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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Model-based Testing on Generated C Code

Stratis, Athanasios January 2015 (has links)
In this master thesis we investigated whether it is possible to use automatically generated C code from Function Block Diagram models as an input to the CPAchecker model checker in order to generate automated test cases. Function Block Diagram is a non-executable programming and modeling language. Consequently, we need to transform this language to an executable language that can be model checked. A tool that achieves this is the MITRAC tool, a proprietary development tool used in the embedded system domain, for engineering programmable logic controllers. The purpose of this research was to investigate to what extent the generated C code using MITRAC can be reused as an input to the CPAchecker tool for automated test case generation. In order to achieve this we needed to perform certain transformations steps on the existing code. In addition, necessary instrumentations were needed in order to trigger CPAtiger, an extension of CPAchecker which generates test cases, to achieve maximum condition coverage. We showed that by performing the required modifications it is feasible to reuse the generated C code as an input to CPAchecker tool. We also showed an approach for mapping the generated test cases with the actual Function Block Diagram. We performed mutation analysis in order to evaluate the quality of the generated test cases in terms of the number of injected faults they detect. Test case generation with CPAchecker could be improved in the future in terms of reducing the number of transformations and instrumentations that are currently needed. In order to achieve this we need to add to CPAchecker tool support for structures that are used in C, such as structs. Finally we can extend the type of logic coverage criteria we can use with CPAchecker by adding additional support of FQL language.
2

AHB On-Chip Bus Protocol Checker

Wang, Chien-chou 12 December 2007 (has links)
Verifying that a hardware module connected to a bus follows the bus protocol correctly is a necessity in a bus-based System-on-Chip (SoC) development. Traditional simulation-based bus protocol monitors can check whether bus signals obey bus protocol or not, but they are non-synthesizable and thus could not identify bugs occurring at run time in real physical environment. We propose a rule-based and synthesizable protocol checker (HPChecker) for AMBA AHB Bus. It contains 73 related bus protocol rules to check bus signal behavior, and two corresponding debugging mechanisms to shorten debugging time. Error reference table can summarize the violation condition of a design under test (DUT); History Memory contains the content of violation signals. These two mechanisms can help designer debugging efficiently. The gate counts of the HPChecker are 43,432 gates and the speed of it is 203 MHz at 0.18Mm technology. Finally, the HPChecker has been integrated into a 3D graphics accelerator and successfully identifies protocol violation in the FPGA prototype. . HPChecker has been successfully licensed to industries in France and Taiwan to assist SoC development.
3

Clustered Test Execution using Java PathFinder

Chocka Narayanan, Sowmiya 29 October 2010 (has links)
Recent advances in test automation have seen a host of new techniques for automated test generation, which traditionally has largely been a manual and expensive process. These techniques have enabled generation of much larger numbers of tests at a much reduced cost. When executed successfully, these tests enable a significant increase in our confidence in the program's correctness. However, as our ability to generate greater numbers of tests increases, we are faced with the problem of the likely high cost of executing all the tests in terms of the total execution time. This thesis presents a novel approach - clustered test execution - to address this problem. Instead of executing each test case separately, we execute parts of several tests using a single execution, which then forks into several directions as the behaviors of the tests differ. Our insight is that in a large test suite, several tests are likely to have common initial execution segments, which do not have to be executed over and over again; rather such a segment could be executed once and the execution result shared across all those tests. As an enabling technology we use the Java PathFinder(JPF) model checker, which is a popular explicit-state model checker for Java programs. Experimental results show that our clustering approach for test execution using JPF provides speed-ups over executing each test in turn from a test suite on the JPF java virtual machine. / text
4

Credible Compilation *

Rinard, Martin C. 01 1900 (has links)
This paper presents an approach to compiler correctness in which the compiler generates a proof that the transformed program correctly implements the input program. A simple proof checker can then verify that the program was compiled correctly. We call a compiler that produces such proofs a credible compiler, because it produces verifiable evidence that it is operating correctly. / Singapore-MIT Alliance (SMA)
5

