[PDF] Webgpu Procedural Terrains eBook

Author : Jack Xu
Publisher : UniCAD
Page : 137 pages
File Size : 29,38 MB
Release : 101-01-01
Category : Computers
ISBN :

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WebGPU Procedural Terrains - Create Stunning Landscapes for Your Games Unlock the secrets of procedural landscape generation and create awe-inspiring, dynamic terrains for your games with WebGPU. This comprehensive eBook covers everything you need to know to create procedural terrains, from basic techniques to advanced methods. You'll learn how to: · Master Perlin noise mapping and basic terrain generation techniques. · Explore advanced methods, including terrain chunking and water level control. · Harness the power of Level of Detail (LOD) to optimize performance. · Create vast, immersive landscapes with ease by stitching together multiple terrain chunks. · Bring your terrains to life with smooth animations using compute shaders. · Craft realistic, Minecraft-inspired landscapes using compute shaders. Even if you're a beginner with minimal experience in graphics programming, you'll be able to follow this book's step-by-step guidance and hands-on examples to quickly grasp the fundamentals of procedural terrain generation. Whether you're an aspiring indie developer or a seasoned pro, WebGPU Procedural Terrains is the essential guide to creating stunning, dynamic landscapes that will captivate players and enhance your game development portfolio. Get ready to embark on a creative journey that will redefine your game worlds. Start crafting your masterpiece today!

Author : Jack Xu
Publisher : UniCAD
Page : 136 pages
File Size : 49,71 MB
Release : 101-01-01
Category : Computers
ISBN :

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WebGPU Voxel Terrains: Create Volumetric Landscapes Using Compute Shaders Learn how to create stunning voxel terrains for your web applications with this concise guide. This book covers the entire process of voxel terrain creation, from the basics of marching cubes to advanced techniques like crafting voxel volcanoes. With practical code examples, you'll have hands-on guidance throughout. Explore real-time voxel terrain creation with WebGPU and compute shaders. By reading and practicing with the included examples, you'll gain a deep understanding and the ability to implement these techniques in your own projects. Discover practical projects to solidify your skills in voxel terrain generation. This book is suitable for web developers, game developers, and anyone interested in procedural voxel terrain creation.

Author : Jack Xu
Publisher : UniCAD
Page : 522 pages
File Size : 46,48 MB
Release : 2023-05-10
Category : Computers
ISBN :

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Are you ready to take your web graphics to the next level? Look no further than "WebGPU by Examples". This comprehensive guide equips you with all the tools you need to create stunning 3D graphics in your web applications with the help of GPU acceleration. With this book, you will discover how to design an array of 3D graphics, from basic shapes like cubes, spheres, cylinders, and tori to intricate 3D graphics like wireframes, simple and parametric surfaces, supershapes, implicit surfaces, procedural terrains, volcanoes, Minecraft, voxel terrains, text rendering, and complex function visualization, as well as particle systems made using compute shaders. The author has simplified the learning process by breaking down the concepts of WebGPU, the cutting-edge graphics API for the Web, so even those with minimal experience can grasp the fundamentals of advanced graphics development. This book includes: - Introduce a starter template for graphics programming with WebGPU. - Create basic 3D shapes like cube, sphere, cylinder, torus, etc. - Design intricate 3D surface graphics such as wireframes, simple and parametric 3D surfaces, and procedural terrains. - Simulate light and shadow using different models, including point, directional, and spot light. - Implement physical-based rendering lighting methods to create realistic graphics. - Apply colormap and texture techniques to 3D surfaces. - Generate 3D surfaces and super shapes using compute shaders for improving performance. - Construct marching cubes for generating 3D implicit surfaces, metaballs, and voxel terrains. - Visualize complex functions using 3D plots and domain coloring. - Create particle systems for 3D graphics applications. Whether you are a beginner or an experienced developer, this book is the ideal resource to help you design a wide range of graphics applications in WebGPU. So, are you ready to explore next-generation web graphics and compute API? Start your journey with "WebGPU by Examples" today!

Author : Jack Xu
Publisher : UniCAD
Page : 166 pages
File Size : 18,71 MB
Release : 101-01-01
Category : Computers
ISBN :

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Rust wgpu Procedural Terrains - Create Stunning Landscapes for Your Games Unlock the secrets of procedural landscape generation and create awe-inspiring, dynamic terrains for your games with Rust wgpu. This comprehensive eBook covers everything you need to know to create procedural terrains, from basic techniques to advanced methods. You'll learn how to: · Master Perlin noise mapping and basic terrain generation techniques. · Explore advanced methods, including terrain chunking and water level control. · Harness the power of Level of Detail (LOD) to optimize performance. · Create vast, immersive landscapes with ease by stitching together multiple terrain chunks. · Bring your terrains to life with smooth animations using compute shaders. · Craft realistic, Minecraft-inspired landscapes using compute shaders. Even if you're a beginner with minimal experience in graphics programming, you'll be able to follow this book's step-by-step guidance and hands-on examples to quickly grasp the fundamentals of procedural terrain generation. Whether you're an aspiring indie developer or a seasoned pro, Rust wgpu Procedural Terrains is the essential guide to creating stunning, dynamic landscapes that will captivate players and enhance your game development portfolio. Get ready to embark on a creative journey that will redefine your game worlds. Start crafting your masterpiece today!

