A TTL Computer Kit from 1974
Posted: 29 May 2019, 17:18
Back in Autumn 1974, the engineers at MITS in Albuquerque were busy developing what was going to become the ground-breaking Altair 8800 microcomputer - for shipment to Popular Electronics Magazine, in time for their January 1975 edition. The Altair 8800 was the first, real commercial microcomputer kit, and featured the Intel 8080 microprocessor - that alone cost a bank-busting $150 at that time.
Meanwhile, David E. Winkel had effectively reverse engineered the contemporary PDP-8I 12-bit TTL minicomputer, creating an economical design that used the latest semiconductor memory, and was about to release it as a kit - mainly to the educational market.
Winkel had designed the "Poorman's PDP-8" right on the advent of the microprocessor based home computer. Fortunately the momentum of the educational market, and the accompanying textbook "The Art of Digital Design" meant that the LD12, and its successors, the LD20 and LD30 would feature in college and university Computer Science courses right up until the early 1990s.
The LD12 was a PDP-8 "workalike". It executed the PDP-8 instruction set. It's ALU was based on the ubiquitous 74181, and in the basic kit, only 16 words of RAM was provided in the form of 3 x 7489 - a 64 bit RAM. You could however put your hand in your wallet and pay for a 1K words memory upgrade kit, and then further extend to a full 4K x12bit words.
The LD12 consisted of a large, single sided pcb, approximately 400x400mm. The tracking on the pcb provides the 5V power and 0V ground rails, and in the memory section provided the address bussing for the Intel 2102 ICs. All of the rest of the wiring had to be done using wirewrap - several hundred individual connections.
The pcb looked as though it was "general purpose" - add a few more ICs and you could have a 16-bit machine, by adding more memory and another 74181 ALU. The wirewrap wiring defined the architecture of the machine. It was in fact "the Mother of all TTL Prototyping Boards"
The basic machine used 110 ICs - and many of these were simple gates. The 1K or 4K memory expansions were extra.
By chance, I have found the archive of the original documentation for this machine - as well as some photos of the main pcbs.
You can find this archive here:
https://retrobrewcomputers.org/n8vem-pb ... /index.htm
Here are the front and back pictures of the main logic board - As Marcel would say "I think there are too many ICs"
I think I would agree
Meanwhile, David E. Winkel had effectively reverse engineered the contemporary PDP-8I 12-bit TTL minicomputer, creating an economical design that used the latest semiconductor memory, and was about to release it as a kit - mainly to the educational market.
Winkel had designed the "Poorman's PDP-8" right on the advent of the microprocessor based home computer. Fortunately the momentum of the educational market, and the accompanying textbook "The Art of Digital Design" meant that the LD12, and its successors, the LD20 and LD30 would feature in college and university Computer Science courses right up until the early 1990s.
The LD12 was a PDP-8 "workalike". It executed the PDP-8 instruction set. It's ALU was based on the ubiquitous 74181, and in the basic kit, only 16 words of RAM was provided in the form of 3 x 7489 - a 64 bit RAM. You could however put your hand in your wallet and pay for a 1K words memory upgrade kit, and then further extend to a full 4K x12bit words.
The LD12 consisted of a large, single sided pcb, approximately 400x400mm. The tracking on the pcb provides the 5V power and 0V ground rails, and in the memory section provided the address bussing for the Intel 2102 ICs. All of the rest of the wiring had to be done using wirewrap - several hundred individual connections.
The pcb looked as though it was "general purpose" - add a few more ICs and you could have a 16-bit machine, by adding more memory and another 74181 ALU. The wirewrap wiring defined the architecture of the machine. It was in fact "the Mother of all TTL Prototyping Boards"
The basic machine used 110 ICs - and many of these were simple gates. The 1K or 4K memory expansions were extra.
By chance, I have found the archive of the original documentation for this machine - as well as some photos of the main pcbs.
You can find this archive here:
https://retrobrewcomputers.org/n8vem-pb ... /index.htm
Here are the front and back pictures of the main logic board - As Marcel would say "I think there are too many ICs"
I think I would agree