Support

Support Options

Submit a Support Ticket

 

ECE 595E Numerical Simulations for Energy Applications

By Peter Bermel

Electrical and Computer Engineering, Purdue University, West Lafayette, IN

See also

No results found.

Category

Courses

Published on

Cite this work

Researchers should cite this work as follows:

  • Peter Bermel (2013), "ECE 595E Numerical Simulations for Energy Applications," http://nanohub.org/resources/16570.

    BibTex | EndNote

Time

Location

EE 226, Purdue University, West Lafayette, IN

Tags

Lecture Number/Topic Online Lecture Video Lecture Notes Supplemental Material Suggested Exercises
ECE 595E Lecture 1: Introduction to Numerical Simulations View HTML
View Notes
ECE 595E Lecture 2: Problems in Numerical Computing View HTML
View Notes
ECE 595E Lecture 3: Computability View HTML
View Notes
ECE 595E Lecture 4: NP-hardness View HTML
View Notes
ECE 595E Lecture 5: Linear Algebra View HTML
View Notes
ECE 595E Lecture 6: Finding Special Values View HTML
View ECE 595E Lecture 6: Finding Special Values
ECE 595E Lecture 7: Optimization and Eigenvalues View HTML
View ECE 595E Lecture 7: Optimization and Eigenvalues
ECE 595E Lecture 8: Eigenvalues View HTML
View ECE 595E Lecture 8: Eigenvalues
ECE 595E Lecture 9: Programming for Linear Algebra View HTML
View Notes
ECE 595E Lecture 10: Solving Quantum Wavefunctions View HTML
View Notes
ECE 595E Lecture 11: Fast Fourier Transforms View HTML
View Notes
ECE 595E Lecture 12: Applications of FFT View HTML
View Notes
ECE 595E Lecture 13: Programming with FFTW View HTML
View Notes
ECE 595E Lecture 14: Beam Propagation Method I View HTML
View Notes
ECE 595E Lecture 15: Beam Propagation Method II View HTML
View Notes
ECE 595E Lecture 16: Applications of the Beam Propagation Method I View HTML
View Notes
ECE 595E Lecture 17: Applications of the Beam Propagation Method II View HTML
View Notes
ECE 595E Lecture 18: FEM for Thermal Transport View HTML
View Notes
ECE 595E Lecture 19: FEM for Electronic Transport View HTML
View Notes
ECE 595E Lecture 20: Bandstructure Concepts View HTML
View Notes
ECE 595E Lecture 21: 3D Bandstructures View HTML
View Notes
ECE 595E Lecture 22: Full 3D Bandgaps View HTML
View Notes
ECE 595E Lecture 23: Electronic Bandstructures View HTML
View Notes
ECE 595E Lecture 24: Electronic Bandstructure Simulation Tools View HTML
View Notes
ECE 595E Lecture 25: Further Bandstructure Simulation Tools View HTML
View Notes
ECE 595E Lecture 26: Overview of Transfer Matrix Methods View HTML
View Notes
ECE 595E Lecture 27: S-Matrix Methods View HTML
View Notes
ECE 595E Lecture 28: S-Matrix Computations View HTML
View Notes
ECE 595E Lecture 29: Eigenmode Layered Computations (CAMFR) View HTML
View Notes
ECE 595E Lecture 30: Applications of CAMFR View HTML
View Notes
ECE 595E Lecture 31: Coupled Mode Theory Simulation (CMT) View HTML
View Notes
ECE 595E Lecture 32: Simulations of Coupled Mode Theory Simulation (CMT) View HTML
View Notes
ECE 595E Lecture 33: Introduction to Finite-Difference Time-Domain Simulations View HTML
View Notes
ECE 595E Lecture 34: Applications of Finite-Difference Time-Domain Simulations View HTML
View Notes
ECE 595E Lecture 35: MEEP Tutorial I View HTML
View Notes
ECE 595E Lecture 36: MEEP Tutorial II View HTML
View Notes

nanoHUB.org, a resource for nanoscience and nanotechnology, is supported by the National Science Foundation and other funding agencies. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.