Lawrence C Paulson FRS

Biography

Lawrence Paulson FRS is Director of Research at the University of Cambridge, where he has held established positions since 1983. He has written over 120 refereed conference and journal papers as well as four books. He introduced the popular Isabelle theorem proving environment in 1986, and made contributions to the verification of cryptographic protocols, the formalisation of mathematics, automated theorem proving technology, and other fields. He achieved a formal analysis of the ubiquitous TLS protocol, which is used to secure online shopping, and the formal verification of advanced mathematical results such as Gödel's second incompleteness theorem. In 2008, he introduced MetiTarski, an automatic theorem prover for real-valued functions such as logarithms and exponentials. He has supervised over 20 postgraduate students and numerous postdoctoral researchers. He has the honorary title of Distinguished Affiliated Professor from the Technical University of Munich and is an ACM Fellow and a Fellow of the Royal Society. He holds a PhD in Computer Science from Stanford University, and a BS in Mathematics from the California Institute of Technology.

Research

My research concerns automated theorem proving and its applications:

ERC project ALEXANDRIA: making proof assistants useful to mathematicians
development of Isabelle, with emphasis on automation
MetiTarski, an automatic prover for the elementary functions
formalising mathematics, including Gödel's incompeteness theorems and constructible universe
proving the correctness of security protocols

Teaching

Professional Activities

Publications

Conference proceedings

Paulson, L. and Edmonds, C., 2024. Formal Probabilistic Methods for Combinatorial Structures using the Lovász Local Lemma
Doi: 10.1145/3636501.3636946

Mangla, C., Holden, S. and Paulson, L., 2022. Bayesian Ranking for Strategy Scheduling in Automated Theorem Provers IJCAR 2022: Automated Reasoning,
Doi: 10.1007/978-3-031-10769-6_33

Edmonds, C. and Paulson, L., 2022. Formalising Fisher’s Inequality: Formal Linear Algebraic Proof Techniques in Combinatorics LIPIcs : Leibniz International Proceedings in Informatics,
Doi: 10.4230/LIPIcs.ITP.2022.11

Edmonds, C. and Paulson, LC., 2022. Formalising Fisher's Inequality: Formal Linear Algebraic Proof Techniques in Combinatorics Leibniz International Proceedings in Informatics, LIPIcs, v. 237
Doi: http://doi.org/10.4230/LIPIcs.ITP.2022.11

Edmonds, C. and Paulson, LC., 2021. A Modular First Formalisation of Combinatorial Design Theory. CICM, v. 12833

Slowik, A., Mangla, C., Jamnik, M., Holden, SB. and Paulson, LC., 2020. Bayesian Optimisation for Premise Selection in Automated Theorem Proving (Student Abstract). Proceedings of the AAAI Conference on Artificial Intelligence, 34(10), v. 34
Doi: 10.1609/aaai.v34i10.7232

2020. Automated Reasoning
Doi: 10.1007/978-3-030-51074-9

Huang, Z., England, M., Davenport, JH. and Paulson, LC., 2017. Using machine learning to decide when to precondition cylindrical algebraic decomposition with groebner bases Proceedings - 18th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing, SYNASC 2016,
Doi: http://doi.org/10.1109/SYNASC.2016.020

Paulson, LC., 2017. Porting the HOL Light Analysis Library: Some Lessons (Invited Talk) PROCEEDINGS OF THE 6TH ACM SIGPLAN CONFERENCE ON CERTIFIED PROGRAMS AND PROOFS, CPP'17,
Doi: http://doi.org/10.1145/3018610.3023366

Huang, Z., England, M., Davenport, JH. and Paulson, LC., 2016. Using Machine Learning to Decide When to Precondition Cylindrical Algebraic Decomposition With Groebner Bases PROCEEDINGS OF 2016 18TH INTERNATIONAL SYMPOSIUM ON SYMBOLIC AND NUMERIC ALGORITHMS FOR SCIENTIFIC COMPUTING (SYNASC),
Doi: http://doi.org/10.1109/SYNASC.2016.14

Li, W. and Paulson, LC., 2016. A modular, efficient formalisation of real algebraic numbers CPP 2016 - Proceedings of the 5th ACM SIGPLAN Conference on Certified Programs and Proofs, co-located with POPL 2016,
Doi: http://doi.org/10.1145/2854065.2854074

