Development of formal proofs of correctness of programs can increase actual and perceived reliability and facilitate better understanding of program specifications and their underlying assumptions. Tools supporting such development have been available for over 40 years, but have only recently seen wide practical use. Projects based on construction of machine-checked formal proofs are now reaching an unprecedented scale, comparable to large software projects, which leads to new challenges in proof development and maintenance. Despite its increasing importance, the field of proof engineering is seldom considered in its own right; related theories, techniques, and tools span many fields and venues. This survey of the literature presents a holistic understanding of proof engineering for program correctness, covering impact in practice, foundations, proof automation, proof organization, and practical proof development.
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3 September 2019
Research Article|
September 03 2019
QED at Large: A Survey of Engineering of Formally Verified Software
Karl Palmskog;
Karl Palmskog
University of Texas at Austin
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Milos Gligoric;
Milos Gligoric
University of Texas at Austin
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Zachary Tatlock
Zachary Tatlock
University of Washington
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Online ISSN: 2325-1131
Print ISSN: 2325-1107
© 2019 T. Ringer, K. Palmskog, I. Sergey, M. Gligoric and Z. Tatlock
2019
T. Ringer, K. Palmskog, I. Sergey, M. Gligoric and Z. Tatlock
Licensed re-use rights only
Foundations and Trends in Programming Languages (2019) 5 (2-3): 102–281.
Citation
Ringer T, Palmskog K, Sergey I, Gligoric M, Tatlock Z (2019), "QED at Large: A Survey of Engineering of Formally Verified Software". Foundations and Trends in Programming Languages, Vol. 5 No. 2-3 pp. 102–281, doi: https://doi.org/10.1561/2500000045
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