Design of a 3-D stacked floating-point Goldschmidt divider

2015 International 3D Systems Integration Conference (3DIC) Pub Date : 2015-11-23 DOI:10.1109/3DIC.2015.7334598
J. Tada, Ryusuke Egawa, Hiroaki Kobayashi
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Abstract

In the design of 3-D stacked floating-point units, a partitioning method affects the performance and the power consumption. To realize a high-performance and low-power 3-D stacked floating point divider, this paper proposes a circuit partitioning method for the Goldschmidt divider. The proposed partitioning method equalizes the sizes of silicon layers and reduces the number of vertical interconnects. Experimental results show the 3-D stacked Goldschmidt divider which is designed based on the proposed partitioning method achieves an 8.1% critical path delay reduction and a 6.8% average power reduction compared to the 2-D implementation.
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三维堆叠型浮点Goldschmidt分法器的设计
在三维堆叠浮点单元的设计中,划分方法的优劣直接影响到浮点单元的性能和功耗。为了实现高性能、低功耗的三维堆叠式浮点除法器,本文提出了一种Goldschmidt除法器的电路划分方法。所提出的划分方法均衡了硅层的尺寸,减少了垂直互连的数量。实验结果表明,基于该方法设计的三维堆叠Goldschmidt分配器与二维分配器相比,关键路径延迟降低8.1%,平均功耗降低6.8%。
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2015 International 3D Systems Integration Conference (3DIC)
2015 International 3D Systems Integration Conference (3DIC)
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