Publications

2025

[Dundua]

Higher-Order Pattern Unification Modulo Similarity Relations

Besik Dundua, Temur Kutsia

Technical report no. 25-03 in RISC Report Series, Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz, Austria. ISSN 2791-4267 (online). February 2025. Licensed under CC BY 4.0 International. [doi] [pdf]

[bib]

@techreport{RISC7141,
author = {Besik Dundua and Temur Kutsia},
title = {{Higher-Order Pattern Unification Modulo Similarity Relations}},
language = {english},
abstract = {The combination of higher-order theories and fuzzy logic can be useful in decision-making tasks that involve reasoning across abstract functions and predicates, where exact matches are often rare or unnecessary. Developing efficient reasoning and computational techniques for such a combined formalism presents a significant challenge. In this paper, we adopt a more straightforward approach aiming at integrating two well-established and computationally well-behaving components: higher-order patterns on one side and fuzzy equivalences expressed through similarity relations based on minimum T-norm on the other. We propose a unification algorithm for higher-order patterns modulo these similarity relations and prove its termination, soundness, and completeness. This unification problem, like its crisp counterpart, is unitary. The algorithm computes the most general unifier with the highest degree of approximation when the given terms are unifiable.},
number = {25-03},
year = {2025},
month = {February},
keywords = {Unification, higher-order patterns, fuzzy similarity relations},
length = {20},
license = {CC BY 4.0 International},
type = {RISC Report Series},
institution = {Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz},
address = {Altenberger Straße 69, 4040 Linz, Austria},
issn = {2791-4267 (online)}
}

[Hemmecke]

Computer-assisted construction of Ramanujan-Sato series for 1 over pi

Ralf Hemmecke, Peter Paule, Cristian-Silviu Radu

Technical report no. 25-01 in RISC Report Series, Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz, Austria. ISSN 2791-4267 (online). January 2025. Licensed under CC BY 4.0 International. [doi] [pdf]

[bib]

@techreport{RISC7134,
author = {Ralf Hemmecke and Peter Paule and Cristian-Silviu Radu},
title = {{Computer-assisted construction of Ramanujan-Sato series for 1 over pi}},
language = {english},
abstract = {Referring to ideasof Takeshi Sato, Yifan Yang in~cite{YangDE} described a construction ofseries for $1$ over $pi$ startingwith a pair $(g,h)$, where $g$ is a modular formof weight $2$ and $h$ is a modular function; i.e.,a modular form of weight zero. In this article we present an algorithmicversion,called ``Sato construction''. Series for $1/pi$ obtained this way will becalled ``Ramanujan-Sato''series. Famous series fit into this definition, for instance, Ramanujan'sseries used by Gosperand the series used by the Chudnovsky brothersfor computing millions of digits of $pi$. Weshow that these series are induced by membersof infinite families of Sato triples $(N, gamma_N,tau_N)$ where $N>1$ is an integer and $gamma_N$ a $2times 2$ matrixsatisfying $gamma_N tau_N=N tau_N$ for$tau_N$ being an element from the upper half of thecomplex plane.In addition to procedures for guessingand proving from the holonomic toolbox togetherwiththe algorithm ``ModFormDE'', as describedin~cite{PPSR:ModFormDE1}, a central roleis played by the algorithm ``MultiSamba'',an extension ofSamba (``subalgebra module basis algorithm'') originating fromcite{Radu_RamanujanKolberg_2015} and cite{Hemmecke}.With thehelp of MultiSamba one canfind and prove evaluations of modular functions,at imaginary quadratic points, in terms of nested algebraic expressions.As a consequence,all the series for $1/pi$ constructed withthe help of MultiSamba are proven completelyin a rigorous non-numerical manner.},
number = {25-01},
year = {2025},
month = {January},
keywords = {modular forms and functions, holonomic differential equations, Ramanujan-Sato series for 1 over pi, MultiSamba algorithm},
length = {58},
license = {CC BY 4.0 International},
type = {RISC Report Series},
institution = {Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz},
address = {Altenberger Straße 69, 4040 Linz, Austria},
issn = {2791-4267 (online)}
}

[Hoxhaj]

How to reconstruct a planar map from its branching curve

E. Hoxhaj, J. Schicho

Math. Comp. 94, pp. 935-952. 2025. ISSN 1088-6842. [doi]

