Authors
Paul D Franzon, Eric Rotenberg, James Tuck, Huiyang Zhou, W Rhett Davis, Hongwen Dai, Joonmoo Huh, Sunkgwan Ku, Steve Lipa, Chao Li, Jong Beom Park, Joshua Schabel
Publication date
2014/12/1
Conference
2014 International 3D Systems Integration Conference (3DIC)
Pages
1-3
Publisher
IEEE
Description
This paper describes a 3D computer architecture designed to achieve the lowest possible power consumption for “embedded applications” like radar and signal processing. It introduces several unique concepts including a low-power SIMD tile, low-power 3D memories, and 3D and 2.5D interconnect that is circuit switched so it can be tuned at run-time for a specific application. When conservatively projected to the 7 nm node, simulations of the architecture show potential for exceeding 75 GFLOPS/W, about 20x better than today's CPUs and GPUs. This translates to 13 pJ/FLOP. This paper will focus on the 3D specific aspects of the design. This architecture is highly suited to DSP and multimedia workflows.
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Scholar articles
PD Franzon, E Rotenberg, J Tuck, H Zhou, WR Davis… - 2014 International 3D Systems Integration Conference …, 2014