Intel Allows Release of Full 4004 Chip-Set Details

mcpublic writes "When a small team of reverse engineers receives the blessing of a big corporate legal department, it is cause for celebration. For the 38th anniversary of Intel's groundbreaking 4004 microprocessor, the company is allowing us to release new details of their historic MCS-4 chip family announced on November 15, 1971. For the first time, the complete set of schematics and artwork for the 4001 ROM, 4002 RAM, 4003 I/O Expander, and 4004 Microprocessor is available to teachers, students, historians, and other non-commercial users. To their credit, the Intel Corporate Archives gave us access to the original 4004 schematics, along with the 4002, 4003, and 4004 mask proofs, but the rest of the schematics and the elusive 4001 masks were lost until just weeks ago when Lajos Kintli finished reverse-engineering the 4001 ROM from photomicrographs and improving the circuit-extraction software that helped him draw and verify the missing schematics. His interactive software can simulate an ensemble of 400x chips, and even lets you trace a wire or click on a transistor in the chip artwork window and see exactly where it is on the circuit diagram (and vice-versa)."

Re:Wow! Imagine a Beowulf Cluster

4004 - chip not found.

Control Systems using 4004

[SwedishChef]

In the very early 70s our engineering group was interested in using the new 4004 to simplify the production of control systems for heavy machinery (windlasses, hydraulic systems, etc). The machinery itself was slightly different from contract to contract and even from item to item within a contract so we had to design a new control system for each unit. When the 4004 came out we were excited to see if we couldn't do it cheaper and faster using a microprocessor.

We had moved from relays and discrete wiring to CMOS components on printed circuit boards and thought that was a big step. CMOS could be run at 15vdc which meant that the noise inherent in the environments our machinery worked in would not be quite as big a problem.

Unfortunately we discovered that we had several problems including the limited instruction set and memory capabilities of the 4004 along with the lower voltages needed so we stuck to CMOS until I left a couple of years later.

Still, the 4004 was my introduction to microprocessors and that changed the course of my career from electronics and electronic control systems to digital control systems and computers.

It's been an exciting ride, too. I am grateful to have grown up with the technology.

Re:Awesome!

[dissy]

One of the things I hated most about my computer arch class was that we had to learn about a completely made up system design which didn't translate to ANYTHING in the real world. Oh yeah, and it was RISC. *Snoooreeee*

That's only because you dropped out before getting to the FPGA classes!

Any functional CPU design (technically non-functional ones too, for whatever good that would do) can be flashed into an FPGA and become as real as any other silicon chip.

And identical to psudocode, psudo-chipfab can be translated into any real code/fab language by anyone that knows basic design and the target language. You were supposed to be learning the basic design part, so once you got to using a real language used in the real world, you would have some clue what to do with it.