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C++ High Performance

You're reading from   C++ High Performance Master the art of optimizing the functioning of your C++ code

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Product type Paperback
Published in Dec 2020
Publisher Packt
ISBN-13 9781839216541
Length 544 pages
Edition 2nd Edition
Languages
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Authors (2):
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Viktor Sehr Viktor Sehr
Author Profile Icon Viktor Sehr
Viktor Sehr
Björn Andrist Björn Andrist
Author Profile Icon Björn Andrist
Björn Andrist
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Toc

Table of Contents (17) Chapters Close

Preface 1. A Brief Introduction to C++ 2. Essential C++ Techniques FREE CHAPTER 3. Analyzing and Measuring Performance 4. Data Structures 5. Algorithms 6. Ranges and Views 7. Memory Management 8. Compile-Time Programming 9. Essential Utilities 10. Proxy Objects and Lazy Evaluation 11. Concurrency 12. Coroutines and Lazy Generators 13. Asynchronous Programming with Coroutines 14. Parallel Algorithms 15. Other Books You May Enjoy
16. Index

The properties of computer memory

C++ treats memory as a sequence of cells. The size of each cell is 1 byte, and each cell has an address. Accessing a byte in memory by its address is a constant-time operation, O(1), in other words, it's independent of the total number of memory cells. On a 32-bit machine, you can theoretically address 232 bytes, that is, around 4 GB, which restricts the amount of memory a process is allowed to use at once. On a 64-bit machine, you can theoretically address 264 bytes, which is so big that there is hardly any risk of running out of addresses.

The following figure shows a sequence of memory cells laid out in memory. Each cell contains 8 bits. The hexadecimal numbers are the addresses of the memory cells:

Figure 4.1: A sequence of memory cells

Since accessing a byte by its address is an O(1) operation, from a programmer's perspective, it's tempting to believe that each memory cell is equally quick to access. This approach...

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