Resources (41-60 of 244)

1. Computational Nanoscience, Lecture 7: Monte Carlo Simulation Part I

   out of 5 stars 

   15 Feb 2008 | | Contributor(s):: Jeffrey C Grossman, Elif Ertekin

   The purpose of this lecture is to introduce Monte Carlo methods as a form of stochastic simulation. Some introductory examples of Monte Carlo methods are given, and a basic introduction to relevant concepts in statistical mechanics is presented. Students will be introduced to the Metropolis...

2. Computer in Science Engineering: featuring nanoHUB.org

   out of 5 stars 

   22 Apr 2010 |

   The current issue of Computing in Science and Engineering focuses on cyber-enabled nanotechnology, and nanoHUB.org is featured extensively throughout.

3. Crystal Viewer 2.0

   out of 5 stars 

   12 Nov 2013 | | Contributor(s):: Kevin Margatan

   nanoHUB is an online compilation of tools for simulations. Equipped with 3-D simulations and a capability to solve very complex calculations, nanoHUB provides its users worldwide with various tools to help them finish their assignments. One of the tools available is called a Crystal Viewer Tool,...

4. Cyber Infrastructure Days at Purdue University

   out of 5 stars 

   31 Jan 2011 |

   Purdue CI Days 2010 showcases technologies to enhance research, teaching and research funding. The program focus is on how just about any faculty member, research staffer, or graduate student can benefit from these technologies.

5. Designing Machine Learning Surrogates for Molecular Dynamics Simulations

   25 Nov 2021 | | Contributor(s):: JCS Kadupitiya

   Molecular dynamics (MD) simulations accelerated by high-performance computing (HPC) methods are powerful tools for investigating and extracting the microscopic mechanisms characterizing the properties of soft materials such as self-assembled nanoparticles, virus capsids, confined electrolytes,...

6. Digital Manufacturing

   07 Jun 2019 | | Contributor(s):: Jian Cao

   This lecture focuses on the future of manufacturing, envisioned to be a mixture of customized manufacturing and concentrated manufacturing.

7. Dislocation Structure and Propagation with Molecular Dynamics

   20 Feb 2019 | | Contributor(s):: Sam Reeve, Alejandro Strachan

   In this computational lab you will learn about dislocations via online molecular dynamics (MD) simulations using nanoHUB. The simulations involve various types of dislocations in FCC and BCC crystals.

8. Don't Try These in the Real World

   18 Jun 2012 | | Contributor(s):: Lee W. Schruben

   Simulation models provide virtually unlimited power; or rather, they provide unlimited virtual power. If you can think of something, you can simulate it. Experimenting in a simulated world, you can change anything, in any way, at any time - even change time itself. Simulators are gods, ruling in...

9. DSMC 0D Equilibrium

   24 Jul 2013 | | Contributor(s):: Austin Iglesias Saragih, Devon Parkos, Alina Alexeenko

   This tool uses DSMC to simulate dilute gas in approach to equilibrium (0-Dimensional)

10. DSMC 1D Planar Couette Flow

    25 Jul 2013 | | Contributor(s):: Austin Iglesias Saragih, Devon Parkos, Alina Alexeenko

    This tool uses DSMC to simulate dilute gas in a planar couette flow (1-Dimensional)

11. Ductile and Brittle Failure in Metals with Molecular Dynamics

    20 Feb 2019 | | Contributor(s):: Sam Reeve, Alejandro Strachan

    In this computational lab you will perform online molecular dynamics (MD) simulations of nanoscale cracks under uniaxial tension through nanoHUB. Simulations with varying temperature and crystal structure will provide information to: Distinguish the atomistic mechanisms of ductile and...

12. ECE 595E Lecture 10: Solving Quantum Wavefunctions

    01 Feb 2013 | | Contributor(s):: Peter Bermel

    Outline:Recap from MondaySchrodinger’s equationInfinite & Finite Quantum WellsKronig-Penney modelNumerical solutions:Real spaceFourier space

13. ECE 595E Lecture 11: Fast Fourier Transforms

    08 Feb 2013 | | Contributor(s):: Peter Bermel

    Outline:Recap from WednesdayFourier AnalysisScalings and SymmetriesSampling TheoremDiscrete Fourier TransformsNaïve approachDanielson-Lanczos lemmaCooley-Tukey algorithmExamples

14. ECE 595E Lecture 12: Applications of FFT

    08 Feb 2013 | | Contributor(s):: Peter Bermel

    Outline:Recap from FridayReal FFTsMultidimensional FFTsApplications:Correlation measurementsFilter diagonalization method

15. ECE 595E Lecture 13: Programming with FFTW

    14 Feb 2013 | | Contributor(s):: Peter Bermel

16. ECE 595E Lecture 14: Beam Propagation Method I

    14 Feb 2013 | | Contributor(s):: Peter Bermel

17. ECE 595E Lecture 15: Beam Propagation Method II

    19 Feb 2013 | | Contributor(s):: Peter Bermel

18. ECE 595E Lecture 16: Applications of the Beam Propagation Method I

    21 Feb 2013 | | Contributor(s):: Peter Bermel

19. ECE 595E Lecture 17: Applications of the Beam Propagation Method II

    01 Mar 2013 | | Contributor(s):: Peter Bermel

20. ECE 595E Lecture 18: FEM for Thermal Transport

    01 Mar 2013 | | Contributor(s):: Peter Bermel

    Outline:Recap from MondayThermal transfer overviewConvectionConductionRadiative transfer