Bernhard Kragl scite author profile

Bernhard Kragl

4Publications

57Citation Statements Received

71Citation Statements Given

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Affiliations

Amazon (United States), Institute of Science and Technology Austria, TU Wien

Publications

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Extensional Crisis and Proving Identity

Gupta

Kovács

Kragl

et al. 2014

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Abstract. Extensionality axioms are common when reasoning about data collections, such as arrays and functions in program analysis, or sets in mathematics. An extensionality axiom asserts that two collections are equal if they consist of the same elements at the same indices. Using extensionality is often required to show that two collections are equal. A typical example is the set theory theorem (∀x)(∀y)x ∪ y = y ∪ x. Interestingly, while humans have no problem with proving such set identities using extensionality, they are very hard for superposition theorem provers because of the calculi they use. In this paper we show how addition of a new inference rule, called extensionality resolution, allows first-order theorem provers to easily solve problems no modern first-order theorem prover can solve. We illustrate this by running the VAMPIRE theorem prover with extensionality resolution on a number of set theory and array problems. Extensionality resolution helps VAMPIRE to solve problems from the TPTP library of first-order problems that were never solved before by any prover.

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Layered Concurrent Programs

Kragl

Qadeer

2018

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Abstract. We present layered concurrent programs, a compact and expressive notation for specifying refinement proofs of concurrent programs. A layered concurrent program specifies a sequence of connected concurrent programs, from most concrete to most abstract, such that common parts of different programs are written exactly once. These programs are expressed in the ordinary syntax of imperative concurrent programs using gated atomic actions, sequencing, choice, and (recursive) procedure calls. Each concurrent program is automatically extracted from the layered program. We reduce refinement to the safety of a sequence of concurrent checker programs, one each to justify the connection between every two consecutive concurrent programs. These checker programs are also automatically extracted from the layered program. Layered concurrent programs have been implemented in the Civl verifier which has been successfully used for the verification of several complex concurrent programs.

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Tree Interpolation in Vampire

Blanc

Gupta

Kovács

et al. 2013

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Abstract. We describe new extensions of the Vampire theorem prover for computing tree interpolants. These extensions generalize Craig interpolation in Vampire, and can also be used to derive sequence interpolants. We evaluated our implementation on a large number of examples over the theory of linear integer arithmetic and integer-indexed arrays, with and without quantifiers. When compared to other methods, our experiments show that some examples could only be solved by our implementation.

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Using Lightweight Formal Methods to Validate a Key-Value Storage Node in Amazon S3

Bornholt

Joshi

Astrauskas

et al. 2021

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Bernhard Kragl

Extensional Crisis and Proving Identity

Layered Concurrent Programs

Tree Interpolation in Vampire

Using Lightweight Formal Methods to Validate a Key-Value Storage Node in Amazon S3

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