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An attempt at a small Verilog implementation of the original Apple 1 on an FPGA

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Apple One

This is a basic implementation of the original Apple 1 in Verilog. It can run the Apple 1 WozMon and Integer Basic via the serial or VGA 640x480 video with PS/2 keyboard standalone. This makes this a very compact little set up. So far fully tested and supported boards are:

Contributor supported boards (YMMV):

Apple One Running

This project borrows heavily from the awesome work of Andrew Holme and his "Pool" project and Arlet Otten's tiny 6502 core. Also many special thanks to "sbprojects.com" for the wealth of information I gleaned from there.

Memory Map

The memory map is currently set up to have:

Start End Description
0x0000 0x1FFF 8KB of block RAM for system
0xE000 0xEFFF 4KB of block RAM for basic ROM
0xFF00 0xFFFF 256B of block RAM for WozMon ROM

You can swap out the Basic ROM to get more RAM if you need the space, this can be achieved easily with only minor modifications to the top file.

Building

Each supported board has a directory in boards. This directory has a structure where each board can have multiple build environments (eg. yosys, icecube2, quartus etc).

Each board has specific instructions that will explain further the requirements of each board and how to build for it, but basically all should support the following.

To build for your board you just need to open the project or use the Makefile that's compatible with your board.

eg.

$ cd boards/ice40hx8k-b-evn/yosys/
$ make

Board READMEs

The BACKSPACE key and how to delete typos

The Apple 1 didn't have a typical "backspace" key as we are use to today, due to the way the video display worked it couldn't move the cursor backward to erase characters. So instead it used a "rubout" character, which is the underscore character (_). This character signifies that the input buffer has been moved backwards one character (eg. PRN_INT would be received by the Apple 1 as PRINT).

It takes a little getting used to but you'll soon get the hang of it.

The Apple 1 only understands UPPERCASE characters

If you're using the PS/2 input you don't need to be worried about this, as we automatically UPPERCASE all typed characters so WozMon can understand what you are typing.

However if you are using the UART and a serial terminal you will need to remember to turn on your CAPSLOCK, otherwise nothing will respond as you might expect.

Serial Setup

Depending on the board you can use serial to communicate with the Apple 1, some boards require a toggle to be set to select between PS/2 input and UART input. The UART by default will be set to 115200 (8/N/1).

A very basic hardware flow control is implemented. You should turn on CTS support as this will allow you to cut and paste code into the Woz Mon without the Apple 1 missing any bytes.

VGA / PS/2 Setup

Most boards support PS/2 input and VGA output. This is the most support method, however all output is replicated to the UART (if available) and the PS/2 keyboard input can be replaced with the UART out if the "toggle" mode buttons is selected.

Unlike the original Apple 1 this implementation can (depending on board you are using and it's support) change the foreground and background colours of the VGA output, as well as differnet scanline modes for the font. These controls are mapped to memory locations you can tweak using WozMon and are reset back to defaults when the system is reset.

Register Function Value Description
0xC000 Font 00 Default
01 Vertical scanlines
02 Horizontal scanlines
03 Dot mode
0xC001 Foreground 00 Black
01 Blue
02 Green
03 Cyan
04 Red
05 Magenta
06 Yellow
07 White
0xC002 Background 00 Black
01 Blue
02 Green
03 Cyan
04 Red
05 Magenta
06 Yellow
07 White

Helping

All PRs and suggestions happily accepted! Please any support us most welcome, and it would be good to have this as feature complete as possible with the real Apple1. I'd like to implement the cassette interface next with the basic electronics to talk to the headphone/mic jack of a mobile phone to upload and download recordings as a means to save programs.

But yes, help happily accepted!

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An attempt at a small Verilog implementation of the original Apple 1 on an FPGA

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  • Verilog 67.6%
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