Huang, Z., England, M., Wilson, D., Davenport, JH. and Paulson, LC., 2015. A comparison of three heuristics to choose the variable ordering for cylindrical algebraic decomposition ACM Communications in Computer Algebra, v. 48
Doi: http://doi.org/10.1145/2733693.2733706

Sultana, N., Benzmüller, C. and Paulson, LC., 2015. Proofs and reconstructions Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 9322
Doi: http://doi.org/10.1007/978-3-319-24246-0_16

Paulson, LC., 2015. A formalisation of finite automata using hereditarily finite sets Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 9195
Doi: 10.1007/978-3-319-21401-6_15

Jackson, P., Sogokon, A., Bridge, J. and Paulson, L., 2014. Verifying hybrid systems involving transcendental functions Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 8430 LNCS
Doi: http://doi.org/10.1007/978-3-319-06200-6_14

Paulson, LC., 2013. MetiTarski's Menagerie of Cooperating Systems. FroCos, v. 8152

Paulson, LC., 2012. MetiTarski: Past and Future. ITP, v. 7406

Narayanan, R., Akbarpour, B., Zaki, MH., Tahar, S. and Paulson, LC., 2010. Formal verification of analog circuits in the presence of noise and process variation. DATE,

2010. Interactive Theorem Proving, First International Conference, ITP 2010, Edinburgh, UK, July 11-14, 2010. Proceedings ITP, v. 6172

Paulson, LC. and Blanchette, JC., 2010. Three years of experience with Sledgehammer, a Practical Link Between Automatic and Interactive Theorem Provers. IWIL@LPAR, v. 2

2010. Interactive Theorem Proving, First International Conference, ITP 2010, Edinburgh, UK, July 11-14, 2010. Proceedings ITP, v. 6172

Paulson, LC. and Blanchette, JC., 2010. Three years of experience with Sledgehammer, a Practical Link Between Automatic and Interactive Theorem Provers. IWIL@LPAR, v. 2

2010. Interactive Theorem Proving, First International Conference, ITP 2010, Edinburgh, UK, July 11-14, 2010. Proceedings ITP, v. 6172

Paulson, LC., 2010. Three Years of Experience with Sledgehammer, a Practical Link between Automatic and Interactive Theorem Provers. PAAR@IJCAR, v. 9

2010. Interactive Theorem Proving, First International Conference, ITP 2010, Edinburgh, UK, July 11-14, 2010. Proceedings ITP, v. 6172

Paulson, LC., 2010. Three Years of Experience with Sledgehammer, a Practical Link between Automatic and Interactive Theorem Provers. PAAR@IJCAR, v. 9

Narayanan, R., Akbarpour, B., Zaki, MH., Tahar, S. and Paulson, LC., 2010. Formal verification of analog circuits in the presence of noise and process variation. DATE,

Benzmüller, C. and Paulson, LC., 2009. Quantified Multimodal Logics in Simple Type Theory CoRR, v. abs/0905.2435

Akbarpour, B. and Paulson, LC., 2009. Applications of MetiTarski in the Verification of Control and Hybrid Systems. HSCC, v. 5469

Akbarpour, B. and Paulson, LC., 2009. Applications of MetiTarski in the Verification of Control and Hybrid Systems HYBRID SYSTEMS: COMPUTATION AND CONTROL, v. 5469

Akbarpour, B. and Paulson, LC., 2009. Applications of MetiTarski in the Verification of Control and Hybrid Systems Hybrid Systems: Computation and Control,

Denman, W., Akbarpour, B., Tahar, S., Zaki, M. and Paulson, LC., 2009. Formal Verification of Analog Designs using MetiTarski Formal Methods in Computer Aided Design,
Doi: http://doi.org/10.1109/FMCAD.2009.5351136

Akbarpour, B. and Paulson, LC., 2009. Applications of MetiTarski in the Verification of Control and Hybrid Systems Hybrid Systems: Computation and Control,

Benzmüller, C. and Paulson, LC., 2009. Quantified Multimodal Logics in Simple Type Theory CoRR, v. abs/0905.2435

