数字大脑计算效率低功耗神经元模型

2018 14th International Conference on Computational Intelligence and Security (CIS) Pub Date : 2018-11-01 DOI:10.1109/CIS2018.2018.00009

A. Mehmood, M. Iqbal, H. Dawood, Ping Guo

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引用次数: 0

摘要

现代超级计算机能够执行每秒千万亿次的基本运算。这种能力与人类大脑的计算能力相当。超级计算机所需的电力供应以兆瓦为单位，而人类大脑只需几瓦就能完成与现代超级计算机相同的基本操作。因此，考虑到大脑的神经形态结构，并试图在硬件芯片上模拟它，以构建能够以与人脑相同的方式运作的计算机，可以将超级计算机的功耗降低(约10倍)。在本文中，我们提出了建立单个脑细胞的模型，这个模型可以被复制，以建立具有超级计算机计算能力但能量供应与人脑相当的整个大脑模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Computationally Efficient Low Power Neuron Model for Digital Brain

Modern supercomputers are capable of performing elementary operations of the order of petaflops. This power is comparable with the computational power of a human brain. The power supply required by supercomputers is in megawatts while human brain requires few watts to perform the same elementary operations as the modern supercomputers can. Thus the power consumption of supercomputers can be reduced (about 10 times) by considering the neuromorphic structure of a brain and attempt to mimic it on hardware chip to construct the computer that can function in the same manner as the human brain. In this paper we have proposed to develop the model for single brain cell, that can be replicated to built the whole brain model having computational power of supercomputers but the energy supply comparable with human brain.

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2018 14th International Conference on Computational Intelligence and Security (CIS)

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