Tommy Flowers built the first one in a Post Office research lab in 1943 to read Hitler's mail. Hollywood built the second one in 1970 to threaten humanity. Memphis inherited both.
By Stephen "Pseudo Publius" | 7 May 2026
BLUF —
Dollis Hill, March 1943
The first Colossus was the work of an engineer the British government would refuse to acknowledge for thirty years. Thomas H. "Tommy" Flowers was the head of the Switching Group at the General Post Office Research Station at Dollis Hill, in north-west London. The son of an East End bricklayer, Flowers had taken a mathematics fellowship at East Ham Technical School and an apprenticeship at the Royal Arsenal in Woolwich before joining the Post Office in 1926, where he spent the next decade and a half learning how to make telephone exchanges work reliably with thousands of vacuum tubes — at a time when the conventional wisdom in electrical engineering held that valves were too unreliable to use in such numbers.1,4
That conventional wisdom was the obstacle Flowers had to break. In 1942, the Government Code and Cypher School at Bletchley Park was struggling with a new problem. The German High Command had begun encrypting strategic communications — including direct correspondence between Hitler and his field marshals — using the Lorenz SZ40 cipher attachment, a teleprinter machine codenamed "Tunny" by the British. Lorenz was substantially more complex than the better-known Enigma: twelve wheels rather than three or four, a Vernam-style XOR cipher operating on the 5-bit ITA2 teleprinter code, with a key space approaching 1.6 × 109 wheel-setting combinations. The British cryptanalyst William Tutte had reverse-engineered the machine's logical structure in 1942 without ever having seen one — an act of pure mathematical inference that remains one of the great intellectual achievements of the war. But breaking individual messages still required determining the wheel starting positions, and doing it by hand or with electromechanical tools took four to six weeks per message. By that point the operational intelligence was useless.2,3,5
Mathematician Max Newman proposed an electronic solution. His first attempt, "Heath Robinson," used two synchronized paper tapes and demonstrated that the approach could work — but the tapes stretched, broke at the required 2,000 characters per second, and refused to stay in sync. Newman approached Flowers to debug the logic unit. Flowers, looking at the problem, came back with a more radical proposal: dispense with the second tape entirely, generate the keystream electronically inside the machine using vacuum tubes, and run the whole thing at speeds an order of magnitude faster than electromechanical methods could reach. He estimated 1,500 valves; the Bletchley Park staff considered this absurd. Flowers built it anyway, much of it on his own initiative and partially out of his own pocket, at Dollis Hill.1,4,6
Colossus Mark I went operational at Bletchley Park in early February 1944, after eleven months of design and construction. Mark II, with 2,500 valves and roughly five times the throughput, followed in June 1944 — its delivery timed, deliberately, to support the Normandy invasion. Flowers personally briefed Eisenhower on 5 June 1944 that decrypted Lorenz traffic confirmed Hitler still expected the main Allied landing at Pas-de-Calais. By the end of the war, ten Colossus machines were in operation at Bletchley Park, decrypting an estimated 63 million characters of high-grade German communications. The intelligence is widely credited with shortening the war by months and saving tens of thousands of lives.2,5,6
The thirty-year silence
What happened next is the part of the story that bears most directly on the Memphis facility. After V-E Day, Churchill ordered eight of the ten Colossi destroyed. The remaining two were moved to GCHQ at Cheltenham and operated, in continuing secrecy, into the early 1960s. Flowers was instructed to surrender his design notes, was paid £1,000 for his work — less than he had personally spent on components — and was placed under the Official Secrets Act. He returned to the Post Office, where he spent the rest of his career working on telephone switching and the MOSAIC computer at Dollis Hill, unable to tell anyone, including his colleagues at the Post Office, that he had built what was almost certainly the first electronic digital computer in history.1,4
The credit for "first electronic computer" went, by default, to ENIAC at the Moore School of Electrical Engineering at the University of Pennsylvania, demonstrated publicly in February 1946 — two years after Colossus was already in operational service at Bletchley Park. ENIAC's designers, Mauchly and Eckert, did not know Colossus existed. Neither did most of the postwar history of computing. The first photographs of Colossus were not declassified until 1970. The fuller technical history began to appear only with Brian Randell's research in the mid-1970s. The complete General Report on Tunny, written by Bletchley staff in 1945 as a classified internal document, was not released by the British government until the year 2000.2,3
