This computer is 8-bit with 8 bytes of memory. It has a program counter, instruction register, data register, full adder, accumulator, address register and relevant decoders. It also has a 7 segment display and converts binary in binary coded decimal using the double dabble algorithm. This video shows it during it's processing of a program I coded for it that calculates the Fibonacci sequence. The clock timings are triggered by a minecart going over detector rails. I am a teacher working in Victoria Australia and I'm using Minecraft Education to teach problem based learning, computational thinking and design thinking.
This computer is 8-bit with 8 bytes of memory. It has a program counter, instruction register, data register, full adder, accumulator, address register and relevant decoders. It also has a 7 segment display and converts binary in binary coded decimal using the double dabble algorithm. This video shows it during it's processing of a program I coded for it that calculates the Fibonacci sequence. The clock timings are triggered by a minecart going over detector rails. I am a teacher working in Victoria Australia and I'm using Minecraft Education to teach problem based learning, computational thinking and design thinking.