The Compiler Design Handbook
Optimizations and Machine Code Generation, Second Edition
- 784 pages
- English
- PDF
- Available on iOS & Android
The Compiler Design Handbook
Optimizations and Machine Code Generation, Second Edition
About This Book
Today's embedded devices and sensor networks are becoming more and more sophisticated, requiring more efficient and highly flexible compilers. Engineers are discovering that many of the compilers in use today are ill-suited to meet the demands of more advanced computer architectures.
Updated to include the latest techniques, The Compiler Design Handbook, Second Edition offers a unique opportunity for designers and researchers to update their knowledge, refine their skills, and prepare for emerging innovations. The completely revised handbook includes 14 new chapters addressing topics such as worst case execution time estimation, garbage collection, and energy aware compilation. The editors take special care to consider the growing proliferation of embedded devices, as well as the need for efficient techniques to debug faulty code. New contributors provide additional insight to chapters on register allocation, software pipelining, instruction scheduling, and type systems.
Written by top researchers and designers from around the world, The Compiler Design Handbook, Second Edition gives designers the opportunity to incorporate and develop innovative techniques for optimization and code generation.
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Table of contents
- Front cover
- Table of Contents
- Chapter 1. Worst-Case Execution Time and Energy Analysis
- Chapter 2. Static Program Analysis for Security
- Chapter 3. Compiler-Aided Design of Embedded Computers
- Chapter 4. Whole Execution Traces and Their Use in Debugging
- Chapter 5. Optimizations for Memory Hierarchies
- Chapter 6. Garbage Collection Techniques
- Chapter 7. Energy-Aware Compiler Optimizations
- Chapter 8. Statistical and Machine Learning Techniques in Compiler Design
- Chapter 9. Type Systems: Advances and Applications
- Chapter 10. Dynamic Compilation
- Chapter 11. The Static Single Assignment Form: Construction and Application to Program Optimization
- Chapter 12. Shape Analysis and Applications1
- Chapter 13. Optimizations for Object-Oriented Languages
- Chapter 14. Program Slicing
- Chapter 15. Computations on Iteration Spaces
- Chapter 16. Architecture Description Languages for Retargetable Compilation
- Chapter 17. Instruction Selection Using Tree Parsing
- Chapter 18. A Retargetable Very Long Instruction Word Compiler Framework for Digital Signal Processors
- Chapter 19. Instruction Scheduling
- Chapter 20. Advances in Software Pipelining
- Chapter 21. Advances in Register Allocation Techniques
- Index
- Back cover