Computing at thermodynamic limit M LopezSuarez I Neri
- Slides: 17
Computing at thermodynamic limit M. Lopez-Suarez, I. Neri and L. Gammaitoni ICT – Energy Science Conference 2016 Energy efficiency and sustainability in ICT Aalborg, Aug 16 - 19
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Borkar, Shekhar. "Electronics beyond nano-scale CMOS. " Proceedings of the 43 rd annual Design Automation Conference. ACM, 2006. Computing at thermodynamic limit 2
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Computer + 2 nd law z. J @T=300 K - Write a bit of information Sequential device Computing at thermodynamic limit 3
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Bérut, A. , Arakelyan, A. , Petrosyan, A. , Ciliberto, S. , Dillenschneider, R. , & Lutz, E. (2012). Experimental verification of Landauer's principle linking information and thermodynamics. Nature, 483(7388), 187 -189. Computing at thermodynamic limit 4
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Bérut, A. , Arakelyan, A. , Petrosyan, A. , Ciliberto, S. , Dillenschneider, R. , & Lutz, E. (2012). Experimental verification of Landauer's principle linking information and thermodynamics. Nature, 483(7388), 187 -189. Computing at thermodynamic limit 5
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Teff=107 K (1000 x. Tsun) Computing at thermodynamic limit 6
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni *Under consideration for publishing, Scientific Reports Computing at thermodynamic limit 7
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni *Under consideration for publishing, Scientific Reports Computing at thermodynamic limit 8
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni nf < ni then Q<Q(ni, nf) Information is physical - Dissipation is intrinsic to all logical irreversible operations I 1 I 2 Out OR gate 0 0 1 1 1 0 1 1 Computing at thermodynamic limit 9
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni OR gate Combinatonial device Computing at thermodynamic limit 10
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni W 0 Computing at thermodynamic limit W 1 11
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Computing at thermodynamic limit 12
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Computing at thermodynamic limit 13
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Computing at thermodynamic limit 14
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Computing at thermodynamic limit 15
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Computing at thermodynamic limit 16
Computing at thermodynamic limit M. López-Suárez; I. Neri; L. Gammaitoni Thanks for your attention Computing at thermodynamic limit 17
- Upper specification limit and lower specification limit
- Pengertian limit
- If lclp is negative number, we set the lclp = 0. why?
- Robert neri
- Pietra corva
- Charles neri
- Antonio neri
- Ic losapio san filippo neri
- Neri santos atividades educativas
- Ic losapio san filippo neri
- Atividades educativas neri santos
- Alberi rosso neri
- Pallini neri
- Dante guelfi bianchi o neri
- Conventional computing and intelligent computing
- Thermodynamic vs kinetic control
- Thermodynamic process
- Thermodynamics intensive and extensive properties