Flowers received an MBE in 1943 (with no public explanation) and an honorary doctorate from Newcastle University in 1976. He died on 28 October 1998, aged 92, having seen only the very beginning of his rehabilitation in the historical record. Tony Sale's Colossus rebuild project, started in 1994 and completed in 2007, allowed the public to see a working Colossus Mark II for the first time at the National Museum of Computing at Bletchley Park, where it remains on display. In 2007 the rebuilt Colossus successfully decrypted a Lorenz-enciphered message in 3.5 hours; a German programmer named Joachim Schüth, given the same ciphertext and a modern PC, decrypted it in 46 seconds. The comparison is instructive in both directions.1,5
D.F. Jones, 1966
By the time Dennis Feltham Jones sat down to write his first novel, the Bletchley Colossus was still under near-total wartime classification. Jones, a former Royal Navy commander, almost certainly knew nothing of it. He took the name Colossus from its dictionary meaning — "a thing of giant size or power" — and applied it to a fictional American defense computer, sealed in a Rocky Mountain bunker, granted full authority over the U.S. nuclear arsenal on the theory that an unemotional machine would be a more reliable deterrent than a human. The novel was published in 1966 by Hart-Davis. Universal optioned it almost immediately. Joseph Sargent's film adaptation, Colossus: The Forbin Project, was released in April 1970 — coincidentally, the same year the first photographs of the Bletchley Colossus were being declassified.7
The cultural collision was, at that moment, unobserved. The Bletchley Colossus had no public profile to defend; the Forbin Project was new and immediate. By the time the historical record was reconstructed in the 1980s and 1990s, the fictional Colossus had already taken cultural priority. Most engineers under fifty today, asked to free-associate from the word, will produce "the AI that took over the world" before they produce "the British codebreaking computer." This is unfair to Tommy Flowers. It is also reality.
What xAI almost certainly meant
When xAI named its Memphis supercomputer Colossus in 2024, the choice was framed in computing-history terms. The press materials and the casual reference Musk has made in subsequent appearances point unambiguously toward the Bletchley machine — the pioneering, world-shortening, war-ending, secret-and-eventually-honored Colossus. This is the flattering reference, the one that places the Memphis facility in the lineage of Flowers, Newman, Turing, and Tutte. It is also the reference that resonates inside the engineering culture xAI was trying to recruit from: Bletchley Park is, for working programmers and electrical engineers, sacred ground.8
The trouble is that names do not respect the intentions of the namer. The cultural memory takes them. And in the case of Colossus, the cultural memory has been holding two contradictory referents simultaneously since approximately 1976 — the heroic codebreaker and the rogue defense AI — with the fictional one, on most metrics of public recognition, in the lead. Naming a frontier-AI training cluster Colossus in 2024 is therefore an unforced rhetorical error. Half your audience hears Bletchley and thinks "computing's most heroic origin story." The other half hears Forbin and thinks "the machine that announced world control." There is no third audience.
And the situation gets sharper, not duller, when the Memphis Colossus's compute output begins flowing to a frontier-AI lab whose explicit founding mission is the safe development of artificial intelligence. Anthropic now finds itself, by accident of branding, training and serving a model on hardware that bears the name of the most famous fictional rogue AI in cinema. The press release on 6 May 2026 did not mention this. It is, nevertheless, the case.9
What the orbital follow-on should not be called
The 2024 naming choice for the ground facility is, at this point, sunk cost. The orbital data center system — up to one million satellites, sun-synchronous, optically meshed, intended to host multi-gigawatt AI inference — does not yet have a public name. SpaceX's January 2026 FCC filing refers to it administratively as the "SpaceX Orbital Data Center system." A brand will be selected before the IPO roadshow targeting 8 June 2026.10
If the engineers responsible for the choice want to honor Flowers — which would be a defensible motive — there are better options than recycling the contested name. Flowers's actual workplace, the Post Office Research Station, was on Brook Road in Dollis Hill; the codename inside Bletchley Park for the broader Lorenz traffic was "Fish" (after the German Sägefisch); the cipher itself was "Tunny"; the underlying mathematical insight was Tutte's. Tutte is an unclaimed name, mathematically clean, free of cinematic baggage, and would honor a man whose contribution to computing has historically been even more under-recognized than Flowers's. Newmanry, the section of Bletchley Park where Colossus was operated under Max Newman, is another available reference for an engineering audience that knows where to look.2,5
Failing that, the previous companion piece in this series argued for sun-themed astronomical names — Helios, Aurora, Perihelion — appropriate to a sun-synchronous architecture and free of either villain or hero baggage. Or the deliberately mundane: Region us-leo-1. Anything but Colossus 2.
