Starter Codes for Purdue-P Coprocessor
Downloads | 27 Apr 2020 | Contributor(s): Lakshmi Anirudh Ghantasala, Brian Sutton, Kerem Yunus Camsari, Risi Kumar Jaiswal, Supriyo Datta
Included are MATLAB codes that run sample problems on the All-to-all, Nearest Neighbor, and Quantum Annealing topologies on the Purdue-P Coprocessor. Supporting image files are also included.
MATLAB codes from "Nanoscale device modeling: the Green's function method"
Downloads | 10 Oct 2013 | Contributor(s): Supriyo Datta
The MATLAB programs used to generate the figures in the article that appeared in Superlattices and Microstructures, vol.28, p.253 (2000).
Modular Spintronics Library
Downloads | 09 May 2013 | Contributor(s): Kerem Yunus Camsari, Samiran Ganguly, Shehrin Sayed, Supriyo Datta
A library of elemental spintronic modules in three langauages, MATLAB, SPICE, Verilog-A. These modules: Have been carefully benchmarked against available theoretical simulations and/or experimental data. Represent a multiphysics framework incorporating a wide range of physical models such as NEGF...
MATLAB codes from the "Lessons from Nanoelectronics"
Downloads | 10 Dec 2015 | Contributor(s): Supriyo Datta
The .zip archive contains all the codes from the book.You can download and unzip the file to access the codes organized in folders (titled by the Lecture number).You can run this on MATLAB or use the OCTAViEw tool on nanoHUB.
Inelastic Scattering in NEGF: Matlab Implementation and Exercises
Downloads | 02 Jan 2011 | Contributor(s): Samiran Ganguly, Supriyo Datta
A set of Matlab scripts has been developed illustrating the treatment of inelastic scattering in non-equilibrium Greens function (NEGF) based quantum transport models. The first script highlights the core principles using a simple conductor described by a (2x2) Hamiltonian matrix, while the...
MATLAB Scripts for "Quantum Transport: Atom to Transistor"
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Downloads | 15 Mar 2005 | Contributor(s): Supriyo Datta
Tinker with quantum transport models! Download the MATLAB scripts used to demonstrate the physics described in Supriyo Datta's book Quantum Transport: Atom to Transistor. These simple models are less than a page of code, and yet they reproduce much of the fundamental physics observed in...