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ReMOS Technology and the Mighty Morphin Microprocessor

This paper explores the groundbreaking advancements in ReMOS technology and the Mighty Morphin Microprocessor, developed at UC San Diego. The research highlights the application of "Fractal Fabrication" techniques and the Serpinski Transistor structure that enhances performance while ensuring safety in mission-critical applications. With a focus on nested logic and fractally-structured clocking approaches, we present working prototypes demonstrating impressive clock speeds and efficient processing for both critical and non-critical tasks.

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ReMOS Technology and the Mighty Morphin Microprocessor

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  1. ReMOS Technology and the Mighty Morphin Microprocessor Nathan Goulding ngouldin@ucsd.edu GopiTummala Emmett McQuinn Steven Swanson University of California, San Diego WACI 2010

  2. Is there a better solution? SAFE FAST

  3. ReMOS ReMOS MOS P P P P N N N N P N P N P N "Fractal Fabrication" "Serpinski Transistor"

  4. Nested Logic

  5. Mighty Morphin Microprocessors! SAFE FAST

  6. Safety Switch • SAFE • Mission-critical code • FAST • Non-critical processing

  7. In Progress: WACI 2011 • ReWire: wires nested inside wires Working Proto!

  8. WACI 2011: ReClocking! 27 MHz 500 MHz 500 Working Proto! A fractally-structured clocking discipline

  9. Acknowledgements Michael B. Taylor UCSD

  10. ReMOS Technology and the Mighty Morphin Microprocessor Nathan Goulding ngouldin@ucsd.edu GopiTummala Emmett McQuinn Steven Swanson University of California, San Diego WACI 2010

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