Free Download The Art of Writing Efficient Programs: An advanced programmer’s guide to efficient hardware utilization and compiler optimizations using C++ examples by Fedor G. Pikus
English | October 22, 2021 | ISBN: 1800208111 | 464 pages | MOBI | 12 Mb
Become a better programmer with performance improvement techniques such as concurrency, lock-free programming, atomic operations, parallelism, and memory management
Key Features
Learn proven techniques from a heavyweight and recognized expert in C++ and high-performance computing
Understand the limitations of modern CPUs and their performance impact
Find out how you can avoid writing inefficient code and get the best optimizations from the compiler
Learn the tradeoffs and costs of writing high-performance programs
Book Description
The great free lunch of "performance taking care of itself" is over. Until recently, programs got faster by themselves as CPUs were upgraded, but that doesn’t happen anymore. The clock frequency of new processors has almost peaked, and while new architectures provide small improvements to existing programs, this only helps slightly. To write efficient software, you now have to know how to program by making good use of the available computing resources, and this book will teach you how to do that.
The Art of Efficient Programming covers all the major aspects of writing efficient programs, such as using CPU resources and memory efficiently, avoiding unnecessary computations, measuring performance, and how to put concurrency and multithreading to good use. You’ll also learn about compiler optimizations and how to use the programming language (C++) more efficiently. Finally, you’ll understand how design decisions impact performance.
By the end of this book, you’ll not only have enough knowledge of processors and compilers to write efficient programs, but you’ll also be able to understand which techniques to use and what to measure while improving performance. At its core, this book is about learning how to learn.
What you will learn
Discover how to use the hardware computing resources in your programs effectively
Understand the relationship between memory order and memory barriers
Familiarize yourself with the performance implications of different data structures and organizations
Assess the performance impact of concurrent memory accessed and how to minimize it
Discover when to use and when not to use lock-free programming techniques
Explore different ways to improve the effectiveness of compiler optimizations
Design APIs for concurrent data structures and high-performance data structures to avoid inefficiencies
Who this book is for
This book is for experienced developers and programmers who work on performance-critical projects and want to learn new techniques to improve the performance of their code. Programmers in algorithmic trading, gaming, bioinformatics, computational genomics, or computational fluid dynamics communities will get the most out of the examples in this book, but the techniques are fairly universal. Although this book uses the C++ language, the concepts demonstrated in the book can be easily transferred or applied to other compiled languages such as C, Java, Rust, Go, and more.
Table of Contents
Introduction to Performance and Concurrency
Performance Measurements
CPU Architecture, Resources, and Performance Implications
Memory Architecture and Performance
Threads, Memory, and Concurrency
Concurrency and Performance
Data Structures for Concurrency
Concurrency in C++
High-Performance C++
Compiler Optimizations in C++
Undefined Behavior and Performance
Design for Performance
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