Author : Jack Xu
Publisher : UniCAD
Page : 113 pages
File Size : 32,35 MB
Release : 101-01-01
Category : Computers
ISBN :

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WebGPU Texture Mapping: A Practical Guide to Creating Stunning Web Applications WebGPU Texture Mapping is the essential guide for mastering texture mapping with WebGPU. Learn how to use texture mapping to create stunning web graphics, from the basics to advanced techniques. This book covers everything from the fundamentals of texture mapping to advanced techniques like multi-texturing, normal mapping, parallax mapping, and procedural texturing. With step-by-step real-world examples, you'll learn how to use WebGPU to create realistic and immersive visuals. Whether you're a beginner or an experienced developer, WebGPU Texture Mapping is the perfect resource for learning how to use texture mapping to create stunning web graphics. What you'll learn: The basics of texture mapping. Multi-texturing. Normal mapping. Parallax mapping. Procedural textures. How to use WebGPU to create realistic and immersive visuals. By the end of this book, you'll be able to: Create stunning web graphics using texture mapping. Use WebGPU to harness the power of the GPU. Implement advanced texture mapping techniques. Understand the core concepts of computer graphics. Order your copy today and start creating awe-inspiring visuals that will leave your audience spellbound!

Author : Kenwright
Publisher : Independently Published
Page : 0 pages
File Size : 33,89 MB
Release : 2024-03-17
Category : Education
ISBN :

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WebGPU and WGSL by Example: Fractals, Image Effects, Ray-Tracing, Procedural Geometry, 2D/3D, Particles, Simulations aims to be your guide to harnessing the power of modern web graphics technologies for creating stunning visual effects, simulations, and interactive experiences on the web. The web is evolving at a rapid pace, and with the advent of WebGPU and WGSL (WebGPU Shading Language), web developers now have access to a low-level, high-performance graphics API and a modern shading language tailored specifically for the web platform. These technologies open up a world of possibilities for pushing the boundaries of what's achievable in web-based graphics and simulations. In this book, we'll dive deep into practical examples that demonstrate the capabilities of WebGPU and WGSL. From generating intricate fractal patterns to simulating dynamic particle systems, from crafting lifelike image effects to implementing real-time ray tracing, we'll explore a wide range of topics, each accompanied by hands-on examples and detailed explanations. Whether you're a seasoned web developer looking to expand your skills into the realm of advanced graphics programming or a newcomer eager to explore the possibilities of web-based visual computing, this book has something for you. Each chapter is designed to be accessible yet informative, guiding you through the process of implementing complex graphics techniques in a clear and concise manner. At the end of this book, you'll have a solid understanding of how to leverage WebGPU and WGSL to create stunning visual experiences that run seamlessly in modern web browsers. Whether you're building interactive data visualizations, immersive games, or cutting-edge web applications, the knowledge and skills gained from this book will empower you to push the boundaries of web graphics and unlock new creative possibilities.

Author : Edgar Lopez-Garcia
Publisher :
Page : 42 pages
File Size : 23,30 MB
Release : 2019
Category :
ISBN :

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Many animated films, computer games, and simulations attempt to mimic naturalistic terrain in a three-dimensional environment in hope of immersing the audience into the world it creates. Creating such terrain in a three-dimensional environment is not a trivial task, yet many methods have been introduced to solve this problem. Hand sculpting solutions require environmental artists to manually design the terrain with software that allows them to pull, carve, and model terrain in real-time. Although a valid approach, it can take a lot of time and effort to achieve believable terrain. Additionally, it requires a high level of expertise in terrain modeling software, something that not many of those who wish to create realistic terrain poses. To alleviate these barriers, methods that allow the computer to automatically generate terrain have been invented. These methods involve creating specialized algorithms to procedurally generate terrain. These procedural generation systems are good at producing naturalistic-looking terrain, yet like the hand-sculpting approach, designing these algorithms is no easy feat. A significant amount of ingenuity and knowledge of geophysics is required to implement these algorithms. Furthermore, each algorithm is specialized to a certain type of terrain, and a new algorithm must be redesigned and implemented to support other types of terrains. Therefore, algorithmically producing terrains is not a flexible approach. The limitations of the suggested approaches make the terrain creation process difficult and time consuming. In this thesis, a new approach is presented for generating three-dimensional terrain by using deep learning techniques to simplify the terrain creation process. In this approach, a Deep Convolutional Generative Adversarial Network (DCGAN) is utilized to generate terrain heightmaps of common physical terrain features. These terrain heightmaps are then used to generate terrain in a three-dimensional environment with these physical features. The benefit of this approach allows for the creation of naturalistic terrain without the need to hand-craft or implement an algorithm. This approach aims to make the process of creating any type of terrain in three-dimensional environments more flexible than the current approaches. The thesis includes an analysis of the terrain generation performance of the DCGAN-based approach against the algorithmic-based terrain generation approach. A process is also introduced on how to set up a DCGAN based procedural terrain generation system and the results of using such system is examined. The thesis then concludes with a discussion on how the work in this thesis can further be extended into improving the DCGAN procedural terrain generation outputs and how a DCGAN can be used in other areas of computer graphics to simplify many of the processes common in the computer graphics field.