Uma abordagem para representação de resultados formais na UML / An approach for representing formal results in the UML

Pereira, Vinícius 05 June 2017 (has links)
A UML é uma notação gráfica utilizada na modelagem de sistemas orientados a objetos, em diferentes domínios da computação. Por ser simples de utilizar, em relação a outras formas de modelagem, a UML é amplamente difundida entre os desenvolvedores de software, tanto na academia quanto na indústria. Entre as suas vantagens, encontram-se: (i) a representação visual das relações entre classes e entidades, pois ao se utilizar de diagramas, a UML facilita o entendimento e a visualização das relações dentro do sistema modelado; (ii) a legibilidade e usabilidade, sem que seja necessário a leitura do código do sistema, uma vez que um desenvolvedor pode compreender quais partes do código são redundantes ou reutilizadas; e (iii) uma ferramenta de planejamento, ao auxiliar na definição do que deve ser feito, antes que a implementação comece de fato, além de poder produzir código e reduzir o tempo de desenvolvimento. Todavia, a UML possui desvantagens, tais como: (i) ambiguidade entre elementos UML diferentes, devido a sobreposição dos diagramas; e (ii) falta de uma semântica clara, o qual geralmente faz com que a semântica da linguagem de programação seja adotada. Para mitigar essas desvantagens, pesquisadores buscam atribuir uma semântica formal à UML. Esse tipo de semântica é encontrado em modelos formais, onde o sistema modelado é livre de ambiguidades e possui uma semântica clara e precisa. Por sua vez, os modelos formais não são simples de serem criados e compreendidos por desenvolvedores. O grau de conhecimento em formalismo necessário para utilizar tal modelo é alto, o que faz com que seu uso seja menos difundido, comparado com a notação gráfica não formal da UML. Apesar dos esforços dos pesquisadores, as técnicas de formalização semântica da UML apresentam, no geral, um problema pouco abordado: apesar de utilizar a UML para modelar o sistema, o artefato final dessas técnicas é um trace formal. Considerando o conhecimento comum de um desenvolvedor de software, esse trace dificulta a análise dos problemas, encontrados pelos model checkers, e a correção dos mesmos no modelo UML. Com o objetivo de auxiliar o desenvolvedor na compreensão dos resultados formais (o trace citado), esta tese de doutorado apresenta uma abordagem baseada em Model-driven Architecture (MDA) capaz de representar as informações dos resultados formais dentro de um modelo UML. Por meio de transformações do modelo UML, essas representações, definidas utilizando a abordagem, auxiliam o desenvolvedor a visualizar o fluxo de execução do model checker dentro do modelo UML. Assim, acredita-se que as vantagens obtidas pela formalização semântica da UML podem ser mais difundidas e utilizadas pelos desenvolvedores, principalmente na indústria. / UML is a graphical notation used for modeling object-oriented software systems in different domains in computer science. Being simple to use, compared to other modeling techniques, UML is widespread among software developers, both in academia and industry. Among its advantages are: (i) the visual representation of the relationships between classes and entities, as when using diagrams, UML facilitates understanding and visualization of relationships within the modeled system; (ii) readability and usability without having to read the system code, since a developer can understand which parts of the code are redundant or reusable; and (iii) a planning tool, helping to define what needs to be done before the implementation actually begins, as well as being able to produce code and reduce development time. However, the UML also has disadvantages, such as: (i) ambiguity between different UML elements due to overlapping diagrams; and (ii) lack of clear semantics, which generally causes the semantics of the programming language to be adopted. To mitigate these disadvantages, researchers seek to assign a formal semantics to the UML. This type of semantics is found in formal models, where the modeled system is free of ambiguity and has a clear and precise semantics. On the other hand, formal models are not simple to create and understand by developers. The degree of formalism knowledge required to use such a model is high, which makes their use less widespread, compared to UML non-formal graphical notation. Despite the researchers efforts, in general the techniques that formalize the UML semantics has a problem that is forgotten: although using the UML to model the system, the final artifact of these techniques is a formal trace. Considering the common knowledge of a software developer, this trace makes it difficult to analyze the problems encountered by model checkers and to correct them in the UML model. In order to assist the developer in understanding the formal results (the trace above), this thesis presents an approach based on Model-driven Architecture (MDA) capable of representing the information of the formal results in the UML model. Through UML model transformations, these representations, set using the approach, help the developer to visualize the execution flow of the model checker within the UML model. Thus, we believe that the advantages obtained by formalizing the UML semantics may be more widespread and used by developers, especially in industry.
6

