Michael Chu scite author profile

Abstract.A primary impediment to wide-spread exploitation of reconfigurable computing is the lack of a unifying computational model which allows application portability and longevity without sacrificing a substantial fraction of the raw capabilities. We introduce SCORE (Stream Computation Organized for Reconfigurable Execution), a stream-based compute model which virtualizes reconfigurable computing resources (compute, storage, and communication) by dividing a computation up into fixed-size "pages" and time-multiplexing the virtual pages on available physical hardware. Consequently, SCORE applications can scale up or down automatically to exploit a wide range of hardware sizes. We hypothesize that the SCORE model will ease development and deployment of reconfigurable applications and expand the range of applications which can benefit from reconfigurable execution. Further, we believe that a well engineered SCORE implementation can be efficient, wasting little of the capabilities of the raw hardware. In this abstract, we highlight the key components of the SCORE system.

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Mitigating Memory Wall Effects in High-Clock-Rate and Multicore CMOS 3-D Processor Memory Stacks

Philip

Zia

Erdogan

et al. 2009

Proc. IEEE

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A 40 Gs/s Time Interleaved ADC Using SiGe BiCMOS Technology

Chu

Philip

Kim

et al. 2010

IEEE J. Solid-State Circuits

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DataSplash: A Direct Manipulation Environment for Programming Semantic Zoom Visualizations of Tabular Data

Woodruff

Olston

Aiken

et al. 2001

Journal of Visual Languages & Computing

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Michael Chu

Integrating mobile Building Information Modelling and Augmented Reality systems: An experimental study

Stream Computations Organized for Reconfigurable Execution (SCORE)

Mitigating Memory Wall Effects in High-Clock-Rate and Multicore CMOS 3-D Processor Memory Stacks

A 40 Gs/s Time Interleaved ADC Using SiGe BiCMOS Technology

DataSplash: A Direct Manipulation Environment for Programming Semantic Zoom Visualizations of Tabular Data

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