Cai W. Nonlinear dynamics in memristive systems: Diss. … Dr.-Ing. / Technische Universität Dresden. - Dresden: Vogt, 2012. - 139 p.: ill. - (Informationstechnik). - Ref.: p.121-126. - ISBN 978-3-938860-45-8  Место хранения:   017 | Институт автоматики и электрометрии CO РАН | Новосибирск | Библиотека

Оглавление / Contents

1 Introduction .................................................. 1 2 General Dynamics: Mathematical Structures ..................... 5 2.1 The Postulation and its Foundation in Electromagnetic Field Theory ............................................. 5 2.2 Homogeneous and Heterogeneous Passive Memory Systems .... 11 2.3 The Titanium Dioxide Memristor .......................... 23 2.4 More Uniqueness: Coupling and Memristive Telegraph Equations ............................................... 27 3 Integrable Structure: Abel Dynamics and CCOS Method .......... 35 3.1 Integrable Structure I: Bernoulli Dynamics .............. 36 3.2 Integrable Structure II: Abel Dynamics .................. 38 3.3 Comparison of the Two Dynamics .......................... 43 3.4 Characterization: The Characteristic Curve of State (CCOS) Method ........................................... 47 4 Spintronic Memristive Systems ................................ 51 4.1 Spintronics and Memristors .............................. 52 4.2 Feedback Spin-Valve Memristive Structure: GMR and Classical Hall Effect ................................... 58 4.3 The Dynamics of the Spin-Valve Memristive System ........ 62 4.4 Stability Analysis I: Lyapunov Stability and Poincare Map ..................................................... 66 4.5 Stability Analysis II: Spin-Valve System ................ 71 4.6 Remarks: Analogy and Heterogeneous Structure ............ 75 4.7 Categorization: Abel Dynamics Readdressed ............... 76 5 Memristive Neuromorphic Systems .............................. 79 5.1 Neuronal Communication: Spike-Timing-Dependent- Plasticity (STDP) ....................................... 81 5.2 Triplet Rule in STDP .................................... 86 5.3 Pair-Based Memristive STDP Model: Spike-Shape and Thresholds .............................................. 88 5.4 Incompatibility with Triplet Rule ....................... 91 5.5 Memristive STDP Model Compatible with Triplet Rule ...... 94 5.6 Relation to Biological Quantities: Short-Term Plasticity ............................................. 100 6 Applications ................................................ 103 6.1 Digital: Nonvolatile Memory, Stateful Logic and More ................................................... 103 6.2 Analogue: Neuromorphic Circuits, Programmable Analog Circuits and More ...................................... 109 7 Summary and Perspective ..................................... 117 References ..................................................... 121 List of Abbreviations .......................................... 127 List of Figures ................................................ 129 Main Contribution of the Author ................................ 135 Curriculum Vitae ............................................... 137 Acknowledgement ................................................ 139