h264, yuv420p, 1280×720 |ENGLISH, aac, 44100 Hz, 2 channels, s16 | 7h 11 mn | 3.09 GB
Instructor: Engineer Spock
Overcome multithreading and asynchronous programming in C# problems & improve performance by parallel computing in C#
What you’ll learn
Be able to use a full power of TPL (task parallel library) by using Tasks
Understand the low-level of Threads
Understand all the basic concepts such as “Thread”, “Process”; difference between “asynchrony”, “concurrency”, “multithreading”, and “parallel computing”
Use the full power of synchronization constructs such as Monitor (lock), Interlocked, ReaderWriterLockSlim, Semaphore, SynchronizationContext
Use the full power of signaling constructs such as AutoResetEvent and ManualResetEventSlim, CountdownEvent and Barrier, Mutex
Use spinners where appropriate: SpinLock, SpinWait
Understand and use Immutable and Concurrent Collections
Harness the power of parallel computing by using PFX components: Parallel class and PLINQ
Requirements
Good understanding of C#
Description
For the last two decades, computers became faster by increasing the number of CPU cores. However, the fact of having more cores itself doesn’t make a computer drastically faster if those cores are not used by software properly. We, as software developers, should know how to write asynchronous and parallel executing code to make our applications faster and more responsive.
This course is all about developing more responsive and fast programs. Multithreading and Parallel Computing are topics for those who already have some experience in programming, otherwise, you may face difficulties with understanding the content. Anyway, this course covers:
Theoretical foundations of asynchronous programming: main concepts, processes, threads and so on
Low-level Thread API, APM, and EAP
Task Parallel Library (TPL) including starting tasks, canceling tasks, chaining tasks, waiting for tasks, IO-based tasks, exceptions handling and other
Async and Await feature of C#
Synchronization including atomicity, Interlocked, Monitor (lock), ReaderWriterLockSlim, Semaphore, SynchronizationContext, and Mutex
Signaling constructs such as AutoResetEvent and ManualResetEventSlim, CountdownEvent and Barrier
Spinning including SpinWait, SpinLock and our own UpdateableSpin
ConcurrentCollections including ImmutableStack, ImmutableQueue, ImmutableList, Immutable Sets, ImmutableDictionary, ConcurrentStack, ConcurrentQueue, ConcurrentBag, BlockingCollection
Parallel Programming including Parallel class and PLINQ
Enroll and start learning the foundations of multithreading and parallel computing in .NET.
Who this course is for:
Any C# developer who wants to learn about multithreading and parallel computing in C#
Any C# developer who wants to have a good reminder (about multithreading-related stuff) at hand
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