One very straightforward way to implement concurrency is at the operating system level, using processes. A process is a self-contained program running within its own address space. A multitasking operating system can run more than one process (program) at a time by periodically switching the CPU from one process to another, while making it look as if each process is chugging along on its own.Processes are very attractive because the operating system usually isolates one process from another so they cannot interfere with each other, which makes programming with processes relatively easy. In contrast, concurrent systems like the one used in Java share resources like memory and I/O, so the fundamental difficulty in writing multithreaded programs is coordinating the use of these resources between different thread-driven tasks, so that they cannot be accessed by more than one task at a time.
Java took the more traditional approach of adding support for threading on top of a sequential language. Instead of forking external processes in a multitasking operating system, threading creates tasks within the single process represented by the executing program. One advantage that this provided was operating system transparency, which was an important design goal for Java. For example, the pre-OSX versions of the Macintosh operating system (a reasonably important target for the first versions of J ava) did not support multitasking. Unless multithreading had been added to J ava, any concurrent Java programs wouldn’t have been portable to the Macintosh and similar platforms, thus breaking the "write once/run everywhere" requirement.
Concurrent programming allows you to partition a program into separate, independently running tasks. Using multithreading, each of these independent tasks (also called subtasks) is driven by a thread of execution. A thread is a single sequential flow of control within a process. A single process can thus have multiple concurrently executing tasks, but you program as if each task has the CPU to itself. An underlying mechanism divides up the CPU time for you, but in general, you don’t need to think about it.The threading model is a programming convenience to simplify juggling several operations at the same time within a single program: The CPU will pop around and give each task some of its time. Each task has the consciousness of constantly having the CPU to itself, but the CPU’s time is being sliced among all the tasks (except when the program is actually running on multiple CPUs). One of the great things about threading is that you are abstracted away from this layer, so your code does not need to know whether it is running on a single CPU or many. Thus, using threads is a way to create transparently scalable programs—if a program is running too slowly, you can easily speed it up by adding CPUs to your computer. Multitasking and multithreading tend to be the most reasonable ways to utilize multiprocessor systems.
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