[bib]

@article{RISC7121,
author = {E. Hoxhaj and J. Schicho},
title = {{How to reconstruct a planar map from its branching curve}},
language = {english},
journal = {Math. Comp.},
volume = {94},
pages = {935--952},
isbn_issn = {ISSN 1088-6842},
year = {2025},
refereed = {yes},
length = {18},
url = {https://doi.org/10.1090/mcom/3988}
}

[Kutsia]

Verification of an Anti-unification Algorithm in PVS

Mauricio Ayala-Rincón, Thaynara Arielly de Lima, Maria Júlia Dias Lima, Mariano Miguel Moscato, and Temur Kutsia

In: NASA Formal Methods, Aaron Dutle, Laura Humphrey, Laura Titolo (ed.), Proceedings of The 17th NASA Formal Methods Symposium, NFM 2025, Williamsburg, VA, USA, Lecture Notes in Computer Science 15682, pp. 54-71. 2025. Springer, ISBN 978-3-031-93705-7. [doi]

[bib]

@inproceedings{RISC7152,
author = {Mauricio Ayala-Rincón and Thaynara Arielly de Lima and Maria Júlia Dias Lima and Mariano Miguel Moscato and and Temur Kutsia},
title = {{Verification of an Anti-unification Algorithm in PVS}},
booktitle = {{NASA Formal Methods}},
language = {english},
series = {Lecture Notes in Computer Science},
volume = {15682},
pages = {54--71},
publisher = {Springer},
isbn_issn = {ISBN 978-3-031-93705-7},
year = {2025},
editor = {Aaron Dutle and Laura Humphrey and Laura Titolo},
refereed = {yes},
length = {18},
conferencename = {The 17th NASA Formal Methods Symposium, NFM 2025, Williamsburg, VA, USA},
url = {https://doi.org/10.1007/978-3-031-93706-4_4}
}

[Schneider]

Creative Telescoping for Hypergeometric Double Sums

P. Paule, C. Schneider

J. Symb. Comput. 128(102394), pp. 1-30. 2025. ISSN: 0747-7171. Symbolic Computation and Combinatorics: A special issue in memory and honor of Marko Petkovšek, edited by Shaoshi Chen, Sergei Abramov, Manuel Kauers, Eugene Zima. [doi]

[bib]

@article{RISC7068,
author = {P. Paule and C. Schneider},
title = {{Creative Telescoping for Hypergeometric Double Sums}},
language = {english},
abstract = {We present efficient methods for calculating linear recurrences of hypergeometric double sums and, more generally, of multiple sums. In particular, we supplement this approach with the algorithmic theory of contiguous relations, which guarantees the applicability of our method for many input sums. In addition, we elaborate new techniques to optimize the underlying key task of our method to compute rational solutions of parameterized linear recurrences.},
journal = {J. Symb. Comput.},
volume = {128},
number = {102394},
pages = {1--30},
isbn_issn = {ISSN: 0747-7171},
year = {2025},
note = {Symbolic Computation and Combinatorics: A special issue in memory and honor of Marko Petkovšek, edited by Shaoshi Chen, Sergei Abramov, Manuel Kauers, Eugene Zima},
refereed = {yes},
keywords = {creative telescoping; symbolic summation, hypergeometric multi-sums, contiguous relations, parameterized recurrences, rational solutions},
length = {30},
url = {https://doi.org/10.1016/j.jsc.2024.102394}
}

[Schneider]

Telescoping Algorithms for $Sigma^*$-Extensions via Complete Reductions

S. Chen and Y. Gao and H. Huang and C. Schneider

Technical report no. 25-05 in RISC Report Series, Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz, Austria. ISSN 2791-4267 (online). June 2025. arXiv:2506.08767 [cs.SC]. Licensed under CC BY 4.0 International. [doi] [pdf]

[bib]