Wenzel, M., Paulson, LC. and Nipkow, T., 2008. The Isabelle Framework Theorem Proving in Higher Order Logics: TPHOLs 2008,
Doi: http://doi.org/10.1007/978-3-540-71067-7_7

Benzmüller, C., Paulson, LC., Theiss, F. and Fietzke, A., 2008. LEO-II - A Cooperative Automatic Theorem Prover for Higher-Order Logic Automated Reasoning — 4th International Joint Conference, IJCAR 2008,
Doi: http://doi.org/10.1007/978-3-540-71070-7_14

Wenzel, M., Paulson, LC. and Nipkow, T., 2008. The Isabelle Framework Theorem Proving in Higher Order Logics: TPHOLs 2008,
Doi: http://doi.org/10.1007/978-3-540-71067-7_7

Paulson, LC., 2008. The relative consistency of the axiom of choice - Mechanized using Isabelle/ZF LOGIC AND THEORY OF ALGORITHMS, v. 5028

Meng, J., Paulson, LC. and Klein, G., 2007. A Termination Checker for Isabelle Hoare Logic 4th International Verification Workshop - VERIFY’07, v. 259

Akbarpour, B. and Paulson, L., 2007. Extending a Resolution Prover for Inequalities on Elementary Functions Logic for Programming, Artificial Intelligence, and Reasoning,
Doi: http://doi.org/10.1007/978-3-540-75560-9_6

Akbarpour, B. and Paulson, LC., 2006. Towards Automatic Proofs of Inequalities Involving Elementary Functions PDPAR: Pragmatics of Decision Procedures in Automated Reasoning,

2006. FLoC’06 Workshop on Empirically Successful Computerized Reasoning

Wenzel, M. and Paulson, LC., 2006. Isabelle/Isar.

Bella, G., Longo, C. and Paulson, LC., 2005. Is the verification problem for cryptographic protocols solved? SECURITY PROTOCOLS, v. 3364

Nipkow, T. and Paulson, LC., 2005. Proof pearl: Defining functions over finite sets THEOREM PROVING IN HIGHER ORDER LOGICS, PROCEEDINGS, v. 3603

Bella, G., Longo, C. and Paulson, LC., 2005. Is the verification problem for cryptographic protocols solved? SECURITY PROTOCOLS, v. 3364

Nipkow, T. and Paulson, LC., 2005. Proof Pearl: Defining Functions Over Finite Sets Theorem Proving in Higher Order Logics: TPHOLs 2005,
Doi: http://doi.org/10.1007/11541868_25

Bella, G. and Paulson, LC., 2004. Analyzing delegation properties SECURITY PROTOCOLS, v. 2845

Meng, J. and Paulson, LC., 2004. Experiments On Supporting Interactive Proof Using Resolution Automated Reasoning — Second International Joint Conference, IJCAR 2004,
Doi: http://doi.org/10.1007/b98691

Meng, J. and Paulson, LC., 2004. Experiments on supporting interactive proof using resolution AUTOMATED REASONING, PROCEEDINGS, v. 3097

Paulson, LC., 2004. The descent of BAN COMPUTER SYSTEMS: THEORY, TECHNOLOGY AND APPLICATIONS,

Bella, G. and Paulson, LC., 2004. Analyzing delegation properties SECURITY PROTOCOLS, v. 2845

Bella, G., Longo, C. and Paulson, LC., 2003. Verifying Second-Level Security Protocols Theorem Proving in Higher Order Logics: TPHOLs 2003,

Paulson, LC., 2003. Verifying the SET protocol: Overview FORMAL ASPECTS OF SECURITY, v. 2629

Bella, G., Paulson, LC. and Massacci, F., 2002. The verification of an industrial payment protocol: the SET purchase phase. CCS,

Bella, G. and Paulson, LC., 2002. A proof of non-repudiation SECURITY PROTOCOLS, v. 2467

Christianson, B., Aura, T., Wheeler, D., Harbison, W., Gligor, V., Paulson, L., Blaze, M. and Ioannidis, J., 2002. Concluding discussion - When does confidentiality harm security? SECURITY PROTOCOLS, v. 2467

Ehmety, SO. and Paulson, LC., 2002. Program Composition in Isabelle/UNITY Workshop on Formal Methods for Parallel Programming: Theory and Applications; text on CD-ROM,

