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자기 복제 생산 Self-reproduction : Exploring complexity and scalability in future fabrication

자기 복제 생산 Self-reproduction : Exploring complexity and scalability in future fabrication. 전기민 Molecular Machines, MIT Media Lab. 무어 ( Moore ) 의 법칙. 제 2. 미세 가공 공정 : 물리적 한계를 넘는 생산기술 추가 (redundant) 에너지 : 불확정성 (undertainty) 극복. G. Moore, Electronics, 1965 www.intel.com

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자기 복제 생산 Self-reproduction : Exploring complexity and scalability in future fabrication

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  1. 자기 복제 생산Self-reproduction : Exploring complexity and scalability in future fabrication 전기민 Molecular Machines, MIT Media Lab

  2. 무어(Moore)의 법칙 제 2 미세 가공 공정 : 물리적 한계를 넘는 생산기술 추가(redundant) 에너지 : 불확정성(undertainty) 극복 G. Moore, Electronics, 1965 www.intel.com http://www.solid-state.com/display_article/180774/5/none/none/Feat/Using-learning-curve-theory-to-redefine-Moore%27s-Law

  3. 에러 교정을 이용한 DNA복제 PCR : 빠른 속도로 DNA 복제 Error correction : 에러를 교정하는 단백질 P. Carr et al., NAR 2004

  4. 자기 복제? • J. von Neumann’s sketch J. von Neumann, Theory of self-reproducing automata, 1966

  5. 자기 복제 구현 : 일상 크기 • 상대를 인지하는 조각들 S. Griffith, D. Goldwater and J. Jacobson, Nature, 2005

  6. 자기 복제 구현 : 분자크기에서? • 화학적 친화도 이용 D. Mosley et al., JACS, 2003, D. Mosley, Ph.D. thesis, 2005

  7. 나노/마이크로 크기의 템플릿 • 정보의 물리적 각인 : • Programming Bits and Atoms 2um 5um K. Jun, J. Joo and J. Jacobson, JVST B, submitted

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