Free download and Learn Learn Multithreading with Modern C++ Udemy course with Torrent and google drive download link
Learn how to write portable threaded C++ code which unleashes the power of modern multi-processor hardware!
What you’ll learn in [Learn Multithreading with Modern C++
- How to write portable multi-threaded code in C++
- Basic principles of multi-threading which will be applicable in all languages
- Understanding of concurrency
- Knowledge of C++17 parallel algorithms
Requirements for Learn Multithreading with Modern C++
- Familiarity with Advanced Modern C++ features such as lambda expressions and move semantics
- Access to C++11 compiler (C++14 preferred.) Parallel algorithms require C++17
- Intended for students who have taken my courses “Learn Advanced Modern C++” or “Update to Modern C++”
- Proficiency in English (B2 level, preferably C1)
Learn Multithreading with Modern C++ Description
Multithreading is used in many areas of computing, including graphics processing, machine learning and Internet stores. An understanding of threads is essential to make full use of the capabilities of modern hardware.
C++ now provides direct support for threads, making it possible to write portable multithreaded programs which have well-defined behaviour, without requiring any external libraries.
This course thoroughly covers the basics of threading and will prepare you for more advanced work with threads. Source code is provided for all the examples. No previous knowledge of threading is required, but you should be comfortable with programming in C++ at an intermediate level.
The course begins by reviewing the newer features of C++ which are used in this course. If you want more thorough coverage, you can get this by taking my course “Learn Advanced Modern C++”.
We then cover the concepts of multithreading and learn how to launch threads in C++. We look at the problems which can occur with multiple threads and how to avoid them.
C++ provides tools which allow us to work at a higher level of abstraction than system threads which share data; we cover condition variables and promises with futures. We will also look at asynchronous, lock-free and parallel programming, including atomic variables and the parallel algorithms in C++17. We will finish the course by implementing a concurrent queue and thread pool, which will bring together the material you have learnt.
There are downloadable exercises for each video, with solutions, so you can check your understanding as you learn, gaining familiarity and confidence with the material. There are also some optional assignments, which are more challenging.
I will be actively supporting the course. I will respond promptly if you have any questions or experience difficulties with the course content. Please feel free to use the Q&A feature or alternatively you can send me a private message.
Who this course is for:
- Programmers with a good knowledge of C++ but little or no exposure to multithreading