Contrastive Learning in Memristor-based Neuromorphic Systems

arXiv - QuanBio - Neurons and Cognition Pub Date : 2024-09-17 DOI:arxiv-2409.10887
Cory Merkel, Alexander Ororbia
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Abstract

Spiking neural networks, the third generation of artificial neural networks, have become an important family of neuron-based models that sidestep many of the key limitations facing modern-day backpropagation-trained deep networks, including their high energy inefficiency and long-criticized biological implausibility. In this work, we design and investigate a proof-of-concept instantiation of contrastive-signal-dependent plasticity (CSDP), a neuromorphic form of forward-forward-based, backpropagation-free learning. Our experimental simulations demonstrate that a hardware implementation of CSDP is capable of learning simple logic functions without the need to resort to complex gradient calculations.
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基于 Memristor 的神经形态系统中的对比学习
尖峰神经网络是第三代人工神经网络,已成为基于神经元的重要模型系列,它避开了现代反向传播训练的深度网络所面临的许多关键限制,包括其高能量低效率和长期受到批评的生物学不可能性。在这项工作中,我们设计并研究了对比信号依赖可塑性(CSDP)的概念验证,这是一种基于前向、无反向传播学习的神经形态。我们的实验模拟证明,CSDP 的硬件实现能够学习简单的逻辑函数,而无需进行复杂的梯度计算。
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arXiv - QuanBio - Neurons and Cognition
arXiv - QuanBio - Neurons and Cognition
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