The PARC crowd thought displays should have the form factor of a sheet of paper. Hence the Alto display.[1] That never caught on.
[1] https://www.righto.com/2018/01/xerox-alto-zero-day-cracking-...
The PARC crowd thought displays should have the form factor of a sheet of paper. Hence the Alto display.[1] That never caught on.
[1] https://www.righto.com/2018/01/xerox-alto-zero-day-cracking-...
Tangentially related: is there a history covering IBM's development of microcomputers? It is clear that the traditional story of the development of the IBM PC leaves out many important details. There the 5100/5110/5120, which goes back to the mid-1970's and reflects the stereotype of IBM. There is also the System/23 DataMaster, where the hardware seems to be the basis of the IBM PC. This seems to go against the traditional story that the IBM PC was some sort of renegade project. (If anything, they appear to be companion projects. The main difference being the DataMaster's focus upon IBM firmware/software.)
Like I need another big project :-)
The IBM Datamaster is an interesting system, but it was doomed. It had an 8-bit Intel 8085 processor, cost $9000, and came out in July 1981. The IBM PC had a 16-bit 8088 processor, cost $1565, and came out a month later. So there was no reason to buy a Datamaster
There's a good description of Datamaster in "A Personal History of the IBM PC" by Dave Bradley (one of the PC's designers). Unfortunately, it's paywalled.[1]
That sounds like a great starting point. There's a university library 500 meters from where I work, so bypassing the paywall ought to be easy.
And thank you for all of your articles over the years. They border so close to applied physics they are fascinating reads.
Fascinating article, I really like knowing where the old standards came from.
But I am extremely curious the first picture in the "The IBM 2260 video display terminal" section. All the other pictures show the typical extremely round CRT of the era, but that one is the characteristic cylindrical tube of Trinitrons, a technology released several years later. I am trying to find some information about it to no avail.
The manual for the IBM 2260 describes the CRT in detail but I don't think it has the information you want. My guess is that if you're IBM, you can get the CRT in whatever shape you want.
[1] https://www.bitsavers.org/pdf/ibm/2260/Y27-2046-3_2260_2848_...
From a linked article on shift registers:
> To avoid these astronomical prices, some computers used the cheaper alternative of shift register memory.
Might be a direction for 2026 too?
Man. I love the design of old terminals, computers, and such.
I am, also, extremely glad that these form factors were abandoned. Having an old terminal, it is possibly the least ergonomic machine I have ever used.
Same. And you may like this one:
One theory I saw argued the punch card size was the reason for 80x24. But why were punch cards that size? They were designed off of the cards used for the census. Why were the census cards that size? Because they were modeled after the dollar bill size.
I do love thought experiments like this but do believe they’re insatiably unresolvable.
In the end, all reasons resolve to either "it's what we had at the time" or "someone thought it looked good."
"Everybody just liked it that way and it costs too much to change it now": https://www.exocomics.com/743/
Not always, for example original CD disks had capacity of 74 minutes to accommodate Beethoven's Ninth Symphony.
That one also turned out a myth :) CD size was determined by Cassette tape dimensions (diagonal, human can still hold one in one hand) and that combined with conservative pits/lands/track pitch choice drove the play time.
thus CD runtime was derived from something "what we had at the time".
The story as told may be inaccurate but it wasn’t simply ‘what we had at the time’ either.
The 74 minute length resulted from Sony rejecting the Philips 60 minute 11.5cm diameter “Pinkeltje” disc size in favor of a 12cm diameter.
It’s quite possible that Sony’s Norio Ohga simply argued that the 9th symphony or various operas fitting would be enough of an advantage for the slight size increase without meaningfully decreasing portability.
And the reason they were modeled after the dollar bill size is because there were already many types of systems for storing and organizing them. That came in handy for the census.
The old BBC Connections series has a segment with James Burke using the old census tabulators.
No idea if this was a factor, but 80x25 on the IBM PC allows for showing 80x24 plus that extra line of function key labels:
https://en.wikipedia.org/wiki/IBM_BASIC#/media/File%3AIBM_Ca... (IBM BASIC screenshot)
Imagine when edit.com came out and QBASIC used it for the editor. You lost two more lines of valuable code space!
https://en.wikipedia.org/wiki/MS-DOS_Editor#/media/File%3AMS...
You know, this is funny because QBasic did not use EDIT.COM. Instead, QBasic was the editor and EDIT.COM was a simple program that called "QBASIC /EDIT" :-)
It was basically the same thing. That's my point.
I recently went back to my 1993 Turbo Pascal code (mostly 2D VGA and Sound Blaster game engine experiments) on period correct hardware.
I was surprised by how claustrophobic it felt to only see 21 lines of code in e.g. Turbo Pascal 7.0. Still didn’t like the squashed 80x43 mode.
https://winworldpc.com/screenshot/c38a28c3-84c3-ba28-1011-c3...
Then I remembered how larger displays and xterm felt like such a liberation a few years later.
Deeply fascinated by these historical threads. It is precisely the various design choices made throughout history that have shaped the computer systems we use today.
The linage can be traced back to Basile Bouchon's paper tape invention in 1725. The article doesn't mention the role of punched cards in The Holocaust, though, which my blog post goes into:
I see people doing that today.