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  • 02/17/02 02:32 AM

    Graphics Programming Black Book

    Graphics and GPU Programming

    Myopic Rhino
    Michael Abrash's classic Graphics Programming Black Book is a compilation of Michael's previous writings on assembly language and graphics programming (including from his "Graphics Programming" column in Dr. Dobb's Journal). Much of the focus of this book is on profiling and code testing, as well as performance optimization. It also explores much of the technology behind the Doom and Quake 3-D games, and 3-D graphics problems such as texture mapping, hidden surface removal, and the like. Thanks to Michael for making this book available.

    The full text of the book is available here in PDF format. Due to the book's length, we've made each chapter available separately. The files are large, so we don't recommend reading them online. We suggest downloading them first (right-click on the link). You may want to start by downloading the Cover, Table of Contents, Introduction, Part 1 Opening Page, and Part 2 Opening Page. Then download any chapters you want.

    If you keep all files in the same directory, the "Previous" and "Next" links at the beginning and end of each chapter will work (provided you have downloaded those chapters).

    NOTE: Each chapter also has a "Home" link at its beginning and end. This link does not work: the PDF files were taken from a larger CD-ROM collection, and this link is now out of context. Due to the nature of these files, we were unable to remove the link. We apologize for the inconvenience.

    The complete book is 153 MB in size.

    Chapter 1: The Best Optimizer is between Your Ears (4.3 MB)
    Chapter 2: A World Apart (2.7 MB)
    Chapter 3: Assume Nothing (2.6 MB)
    Chapter 4: In the Lair of the Cycle-Eaters (3 MB)
    Chapter 5: Crossing the Border (1.5 MB)
    Chapter 6: Looking Past Face Value (3.5 MB)
    Chapter 7: Local Optimization (2.1 MB)
    Chapter 8: Speeding Up C with Assembly Language (3.7 MB)
    Chapter 9: Hints My Readers Gave Me (2.7 MB)
    Chapter 10: Patient Coding, Faster Code (3.8 MB)
    Chapter 11: Pushing the 286 and 386 (3.5 MB)
    Chapter 12: Pushing the 486 (2.2 MB)
    Chapter 13: Aiming the 486 (2.4 MB)
    Chapter 14: Boyer-Moore String Searching (2.2 MB)
    Chapter 15: Linked Lists and Unintended Challenges (2.1 MB)
    Chapter 16: There Ain't No Such Thing as the Fastest Code (4.7 MB)
    Chapter 17: The Game of Life (2.2 MB)
    Chapter 18: It's a Wonderful Life (4.2 MB)
    Chapter 19: Pentium: Not the Same Old Song (1.4 MB)
    Chapter 20: Pentium Rules (5.8 MB)
    Chapter 21: Unleashing the Pentium's V-pipe (0.8 MB)
    Chapter 22: Zenning and the Flexible Mind (0.5 MB)
    Chapter 23: Bones and Sinew (5.2 MB)
    Chapter 24: Parallel Processing with the VGA (2.9 MB)
    Chapter 25: VGA Data Machinery (2.7 MB)
    Chapter 26: VGA Write Mode 3 (2.4 MB)
    Chapter 27: Yet Another VGA Write Mode (3.5 MB)
    Chapter 28: Reading VGA Memory (0.8 MB)
    Chapter 29: Saving Screens and Other VGA Mysteries (1 MB)
    Chapter 30: Video Est Omnis Divisa (1.1 MB)
    Chapter 31: Higher 256-Color Resolution on the VGA (1.5 MB)
    Chapter 32: Be It Resolved: 360x480 (0.8 MB)
    Chapter 33: Yogi Bear and Eurythmics Confront VGA Colors (2.9 MB)
    Chapter 34: Changing Colors without Writing Pixels (1 MB)
    Chapter 35: Bresenham Is Fast, and Fast Is Good (1.2 MB)
    Chapter 36: The Good, theBad, and the Run-Sliced (0.9 MB)
    Chapter 37: Dead Cats and Lightning Lines (0.7 MB)
    Chapter 38: The Polygon Primeval (3.9 MB)
    Chapter 39: Fast Convex Polygons (4.2 MB)
    Chapter 40: Of Songs, Taxes, and the Simplicity of Complex Polygons (1 MB)
    Chapter 41: Those Way-Down Polygon Nomenclature Blues (0.8 MB)
    Chapter 42: Wu'ed in Haste; Fried, Stewed at Leisure (1.5 MB)
    Chapter 43: Bit-Plane Animation (5.6 MB)
    Chapter 44: Split Screens Save the Page-Flipped Day (1.2 MB)
    Chapter 45: Dog Hair and Dirty Rectangles (2.5 MB)
    Chapter 46: Who Was that Masked Image? (0.9 MB)
    Chapter 47: Mode X: 256-Color VGA Magic (1.5 MB)
    Chapter 48: Mode X Marks the Latch (1.9 MB)
    Chapter 49: Mode X 256-Color Animation (2.7 MB)
    Chapter 50: Adding a Dimension (1.3 MB)
    Chapter 51: Sneakers in Space (1.6 MB)
    Chapter 52: Fast 3-D Animation: Meet X-Sharp (0.9 MB)
    Chapter 53: Raw Speed and More (0.9 MB)
    Chapter 54: 3-D Shading (1.1 MB)
    Chapter 55: Color Modeling in 256-Color Mode (2.3 MB)
    Chapter 56: Pooh and the Space Station (1.8 MB)
    Chapter 57: 10,000 Freshly Sheared Sheep on the Screen (2.2 MB)
    Chapter 58: Heinlein's Crystal Ball, Spock's Brain, and the 9-Cycle Dare (2.2 MB)
    Chapter 59: The Idea of BSP Trees (1.6 MB)
    Chapter 60: Compiling BSP Trees (0.8 MB)
    Chapter 61: Frames of Reference (0.9 MB)
    Chapter 62: One Story, Two Rules, and a BSP Renderer (0.8 MB)
    Chapter 63: Floating-Point for Real-Time 3-D (0.6 MB)
    Chapter 64: Quake's Visible-Surface Determination (2 MB)
    Chapter 65: 3-D Clipping and Other Thoughts (1.6 MB)
    Chapter 66: Quake's Hidden-Surface Removal (0.7 MB)
    Chapter 67: Sorted Spans in Action (0.8 MB)
    Chapter 68: Quake's Lighting Model (1.8 MB)
    Chapter 69: Surface Caching and Quake's Triangle Models (0.9 MB)
    Chapter 70: Quake: A Post-Mortem and a Glimpse into the Future (1.9 MB)
    Afterword (0.1 MB)
    Index (2.2 MB)

    Source code (1.7 MB)

    Graphics Programming Black Book (C) 2001 Michael Abrash

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    User Feedback

    Guest giuseppe


    You are a big Man!

    Thanks !

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    So Mode-X rings a bell, those good ol times.its nice but very dated. I got old books who mention this mode. It.s more for advanced engine programmers gettingnthe most out off the limited hardware under dos. In the past.
    Might be a big part is still useable in modern times.

    Well I'am just starting. Slowly. I wonder if ASM is still done does any dev use it it critical section of modern engines.
    Also guess C is more exception.
    I geuss for me it could be confusing and to advance.

    Well as I look into the future and just starting to learn so I expect in a few years i might get something simple done. As mainstream hardware shift to newer stuff and dev current API get much more common. I now focus on latest API DX11 in my case.
    And C++11 .

    Also with common modern hardware the surplus computing power and very huge limits barrieres. some is sacrifice for ease of development.

    Well the first time i came in touch wich coding was 20 years ago. Machine code for a Z80 wenn I was a student.

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