GPU Gems 3
GPU Gems 3
"GPU Gems 3 contains over 40 chapters and nearly 1000 pages full of the latest GPU programming techniques, and includes hundreds of full-color diagrams and pictures. GPU Gems 3 won the Game Developer Magazine's 2007 Front Line Award.
Table of Contents
Download the detailed .pdf version
Chapter 1: Generating Complex Procedural Terrains Using the GPU
Ryan Geiss, NVIDIA Corporation
Chapter 2: Animated Crowd Rendering
Bryan Dudash, NVIDIA Corporation
Chapter 3: DirectX 10 Blend Shapes: Breaking the Limits
Tristan Lorach, NVIDIA Corporation
Chapter 4: Next-Generation SpeedTree Rendering
Alexander Kharlamov, NVIDIA Corporation
Iain Cantlay, NVIDIA Corporation
Yury Stepanenko, NVIDIA Corporation
Chapter 5: Generic Adaptive Mesh Refinement
Tamy Boubekeur, LaBRI–INRIA, University of Bordeaux
Christophe Schlick, LaBRI–INRIA, University of Bordeaux
Chapter 6: GPU-Generated Procedural Wind Animations for Trees
Renaldas Zioma, Electronic Arts/Digital Illusions CE
Chapter 7: Point-Based Visualization of Metaballs on a GPU
Kees van Kooten, Playlogic Game Factory
Gino van den Bergen, Playlogic Game Factory
Alex Telea, Eindhoven University of Technology
Chapter 8: Summed-Area Variance Shadow Maps
Andrew Lauritzen, University of Waterloo
Chapter 9: Interactive Cinematic Relighting with Global Illumination
Fabio Pellacini, Dartmouth College
Miloš Hašan, Cornell University
Kavita Bala, Cornell University
Chapter 10: Parallel-Split Shadow Maps on Programmable GPUs
Fan Zhang, The Chinese University of Hong Kong
Hanqiu Sun, The Chinese University of Hong Kong
Oskari Nyman, Helsinki University of Technology
Chapter 11: Efficient and Robust Shadow Volumes Using Hierarchical Occlusion Culling and Geometry Shaders
Martin Stich, mental images
Carsten Wächter, Ulm University
Alexander Keller, Ulm University
Chapter 12: High-Quality Ambient Occlusion
Jared Hoberock, University of Illinois at Urbana-Champaign
Yuntao Jia, University of Illinois at Urbana-Champaign
Chapter 13: Volumetric Light Scattering as a Post-Process
Kenny Mitchell, Electronic Arts
Chapter 14: Advanced Techniques for Realistic Real-Time Skin Rendering
Eugene d’Eon, NVIDIA Corporation
David Luebke, NVIDIA Corporation
Chapter 15: Playable Universal Capture
George Borshukov, Electronic Arts
Jefferson Montgomery, Electronic Arts
John Hable, Electronic Arts
Chapter 16: Vegetation Procedural Animation and Shading in Crysis
Tiago Sousa, Crytek
Chapter 17: Robust Multiple Specular Reflections and Refractions
Tamás Umenhoffer, Budapest University of Technology and Economics
Gustavo Patow, University of Girona
László Szirmay-Kalos, Budapest University of Technology and Economics
Chapter 18: Relaxed Cone Stepping for Relief Mapping
Fabio Policarpo, Perpetual Entertainment
Manuel M. Oliveira, Instituto de Informática—UFRGS
Chapter 19: Deferred Shading in Tabula Rasa
Rusty Koonce, NCsoft Corporation
Chapter 20: GPU-Based Importance Sampling
Mark Colbert, University of Central Florida
Jaroslav Kr?ivánek, Czech Technical University in Prague
Chapter 21: True Impostors
Eric Risser, University of Central Florida
Chapter 22: Baking Normal Maps on the GPU
Diogo Teixeira, Move Interactive
Chapter 23: High-Speed, Off-Screen Particles
Iain Cantlay, NVIDIA Corporation
Chapter 24: The Importance of Being Linear
Larry Gritz, NVIDIA Corporation
Eugene d’Eon, NVIDIA Corporation
Chapter 25: Rendering Vector Art on the GPU
Charles Loop, Microsoft Research
Jim Blinn, Microsoft Research
Chapter 26: Object Detection by Color: Using the GPU for Real-Time Video Image Processing
Ralph Brunner, Apple
Frank Doepke, Apple
Bunny Laden, Apple
Chapter 27: Motion Blur as a Post-Processing Effect
Gilberto Rosado, Rainbow Studios
Chapter 28: Practical Post-Process Depth of Field
Earl Hammon, Jr., Infinity Ward
Chapter 29: Real-Time Rigid Body Simulation on GPUs
Takahiro Harada, University of Tokyo
Chapter 30: Real-Time Simulation and Rendering of 3D Fluids
Keenan Crane, University of Illinois at Urbana-Champaign