Teste e verificação formal do comportamento excepcional de programas Java / Testing and formal verification of the exceptional behavior of Java programs

Martins, Alexandre Locci 09 June 2014 (has links)
Estruturas de tratamento de exceção são extremamente comuns em softwares desenvolvidos em linguagens modernas, como Java, e afetam de forma contundente o comportamento de um software quando exercitadas. Apesar destas duas características, as principais técnicas de verificação, teste de software e verificação formal, e as ferramentas a elas vinculadas, tendem a negligenciar o comportamento excepcional. Alguns dos fatores que levam a esta negligência são a não especificação do comportamento excepcional em termos de projeto e a consequente implementação das estruturas de tratamento com base no julgamento individual de cada programador. Isto resulta na não consideração de partes expressivas do código em termos de verificação e, consequentemente, a possibilidade de não serem detectados erros relativos tanto às próprias estruturas de tratamento quanto às estruturas de código vinculadas a estas. A fim de abordar este problema, propomos uma técnica, baseada em model checking, que automatiza o processo de exercício de caminhos excepcionais. Isto permite que seja observado o comportamento de um software quando da ocorrência de uma exceção. Pretendemos, com esta técnica, dar suporte para que seja aplicado aos caminhos que representam o comportamento excepcional de um software as mesmas técnicas de detecção de erros que são aplicadas aos caminhos que representam o comportamento normal e, com isso, agregar um aumento na qualidade do desenvolvimento de software. / Software developed in modern languages, such as Java, commonly present structures of exception handling. These structures, when exercised, may affect the software behavior. Despite these two characteristics, the main verification techniques, software testing and formal verification and the tools related to them, tend to neglect the exceptional behavior. The nonexistent specification of software exceptional behaviors at the design level, and, the subsequent implementation of exception handling based on the judgment of each programmer, are some factors that lead to this neglect. These factors result in the non-consideration of the expressive parts of the code in verification terms and, consequently, the impossibility of errors detection concerning either the exception treatment structures or the code structures linked to them. Taking this fact into consideration, we propose a technique based on the model checking process, which automates the process of exercising exceptional paths to address this problem. This allows the observation of the software behavior when an exception occurs. With this technique, we intend to support the application of the same error detection techniques for program normal behavior paths to the paths that represent the software exceptional behavior. Therefore, using the proposed technique, we aim to increase the software development quality.
7

Teste e verificação formal do comportamento excepcional de programas Java / Testing and formal verification of the exceptional behavior of Java programs

