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Understanding Bistable Bit Representation and Logic Gates for Sequential Computation

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Learn about dual-rail encoding, AND, OR, XOR gates, D Latch, D Flip Flop, memory implementation, sustained oscillations, and more. Explore transfer concentrations in red, green, and blue phases in a 3-bit counter and linear feedback shift register example.

Understanding Bistable Bit Representation and Logic Gates for Sequential Computation

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Presentation Transcript

Bistable Bit Representation(dual-rail encoding)
AND Gate Outputting 0 Outputting 1
OR Gate Outputting1 Outputting 0
XOR Gate Outputting 1 Outputting 0
Logic Gates
D Latch Adding control reactions
Synchronous Sequential Computation
Sustained Oscillations Transfer concentrations in alternating phases:red, green and blue.
First Attempt… R, G, and B converge!
Clock
Implementing D Flip Flop Master-slave configuration
Implementing Memory D1’ D1 D2’ D2 Blue phase: Red phase:
Example: 3-Bit Counter
Example: Linear Feedback Shift Register

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