English

Operads for complex system design specification, analysis and synthesis

Software Engineering 2021-06-25 v2 Category Theory

Abstract

As the complexity and heterogeneity of a system grows, the challenge of specifying, documenting and synthesizing correct, machine-readable designs increases dramatically. Separation of the system into manageable parts is needed to support analysis at various levels of granularity so that the system is maintainable and adaptable over its life cycle. In this paper, we argue that operads provide an effective knowledge representation to address these challenges. Formal documentation of a syntactically correct design is built up during design synthesis, guided by semantic reasoning about design effectiveness. Throughout, the ability to decompose the system into parts and reconstitute the whole is maintained. We describe recent progress in effective modeling under this paradigm and directions for future work to systematically address scalability challenges for complex system design.

Keywords

Cite

@article{arxiv.2101.11115,
  title  = {Operads for complex system design specification, analysis and synthesis},
  author = {John D. Foley and Spencer Breiner and Eswaran Subrahmanian and John M. Dusel},
  journal= {arXiv preprint arXiv:2101.11115},
  year   = {2021}
}

Comments

33 pages; 14 figures; revised presentation, esp. first three sections and removal of appendix; new style file

R2 v1 2026-06-23T22:33:58.440Z