@techreport{RISC7151,
author = {S. Chen and Y. Gao and H. Huang and C. Schneider},
title = {{Telescoping Algorithms for $Sigma^*$-Extensions via Complete Reductions}},
language = {english},
abstract = {A complete reduction on a difference field is a linear operator that enables one to decompose an element of the field as the sum of a summable part and a remainder such thatthe given element is summable if and only if the remainder is equal to zero.In this paper, we present a complete reduction in a tower of $Sigma^*$-extensions that turns to a new efficient framework for the parameterized telescoping problem. Special instances of such $Sigma^*$-extensions cover iterative sums such as the harmonic numbers and generalized versions that arise, e.g., in combinatorics, computer science or particle physics. Moreover, we illustrate how these new ideas can be used to reduce the depth of the given sum and provide structural theorems that connect complete reductions to Karr's Fundamental Theorem of symbolic summation.},
number = {25-05},
year = {2025},
month = {June},
note = {arXiv:2506.08767 [cs.SC]},
keywords = {symbolic summation, difference fields, complete reductions, paramaterized telescoping},
length = {35},
license = {CC BY 4.0 International},
type = {RISC Report Series},
institution = {Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz},
address = {Altenberger Straße 69, 4040 Linz, Austria},
issn = {2791-4267 (online)}
}

[Schreiner]

Semantics-Based Rapid Prototyping of a Subset of SQL

Wolfgang Schreiner, William Steingartner

Technical report no. 25-02 in RISC Report Series, Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz, Austria. ISSN 2791-4267 (online). February 2025. Licensed under CC BY 4.0 International. [doi] [pdf]

[bib]

@techreport{RISC7136,
author = {Wolfgang Schreiner and William Steingartner},
title = {{Semantics-Based Rapid Prototyping of a Subset of SQL}},
language = {english},
abstract = {This report documents the application of our semantics-based language generator SLANG to developing a rapid prototype of a non-trivial domain-specific language, a substantial subset of the Structured Query Language SQL that we have named SubSQL. After developing a mathematical/logical formulation of the language’s abstract syntax, formal type system, and denotational semantics, we have translated this formulation into a SLANG specification from which the SLANG software generates Java code that implements a parser, a printer, a type-checker, and an executor of the language. This implementation is based on several manually created Java classes that implement the mathematical domains and operations used in the formalization, a simple persistent database, and a high-level application programming interface that allows to execute complete SubSQL scripts from file or individual SubSQL commands within Java programs. The results represent a blueprint for the semantics-based development of other domain-specific languages of similar complexity.},
number = {25-02},
year = {2025},
month = {February},
keywords = {formal semantics of programming languages, domain specific languages, rapid prototyping, interpreters},
sponsor = {Aktion Österreich–Slowakei project 2024-05-15-001, KEGA project 030TUKE-4/2023},
length = {179},
license = {CC BY 4.0 International},
type = {RISC Report Series},
institution = {Research Institute for Symbolic Computation (RISC), Johannes Kepler University Linz},
address = {Altenberger Straße 69, 4040 Linz, Austria},
issn = {2791-4267 (online)}
}

2024

[AUTHOR]

Proximity-based matching with arbitrary T-norms

Maximilian Donnermair

RISC, Johannes Kepler University Linz. Bachelor Thesis. 2024. [pdf]

[bib]

@misc{RISC7061,
author = {Maximilian Donnermair},
title = {{Proximity-based matching with arbitrary T-norms}},
language = {english},
year = {2024},
translation = {0},
institution = {RISC, Johannes Kepler University Linz},
length = {38}
}

[AUTHOR]

A Formalization of the General Theory of Quaternions

Thaynara Arielly de Lima, André Luiz Galdino, Bruno Berto de Oliveira Ribeiro, and Mauricio Ayala-Rincón

In: Leibniz International Proceedings in Informatics (LIPIcs), Yves Bertot, Temur Kutsia, and Michael Norrish (ed.), pp. 11:1-11:18. 2024. ISSN 1868-8969.

