Nhóm nghiên cứu : PEQUAN

Ngày đi : 22-05-2019

The tests, composed of stimulations associated with an expected behavior, are thus generated from a specification of the functional behavior of the software. Validation by test of the software means that, with the simultations given as inputs of the software, we compare the obtained result (binary) with the expected behavior identified using the functional specification (decimal).

This work uses Constraint Programming (numerical constraints) and a combinatorial method of continuous domain resolution (intervals) to construct a paving of the feasible set by inner boxes (containing only solutions) and outer boxes encompassing the boundary of the feasible region. All tests are then developed using the Mutation Testing on constraints, which evaluates the quality of the current test campaign and adds new tests if needed. Conversions between binary and decimal formats are inevitable and introduce computational errors which can impact the reliability of test results.

We strengthen our solution through the development and use of reliable arithmetic (multi-precision decimal interval arithmetic and binary/decimal mixed-radix arithmetic).

Jean-Michel Muller, CNRS Research Director [Rapporteur]

Gilles Trombettoni, Professor at Université de Montpellier [Rapporteur]

Sylvie Boldo, Inria Research Director

Fabrice Kordon, Professor at Sorbonne Université

Stef Graillat, Professor at Sorbonne Université

Christoph Lauter, Assistant Professor at University of Alaska

Fabrice Larribe, Engineer at Safran Electronics & Defense

- 2019
- C. Jeangoudoux : “Automatic Test Generation for Numerical Software in the Context of Aircraft Certification”, luận án, bảo vệ luận án 21-05-2019, ban lãnh đạo nghiên cứu Graillat, Stef, Đồng hướng dẫn LAUTER Christoph, LARRIBE Fabrice (2019)

- 2018
- C. Jeangoudoux, Ch. Lauter : “A Correctly Rounded Mixed-Radix Fused-Multiply-Add”, 2018 IEEE 25
^{th}Symposium on Computer Arithmetic (ARITH), Amherst, MA, USA, (IEEE) (2018) - M. Ceberio, A. Contreras, C. Jeangoudoux, F. Larribe : “Constraints over Intervals for Specification Based Automatic Software Test Generation”, 18
^{th}international symposium on Scientific Computing, Computer Arithmetic and Validated Numerics (SCAN 2018), 18^{th}international symposium on Scientific Computing, Computer Arithmetic and Validated Numerics (SCAN 2018), Book of Abstracts, Tokyo, Japan, pp. 54-55 (2018)

- C. Jeangoudoux, Ch. Lauter : “A Correctly Rounded Mixed-Radix Fused-Multiply-Add”, 2018 IEEE 25
- 2017
- S. Graillat, C. Jeangoudoux, Ch. Lauter : “MPDI: A Decimal Multiple-Precision Interval Arithmetic Library”, Reliable Computing Journal, vol. 25, pp. 38-52 (2017)
- S. Graillat, Y. Ibrahimy, C. Jeangoudoux, Ch. Lauter : “A Parallel Compensated Horner Scheme”, CSE 2017, SIAM Conference on Computational Science and Engineering (CSE), Atlanta, USA (2017)

- 2016
- S. Graillat, C. Jeangoudoux, Ch. Lauter : “A Decimal Multiple-Precision Interval Arithmetic Library”, 17
^{th}International Symposium on Scientific Computing, Computer Arithmetics and Verified Numerics. , Uppsala, Sweden (2016)

- S. Graillat, C. Jeangoudoux, Ch. Lauter : “A Decimal Multiple-Precision Interval Arithmetic Library”, 17