Ignacio Llamas, NVIDIA Corporation
Sarah Tariq, NVIDIA Corporation
Chapter 31: Fast N-Body Simulation with CUDA
Lars Nyland, NVIDIA Corporation
Mark Harris, NVIDIA Corporation
Jan Prins, University of North Carolina at Chapel Hill
Chapter 32: Broad-Phase Collision Detection with CUDA
Scott Le Grand, NVIDIA Corporation
Chapter 33: LCP Algorithms for Collision Detection Using CUDA
Peter Kipfer, Havok
Chapter 34: Signed Distance Fields Using Single-Pass GPU Scan Conversion of Tetrahedra
Kenny Erleben, University of Copenhagen
Henrik Dohlmann, 3Dfacto R&D
Chapter 35: Fast Virus Signature Matching on the GPU
Elizabeth Seamans, Juniper Networks
Thomas Alexander, Polytime
Chapter 36: AES Encryption and Decryption on the GPU
Takeshi Yamanouchi, SEGA Corporation
Chapter 37: Efficient Random Number Generation and Application Using CUDA
Lee Howes, Imperial College London
David Thomas, Imperial College London
Chapter 38: Imaging Earth’s Subsurface Using CUDA
Bernard Deschizeaux, CGGVeritas
Jean-Yves Blanc, CGGVeritas
Chapter 39: Parallel Prefix Sum (Scan) with CUDA
Mark Harris, NVIDIA Corporation
Shubhabrata Sengupta, University of California, Davis
John D. Owens, University of California, Davis
Chapter 40: Incremental Computation of the Gaussian
Ken Turkowski, Adobe Systems
Chapter 41: Using the Geometry Shader for Compact and Variable-Length GPU Feedback
Franck Diard, NVIDIA Corporation
Content font: http://developer.nvidia.com
GPU Gems 3
"GPU Gems 3 contains over 40 chapters and nearly 1000 pages full of the latest GPU programming techniques, and includes hundreds of full-color diagrams and pictures. GPU Gems 3 won the Game Developer Magazine's 2007 Front Line Award.
GPU Gems 3 is now available for free on the NVIDIA Developer Site. Click on the desired section in our navigation window to the right to begin reading!"
Editors
GPU Gems 3 is edited by Hubert Nguyen, Manager of Developer Education at NVIDIA. Hubert is a graphics engineer who worked in the NVIDIA Demo Team before moving to his current position. His work is featured on the covers of GPU Gems (Addison-Wesley, 2004) and GPU Gems
Section Editors include NVIDIA engineers:
Cyril Zeller, Evan Hart, Ignacio Castaño, Kevin Bjorke, Kevin Myers, and Nolan Goodnight.
Visual Table of Contents
Download the detailed .pdf version
GPU Gems 3 is edited by Hubert Nguyen, Manager of Developer Education at NVIDIA. Hubert is a graphics engineer who worked in the NVIDIA Demo Team before moving to his current position. His work is featured on the covers of GPU Gems (Addison-Wesley, 2004) and GPU Gems
Section Editors include NVIDIA engineers:
Cyril Zeller, Evan Hart, Ignacio Castaño, Kevin Bjorke, Kevin Myers, and Nolan Goodnight.
Visual Table of Contents
Download the detailed .pdf version
Table of Contents
Download the detailed .pdf version
Chapter 1: Generating Complex Procedural Terrains Using the GPU
Ryan Geiss, NVIDIA Corporation
Chapter 2: Animated Crowd Rendering
Bryan Dudash, NVIDIA Corporation
Chapter 3: DirectX 10 Blend Shapes: Breaking the Limits
Tristan Lorach, NVIDIA Corporation
Chapter 4: Next-Generation SpeedTree Rendering
Alexander Kharlamov, NVIDIA Corporation
Iain Cantlay, NVIDIA Corporation
Yury Stepanenko, NVIDIA Corporation
Chapter 5: Generic Adaptive Mesh Refinement
Tamy Boubekeur, LaBRI–INRIA, University of Bordeaux
Christophe Schlick, LaBRI–INRIA, University of Bordeaux
Chapter 6: GPU-Generated Procedural Wind Animations for Trees
Renaldas Zioma, Electronic Arts/Digital Illusions CE
Chapter 7: Point-Based Visualization of Metaballs on a GPU
Kees van Kooten, Playlogic Game Factory
Gino van den Bergen, Playlogic Game Factory
Alex Telea, Eindhoven University of Technology
Chapter 8: Summed-Area Variance Shadow Maps
Andrew Lauritzen, University of Waterloo
Chapter 9: Interactive Cinematic Relighting with Global Illumination
Fabio Pellacini, Dartmouth College
Miloš Hašan, Cornell University
Kavita Bala, Cornell University
Chapter 10: Parallel-Split Shadow Maps on Programmable GPUs