[bib]

@inproceedings{RISC7108,
author = {Thaynara Arielly de Lima and André Luiz Galdino and Bruno Berto de Oliveira Ribeiro and and Mauricio Ayala-Rincón},
title = {{A Formalization of the General Theory of Quaternions}},
booktitle = {{Leibniz International Proceedings in Informatics (LIPIcs)}},
language = {english},
pages = {11:1--11:18},
isbn_issn = {ISSN 1868-8969},
year = {2024},
editor = {Yves Bertot and Temur Kutsia and and Michael Norrish},
refereed = {yes},
length = {18}
}

[AUTHOR]

Formalizing Factorization on Euclidean Domains and Abstract Euclidean Algorithms

de Lima Thaynara Arielly, Borges Avelar Andréia, Galdino André Luiz, Ayala-Rincón Mauricio

In: Electronic Proceedings in Theoretical Computer Science, Temur Kutsia, Daniel Ventura, David Monniaux & José F. Morales (ed.)402, pp. 18–33-18–33. 2024. Open Publishing Association, ISSN 2075-2180. [doi]

[bib]

@inproceedings{RISC7114,
author = {de Lima Thaynara Arielly and Borges Avelar Andréia and Galdino André Luiz and Ayala-Rincón Mauricio},
title = {{Formalizing Factorization on Euclidean Domains and Abstract Euclidean Algorithms}},
booktitle = {{Electronic Proceedings in Theoretical Computer Science}},
language = {english},
volume = {402},
pages = {18–33--18–33},
publisher = {Open Publishing Association},
isbn_issn = { ISSN 2075-2180},
year = {2024},
editor = {Temur Kutsia and Daniel Ventura and David Monniaux & José F. Morales},
refereed = {yes},
length = {0},
url = {http://dx.doi.org/10.4204/EPTCS.402.5}
}

[AUTHOR]

Formalizing Factorization on Euclidean Domains and Abstract Euclidean Algorithms

de Lima Thaynara Arielly, Borges Avelar Andréia, Galdino André Luiz, Ayala-Rincón Mauricio

In: Electronic Proceedings in Theoretical Computer Science, Temur Kutsia, Daniel Ventura, David Monniaux and José F. Morales (ed.)402, pp. 18–33-18–33. 2024. Open Publishing Association, ISSN 2075-2180. [doi]

[bib]

@inproceedings{RISC7115,
author = {de Lima Thaynara Arielly and Borges Avelar Andréia and Galdino André Luiz and Ayala-Rincón Mauricio},
title = {{Formalizing Factorization on Euclidean Domains and Abstract Euclidean Algorithms}},
booktitle = {{Electronic Proceedings in Theoretical Computer Science}},
language = {english},
volume = {402},
pages = {18–33--18–33},
publisher = {Open Publishing Association},
isbn_issn = { ISSN 2075-2180},
year = {2024},
editor = {Temur Kutsia and Daniel Ventura and David Monniaux and José F. Morales },
refereed = {yes},
length = {0},
url = {http://dx.doi.org/10.4204/EPTCS.402.5}
}

[Buchberger]

Science and Meditation: Creating the Future (English Translation of "Wissenschaft und Meditation")

Bruno Buchberger

1st edition, 2024. Amazon, ‎ 979-8332230837.

[bib]

@book{RISC7102,
author = {Bruno Buchberger},
title = {{Science and Meditation: Creating the Future (English Translation of "Wissenschaft und Meditation")}},
language = {english},
publisher = {Amazon},
isbn_issn = { ‎ 979-8332230837},
year = {2024},
edition = {1st},
translation = {0},
length = {153}
}

[Cerna]

Equational Anti-unification over Absorption Theories

Mauricio Ayala-Rincón, David M. Cerna, Andres Felipe Gonzalez Barragan, Temur Kutsia

In: Automated Reasoning - 12th International Joint Conference, IJCAR 2024, Nancy, France, July 3-6, 2024, Proceedings, Christoph Benzmüller, Marijn J. H. Heule, Renate A. Schmidt (ed.), Lecture Notes in Artificial Intelligence 14740, pp. 317-337. 2024. Springer, ISBN 978-3-031-63500-7. [doi]

[bib]

@inproceedings{RISC7064,
author = {Mauricio Ayala-Rincón and David M. Cerna and Andres Felipe Gonzalez Barragan and Temur Kutsia},
title = {{Equational Anti-unification over Absorption Theories}},
booktitle = {{Automated Reasoning - 12th International Joint Conference, IJCAR 2024, Nancy, France, July 3-6, 2024, Proceedings}},
language = {english},
series = {Lecture Notes in Artificial Intelligence},
volume = {14740},
pages = {317--337},
publisher = {Springer},
isbn_issn = {ISBN 978-3-031-63500-7},
year = {2024},
editor = {Christoph Benzmüller and Marijn J. H. Heule and Renate A. Schmidt},
refereed = {yes},
length = {21},
url = {https://doi.org/10.1007/978-3-031-63501-4_17}
}

