混合计算平台上大规模皮质模拟的体系结构设计与复杂性分析

2007 IEEE Symposium on Computational Intelligence in Security and Defense Applications Pub Date : 2007-04-01 DOI:10.1109/CISDA.2007.368154

Qing Wu, Qinru Qiu, R. Linderman, Daniel J. Burns, Michael J. Moore, D. Fitzgerald

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引用次数: 6

摘要

人类认知功能建模与仿真的研究与发展需要一个高性能的计算平台来处理大规模的数学模型。传统的计算体系结构在算法计算和通信带宽方面无法满足随之而来的需求。在这项工作中，我们提出了一种新的混合计算架构，用于大规模联想神经记忆模型的模拟和评估。该体系结构结合了硬件加速计算、并行分布式数据操作和发布/订阅协议等技术，实现了很高的计算和通信性能。分析了实现大规模脑状态盒(BSB)模型的计算量和数据带宽需求。与传统的计算体系结构相比，所提出的体系结构可以实现至少100倍的加速。

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Architectural Design and Complexity Analysis of Large-Scale Cortical Simulation on a Hybrid Computing Platform

Research and development in modeling and simulation of human cognizance functions requires a high-performance computing platform for manipulating large-scale mathematical models. Traditional computing architectures cannot fulfill the attendant needs in terms of arithmetic computation and communication bandwidth. In this work, we propose a novel hybrid computing architecture for the simulation and evaluation of large-scale associative neural memory models. The proposed architecture achieves very high computing and communication performances by combining the technologies of hardware-accelerated computing, parallel distributed data operation and the publish/subscribe protocol. Analysis has been done on the computation and data bandwidth demands for implementing a large-scale brain-state-in-a-box (BSB) model. Compared to the traditional computing architecture, the proposed architecture can achieve at least 100X speedup.

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来源期刊

2007 IEEE Symposium on Computational Intelligence in Security and Defense Applications

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