Fan Zhang, The Chinese University of Hong Kong
Hanqiu Sun, The Chinese University of Hong Kong
Oskari Nyman, Helsinki University of Technology
Chapter 11: Efficient and Robust Shadow Volumes Using Hierarchical Occlusion Culling and Geometry Shaders
Martin Stich, mental images
Carsten Wächter, Ulm University
Alexander Keller, Ulm University
Chapter 12: High-Quality Ambient Occlusion
Jared Hoberock, University of Illinois at Urbana-Champaign
Yuntao Jia, University of Illinois at Urbana-Champaign
Chapter 13: Volumetric Light Scattering as a Post-Process
Kenny Mitchell, Electronic Arts
Chapter 14: Advanced Techniques for Realistic Real-Time Skin Rendering
Eugene d’Eon, NVIDIA Corporation
David Luebke, NVIDIA Corporation
Chapter 15: Playable Universal Capture
George Borshukov, Electronic Arts
Jefferson Montgomery, Electronic Arts
John Hable, Electronic Arts
Chapter 16: Vegetation Procedural Animation and Shading in Crysis
Tiago Sousa, Crytek
Chapter 17: Robust Multiple Specular Reflections and Refractions
Tamás Umenhoffer, Budapest University of Technology and Economics
Gustavo Patow, University of Girona
László Szirmay-Kalos, Budapest University of Technology and Economics
Chapter 18: Relaxed Cone Stepping for Relief Mapping
Fabio Policarpo, Perpetual Entertainment
Manuel M. Oliveira, Instituto de Informática—UFRGS
Chapter 19: Deferred Shading in Tabula Rasa
Rusty Koonce, NCsoft Corporation
Chapter 20: GPU-Based Importance Sampling
Mark Colbert, University of Central Florida
Jaroslav Kr?ivánek, Czech Technical University in Prague
Chapter 21: True Impostors
Eric Risser, University of Central Florida
Chapter 22: Baking Normal Maps on the GPU
Diogo Teixeira, Move Interactive
Chapter 23: High-Speed, Off-Screen Particles
Iain Cantlay, NVIDIA Corporation
Chapter 24: The Importance of Being Linear
Larry Gritz, NVIDIA Corporation
Eugene d’Eon, NVIDIA Corporation
Chapter 25: Rendering Vector Art on the GPU
Charles Loop, Microsoft Research
Jim Blinn, Microsoft Research
Chapter 26: Object Detection by Color: Using the GPU for Real-Time Video Image Processing
Ralph Brunner, Apple
Frank Doepke, Apple
Bunny Laden, Apple
Chapter 27: Motion Blur as a Post-Processing Effect
Gilberto Rosado, Rainbow Studios
Chapter 28: Practical Post-Process Depth of Field
Earl Hammon, Jr., Infinity Ward
Chapter 29: Real-Time Rigid Body Simulation on GPUs
Takahiro Harada, University of Tokyo
Chapter 30: Real-Time Simulation and Rendering of 3D Fluids
Keenan Crane, University of Illinois at Urbana-Champaign
Ignacio Llamas, NVIDIA Corporation
Sarah Tariq, NVIDIA Corporation
Chapter 31: Fast N-Body Simulation with CUDA
Lars Nyland, NVIDIA Corporation
Mark Harris, NVIDIA Corporation
Jan Prins, University of North Carolina at Chapel Hill
Chapter 32: Broad-Phase Collision Detection with CUDA
Scott Le Grand, NVIDIA Corporation
Chapter 33: LCP Algorithms for Collision Detection Using CUDA
Peter Kipfer, Havok
Chapter 34: Signed Distance Fields Using Single-Pass GPU Scan Conversion of Tetrahedra
Kenny Erleben, University of Copenhagen
Henrik Dohlmann, 3Dfacto R&D
Chapter 35: Fast Virus Signature Matching on the GPU
Elizabeth Seamans, Juniper Networks
Thomas Alexander, Polytime
Chapter 36: AES Encryption and Decryption on the GPU
Takeshi Yamanouchi, SEGA Corporation
Chapter 37: Efficient Random Number Generation and Application Using CUDA
Lee Howes, Imperial College London
David Thomas, Imperial College London
Chapter 38: Imaging Earth’s Subsurface Using CUDA
Bernard Deschizeaux, CGGVeritas
Jean-Yves Blanc, CGGVeritas
Chapter 39: Parallel Prefix Sum (Scan) with CUDA
Mark Harris, NVIDIA Corporation
Shubhabrata Sengupta, University of California, Davis
John D. Owens, University of California, Davis
Chapter 40: Incremental Computation of the Gaussian
Ken Turkowski, Adobe Systems
Chapter 41: Using the Geometry Shader for Compact and Variable-Length GPU Feedback
Franck Diard, NVIDIA Corporation
Content font: http://developer.nvidia.com
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