[de Freitas]

The first-order factorizable contributions to the three-loop massive operator matrix elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$

J. Ablinger, A. Behring, J. Bluemlein, A. De Freitas, A. von Manteuffel, C. Schneider, K. Schoenwald

Nuclear Physics B 999(116427), pp. 1-42. 2024. ISSN 0550-3213. arXiv:2311.00644 [hep-ph]. [doi]

[bib]

@article{RISC6755,
author = {J. Ablinger and A. Behring and J. Bluemlein and A. De Freitas and A. von Manteuffel and C. Schneider and K. Schoenwald},
title = {{The first--order factorizable contributions to the three--loop massive operator matrix elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$}},
language = {english},
abstract = {The unpolarized and polarized massive operator matrix elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$contain first--order factorizable and non--first--order factorizable contributions in the determining difference or differential equations of their master integrals. We compute their first--order factorizable contributions in the single heavy mass case for all contributing Feynman diagrams. Moreover, we present the complete color--$zeta$ factors for the cases in which also non--first--order factorizable contributions emerge in the master integrals, but cancel in the final result as found by using the method of arbitrary high Mellin moments. Individual contributions depend also on generalized harmonic sums and on nested finite binomial and inverse binomial sums in Mellin $N$--space, and correspondingly, on Kummer--Poincar'e and square--root valued alphabets in Bjorken--$x$ space. We present a complete discussion of the possibilities of solving the present problem in $N$--space analytically and we also discuss the limitations in the present case to analytically continue the given $N$--space expressions to $N in mathbb{C}$ by strict methods. The representation through generating functions allows a well synchronized representation of the first--order factorizable results over a 17--letter alphabet. We finally obtain representations in terms of iterated integrals over the corresponding alphabet in $x$--space, also containing up to weight {sf w = 5} special constants, which can be rationalized to Kummer--Poincar'e iterated integrals at special arguments. The analytic $x$--space representation requires separate analyses for the intervals $x in [0,1/4], [1/4,1/2], [1/2,1]$ and $x > 1$. We also derive the small and large $x$ limits of the first--order factorizable contributions. Furthermore, we perform comparisons to a number of known Mellin moments, calculated by a different method for the corresponding subset of Feynman diagrams, and an independent high--precision numerical solution of the problems.},
journal = {Nuclear Physics B},
volume = {999},
number = {116427},
pages = {1--42},
isbn_issn = {ISSN 0550-3213},
year = {2024},
note = {arXiv:2311.00644 [hep-ph]},
refereed = {yes},
keywords = {Feynman diagram, massive operator matrix elements, computer algebra, differential equations, difference equations, coupled systems, nested integrals, nested sums},
length = {42},
url = {https://doi.org/10.1016/j.nuclphysb.2023.116427}
}

[de Freitas]

The non-first-order-factorizable contributions to the three-loop single-mass operator matrix elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$

J. Ablinger, A. Behring, J. Bluemlein, A. De Freitas, A. von Manteuffel, C. Schneider, K. Schoenwald

Physics Letter B 854(138713), pp. 1-8. 2024. ISSN 0370-2693. arXiv:2403.00513 [[hep-ph]. [doi]

[bib]

@article{RISC7058,
author = {J. Ablinger and A. Behring and J. Bluemlein and A. De Freitas and A. von Manteuffel and C. Schneider and K. Schoenwald},
title = {{The non-first-order-factorizable contributions to the three-loop single-mass operator matrix elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$}},
language = {english},
abstract = {The non-first-order-factorizable contributions to the unpolarized and polarized massive operator matrix elements to three-loop order, $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$, are calculated in the single-mass case. For the $_2F_1$-related master integrals of the problem, we use a semi-analytic method basedon series expansions and utilize the first-order differential equations for the master integrals whichdoes not need a special basis of the master integrals. Due to the singularity structure of this basis a part of the integrals has to be computed to $O(ep^5)$ in the dimensional parameter. The solutions have to be matched at a series of thresholds and pseudo-thresholds in the region of the Bjorken variable $x in ]0,infty[$ using highly precise series expansions to obtain the imaginary part of the physical amplitude for $x in ]0,1]$ at a high relative accuracy. We compare the present results both with previous analytic results, the results for fixed Mellin moments, and a prediction in the small-$x$ region. We also derive expansions in the region of small and large values of $x$. With this paper, all three-loop single-mass unpolarized and polarized operator matrix elements are calculated.},
journal = {Physics Letter B},
volume = {854},
number = {138713},
pages = {1--8},
isbn_issn = {ISSN 0370-2693},
year = {2024},
note = {arXiv:2403.00513 [[hep-ph]},
refereed = {yes},
keywords = {Feynman diagram, massive operator matrix elements, computer algebra, differential equations, difference equations, coupled systems, numerics},
length = {8},
url = {https://doi.org/10.1016/j.physletb.2024.138713}
}

