In the past, I've talked about building a Z80-based computer. I made some progress towards that goal, in the sense that I took the initial (trivial steps) towards making something:
- I built a clock-circuit.
- I wired up a Z80 processor to the clock.
- I got the thing running an endless stream of NOP instructions.
- No RAM/ROM connected, tying all the bus-lines low, meaning every attempted memory-read returned
0x00
which is the Z80 NOP instruction.
- No RAM/ROM connected, tying all the bus-lines low, meaning every attempted memory-read returned
But then I stalled, repeatedly, at designing an interface to RAM and ROM, so that it could actually do something useful. Over the lockdown I've been in two minds about getting sucked back down the rabbit-hole, so I compromised. I did a bit of searching on tindie, and similar places, and figured I'd buy a Z80-based single board computer. My requirements were minimal:
- It must run CP/M.
- The source-code to "everything" must be available.
- I want it to run standalone, and connect to a host via a serial-port.
With those goals there were a bunch of boards to choose from, rc2014 is the standard choice - a well engineered system which uses a common backplane and lets you build mini-boards to add functionality. So first you build the CPU-card, then the RAM card, then the flash-disk card, etc. Over-engineered in one sense, extensible in another. (There are some single-board variants to cut down on soldering overhead, at a cost of less flexibility.)
After a while I came across https://8bitstack.co.uk/, which describes a simple board called the the Z80 playground.
The advantage of this design is that it loads code from a USB stick, making it easy to transfer files to/from it, without the need for a compact flash card, or similar. The downside is that the system has only 64K RAM, meaning it cannot run CP/M 3, only 2.2. (CP/M 3.x requires more RAM, and a banking/paging system setup to swap between pages.)
When the system boots it loads code from an EEPROM, which then fetches the CP/M files from the USB-stick, copies them into RAM and executes them. The memory map can be split so you either have ROM & RAM, or you have just RAM (after the boot the ROM will be switched off). To change the initial stuff you need to reprogram the EEPROM, after that it's just a matter of adding binaries to the stick or transferring them over the serial port.
In only a couple of hours I got the basic stuff working as well as I needed:
- A z80-assembler on my Linux desktop to build simple binaries.
- An installation of Turbo Pascal 3.00A on the system itself.
- I used this to build some simple utilities.
- There's a good overview of using turbopascal here which covers how to use/quit the editor, compile binaries, etc.
- An installation of FORTH on the system itself.
- Which is nice.
- A couple of simple games compiled from Pascal
- Snake, Tetris, etc.
- The Zork trilogy installed, along with Hitchhikers guide.
I had some fun with a CP/M emulator to get my hand back in things before the board arrived, and using that I tested my first "real" assembly language program (cls
to clear the screen), as well as got the hang of using the wordstar keyboard shortcuts as used within the turbo pascal environment.
I have some plans for development:
- Add command-line history (page-up/page-down) for the CP/M command-processor.
- Add paging to
TYPE
, and allow terminating withQ
.
Nothing major, but fun changes that won't be too difficult to implement.
Since CP/M 2.x has no concept of sub-directories you end up using drives for everything, I implemented a "search-path" so that when you type "FOO" it will attempt to run "A:FOO.COM" if there is no file matching on the current-drive. That's a nicer user-experience at all.
I also wrote some Z80-assembly code to search all drives for an executable, if not found in current drive and not already qualified. Remember CP/M doesn't have a concept of sub-directories) that's actually pretty useful:
B>LOCATE H*.COM
P:HELLO COM
P:HELLO2 COM
G:HITCH COM
E:HYPHEN COM
I've also written some other trivial assembly language tools, which was surprisingly relaxing. Especially once I got back into the zen mode of optimizing for size.
I forked the upstream repository, mostly to tidy up the contents, rather than because I want to go into my own direction. I'll keep the contents in sync, because there's no point splitting a community even further - I guess there are fewer than 100 of these boards in the wild, probably far far fewer!
Tags: cpm, retro, single-board computer, z80 6 comments
https://www.sdi-bja.com/
Fascinating! My first personal computer at work was a Morrow Designs desktop CPM based machine. We used Basic programs for Land Surveying and Civil Engineering. Shortly later I bought my own for home use, but it was a Morrow Designs "luggable" with a tiny amber display and dual floppies. It was similar to the Osborn 1. It was very challenging.
Enjoy your adventures