Visibility Reasoning for Concurrent Snapshot Algorithms

December 7, 2021

Joakim Öhman


Visibility Reasoning for Concurrent Snapshot Algorithms

Time:   11:00am
Location:   Lecture hall 1
Virtual transmission:   Zoom3 https://zoom.us/j/3911012202
Pass:   5551337

Visibility relations have been proposed by Henzinger et al. as an abstraction for proving linearizability of concurrent algorithms that obtains modular and reusable proofs. This is in contrast to the customary approach based on exhibiting the algorithm’s linearization points.

In this talk I will show how to apply visibility relations to develop modular proofs for three elegant concurrent snapshot algorithms of Jayanti. The proofs are divided by signatures into components of increasing level of abstraction; the components at higher abstraction levels are shared, i.e., they apply to all three algorithms simultaneously. Importantly, the interface properties mathematically capture Jayanti’s original intuitions that have previously been given only informally.