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The Art of Writing Efficient Programs

You're reading from   The Art of Writing Efficient Programs An advanced programmer's guide to efficient hardware utilization and compiler optimizations using C++ examples

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Product type Paperback
Published in Oct 2021
Publisher Packt
ISBN-13 9781800208117
Length 464 pages
Edition 1st Edition
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Author (1):
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Fedor G. Pikus Fedor G. Pikus
Author Profile Icon Fedor G. Pikus
Fedor G. Pikus
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Table of Contents (18) Chapters Close

Preface 1. Section 1 – Performance Fundamentals
2. Chapter 1: Introduction to Performance and Concurrency FREE CHAPTER 3. Chapter 2: Performance Measurements 4. Chapter 3: CPU Architecture, Resources, and Performance 5. Chapter 4: Memory Architecture and Performance 6. Chapter 5: Threads, Memory, and Concurrency 7. Section 2 – Advanced Concurrency
8. Chapter 6: Concurrency and Performance 9. Chapter 7: Data Structures for Concurrency 10. Chapter 8: Concurrency in C++ 11. Section 3 – Designing and Coding High-Performance Programs
12. Chapter 9: High-Performance C++ 13. Chapter 10: Compiler Optimizations in C++ 14. Chapter 11: Undefined Behavior and Performance 15. Chapter 12: Design for Performance 16. Assessments 17. Other Books You May Enjoy

Optimization of conditional execution

After the unnecessary computations and inefficient use of memory, the next easiest way to write inefficient code that fails to utilize a large fraction of available computing resources is probably code that does not pipeline well. We have seen the importance of CPU pipelining in Chapter 3, CPU Architecture, Resources, and Performance Implications. We have also learned there that the worst disruptor of pipelining is usually a conditional operation, especially the one that the hardware branch predictor fails to guess.

Unfortunately, optimizing conditional code for better pipelining is one of the hardest C++ optimizations. It should be undertaken only if the profiler shows poor branch prediction. Note, however, that the number of mispredicted branches does not have to be large to be considered “poor”: a good program will typically have less than 0.1% of mispredicted branches. The misprediction rate of 1% is quite large. It is also...

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