Design of silicon brains in the nano-CMOS era: Spiking neurons, learning synapses and neural architecture optimization

CassidyA.S.; GeorgiouJ.; AndreouA.G.

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Design of silicon brains in the nano-CMOS era: Spiking neurons, learning synapses and neural architecture optimization

机译：纳米CMOS时代的硅脑设计：尖刺神经元，学习突触和神经架构优化

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We present a design framework for neuromorphic architectures in the nano-CMOS era. Our approach to the design of spiking neurons and STDP learning circuits relies on parallel computational structures where neurons are abstracted as digital arithmetic logic units and communication processors. Using this approach, we have developed arrays of silicon neurons that scale to millions of neurons in a single state-of-the-art Field Programmable Gate Array (FPGA). We demonstrate the validity of the design methodology through the implementation of cortical development in a circuit of spiking neurons, STDP synapses, and neural architecture optimization.

机译：我们提出了纳米CMOS时代神经形态架构的设计框架。我们设计尖峰神经元和STDP学习电路的方法依赖于并行计算结构，其中神经元被抽象为数字算术逻辑单元和通信处理器。使用这种方法，我们已经开发出了硅神经元阵列，可以在单个最新的现场可编程门阵列（FPGA）中扩展到数百万个神经元。我们通过在尖峰神经元，STDP突触和神经结构优化的电路中实现皮质发育来证明设计方法的有效性。

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《Neural Networks: The Official Journal of the International Neural Network Society》 |2013年第null期|共23页
作者
CassidyA.S.; GeorgiouJ.; AndreouA.G.;
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正文语种 eng
中图分类神经病学;
关键词
FPGA neural arrays; Learning in silicon; Neuromorphic engineering; Silicon brains; Silicon neurons;

机译：FPGA神经阵列;硅学习;神经形态工程;硅脑;硅神经元;

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1. Design of silicon brains in the nano-CMOS era: Spiking neurons, learning synapses and neural architecture optimization [J] . CassidyA.S., GeorgiouJ., AndreouA.G. Neural Networks: The Official Journal of the International Neural Network Society . 2013,第Null期

机译：纳米CMOS时代的硅脑设计：尖刺神经元，学习突触和神经架构优化
2. Design of silicon brains in the nano-CMOS era: Spiking neurons, learning synapses and neural architecture optimization [J] . CassidyA.S., GeorgiouJ., AndreouA.G. Neural Networks: The Official Journal of the International Neural Network Society . 2013,第Null期

机译：纳米CMOS时代硅脑设计：尖峰神经元，学习突触和神经结构优化
3. A CMOS Spiking Neuron for Brain-Inspired Neural Networks With Resistive Synapses and In Situ Learning [J] . Wu Xinyu, Saxena Vishal, Zhu Kehan, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2015,第11期

机译：带有脑突触和原位学习功能的脑神经网络的CMOS尖峰神经元。
4. Modeling-based design of brain-inspired spiking neural networks with RRAM learning synapses [C] . G. Pedretti, S. Bianchi, V. Milo, IEEE International Electron Devices Meeting . 2017

机译：具有RRAM学习突触的基于大脑的突跳神经网络的基于模型的设计
5. Neurally inspired silicon learning: From synapse transistors to learning arrays. [D] . Diorio, Chris. 1997

机译：启发性的硅学习方法：从突触晶体管到学习阵列。
6. Author Correction: Memristive synapses connect brain and silicon spiking neurons [O] . Alexantrou Serb, Andrea Corna, Richard George, -1

机译：作者更正：忆阻突触连接大脑和刺突神经元
7. A CMOS Spiking Neuron for Brain-Inspired Neural Networks with Resistive Synapses and \u3cem\u3eIn-Situ\u3c/em\u3e Learning [O] . Wu, Xinyu, Saxena, Vishal, Zhu, Kehan, 2015

机译：用于具有电阻突触和\ u3cem \ u3eIn-Situ \ u3c / em \ u3e学习的大脑启发式神经网络的CMOS尖峰神经元

Design of silicon brains in the nano-CMOS era: Spiking neurons, learning synapses and neural architecture optimization

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