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WebGPU for Complex Function Visualization – Learn to Create Real-Time Visualization of Complex Functions Using WebGPU and Compute Shaders Embark on a journey into the future of web-based visualization with “WebGPU for Complex Function Visualization.” This book is your definitive guide to creating real-time, stunning visuals of complex functions using WebGPU and compute shaders. Inside this book, you will: Explore the next-generation graphics technology through step-by-step, real-world examples that empower you to visualize complex functions like never before on the web. Master the art of domain coloring, a process that transforms intricate mathematical data into vivid, dynamic visual representations. Gain insights into the intricacies of rendering 3D surface plots for complex functions on both the CPU and GPU, and discover how to optimize performance. Unleash the true potential of WebGPU by harnessing the power of compute shaders to accelerate domain coloring computations, achieving real-time performance for even the most extensive complex plane grids. This comprehensive resource goes beyond theory, offering practical insights and sample code listings that guide you through each step of the process. As you work through the example projects, you will develop a deep understanding of complex function graphics techniques, enabling you to effortlessly create sophisticated 3D graphics for your web applications. Whether you are captivated by the mathematical beauty of complex functions or eager to elevate your web development skills, this book is your gateway to a world of immersive and dynamic web-based visualization. Join the revolution in web graphics and start crafting stunning visuals with WebGPU today!
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!
Rust wgpu for Complex Function Visualization – Learn to Create Real-Time Visualization of Complex Functions Using wgpu and Compute Shaders Embark on a journey into the future of Rust visualization with “Rust wgpu for Complex Function Visualization.” This book is your definitive guide to creating real-time, stunning visuals of complex functions using wgpu and compute shaders. Inside this eBook, you will: Explore the next-generation graphics technology through step-by-step, real-world examples that empower you to visualize complex functions like never before. Master the art of domain coloring, a process that transforms intricate mathematical data into vivid, dynamic visual representations. Gain insights into the intricacies of rendering 3D surface plots for complex functions on both the CPU and GPU, and discover how to optimize performance. Unleash the true potential of wgpu by harnessing the power of compute shaders to accelerate domain coloring computations, achieving real-time performance for even the most extensive complex plane grids. This comprehensive resource goes beyond theory, offering practical insights and sample code listings that guide you through each step of the process. As you work through the example projects, you will develop a deep understanding of complex function graphics techniques, enabling you to effortlessly create sophisticated 3D graphics for your graphics applications. Whether you are captivated by the mathematical beauty of complex functions or eager to elevate your web development skills, this book is your gateway to a world of immersive and dynamic Rust visualization. Join the revolution in graphics and start crafting stunning visuals with wgpu today!
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.
Wgpu-py is the next-generation Python graphics API and future standard for both native devices and the web, 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 native devices with this new wgpu-py API. The book starts by taking you through the wgpu-py development environment for building the wgpu-py apps and then shows you the Python and wgpu-py basics, shader programs, GPU buffers, and rendering pipelines. Next, you will learn how to create primitives and simple objects in wgpu-py. As you progress through the chapters, you will get to grips with advanced wgpu-py topics, including 3D transformation, lighting calculation, colormaps, and textures. At the same time, you will learn how to create advanced 3D wgpu-py objects, including various 3D wireframes, 3D shapes, simple and parametric 3D surfaces with colormaps and textures, as well as beautiful fractal images described by complex functions. You will also explore new wgpu features, such as compute shader and storage buffer, and how to use them to simulate large particle systems. In addition, this book will introduce the pygfx render engine that is based on wgpu-py, and show you how to use its built-in primitives to create various 3D objects. You will also learn how to build custom objects and geometries in pygfx. By the end of this book, you will have the skill you need to build your own GPU-accelerated graphics and computing on both native devices and the web with the wgpu-py API.
WebGPU Marching Cubes – A Practical Guide to Creating Implicit 3D Surfaces and Metaballs using WebGPU and Compute Shaders Welcome to the future of web graphics development! WebGPU Marching Cubes is an immersive eBook that takes a practical approach to learning WebGPU, the next-generation graphics API currently under development by the W3C GPU for the Web Community Group. This comprehensive resource equips you with the tools you need to make your web projects visually stunning, whether you're a seasoned developer or just starting out. Inside, you'll unlock the secrets to creating implicit 3D surfaces and mesmerizing metaballs on the web, all using the power of the new WebGPU graphics API. We've simplified the learning process by breaking down WebGPU concepts, ensuring that even beginners with minimal experience can grasp the fundamentals of advanced graphics development. Inside this book, you'll explore: - How to use the marching cubes algorithm to create intricate 3D surfaces - How to harness the power of compute shaders to enhance your 3D graphics in web applications - A complete guide to implicit 3D surface generation in WebGPU, with comprehensive sample code listings - Hands-on learning opportunities with example programs that allow you to explore the 3D graphics techniques explained in the book WebGPU Marching Cubes is your gateway to unlocking the full potential of WebGPU and bringing breathtaking 3D graphics to your web applications. Whether you aspire to create immersive game environments, interactive data visualizations, or stunning web designs, this book will set you on the path to success. Join the ranks of forward-thinking web developers who are embracing the future of graphics with WebGPU. Get your copy today and embark on a journey that will elevate your web development skills to new heights. Your audience will thank you for the visually stunning experiences you'll create.