[de Freitas]

Challenges for analytic calculations of the massive three-loop form factors

J Bluemlein, A. De Freitas, P. Marquard, C. Schneider

In: Proceedings of Loops and Legs in Quantum Field Theory, P. Marquard, M. Steinhauser (ed.)PoS(LL2024)031/24-05, pp. 1-18. 2024. ISSN 1824-8039. arXiv:2408.07046 [hep-ph]. [doi]

[bib]

@inproceedings{RISC7066,
author = {J Bluemlein and A. De Freitas and P. Marquard and C. Schneider},
title = {{Challenges for analytic calculations of the massive three-loop form factors}},
booktitle = {{Proceedings of Loops and Legs in Quantum Field Theory}},
language = {english},
abstract = {The calculation of massive three-loop QCD form factors using in particular the large moments method has been successfully applied to quarkonic contributions in [1]. We give a brief review of the different steps of the calculation and report on improvements of our methods that enabled us to push forward the calculations of the gluonic contributions to the form factors.},
volume = {PoS(LL2024)031},
number = {24-05},
pages = {1--18},
isbn_issn = {ISSN 1824-8039},
year = {2024},
note = { arXiv:2408.07046 [hep-ph]},
editor = {P. Marquard and M. Steinhauser},
refereed = {no},
keywords = {Form factor; computer algebra, coupled systems, differential equations, recurrences, analytic continuation, holonomic functions},
length = {18},
url = {https://doi.org/10.22323/1.467.0031 }
}

[de Freitas]

The three-loop single-mass heavy flavor corrections to deep-inelastic scattering

J. Ablinger, A. Behring, J. Bluemlein, A. De Freitas, A. von Manteuffel, C. Schneider, K. Schoenwald

In: Proceedings of Loops and Legs in Quantum Field Theory, P. Marquard, M. Steinhauser (ed.)PoS(LL2024)047 , pp. 1-12. 2024. SSN 1824-8039. arXiv:2407.02006 [hep-ph]. [doi]

[bib]

@inproceedings{RISC7067,
author = {J. Ablinger and A. Behring and J. Bluemlein and A. De Freitas and A. von Manteuffel and C. Schneider and K. Schoenwald},
title = {{The three-loop single-mass heavy flavor corrections to deep-inelastic scattering}},
booktitle = {{Proceedings of Loops and Legs in Quantum Field Theory}},
language = {english},
abstract = {We report on the status of the calculation of the massive Wilson coefficients and operator matrix elements for deep-inelastic scatterung to three-loop order. We discuss both the unpolarized and the polarized case, for which all the single-mass and nearly all two-mass contributions have been calculated. Numerical results on the structure function $F_2(x,Q^2)$ are presented. In the polarized case, we work in the Larinscheme and refer to parton distribution functions in this scheme. Furthermore, results on the three-loop variable flavor number scheme are presented.},
volume = {PoS(LL2024)047 },
pages = {1--12},
isbn_issn = {SSN 1824-8039},
year = {2024},
note = {arXiv:2407.02006 [hep-ph]},
editor = {P. Marquard and M. Steinhauser},
refereed = {no},
keywords = {Feynman integrals, deep-inelastic scattering, numerical results},
length = {12},
url = {https://doi.org/10.22323/1.467.0047 }
}

[de Lima]

Compactness Theorem for Propositional Logic and Combinatorial Applications

Fabián Fernando Serrano Suárez, Thaynara Arielly de Lima, Mauricio Ayala-Rincón

Arch. Formal Proofs 2024, pp. -. 2024. ISSN 2150-914x. [url]

