FNPS Society

Main Menu

  • Home
  • Amalgamation
  • Terms of trade
  • Monotonic
  • G-8
  • Financial Affairs

FNPS Society

Header Banner

FNPS Society

  • Home
  • Amalgamation
  • Terms of trade
  • Monotonic
  • G-8
  • Financial Affairs
Monotonic
Home›Monotonic›Decision trees within a molecular memristor

Decision trees within a molecular memristor

By Richard Lyons
September 1, 2021
44
0
  • 1.

    Park, H.-J. & Friston, K. Structural and Functional Brain Networks: Connections to Cognition. Science 342, 1238411 (2013).

    Google Scholar article

  • 2.

    Eliasmith, C. et al. A large-scale model of how the brain works. Science 338, 1202-1205 (2012).

    ADS CAS Google Scholar Article

  • 3.

    Bassett, DS & Sporns, O. Network Neuroscience. Nat. Neurosks. 20, 353-364 (2017).

    Google Scholar CAS Article

  • 4.

    Watts, DJ & Strogatz, SH Collective dynamics of “small world” networks. Nature 393, 440-442 (1998).

    ADS CAS Google Scholar Article

  • 5.

    Braun, U. et al. Dynamic reconfiguration of frontal brain networks during executive cognition in humans. Proc. Natl Acad. Sci. United States 112, 11678-11683 (2015).

    ADS CAS Google Scholar Article

  • 6.

    Huang, Z., Zhang, J., Wu, J., Mashour, GA & Hudetz, AG The temporal circuit of large-scale dynamic brain activity supports human consciousness. Sci. Av. 6, eaaz0087 (2020).

    Google Scholar ADS Article

  • 7.

    Take it to the edge. Nat. Electron. 2, 1 (2019).

  • 8.

    Vaughan, O. Working on the edge. Nat. Electron. 2, 2-3 (2019).

    Google Scholar article

  • 9.

    Topol, EJ High performance medicine: the convergence of human and artificial intelligence. Nat. Med. 25, 44-56 (2019).

    Google Scholar CAS Article

  • ten.

    Shannon, C. A symbolic analysis of relay and switching circuits. Master’s thesis, MIT (1940).

  • 11.

    Goswami, S. et al. Robust resistive memory devices using metal-coordinated azo aromatics that can be processed in solution. Nat. Mater. 16, 1216-1224 (2017); erratum 17, 103 (2018) 0.

    ADS CAS Google Scholar Article

  • 12.

    Goswami, S., Thompson, D., Williams, RS, Goswami, S. & Venkatesan, T. Colossal tuning of current and voltage in an organic memristor via electrode engineering. Appl. Mater. Today 19, 100626 (2020).

    Google Scholar article

  • 13.

    Goswami, S. et al. Disproportionate molecular redox charge for discrete memristive and memcapacitive switching. Nat. Nanotechnology. 15, 380-389 (2020).

    ADS CAS Google Scholar Article

  • 14.

    Goswami, S., Goswami, S. & Venkatesan, T. An organic approach to low-energy memory and brain-inspired electronics. Appl. Phys. Tower. 7, 021303 (2020).

    ADS CAS Google Scholar Article

  • 15.

    Goswami, S. et al. Nanoscale uniform conductance switching in molecular memristors. Av. Mater. 32, 2004370 (2020).

    Google Scholar CAS Article

  • 16.

    Goswami, S. Resistive memories using metal-azo aromatics. doctorate thesis, Univ. Singapore (2018).

  • 17.

    Baldwin, DA, Lever, AB & Parish, RV 2,2′-Azopyridine complexes with iron (II), cobalt (II), nickel (II), copper (I) and copper (II). Infrared study. Inorg. Chem. 8, 107–115 (1969).

    Google Scholar CAS Article

  • 18.

    Nagai, K. & Kitagawa, T. Differences in Fe (II) -N epsilon (His-F8) stretch frequencies between deoxyhemoglobins in the two alternate quaternary structures. Proc. Natl Acad. Sci. United States 77, 2033-2037 (1980).

    ADS CAS Google Scholar Article

  • 19.

    Benko, B. & Yu, N.-T. Raman resonance studies of the binding of nitric oxide to ferric and ferrous hemoproteins: detection of Fe (III) –NO stretch, Fe (III) –N – O bending and Fe (II) bending vibrations –N – W. Proc. Natl Acad. Sci. United States 80, 7042-7046 (1983).

    ADS CAS Google Scholar Article

  • 20.

    Miller, JS & Min, KS Oxidation leading to reduction: redox induced electron transfer (RIET). Angew. Chem. Int. Edn 48, 262-272 (2009).

    Google Scholar CAS Article

  • 21.

    Sengupta, D. et al. Size selective Pt siderophores based on redox active azoaromatic ligands. Chem. Sci. 11, 9226-9236 (2020).

    Google Scholar CAS Article

  • 22.

    Gass, IA et al. Anion dependent redox changes in bis-terdentate iron nitroxide {NNO} chelates. Inorg. Chem. 50, 3052-3064 (2011).

    Google Scholar CAS Article

  • 23.

