Inferno: An Extensible Framework for Spiking Neural Networks

Marissa Dominijanni
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Abstract

This paper introduces Inferno, a software library built on top of PyTorch that is designed to meet distinctive challenges of using spiking neural networks (SNNs) for machine learning tasks. We describe the architecture of Inferno and key differentiators that make it uniquely well-suited to these tasks. We show how Inferno supports trainable heterogeneous delays on both CPUs and GPUs, and how Inferno enables a "write once, apply everywhere" development methodology for novel models and techniques. We compare Inferno's performance to BindsNET, a library aimed at machine learning with SNNs, and Brian2/Brian2CUDA which is popular in neuroscience. Among several examples, we show how the design decisions made by Inferno facilitate easily implementing the new methods of Nadafian and Ganjtabesh in delay learning with spike-timing dependent plasticity.
地狱尖峰神经网络的可扩展框架
本文介绍了 Inferno,这是一个建立在 PyTorch 基础上的软件库,旨在应对使用尖峰神经网络(SNN)完成机器学习任务所面临的独特挑战。我们描述了Inferno的架构以及使其能够独一无二地胜任这些任务的关键差异化因素。我们展示了Inferno如何在CPU和GPU上支持可训练的异构延迟,以及Inferno如何为新型模型和技术实现 "一次编写,随处应用 "的开发方法。我们将Inferno的性能与BindsNET和Brian2/Brian2CUDA进行了比较,BindsNET是一个针对使用SNN进行机器学习的库,而Brian2/Brian2CUDA则在神经科学领域非常流行。在几个例子中,我们展示了 Inferno 所做的设计决定是如何帮助轻松实现 Nadafian 和 Ganjtabesh 的新方法的,这些方法用于具有尖峰计时可塑性的延迟学习。
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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