I2cLcdAddress = 60 // I2C display address in decimal and shifted. I2cBusMaster = 0 //SDA - pin 27 SCL - pin 28 (defaults to 0 for non-split lines (Option A) or 1 for split lines (Option B)) If you are using I2C LCD you can optionally change what pins it is connected to. If you are using a LCD screen then specify it here If you are using the split line hardware option (ie Option B) then you need to specify this option These are the options to set in the file options.txt for this hardware configuration: You can read about his project, download the software for the sd-card and understand how it works HERE Emulate the Amiga and it's line of devices such as the Amiga 500, the Amiga 1200 (AGA), the CD32 and the CDTV might be easy on current systems, but it can be a bit tricky on the Raspberry Pi.
#Commodore amiga emulator raspberry pi serial
You also need a 6-pin serial cable that is available as product option or you can use the one that came with your 1541 (if you have one). The Commodore Amiga must be the most advanced computer system ever designed, years ahead of it's time, that still has followers and active fans all over the world. The A500 was the most successful Amiga model released by Commodore and competed head to head with the technically inferior Atari ST throughout the 1980s. These items are not included but are required to use: The Commodore Amiga is the 16-bit computer that inspired a generation of gamers. The hex inverter is original, not a fake one. The unit i'm selling it's assembled, tested, with both IEC connectors installed, piezo buzzer and oled display. What makes this solution so interesting is the level of emulation you can reach: it’s really perfect and you can load whatever software for Commodore 64/128/Vic20/16/Plus4 as the real floppy drive.