Title :
Model Checking a Lazy Concurrent List-Based Set Algorithm
Author :
Zhang, Shao Jie ; Liu, Yang
Author_Institution :
NUS Grad. Sch. for Integrative Sci. & Eng., Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
Concurrent objects are notoriously difficult to design correctly, and high performance algorithms that make little or no use of locks even more so. In this paper, we present a formal verification of a lazy concurrent list-based set using model checking techniques. The algorithm supports insertion, removal, and membership testing of a list entry under optimistic locking scheme. The algorithm has nonfixed linearization points and is highly non-trivial. We have proved that the algorithm satisfies linearizability, by showing a trace refinement relation from the concrete implementation to its abstract specification. These models are specified in CSP# and verified automatically using our home grown model checker PAT.
Keywords :
communicating sequential processes; concurrency control; list processing; program diagnostics; program verification; CSP#; abstract specification; formal verification; home grown model checker PAT; lazy concurrent list based set algorithms; nonfixed linearization points; optimistic locking scheme; trace refinement relation; Algorithm design and analysis; Concrete; Concurrent computing; Design engineering; Formal verification; High performance computing; Reliability engineering; Software algorithms; Software performance; Testing; Concurrent List-Based Set Algorithm; Linearizability; PAT; Refinement Checking;
Conference_Titel :
Secure Software Integration and Reliability Improvement (SSIRI), 2010 Fourth International Conference on
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-7435-6
DOI :
10.1109/SSIRI.2010.37
