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  • Unity 2017 Game Optimization
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Unity 2017 Game Optimization

Unity 2017 Game Optimization

By : Dickinson
5 (1)
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Unity 2017 Game Optimization

Unity 2017 Game Optimization

5 (1)
By: Dickinson

Overview of this book

Unity is an awesome game development engine. Through its massive feature-set and ease-of-use, Unity helps put some of the best processing and rendering technology in the hands of hobbyists and professionals alike. This book shows you how to make your games fly with the recent version of Unity 2017, and demonstrates that high performance does not need to be limited to games with the biggest teams and budgets. Since nothing turns gamers away from a game faster than a poor user-experience, the book starts by explaining how to use the Unity Profiler to detect problems. You will learn how to use stopwatches, timers and logging methods to diagnose the problem. You will then explore techniques to improve performance through better programming practices. Moving on, you will then learn about Unity’s built-in batching processes; when they can be used to improve performance, and their limitations. Next, you will import your art assets using minimal space, CPU and memory at runtime, and discover some underused features and approaches for managing asset data. You will also improve graphics, particle system and shader performance with a series of tips and tricks to make the most of GPU parallel processing. You will then delve into the fundamental layers of the Unity3D engine to discuss some issues that may be difficult to understand without a strong knowledge of its inner-workings. The book also introduces you to the critical performance problems for VR projects and how to tackle them. By the end of the book, you will have learned to improve the development workflow by properly organizing assets and ways to instantiate assets as quickly and waste-free as possible via object pooling.
Table of Contents (10 chapters)
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Preface
Preface
What this book covers
What you need for this book
Who this book is for
Conventions
Reader feedback
Customer support
Free Chapter
1
Pursuing Performance Problems
Pursuing Performance Problems
The Unity Profiler
Best approaches to performance analysis
Final thoughts on Profiling and Analysis
Summary
2
Scripting Strategies
Scripting Strategies
Obtain Components using the fastest method
Remove empty callback definitions
Cache Component references
Share calculation output
Update, Coroutines, and InvokeRepeating
Faster GameObject null reference checks
Avoid retrieving string properties from GameObjects
Use appropriate data structures
Avoid re-parenting Transforms at runtime
Consider caching Transform changes
Avoid Find() and SendMessage() at runtime
Disable unused scripts and objects
Consider using distance-squared over distance
Minimize Deserialization behavior
Load scenes additively and asynchronously
Create a custom Update() layer
Summary
3
The Benefits of Batching
The Benefits of Batching
Draw Calls
Materials and Shaders
The Frame Debugger
Dynamic Batching
Static Batching
Summary
4
Kickstart Your Art
Kickstart Your Art
Audio
Texture files
Mesh and animation files
Asset Bundles and Resources
Summary
5
Faster Physics
Faster Physics
Physics Engine internals
Physics performance optimizations
Summary
6
Dynamic Graphics
Dynamic Graphics
The Rendering Pipeline
Detecting performance issues
Rendering performance enhancements
Summary
7
Virtual Velocity and Augmented Acceleration
Virtual Velocity and Augmented Acceleration
XR Development
Performance enhancements
Summary
8
Masterful Memory Management
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Masterful Memory Management
The Mono platform
Code compilation
Profiling memory
Memory management performance enhancements
The future of Unity, Mono, and IL2CPP
Summary
9
Tactical Tips and Tricks
Tactical Tips and Tricks
Editor hotkey tips
Editor UI tips
Scripting tips
Custom Editor scripts and menu tips
External tips
Summary

Code compilation

When we make changes to our C# code, it is automatically compiled when we switch back from our favorite IDE (which is typically either MonoDevelop or the much more feature-rich Visual Studio) to the Unity Editor. However, the C# code is not converted directly into Machine Code, as we would expect static compilers to do if we are using languages such as C++.

Instead, the code is converted into an intermediate stage called Common Intermediate Language (CIL), which is an abstraction above Native Code. This is how .NET can support multiple languages--each uses a different compiler, but they're all converted into CIL, so the output is effectively the same regardless of the language that we pick. CIL is similar to Java bytecode, upon which it is based, and the CIL code is entirely useless on its own, as CPUs have no idea how to run the instructions defined in this...

End of Section 3
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