一种基于磁隧穿结存储器的可重构计算结构

2013 23rd International Conference on Field programmable Logic and Applications Pub Date : 2013-10-24 DOI:10.1109/FPL.2013.6645616

Victor Silva, J. Fernandes, M. Véstias, H. Neto

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引用次数: 2

摘要

这项工作提出了一种新的动态可重构架构，该架构使用磁性隧道结来实现非易失性可重构存储器。基于磁性的存储元件进一步提供了一个非常有效的多上下文平面的实现。所提出的体系结构被组织为双精度浮点运行时可重构执行单元的二维数组。配置信息定义要执行的操作以及执行单元内部和执行单元之间的数据流。针对65nm CMOS技术，实现了一种粗粒度可重构阵列的原型设计。得到的结果证实了所提出的结构提供了显著的计算密度，并且磁存储器提供了非常区域高效的基于多上下文的运行时可重构性。

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A reconfigurable computing architecture using magnetic tunneling junction memories

This work presents a new dynamically reconfigurable architecture that uses magnetic tunneling junctions to implement non-volatile reconfiguration memories. The magnetic-based storage elements further provide a very effective implementation of multi-context planes. The proposed architecture is organized as a 2-dimensional array of double precision floating-point run-time reconfigurable execution units. The configuration information defines the operation to be executed and the data flow intra and inter execution units. A prototype design of the coarse-grained reconfigurable array has been implemented targeting a 65nm CMOS technology. The obtained results confirm that the proposed architecture provides a significant computational density and that the magnetic memories provide a very area efficient multi-context based run-time reconfigurability.

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2013 23rd International Conference on Field programmable Logic and Applications

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