Alexandre Locci Martins 09 June 2014 (has links)
Estruturas de tratamento de exceção são extremamente comuns em softwares desenvolvidos em linguagens modernas, como Java, e afetam de forma contundente o comportamento de um software quando exercitadas. Apesar destas duas características, as principais técnicas de verificação, teste de software e verificação formal, e as ferramentas a elas vinculadas, tendem a negligenciar o comportamento excepcional. Alguns dos fatores que levam a esta negligência são a não especificação do comportamento excepcional em termos de projeto e a consequente implementação das estruturas de tratamento com base no julgamento individual de cada programador. Isto resulta na não consideração de partes expressivas do código em termos de verificação e, consequentemente, a possibilidade de não serem detectados erros relativos tanto às próprias estruturas de tratamento quanto às estruturas de código vinculadas a estas. A fim de abordar este problema, propomos uma técnica, baseada em model checking, que automatiza o processo de exercício de caminhos excepcionais. Isto permite que seja observado o comportamento de um software quando da ocorrência de uma exceção. Pretendemos, com esta técnica, dar suporte para que seja aplicado aos caminhos que representam o comportamento excepcional de um software as mesmas técnicas de detecção de erros que são aplicadas aos caminhos que representam o comportamento normal e, com isso, agregar um aumento na qualidade do desenvolvimento de software. / Software developed in modern languages, such as Java, commonly present structures of exception handling. These structures, when exercised, may affect the software behavior. Despite these two characteristics, the main verification techniques, software testing and formal verification and the tools related to them, tend to neglect the exceptional behavior. The nonexistent specification of software exceptional behaviors at the design level, and, the subsequent implementation of exception handling based on the judgment of each programmer, are some factors that lead to this neglect. These factors result in the non-consideration of the expressive parts of the code in verification terms and, consequently, the impossibility of errors detection concerning either the exception treatment structures or the code structures linked to them. Taking this fact into consideration, we propose a technique based on the model checking process, which automates the process of exercising exceptional paths to address this problem. This allows the observation of the software behavior when an exception occurs. With this technique, we intend to support the application of the same error detection techniques for program normal behavior paths to the paths that represent the software exceptional behavior. Therefore, using the proposed technique, we aim to increase the software development quality.
8

Uma abordagem para representação de resultados formais na UML / An approach for representing formal results in the UML

Vinícius Pereira 05 June 2017 (has links)
A UML é uma notação gráfica utilizada na modelagem de sistemas orientados a objetos, em diferentes domínios da computação. Por ser simples de utilizar, em relação a outras formas de modelagem, a UML é amplamente difundida entre os desenvolvedores de software, tanto na academia quanto na indústria. Entre as suas vantagens, encontram-se: (i) a representação visual das relações entre classes e entidades, pois ao se utilizar de diagramas, a UML facilita o entendimento e a visualização das relações dentro do sistema modelado; (ii) a legibilidade e usabilidade, sem que seja necessário a leitura do código do sistema, uma vez que um desenvolvedor pode compreender quais partes do código são redundantes ou reutilizadas; e (iii) uma ferramenta de planejamento, ao auxiliar na definição do que deve ser feito, antes que a implementação comece de fato, além de poder produzir código e reduzir o tempo de desenvolvimento. Todavia, a UML possui desvantagens, tais como: (i) ambiguidade entre elementos UML diferentes, devido a sobreposição dos diagramas; e (ii) falta de uma semântica clara, o qual geralmente faz com que a semântica da linguagem de programação seja adotada. Para mitigar essas desvantagens, pesquisadores buscam atribuir uma semântica formal à UML. Esse tipo de semântica é encontrado em modelos formais, onde o sistema modelado é livre de ambiguidades e possui uma semântica clara e precisa. Por sua vez, os modelos formais não são simples de serem criados e compreendidos por desenvolvedores. O grau de conhecimento em formalismo necessário para utilizar tal modelo é alto, o que faz com que seu uso seja menos difundido, comparado com a notação gráfica não formal da UML. Apesar dos esforços dos pesquisadores, as técnicas de formalização semântica da UML apresentam, no geral, um problema pouco abordado: apesar de utilizar a UML para modelar o sistema, o artefato final dessas técnicas é um trace formal. Considerando o conhecimento comum de um desenvolvedor de software, esse trace dificulta a análise dos problemas, encontrados pelos model checkers, e a correção dos mesmos no modelo UML. Com o objetivo de auxiliar o desenvolvedor na compreensão dos resultados formais (o trace citado), esta tese de doutorado apresenta uma abordagem baseada em Model-driven Architecture (MDA) capaz de representar as informações dos resultados formais dentro de um modelo UML. Por meio de transformações do modelo UML, essas representações, definidas utilizando a abordagem, auxiliam o desenvolvedor a visualizar o fluxo de execução do model checker dentro do modelo UML. Assim, acredita-se que as vantagens obtidas pela formalização semântica da UML podem ser mais difundidas e utilizadas pelos desenvolvedores, principalmente na indústria. / UML is a graphical notation used for modeling object-oriented software systems in different domains in computer science. Being simple to use, compared to other modeling techniques, UML is widespread among software developers, both in academia and industry. Among its advantages are: (i) the visual representation of the relationships between classes and entities, as when using diagrams, UML facilitates understanding and visualization of relationships within the modeled system; (ii) readability and usability without having to read the system code, since a developer can understand which parts of the code are redundant or reusable; and (iii) a planning tool, helping to define what needs to be done before the implementation actually begins, as well as being able to produce code and reduce development time. However, the UML also has disadvantages, such as: (i) ambiguity between different UML elements due to overlapping diagrams; and (ii) lack of clear semantics, which generally causes the semantics of the programming language to be adopted. To mitigate these disadvantages, researchers seek to assign a formal semantics to the UML. This type of semantics is found in formal models, where the modeled system is free of ambiguity and has a clear and precise semantics. On the other hand, formal models are not simple to create and understand by developers. The degree of formalism knowledge required to use such a model is high, which makes their use less widespread, compared to UML non-formal graphical notation. Despite the researchers efforts, in general the techniques that formalize the UML semantics has a problem that is forgotten: although using the UML to model the system, the final artifact of these techniques is a formal trace. Considering the common knowledge of a software developer, this trace makes it difficult to analyze the problems encountered by model checkers and to correct them in the UML model. In order to assist the developer in understanding the formal results (the trace above), this thesis presents an approach based on Model-driven Architecture (MDA) capable of representing the information of the formal results in the UML model. Through UML model transformations, these representations, set using the approach, help the developer to visualize the execution flow of the model checker within the UML model. Thus, we believe that the advantages obtained by formalizing the UML semantics may be more widespread and used by developers, especially in industry.
9

