I computer, ca. 1952. Credit: University of Illinois

To expand multimedia for courses, later PLATO terminals incorporated microfilm projector that could combine detailed images with computer text on the screen, and some used an attached magnetic audio disk for language and music instruction. To make things easier on the eyes for students sitting in front of computer terminals for many hours at a time, in 1964 Bitzer, with colleague Gene Slottow and graduate student Robert Wilson, invented the flat panel display: plasma screens do not flicker and their clever design also saved memory in the computer by having the display itself store data.

By the early 1980s, PLATO supported thousands of student terminals worldwide, running on multiple different mainframe computers. Many modern concepts in multi-user computing were developed for or matured under PLATO, including forums, message boards, online testing, email, chat rooms, instant messaging, remote screen sharing, multimedia, and multiplayer video games.

University of Illinois chemistry students using PLATO terminals, ca. 1975. Credit: Dr Stanley Smith.

In 1989, Bitzer left Illinois to join the faculty of North Carolina State University, where he was most recently Distinguished University Research Professor of Computer Science. Bitzer was also a member of the National Academy of Engineering, the National Inventors Hall of Fame, an IEEE Fellow, and a 2002 Emmy Award winner for his co-invention of the flat-panel plasma display.

Bitzer, with the flat-panel display which he co-invented in 1964 with colleague Gene Slottow and graduate student Robert Wilson.

When networks like the internet were still a research lab curiosity, Don Bitzer’s multiuser PLATO system served as a dress rehearsal for what we do on those networks today—learn, teach, collaborate, chat, mail, play games, argue, and more. PLATO’s courseware language and touchscreen, multimedia terminals previewed features of decades hence. Bitzer’s PLATO system was a postcard from the future of online communities, and its example would help make that future real. 

Bitzer at PLATO terminal. Credit: University of Illinois Archives, ID 0003303

Learn More

Dear, Brian, The Friendly Orange Glow: The Untold Story of the PLATO System and the Dawn of Cyberculture, Pantheon, 2017.

Kaiser, Cameron, “PLATO: How an educational computer system from the ’60s shaped the future,” Arstechnica,

, Six-Part Series, 91, June 3, 2010. 

, 91, July 27, 2022.

91 .

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In Memoriam: Thomas E. Kurtz, 1928–2024 /blog/in-memoriam-thomas-e-kurtz-1928-2024/ Thu, 14 Nov 2024 20:12:31 +0000 /?p=31169 91 remembers the remarkable career and contributions of 2023 Fellow Thomas E. Kurtz, who passed away on November 12, 2024.

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2023 91 Fellow

With deep sadness, we say goodbye to computer pioneer Thomas Kurtz.

Thomas Eugene Kurtz (Feb. 22 1928–Nov. 12, 2024) was an American mathematician, computer scientist and co-inventor, with John Kemeny, of the BASIC programming language and Dartmouth Timesharing System.

In the early days of academic computing in the 1960s, there were no simple non-professional programming languages available for undergraduates. BASIC was aimed at this audience. To realize their vision, Kurtz and Kemeny concurrently developed the Dartmouth Timesharing System, allowing BASIC to be accessed by students around campus using Teletype terminals.

Finding a Calling

Born in Oak Park Illinois, Kurtz graduated from Knox College in 1950, and received his PhD in mathematics from Princeton University in 1956. In 1951, Kurtz was fortunate in obtaining rare experience on a computer—the pioneering SWAC machine created by the National Bureau of Standards and housed at UCLA. SWAC, the Standards Western Automatic Computer, was among the earliest electronic computers in the United States and was supervised by legendary computer pioneer and 2013 91 Fellow Harry Huskey.

Kurtz began teaching at Dartmouth upon receiving his PhD. After a few years, he and fellow professor John Kemeny developed the original version of the Dartmouth Timesharing System (DTSS), a method of sharing computer access across a network and a requirement for allowing multiple students access to BASIC.

John Kemeny (left) and Thomas Kurtz (right), ca. 1964. Courtesy of the Darmouth College Library

DTSS was the earliest successful, large-scale timesharing system, a remarkable achievement. General Electric, which had donated computers to Dartmouth, extended DTSS into the kernel of their online services, such as Genie. DTSS was unveiled on May 1, 1964, along with BASIC. By that fall, hundreds of students were exploring BASIC on the 20 terminals around campus.

General Electric GE-225 mainframe computer, home to the Dartmouth Timesharing System, ca. 1967. Courtesy of the Dartmouth College Library

Making an Impact

Since its inception, the BASIC language has flourished across multiple generations of computers—from mainframes and minicomputers in the 1960s, to microcomputers in the 1970s and ‘80s to the credit-card sized Raspberry Pi computer of today. In 1978, Harvard students Bill Gates and Paul Allen wrote their first version of BASIC for a new hobbyist-oriented microcomputer, the MITS Altair 8800. Their version of BASIC turned the Altair from a blinking box with few capabilities into a useful computer, and BASIC’s popularity skyrocketed again during the personal computer era.

A Storied Career

From 1966 to 1975, Kurtz served as the director of the Kiewit Computation Center at Dartmouth and as director of the Office of Academic Computing from 1975 to 1978. In 1979, he and Stephen J. Garland organized a professional master’s program in Computer and Information Systems, funded in part with a grant from IBM.

In 1983, Kurtz joined Kemeny and three former Dartmouth students in forming True BASIC, Inc., whose purpose was to develop quality educational software and a platform-independent BASIC compiler. Upon termination of the CIS program in 1988, Kurtz returned to teaching and retired from Dartmouth in 1993.

Kurtz served as council chairman and trustee of EDUCOM and on the so-called Pierce Panel of the President’s Advisory Committee. He also served on the steering committee for two NSF- and ARPA-supported activities and was the chair of the first CCUC conference on instructional computing. He helped form American National Standards committee X3J2, which developed the ANSI standard for BASIC, serving as chair from 1974 to 1985. Kurtz was a member of the ISO committee SC22/WG8, concerned with the international standard for BASIC, and served as its convener from 1987 to 1993. In 1994, he was inducted as a Fellow of the ACM.

Learn More

2023 Fellow Award Ceremony

The development of the Dartmouth time-sharing system .

Thomas Kurtz’s granddaughters shares his thoughts on developing the time-sharing system in this .

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