ECLair

ECLair is a long-term project to build an ECL minicomputer.

Project Status

• 2012-12-17: Implemented a data path from IR[7:6] to the register latch signals, so that all register-related operations can be simplified in microcode. Moved the ldi* instructions to use this new path, everything is tested and working. Next step is probably to get the 8/16-bit split working, so that 8-bit operations don't erase the other byte of the word.
• 2012-12-16: MDR-XY data path implemented, Load Immediate 8-bit values to A and B instructions written, add 16-bit A=A+B written, all working.
• 2012-12-15: Found bug in the datasheet of the MC10H181, fixed it and now the ALU checks out completely. Started integrating it into the CPU. Next step is to finish the MDR-XY data path so that Load Immediate instruction can be implemented, then Add can be implemented/tested.
• 2012-12-14: Verilog transcription of ALU almost complete, but malfunctioning in the carry logic of the second bit. Will be using MC10H181 w/ MC10H179 CLA generator.
• 2012-12-09: Started working on ALU design/verilog transcription.
• 2012-12-08: Added decode support for ROM/RAM/device memory, got everything working so that now an instruction is fetched from ROM at startup and is jumped to in microcode. Started work on the X/Y registers, and started work on a microcode generator so I can stop typing in individual bits.
• 2012-12-05: Got the part that's been diagrammed into Verilog and working. Now fetches instructions (from a constant right now, not RAM yet) and does jumps to their location in microcode.
• 2012-12-04: Started the logical diagram and the microcode layout.
• 2012-12-01/02: Spent the weekend reading Bit-Slice Microprocessor Design.
• 2012-11-24: Basic ideas/architecture starting to get put together.

Architecture Overview

• MECL-based (tentatively 10KH levels/speeds)
• 25MHz main clock
• 8-bit data width
• 24-bit physical address, 16-bit virtual address
• DMA support (at least for front panel, maybe one other DMA channel?)
• Microcoded, running control store in SRAM for speed
  • Unless I can find equally-fast EPROMs
  • Copied to SRAM from EPROM before the system releases reset on powerup

Memory Map

• 24bit / 16MB address space
• 14MB for RAM, 1MB for ROM, 1MB for memory-mapped devices
• 0x000000 - 0xEFFFFF - ROM
• 0x100000 - 0x0FFFFF - RAM
• 0x200000 - 0x1FFFFF - RAM
• 0x300000 - 0x2FFFFF - RAM
• 0x400000 - 0x3FFFFF - RAM
• 0x500000 - 0x4FFFFF - RAM
• 0x600000 - 0x5FFFFF - RAM
• 0x700000 - 0x6FFFFF - RAM
• 0x800000 - 0x7FFFFF - RAM
• 0x900000 - 0x8FFFFF - RAM
• 0xA00000 - 0x9FFFFF - RAM
• 0xB00000 - 0xAFFFFF - RAM
• 0xC00000 - 0xBFFFFF - RAM
• 0xD00000 - 0xCFFFFF - RAM
• 0xE00000 - 0xDFFFFF - RAM
• 0xF00000 - 0xFFFFFF - Devices

Microcode Layout