Strategic Error as Style: Finessing the Grammar Checker

Smith, Sarah 12 August 2016 (has links)
Composition studies lacks a comprehensive theory of error, one which successfully defines error in writing and offers a pedagogical response to ostensible errors that neither ignores nor pathologizes them. Electronic text-critiquing technologies offer some promise of helping writers notice and correct errors, but they are under-researched in composition and rarely well-integrated into pedagogical praxis. This research on the grammar and style checker in Microsoft Word considers the program as an electronic checklist for making decisions about what counts as an error in a given rhetorical situation. This study also offers a theory of error grounded in the idea of attention, or cognitive load, some of which an electronic checker can relieve in its areas of its greatest effectiveness, which this research quantifies. The proposed theory of error forms the basis for a pedagogy of register, understood as typified style, and establishes that error itself can be a strategic style move.
10

Granskning av Solibri Model Checker - En Svenskanpassning : Jämförelse av två egenkontrollsystem / Analysis of Solibri Model Checker a Swedish adaptation

Johansson, Emil January 2013 (has links)
The building industry are currently going through a huge alteration. The introduction of BIM (Building Information Modeling). Which also implements a lot of new ways of solving problems that building modeling can cause. This report is written for Uppsala University in cooperation with Temagruppen in Uppsala. However, it contains a comparison between two different systems that checks building models. Temagruppen invested in a new Swedish adaptation of a software called Solibri Model Checker. This Software controlling the availability in building models, it also introduces a new way of interaction between different instances during a building project. The definition of the report is availability in public buildings. A building model has been designed in Revit, then imported to Solibri Model Checker who controls the availability and creates a report of certain design fault. Interviews are given to get a look into how the work with availability controls currently works at Temagurppuen. This results in a discussion of benefits and disadvantages of the two different methods. The result finally shows that certain work can be more effectively done with Solibri Model Checker. But availability contains more than just disabled impairment. Visual- and cognitive impairment can’t still be controlled by just a computer software.

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