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Mastering Concurrency Programming with Java 8

You're reading from   Mastering Concurrency Programming with Java 8 Master the principles and techniques of multithreaded programming with the Java 8 Concurrency API

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Product type Paperback
Published in Feb 2016
Publisher Packt
ISBN-13 9781785886126
Length 430 pages
Edition 1st Edition
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Author (1):
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Javier Fernández González Javier Fernández González
Author Profile Icon Javier Fernández González
Javier Fernández González
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Table of Contents (13) Chapters Close

Preface 1. The First Step – Concurrency Design Principles FREE CHAPTER 2. Managing Lots of Threads – Executors 3. Getting the Maximum from Executors 4. Getting Data from the Tasks – The Callable and Future Interfaces 5. Running Tasks Divided into Phases – The Phaser Class 6. Optimizing Divide and Conquer Solutions – The Fork/Join Framework 7. Processing Massive Datasets with Parallel Streams – The Map and Reduce Model 8. Processing Massive Datasets with Parallel Streams – The Map and Collect Model 9. Diving into Concurrent Data Structures and Synchronization Utilities 10. Integration of Fragments and Implementation of Alternatives 11. Testing and Monitoring Concurrent Applications Index

The Java memory model

When you execute a concurrent application in a computer with several cores or processors, you can have a problem with memory caches. They are very useful to increment the performance of the application, but they can cause data inconsistency. When a task modifies the value of a variable, it's modified in the cache, but it's not modified in the main memory immediately. If another task reads the value of that variable before it's updated in the main memory, it will read the old value of the variable.

Other problems that may exist with concurrent applications are the optimizations introduced by the compilers and code optimizer. Sometimes, they reorder the instructions to get a better performance. In sequential applications, this doesn't cause any problems, but in concurrent applications it can provoke unexpected results.

To solve problems such as this, programming languages introduced memory models. A memory model describes how individual tasks interact with each other through memory and when changes made by one task will be visible to another. It also defines what optimizations of code are allowed and under what circumstances.

There are different memory models. Some of them are very strict (all of the tasks always have access to the same values) and others are less stringent (only some instructions update the values in the main memory). The memory model must be known by the compiler and optimizer developers, and it's transparent to the rest of the programmers.

Java was the first programming language that defined its memory model. The original memory model defined in the JVM had some issues, and it was redefined in Java 5. That memory model is the same in Java 8. It's defined in JSR 133. Basically, the Java Memory Model defines the following:

  • It defines the behavior of the volatile, synchronized, and final keywords.
  • It ensures that a properly synchronized concurrent program runs correctly on all architectures.
  • It creates a partial ordering of the volatile read, volatile write, lock, and unlock instructions denominated as happens-before. Task synchronization helps us establish the happens-before relations too. If one action happens-before another, then the first is visible to and ordered before the second.
  • When a task acquires a monitor, the memory cache is invalidated.
  • When a task releases a monitor, the cache data is flushed into the main memory.
  • It's transparent for Java programmers.

The main objective of the Java memory model is that the properly written concurrent application will behave correctly on every Java Virtual Machine (JVM) regardless of operating system, CPU architecture, and the number of CPUs and cores.

You have been reading a chapter from
Mastering Concurrency Programming with Java 8
Published in: Feb 2016
Publisher: Packt
ISBN-13: 9781785886126
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