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Examines applications of transputers and OCCAM, including numerical, image processing, neural networks, natural language processing, networks and biological systems, as well as tools, routeing and mapping. The T9000 new generation transputer introduction is further discussed.
The papers included in this book provide a wide coverage of current thinking and the new concepts which are being developed resulting from the introduction of the T9000. The role and use of the newly developed transputer and associated routing component, the C104, is discussed, and the use of existing range of transputers in the embedded systems market is also dealt with.
Modern computing systems are built in terms of components and those components communicating. Communication systems imply concurrency, which is a theme of the WoTUG series. Traditionally concurrency has been taught, considered and experienced as an advanced and difficult topic. The thesis underlying this conference is that that idea is wrong. The natural world operates through continuous interaction of massive numbers of autonomous agents at all levels (sub-atomic, human, astronomic). It seems it is time to mature concurrency into a core engineering discipline that can be used on an everyday basis to simplify problem solutions, as well as to enable them. The goal of Communicating Process Architectures 2000 was to stimulate discussion and ideas as to the role concurrency should play in future generations of scalable computer infrastructure and applications - where scaling means the ability to ramp up functionality (stay in control as complexitiy increases) as well as physical metrics (such as performance).
Concurrency is an integral part of everyday life. The concept is so ingrained in our existence that we benefit from it without realizing. When faced with a taxing problem, we automatically involve others to solve it more easily. Such concurrent solutions to a complex problem may, however, not be quite straightforward and communication becomes crucial to ensure the successful solution of the problem.
The contributed chapters to this volume provide a broad coverage of the areas of research in current parallel computing: architectures, languages and tools, graphics and fault tolerance. Additionally, the Inmos approach to building an asynchronous transfer mode system and the University of Twente method for designing system-level embedded controllers are featured in this work.
The WoTUG series of conferences are a major forum for the presentation of state-of-the-art ideas on concurrency and communication. This book continues this trend, with these proceedings containing a number of papers that discuss a wide range of issues fundamental to the future of concurrency.
The research reports presented in this volume focus on the implications of the T9000 microprocessor, which offers new elements in transputing and parallel programming. Subjects discussed include genetic algorithms, image analysis, neural networks, robotics and parallel architectures.
During the past fifteen years concurrency in programming languages such as Java rose and fell, and again became popular. At this moment developers advise us to avoid concurrency in programming. They are using a host of deprecated methods in the latest releases How are we to understand the love-hate relationship with what should be a widely used approach of tackling real-world problems? The aim of rchitectures, Languages and Techniques is to encourage the safe, efficient and effective use of parallel computing. It is generally agreed that concurrency is found in most real applications and that it should be natural to use concurrency in programming. However, there has grown up a myth that conc...
Proceedings -- Parallel Computing.
This volume contains papers presented at the 18th meeting of the World Occam and Transputer User Group (Wotug). The papers cover a wide range of transputer and OCCAM-related topics, such as the the porting and development of the OCCAM language (highlighting the need for cross platform implementations of OCCAM compilers), design approaches and applications.