Your search keyword '"Grand challenges in computing"' showing total 2 results

1. Alloy Meets the Algebra of Programming: A Case Study.

Author

Oliveira, José N. and Ferreira, Miguel A.

Subjects

*RELATION algebras, *SOFTWARE engineering, *SOFTWARE verification, *MATRICES software, *DATA modeling, *MATHEMATICAL proofs

Abstract

Relational algebra offers to software engineering the same degree of conciseness and calculational power as linear algebra in other engineering disciplines. Binary relations play the role of matrices with similar emphasis on multiplication and transposition. This matches with Alloy's lemma “everything is a relation” and with the relational basis of the Algebra of Programming (AoP). Altogether, it provides a simple and coherent approach to checking and calculating programs from abstract models. In this paper, we put Alloy and the Algebra of Programming together in a case study originating from the Verifiable File System mini-challenge put forward by Joshi and Holzmann: verifying the refinement of an abstract file store model into a journaled (Flash) data model catering to wear leveling and recovery from power loss. Our approach relies on diagrams to graphically express typed assertions. It interweaves model checking (in Alloy) with calculational proofs in a way which offers the best of both worlds. This provides ample evidence of the positive impact in software verification of Alloy's focus on relations, complemented by induction-free proofs about data structures such as stores and lists. [ABSTRACT FROM PUBLISHER]

Published

2013

2. Alloy Meets the Algebra of Programming: A Case Study

Author

Miguel Ferreira, José Nuno Oliveira, and Universidade do Minho

Subjects

Model checking, Algebra of programming, Computer science, 0102 computer and information sciences, 02 engineering and technology, Relational algebra, computer.software_genre, Mathematical proof, 01 natural sciences, Software verification, 0202 electrical engineering, electronic engineering, information engineering, Formal verification, Science & Technology, Grand challenges in computing, Binary relation, Programming language, Basis (universal algebra), Data structure, Algebra, Data model, 010201 computation theory & mathematics, Linear algebra, 020201 artificial intelligence & image processing, computer, Software

Abstract

Relational algebra offers to software engineering the same degree of conciseness and calculational power as linear algebra in other engineering disciplines. Binary relations play the role of matrices with similar emphasis on multiplication and transposition. This matches with Alloy’s lemma “everything is a relation” and with the relational basis of the Algebra of Programming (AoP). Altogether, it provides a simple and coherent approach to checking and calculating programs from abstract models. In this paper, we put Alloy and the Algebra of Programming together in a case study originating from the Verifiable File System mini-challenge put forward by Joshi and Holzmann: verifying the refinement of an abstract file store model into a journaled (FLASH) data model catering to wear leveling and recovery from power loss. Our approach relies on diagrams to graphically express typed assertions. It interweaves model checking (in Alloy) with calculational proofs in a way which offers the best of both worlds. This provides ample evidence of the positive impact in software verification of Alloy’s focus on relations, complemented by induction-free proofs about data structures such as stores and lists., Fundação para a Ciência e a Tecnologia (FCT)

Published

2013