Tags: Illinois

Online Presentations (181-200 of 956)

  1. Illinois ECE 440 Solid State Electronic Devices, Lecture 25: Intro to BJT

    07 Mar 2010 | | Contributor(s):: Eric Pop

  2. Illinois ECE 440 Solid State Electronic Devices, Lecture 26: Narrow-base BJT

    07 Mar 2010 | | Contributor(s):: Eric Pop

  3. Illinois ECE 440 Solid State Electronic Devices, Lecture 27: BJT Gain

    07 Mar 2010 | | Contributor(s):: Eric Pop

  4. Illinois ECE 440 Solid State Electronic Devices, Lecture 28&29: All Modes of BJT Operation

    02 Mar 2010 | | Contributor(s):: Eric Pop

  5. Illinois ECE 440 Solid State Electronic Devices, Lecture 30: Intro MOS Transistor

    02 Mar 2010 | | Contributor(s):: Eric Pop

  6. Illinois ECE 440 Solid State Electronic Devices, Lecture 31: MOS Capacitor

    02 Mar 2010 | | Contributor(s):: Eric Pop

  7. Illinois ECE 440 Solid State Electronic Devices, Lecture 32: MOS Threshold Voltage

    02 Mar 2010 | | Contributor(s):: Eric Pop

  8. Illinois ECE 440 Solid State Electronic Devices, Lecture 33: MOS Capacitance

    02 Mar 2010 | | Contributor(s):: Eric Pop

  9. Illinois ECE 440 Solid State Electronic Devices, Lecture 34: MOS Field Effect Transistor (FET)

    02 Mar 2010 | | Contributor(s):: Eric Pop

  10. Illinois ECE 440 Solid State Electronic Devices, Lecture 35: Short Channel MOSFET and Non-Ideal Behavior

    02 Mar 2010 | | Contributor(s):: Eric Pop

  11. Illinois ECE 440 Solid State Electronic Devices, Lecture 36: MOSFET Scaling Limits

    02 Mar 2010 | | Contributor(s):: Eric Pop

  12. Illinois ECE 440 Solid State Electronic Devices, Lecture 37: MOSFET Analog Amplifier and Digital Inverter

    02 Mar 2010 | | Contributor(s):: Eric Pop

  13. Illinois ECE 440 Solid State Electronic Devices, Lecture 5, Part 2 : Doping, Carrier Concentrations

    03 Aug 2009 | | Contributor(s):: Eric Pop, Omar Sobh

  14. Illinois ECE 440 Solid State Electronic Devices, Lecture 5: Intrinsic Material, Doping, Carrier Concentrations

    03 Aug 2009 | | Contributor(s):: Eric Pop, Omar Sobh

  15. Illinois ECE 460 Optical Imaging Lecture 1: Introduction

    09 May 2012 | | Contributor(s):: Gabriel Popescu

  16. Illinois ECE 498AL: Programming Massively Parallel Processors, Lecture 10: Control Flow

    01 Sep 2009 | | Contributor(s):: Wen-Mei W Hwu

    Control FlowTopics: Terminology Review How Thread Blocks are Partitioned Control Flow Instructions Parallel Reduction A Vector Reduction Example A simple Implementation Vector Reduction With Bank Conflicts Vector Reduction With Branch Divergence Predicted Execution Concept Instruction Prediction...

  17. Illinois ECE 498AL: Programming Massively Parallel Processors, Lecture 11: Floating Point Considerations

    15 Sep 2009 | | Contributor(s):: Wen-Mei W Hwu

    Floating Point ConsiderationsTopics: GPU Floating Point Features Normalized Representation Exponent Representation Representable Numbers Flush to Zero Denormaliztion Runtime Math library Make Your Programs Float Safe! These lecture were breezed by Carl Pearson and Daniel Borup and then reviewed,...

  18. Illinois ECE 498AL: Programming Massively Parallel Processors, Lecture 12: Structuring Parallel Algorithms

    15 Sep 2009 | | Contributor(s):: Wen-Mei W Hwu

    Structuring Parallel AlgorithmsTopics: Key Parallel Programming Steps Algorithms Choosing Algorithm Structure Mapping a Divide and Conquer algorithm Tiled Algorithms Increased work per thread Double Buffering Loop Fusion and Memory Privatization Pipeline or "Spatial Computing Model" These...

  19. Illinois ECE 498AL: Programming Massively Parallel Processors, Lecture 13: Reductions and their Implementation

    15 Sep 2009 | | Contributor(s):: Wen-Mei W Hwu

    Structuring Parallel AlgorithmsTopics: Parallel Reductions Parallel Prefix Sum Relevance of Scan Application of Scan Scan on the CPU First attempt Parallel Scan Algorithm Work efficiency considerations Improving Efficiency Use Padding to reduce conflicts Global Synchronization in CUDAThese...

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

    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...