Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I want to take an interest in writing my own simple emulator for the z80 processor. I have no experience with this type of programming. I am mostly fine with using c-based languages as they are the ones I know best. If anyone could please tell me what I need to accomplish this and give me some good tutorials/references that could aid me in this project I would be very thankful. I would also like a tutorial for coding a ROM-dumping application for my ti-84 calculator so I can use its ROM with this emulator. Thanks in advance for any help!

share|improve this question
Z80 was great!! –  MadH Aug 1 '09 at 8:33

8 Answers 8

up vote 11 down vote accepted

Perhaps start by looking at these:

A good tutorial can be found here: Independent Z80 Assembly Guide


The Undocumented Z80 Documented v0.91 (pdf)

The Complete Z80 Instruction Reference

Z80 Microprocessor Instruction Set Summary

share|improve this answer
This is a great start. Thanks for the help. I'll get started reading it. –  Bobice M. Aug 1 '09 at 4:02

It's a bit of a side trip, but since you say you have no experience with this type of programming, you might want to start by building an emulator for the Universal Virtual Machine from the 2006 ICFP programming contest. This is a task that takes an experienced programmer 90 minutes, but many teams with no experience were able to complete it in a few days. When you finish the emulator it unlocks a bunch of fun stuff, and it might be a good warmup before you tackle the Z80.

share|improve this answer
+1 Thanks for the contest link. –  AraK Aug 1 '09 at 9:30
+1 for the contest link! –  TarkaDaal Aug 1 '09 at 10:41

Mitch is completely correct. Start by understanding the processor. Then play around a bit by writing code to implement particular instructions. Use C++ for this, BTW, not C, or the concepts of the processor will not map to classes in your code.

In the process of implementing instructions, you'll find you need to define things like the flags, and the instruction pointer. That should eventually get you to where you need to implement the memory model, and even the I/O model.

You'll eventually have to figure out how to load code and data into memory, and maybe how to dump it back out to disk.

Only then do you need to get to the point of emulating the execution of code, loaded into memory, at a given instruction pointer.

share|improve this answer
I want to say thanks for your advice as well. –  Bobice M. Aug 1 '09 at 4:04

Well this is old question and already answered but here are some things to add:

  • especially for Z80

    1. do not trust the documentation is 100% bug free

      • have not see any without bugs including those mentioned here
    2. test your CPU core for bugs properly

      • it will safe you from many headaches and confusion later

for testing i am using 3 approaches:

  1. stepping/tracing against known code (usually commented ROM disassembly)
    • its the first step when nothing works yet
    • you will see badly coded instructions
  2. include to your emulator different Z80 core and process everything as double emulation
    • 2 'separated' emulators with the same steping/traceing/running system
    • both CPUs should have own memory HW ...
    • run emulator and after any instruction compare registers and immediate memory locations like [hl],[sp],[sp-1]...
    • at first difference stop and see what instruction cause it
    • debug it and continue until you are 'bug-free'
    • beware the second core can be also buggy so debug with caution
  3. when you are more run able use core tester
    • use ZEXALL: http://mdfs.net/Software/Z80/Exerciser/
    • is the best on Z80 (at least from my experience)
    • helped me with very many things (my core is now 100% zexal compatible)
    • its done against real HW so there are no bugs in it
    • its from CP/M so some versions need 64K RAM mode to run.
    • different OS/ROM or whatever can cause some instruction with memory access to fail
    • for example raw ZEXALL fails many things on ZX-Spectrum but there are versions done on real ZX and there are 100% OK on ZX

if you need contention model add proper tests

  • for ZX-Spectrum there are many floating bus, interrupt and screen testers
  • for TI i have no idea... not a TI calculator user)

BTW. how dit it go with your emulator?

  • have you done it ?

P.S. if you want i can share my instruction-set ('all' ZX instructions with correct OP codes,coding timing and Machine cycles) it took me few years to put together all docs so i am passing zexall 100% correctly. My emulator loads this (1792 instruction) text file to the core on init and configure instruction decoder and processor on runtime so i was able really fast and simple enough to change things ... saved me lot of time

I would copy my instruction set here but it has 1792 lines and 121KB so i am not shore if that will be wise. comment me and i post it to some temp no-registration file storage server for download. (if its safe no-truncating and overloading site comment me too and will copy it directly here or create separate Q&A to not confuse others)

share|improve this answer

You seem to want an emulator for more than a processor, but for a complete machine. You'll have also the task of emulating the rest of the hardware, and finding the documentation for that could well be the more difficult task waiting you.

Depending on your goal, you may want to start with an already existing emulator for Z80. A quick search gives several of them but no emulator for TI-84. simh, a framework for old computers emulation has already the emulation of a Z80 processor, adding emulation of the rest of your hardware should be easier than starting from scratch. Even if you don't go that road, there are some design documents there which could help you.

share|improve this answer

Try to take a look to Sega Master System and Game Gear emulators (i'm pretty sure that some are open source), those consoles have a z80 as CPU ZX Spectrum used it too, http://www.worldofspectrum.org/emulators.html

share|improve this answer

I'd recommend you consider starting by writing an emulator for a slightly simpler but releated CPU, the 8080. The Z80 is actually rather complicated (multi-byte instructions, more addressing modes, index registers etc.) , whereas 8080 instructions are very easy to decode (you can just use a 256-entry lookup table , as a first order solution).

All the code you write to control the program (display, data entry, memory dumps etc.) should be re-useable if you then decide to go on to attempt the Z80, and indeed you should design the user interface to be simulated processor independant.

share|improve this answer
I disagree about the decoding. Z80 instructions are easily decoded, breaking them into {2, 3, 3} bit fields. I've done it. –  John Saunders Aug 1 '09 at 13:31
The Z80 has both single byte and two-byte opcodes (excluding eddress info). The 8080 (which only has single byte opcodes) are thus inately easier to decode. Also, the number of addressing modes you need to deal with is smaller on the 8080. Thus, writing an 8080 emulator is easier. I've written both, BTW. –  anon Aug 1 '09 at 14:47

I learned all I know about the Z80 and calculator assembly right here: http://www.ticalc.org/programming/

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.