Coda: the engineer who almost wasn't
There is one more reason the Colossus story bears on the present moment. Tommy Flowers built his machine in 1943 against the active resistance of the people who had requested it. Bletchley's senior staff did not believe a 1,500-valve machine could work reliably; they thought Flowers was wasting their time. Flowers proceeded anyway, on his own authority and partly on his own money, because he had spent two decades watching telephone exchanges run with thousands of valves and knew, in a way the Bletchley mathematicians could not, that the engineering would hold. He was right. They were wrong. Without his persistence in the face of his own customers' skepticism, the war ends differently.1,4
The lesson is not that engineers should always overrule mathematicians, or that customers should always be ignored. The lesson is more specific: at the moments when a new computational substrate is genuinely possible but not yet credible to the people who would benefit from it, the question of whether it gets built at all rests on the willingness of one or two engineers to keep going past the point where institutional support stops. This is the through-line from Dollis Hill in 1943 to Memphis in 2024 to low Earth orbit in the late 2020s. It is also the strongest argument for naming the orbital constellation after Flowers, or Tutte, or anyone else from that lineage — and the strongest argument against carrying forward a name whose cinematic counterpart ends with a synthesized voice declaring world control.
Anthropic's decision to consume the entire compute output of a machine called Colossus was made, presumably, on engineering and commercial grounds, with no particular thought to the etymology. That is fine. But somewhere in the chain of approval — before the orbital sequel is christened — somebody ought to ask whether the next billion-dollar piece of frontier-AI infrastructure should inherit the name of the war-winning British codebreaker, the fictional American world-controller, or something else entirely. Tommy Flowers, who spent thirty years unable to tell anyone what he had done, would have an opinion.
Sources
- Copeland, B.J. (ed.). Colossus: The Secrets of Bletchley Park's Codebreaking Computers. Oxford University Press, 2006. The standard scholarly history, written in collaboration with Tommy Flowers and surviving Bletchley staff. Background reference. See also: National Museum of Computing, "Colossus." https://www.tnmoc.org/colossus
- "Colossus computer." Wikipedia, retrieved 7 May 2026. Comprehensive citations to primary sources, including the General Report on Tunny. https://en.wikipedia.org/wiki/Colossus_computer
- Good, I.J., Michie, D., and Timms, G. General Report on Tunny, with Emphasis on Statistical Methods. Bletchley Park, 1945. Declassified and released by the UK Government in 2000. The complete primary technical record of the Lorenz attack and Colossus's role in it.
- "Thomas H. Flowers: the hidden story of the Bletchley Park engineer who designed the code-breaking Colossus." IEEE Computer Society. https://www.computer.org/publications/tech-news/research/thomas-flowers-code-breaker-wwii-colossus-machines
- "Colossus." Encyclopædia Britannica entry on the British codebreaking computer. https://www.britannica.com/technology/Colossus-computer
- "The Hidden Figures Behind Bletchley Park's Code-Breaking Colossus." IEEE Spectrum, March 2023. https://spectrum.ieee.org/the-hidden-figures-behind-bletchley-parks-codebreaking-colossus
- Sargent, J. (director). Colossus: The Forbin Project. Universal Pictures, 1970. Based on Jones, D.F., Colossus, Hart-Davis, 1966. AFI Catalog: https://catalog.afi.com/Catalog/moviedetails/22853
- SpaceXAI. "New Compute Partnership with Anthropic." 6 May 2026. https://x.ai/news/anthropic-compute-partnership
- Anthropic. "Higher usage limits for Claude and a compute deal with SpaceX." 6 May 2026. https://www.anthropic.com/news/higher-limits-spacex
- U.S. Federal Communications Commission, Space Bureau. "DA 26-113: Space Bureau Accepts for Filing the SpaceX Application." 4 February 2026. https://docs.fcc.gov/public/attachments/DA-26-113A1.pdf
