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30 April 2019 Machine understanding of domain computation for Domain-Specific System-on-Chips (DSSoC)
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Heterogeneous system-on-chips (SoC) can increase the energy-efficiency of domain-specific computation by orders of magnitude compared to scalar processors. High-performance systems can be generated procedurally through example-driven inference of a domain of computation to facilitate the design of domain-specific SoCs. This paper focuses on the domain of signal processing as it plays a recurring and important role in automation. The expertise required to build processors well-suited to a specific computation domain, rather than a single application or general computation, is inferred through the statistical analysis of computation, hardware, and their affinity for each other. This paper highlights the development of an ontological inference engine to achieve this goal.
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Richard Uhrie, Daniel W. Bliss, Chaitali Chakrabarti, Umit Y. Ogras, and John Brunhaver "Machine understanding of domain computation for Domain-Specific System-on-Chips (DSSoC)", Proc. SPIE 11015, Open Architecture/Open Business Model Net-Centric Systems and Defense Transformation 2018, 110150O (30 April 2019);

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