Litcius/Paper detail

Modularity and multitasking in neuro-memristive reservoir networks

Alon Loeffler, Ruomin Zhu, Joel Hochstetter, Adrian Diaz‐Alvarez, Tomonobu Nakayama, James M. Shine, Zdenka Kuncic

2021Neuromorphic Computing and Engineering39 citationsDOIOpen Access PDF

Abstract

Abstract The human brain seemingly effortlessly performs multiple concurrent and elaborate tasks in response to complex, dynamic sensory input from our environment. This capability has been attributed to the highly modular structure of the brain, enabling specific task assignment among different regions and limiting interference between them. Here, we compare the structure and functional capabilities of different bio-physically inspired and biological networks. We then focus on the influence of topological properties on the functional performance of highly modular, bio-physically inspired neuro-memristive nanowire networks (NWNs). We perform two benchmark reservoir computing tasks (memory capacity and nonlinear transformation) on simulated networks and show that while random networks outperform NWNs on independent tasks, NWNs with highly segregated modules achieve the best performance on simultaneous tasks. Conversely, networks that share too many resources, such as networks with random structure, perform poorly in multitasking. Overall, our results show that structural properties such as modularity play a critical role in trafficking information flow, preventing information from spreading indiscriminately throughout NWNs.

Topics & Concepts

Modularity (biology)Human multitaskingComputer scienceModular designDistributed computingBenchmark (surveying)Task (project management)Reservoir computingArtificial intelligenceArtificial neural networkRecurrent neural networkNeuroscienceEngineeringBiologyGeographySystems engineeringOperating systemGeodesyGeneticsAdvanced Memory and Neural ComputingNeural Networks and Reservoir ComputingNeural dynamics and brain function
Modularity and multitasking in neuro-memristive reservoir networks | Litcius