Parallel Distributed Computing role in Networking
The simultaneous growth in availability of big data and in the number of simultaneous users on the Internet places particular pressure on the need to carry out computing tasks “in parallel,” or simultaneously. Parallel and distributed computing occurs across many different topic areas in computer science, including algorithms, computer architecture, networks, operating systems, and software engineering. During the early 21st century there was explosive growth in multiprocessor design and other strategies for complex applications to run faster. Parallel and distributed computing builds on fundamental systems concepts, such as concurrency, mutual exclusion, consistency in state/memory manipulation, message-passing, and shared-memory models.
Creating a multiprocessor from a number of single CPUs requires physical links and a mechanism for communication among the processors so that they may operate in parallel. Tightly coupled multiprocessors share memory and hence may communicate by storing information in memory accessible by all processors. Loosely coupled multiprocessors, including computer networks, communicate by sending messages to each other across the physical links. Computer scientists have investigated various multiprocessor architectures. For example, the possible configurations in which hundreds or even thousands of processors may be linked together are examined to find the geometry that supports the most efficient system throughput.
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