[bib]

@article{RISC7113,
author = {Fabián Fernando Serrano Suárez and Thaynara Arielly de Lima and Mauricio Ayala-Rincón},
title = {{Compactness Theorem for Propositional Logic and Combinatorial Applications}},
language = {english},
journal = {Arch. Formal Proofs},
volume = {2024},
pages = {--},
isbn_issn = { ISSN 2150-914x},
year = {2024},
refereed = {yes},
length = {0},
url = {https://www.isa-afp.org/entries/Prop_Compactness.html}
}

[de Lima]

A Formalization of the General Theory of Quaternions

de Lima Thaynara Arielly, Galdino André Luiz, de Oliveira Ribeiro Bruno Berto, Ayala-Rincón Mauricio Bertot, Yves and Kutsia, Temur and Norrish, Michael

In: 15th International Conference on Interactive Theorem Proving (ITP 2024), Bertot, Yves and Kutsia, Temur and Norrish, Michael (ed.), Leibniz International Proceedings in Informatics (LIPIcs) 309, pp. 11:1-11:18. 2024. Dagstuhl, Germany, ISBN 978-3-95977-337-9 ISSN 1868-8969. [url]

[bib]

@inproceedings{RISC7110,
author = {de Lima Thaynara Arielly and Galdino André Luiz and de Oliveira Ribeiro Bruno Berto and Ayala-Rincón Mauricio Bertot and Yves and Kutsia and Temur and Norrish and Michael},
title = {{A Formalization of the General Theory of Quaternions}},
booktitle = {{15th International Conference on Interactive Theorem Proving (ITP 2024)}},
language = {english},
series = {Leibniz International Proceedings in Informatics (LIPIcs)},
volume = {309},
pages = {11:1--11:18},
address = {Dagstuhl, Germany},
isbn_issn = {ISBN 978-3-95977-337-9 ISSN 1868-8969},
year = {2024},
annote = {Keywords: Theory of quaternions, Hamilton’s quaternions, Algebraic formalizations, PVS},
editor = {Bertot and Yves and Kutsia and Temur and Norrish and Michael},
refereed = {yes},
length = {0},
url = {https://drops.dagstuhl.de/entities/document/10.4230/LIPIcs.ITP.2024.11}
}

[de Lima]

On reconfiguring heterogeneous parallel island models

Lucas A. da Silveira, Thaynara A. de Lima, Mauricio Ayala-Rincón

Swarm and Evolutionary Computation 89, pp. 101624-101624. 2024. ISSN 2210-6502. [url]

[bib]

@article{RISC7116,
author = {Lucas A. da Silveira and Thaynara A. de Lima and Mauricio Ayala-Rincón},
title = {{On reconfiguring heterogeneous parallel island models}},
language = {english},
abstract = {This work introduces a new Parallel Island Model (PIM) that encompasses the benefits of heterogeneity and algorithmic reconfigurability. The former feature, heterogeneity, means that different islands may execute different evolutionary algorithms. The latter, reconfigurability, means that each island can change the algorithm being executed during the evolutionary process. Allowing such features increases the usual diversity obtained by the communication topologies and migration policies by homogeneous PIMs (HoPIMs). Previous (non-reconfigurable) heterogeneous PIMs (HePIMs) were able to provide competitive solutions regarding the HoPIMs. By adding the reconfiguration capability, PIMs can change dynamically from executing one evolutionary algorithm to another. In this manner, the required diversity and flexibility to outperform HoPIMs and HePIMs is achieved. This paper discusses policies to profit from the feature of reconfigurability on HePIM models and provides an innovative and successful stagnation-based reconfiguration policy. The benefits of the new reconfigurable model are verified using the unsigned reversal distance optimization problem as a case study.},
journal = {Swarm and Evolutionary Computation},
volume = {89},
pages = {101624--101624},
isbn_issn = { ISSN 2210-6502},
year = {2024},
refereed = {yes},
keywords = {Island-based bioinspired algorithms, Parallel island models, Heterogeneous models, Reconfigurability, Evolutionary algorithms, Unsigned reversal distance},
length = {0},
url = {https://www.sciencedirect.com/science/article/pii/S2210650224001627}
}