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ORCIDBas Spitters
Person information
- affiliation: Aarhus University, Denmark
- affiliation (former): Radboud University, Nijmegen, The Netherlands
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2020 – today
- 2024
[c22]Philipp G. Haselwarter
, Benjamin Salling Hvass, Lasse Letager Hansen, Théo Winterhalter, Catalin Hritcu, Bas Spitters:
The Last Yard: Foundational End-to-End Verification of High-Speed Cryptography. CPP 2024: 30-44- 2023
- [j27]Philipp G. Haselwarter, Exequiel Rivas, Antoine Van Muylder, Théo Winterhalter, Carmine Abate, Nikolaj Sidorenco, Catalin Hritcu, Kenji Maillard, Bas Spitters:
SSProve: A Foundational Framework for Modular Cryptographic Proofs in Coq. ACM Trans. Program. Lang. Syst. 45(3): 15:1-15:61 (2023) - [c21]Diego F. Aranha, Benjamin Salling Hvass, Bas Spitters, Mehdi Tibouchi:
Faster Constant-time Evaluation of the Kronecker Symbol with Application to Elliptic Curve Hashing. CCS 2023: 3228-3238 - [c20]Eske Hoy Nielsen, Danil Annenkov, Bas Spitters:
Formalising Decentralised Exchanges in Coq. CPP 2023: 290-302 - [c19]Benjamin Salling Hvass, Diego F. Aranha, Bas Spitters:
High-Assurance Field Inversion for Curve-Based Cryptography. CSF 2023: 552-567 - [i31]Philipp G. Haselwarter, Benjamin Salling Hvass, Lasse Letager Hansen, Théo Winterhalter, Catalin Hritcu, Bas Spitters:
The Last Yard: Foundational End-to-End Verification of High-Speed Cryptography. IACR Cryptol. ePrint Arch. 2023: 185 (2023) - [i30]Diego F. Aranha, Benjamin Salling Hvass, Bas Spitters, Mehdi Tibouchi:
Faster constant-time evaluation of the Kronecker symbol with application to elliptic curve hashing. IACR Cryptol. ePrint Arch. 2023: 1261 (2023) - 2022
- [j26]Danil Annenkov, Mikkel Milo, Jakob Botsch Nielsen, Bas Spitters:
Extracting functional programs from Coq, in Coq. J. Funct. Program. 32: e11 (2022) - [c18]Mikkel Milo, Eske Hoy Nielsen, Danil Annenkov, Bas Spitters:
Finding Smart Contract Vulnerabilities with ConCert's Property-Based Testing Framework. FMBC@CAV 2022: 2:1-2:13 - [i29]Eske Hoy Nielsen, Danil Annenkov, Bas Spitters:
Formalising Decentralised Exchanges in Coq. CoRR abs/2203.08016 (2022) - [i28]Mikkel Milo, Eske Hoy Nielsen, Danil Annenkov, Bas Spitters:
Finding smart contract vulnerabilities with ConCert's property-based testing framework. CoRR abs/2208.00758 (2022) - 2021
- [j25]Martin E. Bidlingmaier, Florian Faissole, Bas Spitters:
Synthetic topology in Homotopy Type Theory for probabilistic programming. Math. Struct. Comput. Sci. 31(10): 1301-1329 (2021) - [c17]Danil Annenkov, Mikkel Milo, Jakob Botsch Nielsen, Bas Spitters:
Extracting smart contracts tested and verified in Coq. CPP 2021: 105-121 - [c16]Carmine Abate, Philipp G. Haselwarter, Exequiel Rivas, Antoine Van Muylder, Théo Winterhalter, Catalin Hritcu, Kenji Maillard, Bas Spitters:
SSProve: A Foundational Framework for Modular Cryptographic Proofs in Coq. CSF 2021: 1-15 - [c15]Nikolaj Sidorenco, Sabine Oechsner, Bas Spitters:
Formal security analysis of MPC-in-the-head zero-knowledge protocols. CSF 2021: 1-14 - [c14]Søren Eller Thomsen, Bas Spitters:
Formalizing Nakamoto-Style Proof of Stake. CSF 2021: 1-15 - [i27]Danil Annenkov, Mikkel Milo, Jakob Botsch Nielsen, Bas Spitters:
Extracting functional programs from Coq, in Coq. CoRR abs/2108.02995 (2021) - [i26]Carmine Abate, Philipp G. Haselwarter, Exequiel Rivas, Antoine Van Muylder, Théo Winterhalter, Catalin Hritcu, Kenji Maillard, Bas Spitters:
SSProve: A Foundational Framework for Modular Cryptographic Proofs in Coq. IACR Cryptol. ePrint Arch. 2021: 397 (2021) - [i25]Nikolaj Sidorenco, Sabine Oechsner, Bas Spitters:
Formal security analysis of MPC-in-the-head zero-knowledge protocols. IACR Cryptol. ePrint Arch. 2021: 437 (2021) - [i24]Benjamin Salling Hvass, Diego F. Aranha, Bas Spitters:
High-assurance field inversion for curve-based cryptography. IACR Cryptol. ePrint Arch. 2021: 549 (2021) - 2020
- [j24]Egbert Rijke, Michael Shulman, Bas Spitters:
Modalities in homotopy type theory. Log. Methods Comput. Sci. 16(1) (2020) - [j23]Lars Birkedal, Ranald Clouston, Bassel Mannaa, Rasmus Ejlers Møgelberg, Andrew M. Pitts, Bas Spitters:
Modal dependent type theory and dependent right adjoints. Math. Struct. Comput. Sci. 30(2): 118-138 (2020) - [c13]Danil Annenkov, Jakob Botsch Nielsen, Bas Spitters:
ConCert: a smart contract certification framework in Coq. CPP 2020: 215-228 - [i23]Søren Eller Thomsen, Bas Spitters:
Formalizing Nakamoto-Style Proof of Stake. CoRR abs/2007.12105 (2020) - [i22]Danil Annenkov, Mikkel Milo, Jakob Botsch Nielsen, Bas Spitters:
Extracting Smart Contracts Tested and Verified in Coq. CoRR abs/2012.09138 (2020) - [i21]Søren Eller Thomsen, Bas Spitters:
Formalizing Nakamoto-Style Proof of Stake. IACR Cryptol. ePrint Arch. 2020: 917 (2020)
2010 – 2019
- 2019
- [j22]Lars Birkedal, Ales Bizjak, Ranald Clouston, Hans Bugge Grathwohl, Bas Spitters, Andrea Vezzosi:
Guarded Cubical Type Theory. J. Autom. Reason. 63(2): 211-253 (2019) - [c12]Jakob Botsch Nielsen, Bas Spitters:
Smart Contract Interactions in Coq. FM Workshops (1) 2019: 380-391 - [i20]Danil Annenkov, Bas Spitters:
Towards a Smart Contract Verification Framework in Coq. CoRR abs/1907.10674 (2019) - [i19]Jakob Botsch Nielsen, Bas Spitters:
Smart Contract Interactions in Coq. CoRR abs/1911.04732 (2019) - [i18]Martin E. Bidlingmaier, Florian Faissole, Bas Spitters:
Synthetic topology in Homotopy Type Theory for probabilistic programming. CoRR abs/1912.07339 (2019) - 2018
- [c11]Helene Haagh, Aleksandr Karbyshev, Sabine Oechsner, Bas Spitters, Pierre-Yves Strub:
Computer-Aided Proofs for Multiparty Computation with Active Security. CSF 2018: 119-131 - [c10]Daniel R. Licata, Ian Orton, Andrew M. Pitts, Bas Spitters:
Internal Universes in Models of Homotopy Type Theory. FSCD 2018: 22:1-22:17 - [i17]Daniel R. Licata, Ian Orton, Andrew M. Pitts, Bas Spitters:
Internal Universes in Models of Homotopy Type Theory. CoRR abs/1801.07664 (2018) - [i16]Ranald Clouston, Bassel Mannaa, Rasmus Ejlers Møgelberg, Andrew M. Pitts, Bas Spitters:
Modal Dependent Type Theory and Dependent Right Adjoints. CoRR abs/1804.05236 (2018) - [i15]Helene Haagh, Aleksandr Karbyshev, Sabine Oechsner, Bas Spitters, Pierre-Yves Strub:
Computer-aided proofs for multiparty computation with active security. CoRR abs/1806.07197 (2018) - [i14]Daniel Huang, Greg Morrisett, Bas Spitters:
An Application of Computable Distributions to the Semantics of Probabilistic Programs. CoRR abs/1806.07966 (2018) - [i13]Jonathan Sterling, Bas Spitters:
Normalization by gluing for free λ-theories. CoRR abs/1809.08646 (2018) - [i12]Helene Haagh, Aleksandr Karbyshev, Sabine Oechsner, Bas Spitters, Pierre-Yves Strub:
Computer-aided proofs for multiparty computation with active security. IACR Cryptol. ePrint Arch. 2018: 502 (2018) - 2017
- [c9]Andrej Bauer, Jason Gross, Peter LeFanu Lumsdaine, Michael Shulman, Matthieu Sozeau, Bas Spitters:
The HoTT library: a formalization of homotopy type theory in Coq. CPP 2017: 164-172 - [i11]Egbert Rijke, Michael Shulman, Bas Spitters:
Modalities in homotopy type theory. CoRR abs/1706.07526 (2017) - 2016
- [c8]Lars Birkedal, Ales Bizjak, Ranald Clouston, Hans Bugge Grathwohl, Bas Spitters, Andrea Vezzosi:
Guarded Cubical Type Theory: Path Equality for Guarded Recursion. CSL 2016: 23:1-23:17 - [i10]Lars Birkedal, Ales Bizjak, Ranald Clouston, Hans Bugge Grathwohl, Bas Spitters, Andrea Vezzosi:
Guarded Cubical Type Theory: Path Equality for Guarded Recursion. CoRR abs/1606.05223 (2016) - [i9]Andrej Bauer, Jason Gross, Peter LeFanu Lumsdaine, Michael Shulman, Matthieu Sozeau, Bas Spitters:
The HoTT Library: A formalization of homotopy type theory in Coq. CoRR abs/1610.04591 (2016) - [i8]Bas Spitters:
Cubical sets and the topological topos. CoRR abs/1610.05270 (2016) - [i7]Lars Birkedal, Ales Bizjak, Ranald Clouston, Hans Bugge Grathwohl, Bas Spitters, Andrea Vezzosi:
Guarded Cubical Type Theory. CoRR abs/1611.09263 (2016) - 2015
- [j21]Egbert Rijke, Bas Spitters:
Sets in homotopy type theory. Math. Struct. Comput. Sci. 25(5): 1172-1202 (2015) - 2013
- [c7]Evgeny Makarov, Bas Spitters:
The Picard Algorithm for Ordinary Differential Equations in Coq. ITP 2013: 463-468 - [i6]Egbert Rijke, Bas Spitters:
Sets in homotopy type theory. CoRR abs/1305.3835 (2013) - 2012
- [j20]Thierry Coquand, Bas Spitters:
A constructive proof of Simpson's Rule. J. Log. Anal. 4 (2012) - [j19]Chris Heunen, Nicolaas P. Landsman, Bas Spitters:
Bohrification of operator algebras and quantum logic. Synth. 186(3): 719-752 (2012) - [c6]Bas Spitters, Steven Vickers, Sander Wolters:
Gelfand spectra in Grothendieck toposes using geometric mathematics. QPL 2012: 77-107 - 2011
- [j18]Robbert Krebbers, Bas Spitters:
Type classes for efficient exact real arithmetic in Coq. Log. Methods Comput. Sci. 9(1) (2011) - [j17]Thierry Coquand, Erik Palmgren, Bas Spitters:
Metric complements of overt closed sets. Math. Log. Q. 57(4): 373-378 (2011) - [j16]Bas Spitters, Eelis van der Weegen:
Type classes for mathematics in type theory. Math. Struct. Comput. Sci. 21(4): 795-825 (2011) - [c5]Robbert Krebbers, Bas Spitters:
Computer Certified Efficient Exact Reals in Coq. Calculemus/MKM 2011: 90-106 - [e1]Bart Jacobs, Peter Selinger, Bas Spitters:
Proceedings 8th International Workshop on Quantum Physics and Logic, QPL 2011, Nijmegen, Netherlands, October 27-29, 2011. EPTCS 95, 2011 [contents] - [i5]Bas Spitters, Eelis van der Weegen:
