Parallel processing in industrial real-time applications
Parallel processing in industrial real-time applications
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Parallel computation: models and methods
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Principles of superconductive devices and circuits, (second ed.)
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Real-Time Database and Information
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ISPAN '00 Proceedings of the 2000 International Symposium on Parallel Architectures, Algorithms and Networks
A parallel approach eliminates measurement perturbations in RLC circuits
The Journal of Supercomputing
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UC'05 Proceedings of the 4th international conference on Unconventional Computation
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This paper is concerned with computations whose characteristics are akin to certain unique phenomena that occur in different domains of science. We are particularly interested in systems whose parameters are altered unpredictably whenever one of these parameters is measured or modified. Examples of such computational environments include those in which Heisenberg's uncertainty principle of quantum physics is witnessed, or those in which Le Chatelier's principle of chemical systems under stress manifests itself. A study of these systems uncovers computations that are inherently parallel in the strong sense, meaning that they are efficiently executed in parallel, but impossible to carry out sequentially.