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Concise guide to software verificati...

Huisman, Marieke.

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Concise guide to software verification = from model checking to annotation checking /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Concise guide to software verification/ by Marieke Huisman, Anton Wijs.
Reminder of title:	from model checking to annotation checking /
Author:	Huisman, Marieke.
other author:	Wijs, Anton.
Published:	Cham :Springer International Publishing : : 2023.,
Description:	ix, 248 p. :ill., digital ;24 cm.
[NT 15003449]:	1. Introduction -- 2. Background on First-Order Logic and Set Theory -- 3. System Modelling -- 4. Crash Course on Temporal Logic and its Verification -- 5. Software Analysis -- 6. Crash Course on Design by Contract Specifications -- 7. Run-time checking of Design by Contract Specifications -- 8. Static Checking of Design by Contract Specification -- 9. Abstract Specifications.
Contained By:	Springer Nature eBook
Subject:	Computer software - Verification. -
Online resource:	https://doi.org/10.1007/978-3-031-30167-4
ISBN:	9783031301674

Concise guide to software verification = from model checking to annotation checking /
Huisman, Marieke.

Concise guide to software verificationfrom model checking to annotation checking /[electronic resource] :by Marieke Huisman, Anton Wijs. - Cham :Springer International Publishing :2023. - ix, 248 p. :ill., digital ;24 cm. - Texts in computer science,1868-095X. - Texts in computer science..

1. Introduction -- 2. Background on First-Order Logic and Set Theory -- 3. System Modelling -- 4. Crash Course on Temporal Logic and its Verification -- 5. Software Analysis -- 6. Crash Course on Design by Contract Specifications -- 7. Run-time checking of Design by Contract Specifications -- 8. Static Checking of Design by Contract Specification -- 9. Abstract Specifications.

Ever since the beginnings of the development of software, researchers have been thinking about how to guarantee its correctness. Formal methods are techniques that can be used to improve software reliability and robustness. This concise volume overviews the whole spectrum of formal methods and techniques that are aimed at verifying correctness of software, and how they can be used in practice. It focuses on techniques whereby the user has some control over the properties that are being checked. More specifically, it shows a wide range of techniques covering the whole spectrum: from abstract system design to implementation, from bug finding to full proofs, and from techniques that are push-button by design and give a yes/no answer to techniques that require the user to provide explicit guidance to steer the analysis process. Topics and features: Covers a broad spectrum of software verification techniques, from model checking to annotation checking Provides numerous examples to demonstrate the techniques Focuses on how techniques can be used (and the main ideas behind how they work), as opposed to how they are implemented Explains strengths and weaknesses of the techniques, providing insight into when to use which technique in practice This unique textbook has been written primarily for master's level students in computer science studying embedded systems and specializing in software technology. The book will also be of interest for students studying cyber security and data science technology, as well as for system or software developers interested in techniques that offer formal guarantees about software. Marieke Huisman is Professor at the Faculty of Electrical Engineering, Mathematics and Computer Science of the University of Twente, The Netherlands, and Anton Wijs is Assistant Professor at the Department of Mathematics and Computer Science of the Eindhoven University of Technology, The Netherlands.

ISBN: 9783031301674

Standard No.: 10.1007/978-3-031-30167-4doiSubjects--Topical Terms:

828401
Computer software
--Verification.

LC Class. No.: QA76.76.V47

Dewey Class. No.: 005.14

Concise guide to software verification = from model checking to annotation checking /
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505 0 $a 1. Introduction -- 2. Background on First-Order Logic and Set Theory -- 3. System Modelling -- 4. Crash Course on Temporal Logic and its Verification -- 5. Software Analysis -- 6. Crash Course on Design by Contract Specifications -- 7. Run-time checking of Design by Contract Specifications -- 8. Static Checking of Design by Contract Specification -- 9. Abstract Specifications.
520 $a Ever since the beginnings of the development of software, researchers have been thinking about how to guarantee its correctness. Formal methods are techniques that can be used to improve software reliability and robustness. This concise volume overviews the whole spectrum of formal methods and techniques that are aimed at verifying correctness of software, and how they can be used in practice. It focuses on techniques whereby the user has some control over the properties that are being checked. More specifically, it shows a wide range of techniques covering the whole spectrum: from abstract system design to implementation, from bug finding to full proofs, and from techniques that are push-button by design and give a yes/no answer to techniques that require the user to provide explicit guidance to steer the analysis process. Topics and features: Covers a broad spectrum of software verification techniques, from model checking to annotation checking Provides numerous examples to demonstrate the techniques Focuses on how techniques can be used (and the main ideas behind how they work), as opposed to how they are implemented Explains strengths and weaknesses of the techniques, providing insight into when to use which technique in practice This unique textbook has been written primarily for master's level students in computer science studying embedded systems and specializing in software technology. The book will also be of interest for students studying cyber security and data science technology, as well as for system or software developers interested in techniques that offer formal guarantees about software. Marieke Huisman is Professor at the Faculty of Electrical Engineering, Mathematics and Computer Science of the University of Twente, The Netherlands, and Anton Wijs is Assistant Professor at the Department of Mathematics and Computer Science of the Eindhoven University of Technology, The Netherlands.
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