Type Classes for Mathematics in Type Theory. CoRR abs/1102.1323 (2011) - [i4]Robbert Krebbers, Bas Spitters:
Computer certified efficient exact reals in Coq. CoRR abs/1105.2751 (2011) - 2010
- [j15]Bas Spitters:
Locatedness and overt sublocales. Ann. Pure Appl. Log. 162(1): 36-54 (2010) - [j14]Thierry Coquand, Bas Spitters:
Constructive theory of Banach algebras. J. Log. Anal. 2 (2010) - [j13]Bas Spitters:
Constructive Pointfree Topology Eliminates Non-constructive Representation Theorems from Riesz Space Theory. Order 27(2): 225-233 (2010) - [j12]Russell O'Connor, Bas Spitters:
A computer-verified monadic functional implementation of the integral. Theor. Comput. Sci. 411(37): 3386-3402 (2010) - [c4]Bas Spitters, Eelis van der Weegen:
Developing the Algebraic Hierarchy with Type Classes in Coq. ITP 2010: 490-493 - [c3]Bas Spitters:
The space of measurement outcomes as a spectrum for non-commutative algebras. DCM 2010: 127-133
2000 – 2009
- 2009
- [j11]Thierry Coquand, Bas Spitters:
Integrals and valuations. J. Log. Anal. 1 (2009) - [c2]Bas Spitters, Russell O'Connor:
Computer Verified Exact Analysis (Tutorial). CCA 2009 - 2008
- [i3]Russell O'Connor, Bas Spitters:
A computer verified, monadic, functional implementation of the integral. CoRR abs/0809.1552 (2008) - 2007
- [j10]Bas Spitters, Herman Geuvers, Milad Niqui, Freek Wiedijk:
Preface to the special issue: Constructive analysis, types and exact real numbers. Math. Struct. Comput. Sci. 17(1): 1 (2007) - [j9]Herman Geuvers, Milad Niqui, Bas Spitters, Freek Wiedijk:
Constructive analysis, types and exact real numbers. Math. Struct. Comput. Sci. 17(1): 3-36 (2007) - 2006
- [j8]Bas Spitters:
Constructive algebraic integration theory. Ann. Pure Appl. Log. 137(1-3): 380-390 (2006) - [j7]Bas Spitters:
A constructive view on ergodic theorems. J. Symb. Log. 71(2): 611-623 (2006) - [j6]Bas Spitters:
Corrigendum to: 'A constructive view on ergodic theorems'. J. Symb. Log. 71(4): 1431-1432 (2006) - 2005
- [j5]Thierry Coquand, Bas Spitters:
Formal Topology and Constructive Mathematics: the Gelfand and Stone-Yosida Representation Theorems. J. Univers. Comput. Sci. 11(12): 1932-1944 (2005) - [j4]Bas Spitters:
Constructive Results on Operator Algebras. J. Univers. Comput. Sci. 11(12): 2096-2113 (2005) - [j3]Bas Spitters:
Almost periodic functions, constructively. Log. Methods Comput. Sci. 1(3) (2005) - [j2]Thierry Coquand, Bas Spitters:
A constructive proof of the Peter-Weyl theorem. Math. Log. Q. 51(4): 351-359 (2005) - [p1]Bas Spitters:
Approximating integrable sets by compacts constructively. From sets and types to topology and analysis 2005 - [i2]Bas Spitters:
Constructive algebraic integration theory without choice. Mathematics, Algorithms, Proofs 2005 - [i1]Bas Spitters:
Almost periodic functions, constructively. CoRR abs/cs/0512009 (2005) - 2003
- [c1]Luís Cruz-Filipe, Bas Spitters:
Program Extraction from Large Proof Developments. TPHOLs 2003: 205-220 - 2002
- [j1]Bas Spitters:
Located Operators. Math. Log. Q. 48(S1): 107-122 (2002)
Coauthor Index
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