Using WebGL®, you can create sophisticated interactive 3D graphics inside web browsers, without plug-ins. WebGL makes it possible to build a new generation of 3D web games, user interfaces, and information visualization solutions that will run on any standard web browser, and on PCs, smartphones, tablets, game consoles, or other devices. WebGL Programming Guide will help you get started quickly with interactive WebGL 3D programming, even if you have no prior knowledge of HTML5, JavaScript, 3D graphics, mathematics, or OpenGL. You’ll learn step-by-step, through realistic examples, building your skills as you move from simple to complex solutions for building visually appealing web pages and 3D applications with WebGL. Media, 3D graphics, and WebGL pioneers Dr. Kouichi Matsuda and Dr. Rodger Lea offer easy-to-understand tutorials on key aspects of WebGL, plus 100 downloadable sample programs, each demonstrating a specific WebGL topic. You’ll move from basic techniques such as rendering, animating, and texturing triangles, all the way to advanced techniques such as fogging, shadowing, shader switching, and displaying 3D models generated by Blender or other authoring tools. This book won’t just teach you WebGL best practices, it will give you a library of code to jumpstart your own projects. Coverage includes: • WebGL’s origin, core concepts, features, advantages, and integration with other web standards • How and basic WebGL functions work together to deliver 3D graphics • Shader development with OpenGL ES Shading Language (GLSL ES) • 3D scene drawing: representing user views, controlling space volume, clipping, object creation, and perspective • Achieving greater realism through lighting and hierarchical objects • Advanced techniques: object manipulation, heads-up displays, alpha blending, shader switching, and more • Valuable reference appendixes covering key issues ranging from coordinate systems to matrices and shader loading to web browser settings This is the newest text in the OpenGL Technical Library, Addison-Wesley’s definitive collection of programming guides an reference manuals for OpenGL and its related technologies. The Library enables programmers to gain a practical understanding of OpenGL and the other Khronos application-programming libraries including OpenGL ES and OpenCL. All of the technologies in the OpenGL Technical Library evolve under the auspices of the Khronos Group, the industry consortium guiding the evolution of modern, open-standards media APIs.
This is the first book written on using Blender (an open-source visualization suite widely used in the entertainment and gaming industries) for scientific visualization. It is a practical and interesting introduction to Blender for understanding key parts of 3D rendering that pertain to the sciences via step-by-step guided tutorials. Any time you see an awesome science animation in the news, you will now know how to develop exciting visualizations and animations with your own data. 3D Scientific Visualization with Blender takes you through an understanding of 3D graphics and modeling for different visualization scenarios in the physical sciences. This includes guides and tutorials for: understanding and manipulating the interface; generating 3D models; understanding lighting, animation, and camera control; and scripting data import with the Python API. The agility of Blender and its well organized Python API make it an exciting and unique visualization suite every modern scientific/engineering workbench should include. Blender provides multiple scientific visualizations including: solid models/surfaces/rigid body simulations; data cubes/transparent/translucent rendering; 3D catalogs; N-body simulations; soft body simulations; surface/terrain maps; and phenomenological models. The possibilities for generating visualizations are considerable via this ever growing software package replete with a vast community of users providing support and ideas.
The first book to explain mathematics using 3D printed models. Winner of the Technical Text of the Washington Publishers Wouldn’t it be great to experience three-dimensional ideas in three dimensions? In this book—the first of its kind—mathematician and mathematical artist Henry Segerman takes readers on a fascinating tour of two-, three-, and four-dimensional mathematics, exploring Euclidean and non-Euclidean geometries, symmetry, knots, tilings, and soap films. Visualizing Mathematics with 3D Printing includes more than 100 color photographs of 3D printed models. Readers can take the book’s insights to a new level by visiting its sister website, 3dprintmath.com, which features virtual three-dimensional versions of the models for readers to explore. These models can also be ordered online or downloaded to print on a 3D printer. Combining the strengths of book and website, this volume pulls higher geometry and topology out of the realm of the abstract and puts it into the hands of anyone fascinated by mathematical relationships of shape. With the book in one hand and a 3D printed model in the other, readers can find deeper meaning while holding a hyperbolic honeycomb, touching the twists of a torus knot, or caressing the curves of a Klein quartic.
Completely revised and updated, this best-selling introduction to programming in JavaScript focuses on writing real applications. JavaScript lies at the heart of almost every modern web application, from social apps like Twitter to browser-based game frameworks like Phaser and Babylon. Though simple for beginners to pick up and play with, JavaScript is a flexible, complex language that you can use to build full-scale applications. This much anticipated and thoroughly revised third edition of Eloquent JavaScript dives deep into the JavaScript language to show you how to write beautiful, effective code. It has been updated to reflect the current state of Java¬Script and web browsers and includes brand-new material on features like class notation, arrow functions, iterators, async functions, template strings, and block scope. A host of new exercises have also been added to test your skills and keep you on track. As with previous editions, Haverbeke continues to teach through extensive examples and immerses you in code from the start, while exercises and full-chapter projects give you hands-on experience with writing your own programs. You start by learning the basic structure of the JavaScript language as well as control structures, functions, and data structures to help you write basic programs. Then you'll learn about error handling and bug fixing, modularity, and asynchronous programming before moving on to web browsers and how JavaScript is used to program them. As you build projects such as an artificial life simulation, a simple programming language, and a paint program, you'll learn how to: - Understand the essential elements of programming, including syntax, control, and data - Organize and clarify your code with object-oriented and functional programming techniques - Script the browser and make basic web applications - Use the DOM effectively to interact with browsers - Harness Node.js to build servers and utilities Isn't it time you became fluent in the language of the Web? * All source code is available online in an inter¬active sandbox, where you can edit the code, run it, and see its output instantly.