English

Simulation of highly idealized, atomic scale MQCA logic circuits

Mesoscale and Nanoscale Physics 2007-11-15 v1 Strongly Correlated Electrons
Authors: Dmitri E. Nikonov , George I. Bourianoff , Paolo A. Gargini
View on arXiv PDF

Abstract

Spintronics logic devices based on majority gates formed by atomic-level arrangements of spins in the crystal lattice is considered. The dynamics of switching is modeled by time-dependent solution of the density-matrix equation with relaxation. The devices are shown to satisfy requirements for logic. Switching speed and dissipated energy are calculated and compared with electronic transistors. The simulations show that for the highly idealized case assumed here, it is possible to trade off size for speed and achieve lower power operation than ultimately scaled CMOS devices.

Keywords

neuromorphic computing quantum spin systems lattice gauge theory

Cite

@article{arxiv.0711.2246,
  title  = {Simulation of highly idealized, atomic scale MQCA logic circuits},
  author = {Dmitri E. Nikonov and George I. Bourianoff and Paolo A. Gargini},
  journal= {arXiv preprint arXiv:0711.2246},
  year   = {2007}
}

Comments

34 pages, 12 figures

Related papers

View all related →
Emerging Technologies · Computer Science
Hybrid CMOS-MQCA Logic Architectures using Multi-Layer Spintronic Devices
Jayita Das, Syed M. Alam, Srinath Rajaram, Sanjukta Bhanja
2012-03-20
Mesoscale and Nanoscale Physics · Physics
When it comes to spintronics, there may be some room in the middle
S. Bandyopadhyay
2007-05-23
Mesoscale and Nanoscale Physics · Physics
First experimental demonstration of a scalable linear majority gate based on spin waves
Florin Ciubotaru, Giacomo Talmelli, Thibaut Devolder, Odysseas Zografos +3
2021-06-22
Applied Physics · Physics
Clocked Magnetostriction-Assisted Spintronic Device Design and Simulation
Rouhollah Mousavi Iraei, Nickvash Kani, Sourav Dutta, Dmitri E. Nikonov +4
2018-05-09
Mesoscale and Nanoscale Physics · Physics
Proposal of a spin torque majority gate logic
Dmitri E. Nikonov, George I. Bourianoff, Tahir Ghani
2015-05-19
Mesoscale and Nanoscale Physics · Physics
Computing with spins and magnets
Behtash Behin-Aein, Jian-Ping Wang, Roland Wiesendanger
2014-11-26
Mesoscale and Nanoscale Physics · Physics
Power dissipation in spintronic devices: A general perspective
Supriyo Bandyopadhyay
2012-10-16
Mesoscale and Nanoscale Physics · Physics
Power dissipation in spintronic devices out of thermodynamic equilibrium
Dmitri E. Nikonov, George I. Bourianoff, Paolo Gargini
2007-05-23
Quantum Physics · Physics
Recipes for the Digital Quantum Simulation of Lattice Spin Systems
Guido Burkard
2025-03-12
Mesoscale and Nanoscale Physics · Physics
Physics-Based Models for Magneto-Electric Spin-Orbit Logic Circuits
Hai Li, Dmitri E. Nikonov, Chia-Ching Lin, Kerem Camsari +4
2022-01-21
Mesoscale and Nanoscale Physics · Physics
Tailoring potentials by simulation-aided design of gate layouts for spin qubit applications
Inga Seidler, Malte Neul, Eugen Kammerloher, Matthias Künne +8
2023-10-27
Emerging Technologies · Computer Science
Spintronic logic: from transducers to logic gates and circuits
Christoph Adelmann, Florin Ciubotaru, Fanfan Meng, Sorin Cotofana +1
2024-01-19
Quantum Gases · Physics
Spin-dependent Optical Superlattice
Bing Yang, Han-Ning Dai, Hui Sun, Andreas Reingruber +2
2017-08-25
Computational Physics · Physics
Simulating Lattice Spin Models on Graphics Processing Units
Tal Levy, Guy Cohen, Eran Rabani
2012-09-13
Quantum Physics · Physics
Tailoring nuclear spins order with defects: a Quantum Technology CAD study
Gaetano Calogero, Ioannis Deretzis, Giuseppe Fisicaro, Damiano Ricciarelli +2
2025-06-13
Mesoscale and Nanoscale Physics · Physics
Spin-Orbit Logic with Magnetoelectric Nodes: A Scalable Charge Mediated Nonvolatile Spintronic Logic
Sasikanth Manipatruni, Dmitri E. Nikonov, Ramamoorthy Ramesh, Huichu Li +1
2017-03-07
Quantum Physics · Physics
Scaling advantage in quantum simulation of geometrically frustrated magnets
Andrew D. King, Jack Raymond, Trevor Lanting, Sergei V. Isakov +50
2021-02-23
Materials Science · Physics
Coupling of Length Scales and Atomistic Simulation of MEMS Resonators
Robert E. Rudd, Jeremy Q. Broughton
2015-06-25
Mesoscale and Nanoscale Physics · Physics
Switching energy-delay of all-spin logic devices
Behtash Behin-Aein, Angik Sarkar, Srikant Srinivasan, Supriyo Datta
2011-03-30
Materials Science · Physics
How accurate are simulations and experiments for the lattice energies of molecular crystals?
Flaviano Della Pia, Andrea Zen, Dario Alfè, Angelos Michaelides
2025-01-08
Mesoscale and Nanoscale Physics · Physics
Stability of spintronic devices based on quantum ring networks
Peter Foldi, Orsolya Kalman, F. M. Peeters
2015-05-13
Quantum Physics · Physics
Simulating the Hamiltonian of Dimer Atomic Spin Model of One Dimensional Optical Lattice on Quantum Computers
Sudev Pradhan, Amlandeep Nayak, Sritam Kumar Satpathy, Tanmaya Shree Behera +3
2022-01-06
Statistical Mechanics · Physics
Observing a Phase Transition in a Coherent Ising Machine
Hiroki Takesue, Yasuhiro Yamada, Kensuke Inaba, Takuya Ikuta +7
2023-03-03
Quantum Physics · Physics
Emulating quantum state transfer through a spin-1 chain on a 1D lattice of superconducting qutrits
Joydip Ghosh
2014-12-11
Quantum Physics · Physics
Programmable Quantum Simulations of Spin Systems with Trapped Ions
C. Monroe, W. C. Campbell, L. -M. Duan, Z. -X. Gong +9
2021-04-14
R2 v1 2026-06-21T09:43:26.287Z