    Winkler, C. et al. Understanding the correlation between electronic coupling and energy stability of molecular crystalline polymorphs: the instructive case of quinacridone. Chem. Mater. 31, 7054-7069 (2019).

    Google Scholar CAS Article

  • 24.

    Baldoni, M., Lorenzoni, A., Pecchia, A. & Mercuri, F. Spatial and orientational dependence of electron transfer parameters in aggregates of iridium-containing host materials for OLEDs: functional theory coupling of constrained density with molecular dynamics. Phys. Chem. Chem. Phys. 20, 28393-28399 (2018).

    Google Scholar CAS Article

  • 25.

    Knuth, FROM The art of computer programming Flight. 3 (Pearson Education, 1997).

  • 26.

    Loh, WY Classification and Regression Trees. Wiley Interdiscip. Rev. Data Min. Know. Discover 1, 14-23 (2011).

    Google Scholar article

  • 27.

    Altman, N. & Krzywinski, M. Ensemble methods: bagging and random forests. Nat. Methods 14, 933-934 (2017).

    Google Scholar CAS Article

  • 28.

    Libbrecht, MW & Noble, WS Machine learning applications in genetics and genomics. Nat. the Reverend Genet. 16, 321-332 (2015).

    Google Scholar CAS Article

  • 29.

    Choi, MY & Ma, C. Make a big impact with small datasets using machine learning approaches. Lancet Rheumatol. 2, e451 – e452 (2020).

    Google Scholar article

  • 30.

    Rani, P., Sarkar, N. & Liu, C. Maintaining Optimal Challenge in Computer Games Through Real-Time Physiological Feedback. In Foundations of augmented cognition (ed. Schmorrow, DD) 184 (Taylor & Francis, 2005).

  • 31.

    Borghetti, J. et al. “Memristive” switches allow “stateful” logic operations via hardware implication. Nature 464, 873-876 (2010).

    ADS CAS Google Scholar Article

  • 32.

    Wang, Z. et al. Resistive switching materials for information processing. Nat. Reverend Mater. 5, 173-195 (2020).

    ADS CAS Google Scholar Article

  • 33.

    Sebastian, A., Le Gallo, M., Khaddam-Aljameh, R. & Eleftheriou, E. Memory devices and applications for in-memory computing. Nat. Nanotechnology. 15, 529-544 (2020); correction 15, 812 (2020).

    ADS CAS Google Scholar Article

  • 34.

    Gidon, A. et al. Dendritic action potentials and calculus in cortical neurons of human 2/3 layers. Science 367, 83-87 (2020).

    ADS CAS Google Scholar Article

  • 35.

    Kim, KM & Williams, RS A family of stateful memristor gates for full cascade logic. IEEE Trans. Circuit system i 66, 4348-4355 (2019).

    MathSciNet Google Scholar article

  • 36.

    Kim, YS et al. Logic system in stateful memory and its practical implementation in a TaOX-Bipolar type memristive crossbar network. Av. Inform. Syst. 2, 1900156 (2020).

    Google Scholar article

  • 37.

    Shen, W. et al. Stateful logic operations in a resistive one transistor and one resistor random access memory array. IEEE Electron Device Lett. 40, 1538-1541 (2019).

    ADS CAS Google Scholar Article

  • 38.

    Xu, N. et al. A family of stateful logic based on a new logic primitive circuit composed of two bipolar antiparallel memristors. Av. Inform. Syst. 2, 190082 (2020).

    Google Scholar article

  • 39.

    Li, C. et al. Analogue memories with addressable content with memristors. Nat. Common. 11, 1–8 (2020).

    Google Scholar ADS

  • 40.

    Kim, YS, Son, MW & Kim, KM Logic with memristive state for Boolean edge computers. Av. Inform. Syst. 3, 2000278 (2021).

    Google Scholar article

  • 41.

    Du Nguyen, HA et al. in Proc. 2015 IEEE / ACM Int. Nice. on nanoscale architectures (NANOARCH´ 15) 57–62 (IEEE).

  • 42.

    Du Nguyen, HA et al. On the implementation of the in-memory calculation parallel adder. IEEE Trans. Integr. on a very large scale. (VLSI) Syst. 25, 2206–2219 (2017).

    Google Scholar article

  • 43.

    Yu, J., Lebdeh, MA, Du Nguyen, HA, Taouil, M. & Hamdioui, S. in Proc. 2020 25th Asia and South Pacific Design Automation Conference. (ASP-DAC) 385-392 (IEEE) (2020).

  • 44.

    Du Nguyen, HA et al. in Proc. 2017 IFIP / IEEE Int. Conf. on very large scale integration (VLSI-SoC) 1-10 (IEEE) (2017).

  • Related posts:

    1. Partnership between NCDOT and NCSU on the Bonner Bridge research project
    2. Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Seroprevalence: Navigating the Absence of the Gold Standard
    3. ABB introduces the first rectifier specially designed for medical applications
    4. “We’ve been waiting for you, Mr. Bond” – These are the 5 best James Bond villains
    Tagsunited states

    Categories

    • Amalgamation
    • Financial Affairs
    • G-8
    • Monotonic
    • Terms of trade
    • TERMS AND CONDITIONS
    • PRIVACY AND POLICY