Optimizing Game Physics for Performance
( 24 Modules )

Module #1
Introduction to Game Physics Optimization
Overview of the importance of physics optimization in game development, course objectives, and prerequisites

Module #2
Physics Engines and Their Limitations
Comparison of popular physics engines, their strengths and weaknesses, and optimization challenges

Module #3
Understanding Physics-Based Game Mechanics
In-depth look at common physics-based game mechanics, such as collision detection, rigidbody dynamics, and soft body simulations

Module #4
Performance Profiling and Debugging Tools
Introduction to performance profiling and debugging tools, such as FPS counters, debug rendering, and performance analysis software

Module #5
Optimizing Collision Detection
Techniques for optimizing collision detection, including spatial partitioning, sweep and prune, and broad-phase collision detection

Module #6
Rigidbody Optimization Techniques
Methods for optimizing rigidbody simulations, including constraint-based simulations, impulse-based collision response, and mass aggregation

Module #7
Soft Body Simulation Optimization
Techniques for optimizing soft body simulations, including mesh-based simulations, mass-spring systems, and reduced-coordinate models

Module #8
Level of Detail (LOD) and Instancing
Using level of detail and instancing to reduce physics simulation overhead, including techniques for selecting and implementing LOD and instancing

Module #9
Culling and Occlusion Techniques
Methods for reducing physics simulation overhead through culling and occlusion, including sphere casting, ray casting, and occlusion queries

Module #10
Multi-Threading and Parallelization
Techniques for parallelizing physics simulations, including thread pools, job systems, and data parallelism

Module #11
Physics-Based Animation Optimization
Methods for optimizing physics-based animations, including character controllers, animation blending, and procedural animation

Module #12
Vehicle Physics Optimization
Techniques for optimizing vehicle physics, including wheel simulation, suspension simulation, and driver modeling

Module #13
Fluid and Gas Simulation Optimization
Methods for optimizing fluid and gas simulations, including lattice Boltzmann methods, smooth particle hydrodynamics, and vortex methods

Module #14
Debris and Destruction Simulation Optimization
Techniques for optimizing debris and destruction simulations, including chunking, clustering, and level of detail

Module #15
Optimizing Physics for Multiplayer Games
Challenges and techniques for optimizing physics in multiplayer games, including client-server architecture and synchronization

Module #16
Physics Optimization for Mobile and Web Platforms
Unique challenges and optimization techniques for physics-based games on mobile and web platforms

Module #17
Tools and Scripting for Physics Optimization
Introduction to tools and scripting languages for physics optimization, including Visual Scripting, C#, and Python

Module #18
Automated Physics Optimization Techniques
Using machine learning and automated workflows to optimize physics simulations, including neural network-based optimization and evolutionary algorithms

Module #19
Physics Optimization for VR and AR
Unique challenges and optimization techniques for physics-based games in virtual and augmented reality

Module #20
Physics Optimization for Open-World Games
Challenges and techniques for optimizing physics in open-world games, including streaming, occlusion, and level of detail

Module #21
Physics Optimization for Physics-Based puzzle Games
Unique challenges and optimization techniques for physics-based puzzle games, including constraint-based simulations and soft body simulations

Module #22
Physics Optimization for Real-Time Strategy Games
Challenges and techniques for optimizing physics in real-time strategy games, including unit simulation, building destruction, and terrain simulation

Module #23
Physics Optimization for Simulation Games
Unique challenges and optimization techniques for physics-based simulation games, including farming simulations, sports simulations, and medical simulations

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Optimizing Game Physics for Performance career

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Optimizing Game Physics for Performance ( 24 Modules )

Optimizing Game Physics for Performance
( 24 Modules )