Distributed Reactive Programming for Reactive Distributed Systems
Context: The term reactivity is popular in two areas of research: programming languages and distributed systems. On one hand, reactive programming is a paradigm which provides programmers with the means to declaratively write event-driven applications. On the other hand, reactive distributed systems handle client requests in a timely fashion regardless of load or failures.
Inquiry: Reactive programming languages and frameworks tailored to the implementation of distributed systems have previously been proposed. However, we argue that these approaches are ill fit to implement reactive distributed systems.
Approach: We analyse state of the art runtimes for distributed reactive programming and identify two key issues with regards to reactive distributed systems. They rely on single, central points of coordination and/or assume a lack of partial failures in the systems they support.
Knowledge: Based on our analysis we propose a novel runtime for distributed reactive programming languages and frameworks. This runtime supports reactive distributed systems by design.
Importance: This work aims to bridge the gap between two kinds of reactivity: reactive distributed systems and distributed reactive programming. Current distributed reactive programming approaches do not support reactive distributed systems. Our runtime is the first to bridge this reactivity gap: it allows for reactive distributed systems to be implemented using distributed reactive programming.
Thu 4 Apr
|14:00 - 14:30|
Florian MyterVrije Universiteit Brussel, Belgium, Christophe ScholliersUniversiteit Gent, Belgium, Wolfgang De MeuterVrije Universiteit BrusselLink to publication DOI Pre-print
|14:30 - 15:00|
Joe Gibbs PolitzUniversity of California San Diego, United States, Benjamin LernerNortheastern University, United States, Sorawee PorncharoenwaseBrown University, United States, Shriram KrishnamurthiBrown University, United StatesLink to publication DOI Pre-print
|15:00 - 15:30|
Tucker TaftAdaCore, United StatesLink to publication DOI Pre-print