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3D-Enabled Customizable Embedded Computer (3DECC)

3D-Enabled Customizable Embedded Computer (3DECC). Paul Franzon, Other Authors. Results. Vision. Predicting power at 7. nm. Allows fast option exploration Compute only power:. Approximate upper bound on energy efficiency of 1D FFT: Unpipelined , zero-overhead.

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3D-Enabled Customizable Embedded Computer (3DECC)

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  1. 3D-Enabled Customizable Embedded Computer (3DECC) Paul Franzon, Other Authors Results Vision Predicting power at 7 nm Allows fast option exploration Compute only power: • Approximate upper bound on energy efficiency of 1D FFT: • Unpipelined, zero-overhead • 3D-specific and 3D-optimized • Large amounts of low-power interconnect • Heterogeneous integration • Permits static and dynamic customization Other Concepts. • Concept: • Global interconnect structure(s) tuned to one or a set of applications • Determined through analysis of control flow graph and MPI calls Tool-Based Design Tools to generate SCLs: Motivation Completed a scaling study based on published information Generated energy/op tables for a wide range of micro-operations based on synthesized results and research SOA Use to predict power for a specific workload Benchmarks Conclsions • Exploration:

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