Author : Georg Glaeser
Publisher : Springer
Page : 316 pages
File Size : 50,85 MB
Release : 2013-12-10
Category : Computers
ISBN : 366225798X

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In this book, a variety of algoritbms are described that may be of interest to everyone who writes software for 3D-graphics. It is a book that haB been written for programmers at an intermediate level as well aB for experienced software engineers who simply want to have some particular functions at their disposal, without having to think too much about details like special cases or optimization for speed. The programming language we use is C, and that has many advantages, because it makes the code both portable and efficient. Nevertheless, it should be possible to adapt the ideas to other high-level programming languages. The reader should have a reasonable knowledge of C, because sophisticated pro grams with economical storage household and fast sections cannot be written without the use of pointers. You will find that in the long run it is just aB easy to work with pointer variables as with multiple arrays . .Aß the title of the book implies, we will not deal with algorithms that are very computation-intensive such as ray tracing or the radiosity method. Furthermore, objects will always be (closed or not closed) polyhedra, which consist of a certain number of polygons.

Author : Jack Xu
Publisher : UniCAD
Page : 445 pages
File Size : 21,99 MB
Release : 2021-06-11
Category : Computers
ISBN :

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WebGPU is the next-generation graphics API and future web standard for graphics and compute, aiming to provide modern 3D graphics and computation capabilities with the GPU acceleration. This book provides all the tools you need to help you create advanced 3D graphics and GPU computing on the web with this new WebGPU API. The book starts by taking you through the WebPack-TypeScript template for building the WebGPU apps and then shows you the WebGPU basics, shader program, GPU buffer, and rendering pipeline. Next, you will learn how to create primitives and simple objects in WebGPU. As you progress through the chapters, you will get to grips with advanced WebGPU topics, including 3D transformation, lighting calculation, colormaps, and textures. At the same time, you will learn how to create advanced 3D WebGPU objects, including various 3D wireframes, 3D shapes, simple and parametric 3D surfaces with colormaps and textures, as well as 3D surface plots and fractal graphics described by complex functions. In addition, you will explore new WebGPU features, such as compute shader and storage buffer, and how to use them to simulate large particle systems. By the end of this book, you will have the skill you need to build your own GPU-accelerated graphics and computing on the web with the WebGPU API. The book includes: - Template based on WebPack and TypeScript for developing WebGPU apps. - WebGPU basics, GLSL and WGSL shaders, and rendering pipeline. - Create primitives and simple shapes in WebGPU. - 3D transformations, model, viewing, projection, and various coordinate systems. - GPU buffers, uniform buffer objects, animation, and camera controls. - Normal vectors, lighting model, ambient, diffuse, and specular light calculations. - UV coordinates, texture mapping.- Color model, colormaps, and color interpolation. - Create 3D shapes, wireframes, surfaces, and 3D charts. - Create 3D plots and fractal graphics using complex functions. - Compute shaders, storage buffers, and large particle system simulation.

Author : Olivier Faugeras
Publisher : MIT Press
Page : 712 pages
File Size : 29,95 MB
Release : 1993
Category : Computers
ISBN : 9780262061582

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This monograph by one of the world's leading vision researchers provides a thorough, mathematically rigorous exposition of a broad and vital area in computer vision: the problems and techniques related to three-dimensional (stereo) vision and motion. The emphasis is on using geometry to solve problems in stereo and motion, with examples from navigation and object recognition. Faugeras takes up such important problems in computer vision as projective geometry, camera calibration, edge detection, stereo vision (with many examples on real images), different kinds of representations and transformations (especially 3-D rotations), uncertainty and methods of addressing it, and object representation and recognition. His theoretical account is illustrated with the results of actual working programs.Three-Dimensional Computer Vision proposes solutions to problems arising from a specific robotics scenario in which a system must perceive and act. Moving about an unknown environment, the system has to avoid static and mobile obstacles, build models of objects and places in order to be able to recognize and locate them, and characterize its own motion and that of moving objects, by providing descriptions of the corresponding three-dimensional motions. The ideas generated, however, can be used indifferent settings, resulting in a general book on computer vision that reveals the fascinating relationship of three-dimensional geometry and the imaging process.