Brain-Inspired Computing: A Systematic Survey and Future Trends

IF 23.2 1区 计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Guoqi Li;Lei Deng;Huajin Tang;Gang Pan;Yonghong Tian;Kaushik Roy;Wolfgang Maass
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Abstract

Brain-inspired computing (BIC) is an emerging research field that aims to build fundamental theories, models, hardware architectures, and application systems toward more general artificial intelligence (AI) by learning from the information processing mechanisms or structures/functions of biological nervous systems. It is regarded as one of the most promising research directions for future intelligent computing in the post-Moore era. In the past few years, various new schemes in this field have sprung up to explore more general AI. These works are quite divergent in the aspects of modeling/algorithm, software tool, hardware platform, and benchmark data since BIC is an interdisciplinary field that consists of many different domains, including computational neuroscience, AI, computer science, statistical physics, material science, and microelectronics. This situation greatly impedes researchers from obtaining a clear picture and getting started in the right way. Hence, there is an urgent requirement to do a comprehensive survey in this field to help correctly recognize and analyze such bewildering methodologies. What are the key issues to enhance the development of BIC? What roles do the current mainstream technologies play in the general framework of BIC? Which techniques are truly useful in real-world applications? These questions largely remain open. To address the above issues, in this survey, we first clarify the biggest challenge of BIC: how can AI models benefit from the recent advancements in computational neuroscience? With this challenge in mind, we will focus on discussing the concept of BIC and summarize four components of BIC infrastructure development: 1) modeling/algorithm; 2) hardware platform; 3) software tool; and 4) benchmark data. For each component, we will summarize its recent progress, main challenges to resolve, and future trends. Based on these studies, we present a general framework for the real-world applications of BIC systems, which is promising to benefit both AI and brain science. Finally, we claim that it is extremely important to build a research ecology to promote prosperity continuously in this field.
脑启发计算:系统调查与未来趋势
脑启发计算(BIC)是一个新兴的研究领域,旨在通过学习生物神经系统的信息处理机制或结构/功能,建立基础理论、模型、硬件架构和应用系统,从而实现更通用的人工智能(AI)。它被认为是后摩尔时代未来智能计算最有前途的研究方向之一。在过去几年中,该领域涌现出各种新方案,以探索更通用的人工智能。由于 BIC 是一个由计算神经科学、人工智能、计算机科学、统计物理学、材料科学和微电子学等多个不同领域组成的跨学科领域,因此这些作品在建模/算法、软件工具、硬件平台和基准数据等方面都存在很大差异。这种情况极大地阻碍了研究人员清晰地了解情况并以正确的方式开始研究。因此,迫切需要对这一领域进行全面调查,以帮助正确认识和分析这些令人困惑的方法。促进 BIC 发展的关键问题是什么?当前的主流技术在 BIC 的总体框架中扮演什么角色?哪些技术在实际应用中真正有用?这些问题在很大程度上仍然没有答案。为了解决上述问题,在本调查中,我们首先明确了 BIC 面临的最大挑战:人工智能模型如何从计算神经科学的最新进展中获益?考虑到这一挑战,我们将重点讨论 BIC 的概念,并总结 BIC 基础设施开发的四个组成部分:1) 建模/算法;2) 硬件平台;3) 软件工具;4) 基准数据。对于每个组成部分,我们将总结其最新进展、需要解决的主要挑战以及未来趋势。基于这些研究,我们为 BIC 系统在现实世界中的应用提出了一个总体框架,该框架有望使人工智能和脑科学受益。最后,我们认为,建立研究生态以促进该领域的持续繁荣极为重要。
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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来源期刊
Proceedings of the IEEE
Proceedings of the IEEE 工程技术-工程:电子与电气
CiteScore
46.40
自引率
1.00%
发文量
160
审稿时长
3-8 weeks
期刊介绍: Proceedings of the IEEE is the leading journal to provide in-depth review, survey, and tutorial coverage of the technical developments in electronics, electrical and computer engineering, and computer science. Consistently ranked as one of the top journals by Impact Factor, Article Influence Score and more, the journal serves as a trusted resource for engineers around the world.
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