No free lunch for avoiding clustering vulnerabilities in distributed systems

Author:

Chitnelawong Pheerawich,Klishin Andrei A.,Mackay Norman,Singer David J.,van Anders Greg

Abstract

AbstractEmergent design failures are ubiquitous in complex systems, and often arise when system elements cluster. Approaches to systematically reduce clustering could improve a design’s resilience, but reducing clustering is difficult if it is driven by collective interactions among design elements. Here, we use techniques from statistical physics to identify mechanisms by which spatial clusters of design elements emerge in complex systems modelled by heterogeneous networks. We find that, in addition to naive, attraction-driven clustering, heterogeneous networks can exhibit emergent, repulsion-driven clustering. We draw quantitative connections between our results on a model system in naval engineering to entropy-driven phenomena in nanoscale self-assembly, and give a general argument that the clustering phenomena we observe should arise in many distributed systems. We identify circumstances under which generic design problems will exhibit trade-offs between clustering and uncertainty in design objectives, and we present a framework to identify and quantify trade-offs to manage clustering vulnerabilities.

Funder

Natural Sciences and Engineering Research Council of Canada

Office of Naval Research

Publisher

Springer Science and Business Media LLC

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