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Bus architecture and how register transfers work - 8 bit register - Part 1
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Classroom Contents
Building an 8-Bit Breadboard Computer
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- 1 8-bit computer update
- 2 Astable 555 timer - 8-bit computer clock - part 1
- 3 Monostable 555 timer - 8-bit computer clock - part 2
- 4 Bistable 555 - 8-bit computer clock - part 3
- 5 Clock logic - 8-bit computer clock - part 4
- 6 SR latch
- 7 D latch
- 8 D flip-flop
- 9 Bus architecture and how register transfers work - 8 bit register - Part 1
- 10 Tri-state logic: Connecting multiple outputs together - 8 bit register - Part 2
- 11 Designing and building a 1-bit register - 8 bit register - Part 3
- 12 Building an 8-bit register - 8-bit register - Part 4
- 13 Testing our computer's registers - 8-bit register - Part 5
- 14 Twos complement: Negative numbers in binary
- 15 ALU Design
- 16 Building the ALU
- 17 Troubleshooting the ALU
- 18 Testing the computer's ALU
- 19 8-bit computer RAM intro
- 20 RAM module build - part 1
- 21 RAM module build - part 2
- 22 RAM module build - part 3
- 23 RAM module testing and troubleshooting
- 24 JK flip-flop
- 25 JK flip-flop racing
- 26 Master-slave JK flip-flop
- 27 Binary counter
- 28 Program counter design
- 29 Program counter build
- 30 Designing a 7-segment hex decoder
- 31 Using an EEPROM to replace combinational logic
- 32 Build an Arduino EEPROM programmer
- 33 Build an 8-bit decimal display for our 8-bit computer
- 34 8-bit computer build: Connecting the bus
- 35 8-bit CPU control signal overview
- 36 8-bit CPU control logic: Part 1
- 37 8-bit CPU control logic: Part 2
- 38 8-bit CPU control logic: Part 3
- 39 8-bit CPU reset circuit and power supply tips
- 40 Reprogramming CPU microcode with an Arduino
- 41 Adding more machine language instructions to the CPU
- 42 Making a computer Turing complete
- 43 CPU flags register
- 44 Conditional jump instructions