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  1. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 11: Transport and Electrokenetics in Nanoscale Fluids

    Online Presentations | 07 Oct 2009 | Contributor(s): Nick Fang, Omar N Sobh

    Transport and Electrokenetics Topics: Back to Constitutive Equations Coupled Heat and Electron Conduction Thermoelectric Cooling New Directions for Nano-Thermoelectricity State-of-the-Art in Thermoelectrics Hornet Skin: A Natural heat Pump Coupled Charge-Mass Transport in Fluid

  2. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 10: Thermal and Electric Conduction in Nanostructures

    Online Presentations | 07 Oct 2009 | Contributor(s): Nick Fang, Omar N Sobh

    Thermal and Electric Conduction in Nanostructures Topics: Back to Constitutive Equations Coupled Heat and Electron Conduction Thermoelectric Cooling Principle of Thermoelectric Effect Comparison of Different Materials Challenges in Efficiency Nanoscale Thermoelectricity

  3. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 9: Thermal and Electric Conduction in Nanostructures

    Online Presentations | 07 Oct 2009 | Contributor(s): Nick Fang, Omar N Sobh

    Thermal and Electric Conduction in Nanostructures Topics: Quantum Fracture Mechanics Magneto-restrictive Effect Shape Memory Effect Thermal Noise in Resonators Back to Constitutive Equations Look Into the Conducting Nanowires Boltzmann Transport Equation

  4. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 8: Basics of Solid Mechanics in Nanostructures

    Online Presentations | 07 Oct 2009 | Contributor(s): Nick Fang, Omar N Sobh

    Basics of Solid Mechanics in Nanostructures Topics: Mechanics at Nanoscale Theoretical Cohesive Strength Defects in Solids Bulk Dislocation Movement Stress Fields Quantum Fracture Mechanics Mechanical Coupling at Nanoscale Shape Memory Effect Mechanical Nanoresonators

  5. ECE 656 Lecture 15: Solving the BTE - General Solution for B = 0

    Online Presentations | 06 Oct 2009 | Contributor(s): Mark Lundstrom

    General solution 2) Current equation 3) Coupled current equations 4) The RTA 5) Summary

  6. ECE 656 Lecture 17: BTE and Landauer

    Online Presentations | 02 Oct 2009 | Contributor(s): Mark Lundstrom

    Outline:BTE reviewTransport DistributionConnection to LandauerModesMean-free-pathSummary

  7. Illinois ECE 440 Solid State Electronic Devices, Lecture 13: Diffusion

    Online Presentations | 02 Oct 2009 | Contributor(s): Eric Pop

    ECE 440: Lecture 13Diffusion Current

  8. Basic Portable Batch System (PBS)

    Presentation Materials | 02 Oct 2009 | Contributor(s): Xufeng Wang, Kaspar Haume, Gerhard Klimeck

    This presentation discusses the basics of Portable Batch System (PBS) and how to use it on Purdue's NCN system.

  9. Advanced Portable Batch System (PBS)

    Presentation Materials | 02 Oct 2009 | Contributor(s): Xufeng Wang, Kaspar Haume, Gerhard Klimeck

    This presentation is a following installment of "Basic Portable Batch System (PBS)" on nanohub.org. Here we discuss some advanced features of PBS and how to adapt them on Purdue's NCN owned clusters.

  10. Introduction to NCN clustering computing at Purdue University

    Presentation Materials | 02 Oct 2009 | Contributor(s): Xufeng Wang

    This presentation gives an easy and fundamental introduction to the concept of cluster computing. An overview of Purdue's current clusters available to NCN is also included.

  11. ECE 656 Lecture 10: The Drift-Diffusion Equation

    Online Presentations | 30 Sep 2009 | Contributor(s): Mark Lundstrom

    Outline:Transport in the bulkThe DD equationIndicial notationDD equation with B-field

  12. Illinois ECE 498AL: Programming Massively Parallel Processors, Lecture 14: Application Case Study - Quantative MRI Reconstruction

    Online Presentations | 30 Sep 2009 | Contributor(s): Wen-Mei W Hwu

    Quantative MRI ReconstructionTopics: Reconstructing MR Images An exciting revolution: Sodium Map of the Brain Least Squares reconstruction Q vs. FhD Algorithms to Accelerate From C to CUDA: What Unit of Work is Assigned to each Thread? Code Motion A Second option for the cmpFhD kernel Loop...

  13. Illinois ECE 498AL: Programming Massively Parallel Processors, Lecture 15: Kernel and Algorithm Patterns for CUDA

    Online Presentations | 30 Sep 2009 | Contributor(s): Wen-Mei W Hwu

    Kernel and Algorithm Patterns for CUDATopics: Reductions and Memory Patterns Reduction Patterns in CUDA Mapping Data into CUDA's Memories Input/Output Convolution Generic Algorithm Description What could each thread be assigned? Thread Assignment Trade-offs What memory Space does the Data use?...

  14. Illinois ECE 440 Solid State Electronic Devices, Lecture 12: Quasi-Fermi Levels; Photoconductivity

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    Online Presentations | 05 Jan 2009 | Contributor(s): Eric Pop

  15. Illinois ECE 440 Solid State Electronic Devices, Lecture 10-11: Optical Absorption and Direct Recombination

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    Online Presentations | 30 Sep 2009 | Contributor(s): Eric Pop

  16. Illinois ECE 440 Solid State Electronic Devices, Lectures 8 and 9: Drift Mobility

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    Online Presentations | 02 Jan 2009 | Contributor(s): Eric Pop

    Carrier Mobility and DriftECE 440: Lectures 8-9Carrier Mobility and DriftLet’s recap the 5-6 major concepts so far: Memorize a few things, but recognize many.(why? semiconductors require lots of approximations)Why all the fuss about the abstract concept of EF?Consider (for example) joining an...

  17. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 7: Basics of Solid Mechanics in Nanostructures

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    Online Presentations | 28 Sep 2009 | Contributor(s): Wen-Mei W Hwu, Omar N Sobh

    Basics of Solid Mechanics in NanostructuresTopics: Kinetic Theory of Energy Transport Averaging over all the solid angles Mechanics at Nanoscale How Strong are Crystalline Materials Theoretical Cohesive Strength Failure in Tension vs. Shear Frenkel Analysis Comparisons of Theoretical Strength...

  18. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 6: Basics of Transport in Nanostructures

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    Online Presentations | 28 Sep 2009 | Contributor(s): Wen-Mei W Hwu, Omar N Sobh

    Basics of Transport in NanostructuresTopics: For Quantum Particles How Fast do they move? Photon Excitation in Materials Surface Plasmons Application: Metamaterials Effect of Nanoscale Confinement Internal Energy and Specific Heat Thermal Radiation Internal Energy of Phonons Specific Heat Capacity

  19. Illinois ME 498 Introduction of Nano Science and Technology, Lecture 5: Basic Carrier Interactions in Nanostructures

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    Online Presentations | 21 Sep 2009 | Contributor(s): Nick Fang

    Basic Carrier Interactions in NanostructuresTopics: Introduction to Nanoscience and Tech Departure from Continuum Lattice vibration and Phonon Density of State in Low Dimensions Tunneling Applications of Tunneling Microscopic Transport Theory Proportion of Particles at Given State Quantum...

  20. ECE 656 Lecture 9: Coupled Current Equations

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    Online Presentations | 14 Sep 2009 | Contributor(s): Mark Lundstrom

    Outline:Onsager relationsMeasurement considerationsThermoelectric devices