Paulson, LC., 2002. The Reflection Theorem: A Study in Meta-theoretic Reasoning. CADE, v. 2392

Paulson, L., 2002. A proof of non-repudiation - (Transcript of discussion) SECURITY PROTOCOLS, v. 2467

Bella, G. and Paulson, LC., 2002. A proof of non-repudiation SECURITY PROTOCOLS, v. 2467

Bella, G., Paulson, LC. and Massacci, F., 2002. The verification of an industrial payment protocol: the SET purchase phase. CCS,

Ehmety, SO. and Paulson, LC., 2002. Program Composition in Isabelle/UNITY Workshop on Formal Methods for Parallel Programming: Theory and Applications; text on CD-ROM,

Paulson, LC., 2002. The Reflection Theorem: A Study in Meta-theoretic Reasoning. CADE, v. 2392

Ehmety, SO. and Paulson, LC., 2002. Program Composition in Isabelle/UNITY Workshop on Formal Methods for Parallel Programming: Theory and Applications; text on CD-ROM,

Paulson, L., 2002. A proof of non-repudiation - (Transcript of discussion) SECURITY PROTOCOLS, v. 2467

Ehmety, SO. and Paulson, LC., 2002. Program Composition in Isabelle/UNITY Workshop on Formal Methods for Parallel Programming: Theory and Applications; text on CD-ROM,

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2001. Making sense of specifications: The formalization of SET (Extended abstract) Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 2133
Doi: http://doi.org/10.1007/3-540-44810-1_11

Paulson, LC., 2001. SET Cardholder Registration: The Secrecy Proofs. IJCAR, v. 2083

Bella, G. and Paulson, LC., 2001. Mechanical Proofs about a Non-repudiation Protocol. TPHOLs, v. 2152

Paulson, LC., 2001. SET Cardholder Registration: The Secrecy Proofs. IJCAR, v. 2083

Bella, G. and Paulson, LC., 2001. Mechanical Proofs about a Non-repudiation Protocol. TPHOLs, v. 2152

Paulson, LC., 2001. SET Cardholder Registration: The Secrecy Proofs. IJCAR, v. 2083

Paulson, LC., 2000. Making Sense of Specifications: The Formalization of SET (Transcript of Discussion). Security Protocols Workshop, v. 2133

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Formal Verification of Cardholder Registration in SET Computer Security — ESORICS 2000,

Paulson, LC., 2000. Relations between secrets: The yahalom protocol extended abstract Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 1796
Doi: http://doi.org/10.1007/10720107_10

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Formal Verification of Cardholder Registration in SET Computer Security — ESORICS 2000,

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Formal verification of Cardholder Registration in SET COMPUTER SECURITY - ESORICS 2000, PROCEEDINGS, v. 1895

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Formal Verification of Cardholder Registration in SET Computer Security — ESORICS 2000,

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Making Sense of Specifications: The Formalization of SET. Security Protocols Workshop, v. 2133

Paulson, LC., 2000. The Yahalom protocol SECURITY PROTOCOLS, v. 1796

Paulson, LC., 2000. Making Sense of Specifications: The Formalization of SET (Transcript of Discussion). Security Protocols Workshop, v. 2133

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Formal verification of Cardholder Registration in SET COMPUTER SECURITY - ESORICS 2000, PROCEEDINGS, v. 1895

Paulson, LC., 2000. The Yahalom protocol SECURITY PROTOCOLS, v. 1796

Paulson, LC., 2000. Relations between secrets: The Yahalom protocol SECURITY PROTOCOLS, v. 1796

Bella, G., Massacci, F., Paulson, LC. and Tramontano, P., 2000. Making Sense of Specifications: The Formalization of SET. Security Protocols Workshop, v. 2133

Paulson, LC., 1999. Proving Security Protocols Correct. LICS,
Doi: 10.1109/LICS.1999.782632

Fleuriot, J. and Paulson, LC., 1999. Proving Newton’s Propositio Kepleriana Using Geometry and Nonstandard Analysis in Isabelle Workshop on Automated Deduction in Geometry, Second International Workshop, ADG’98,

Paulson, LC., 1999. Proving Security Protocols Correct. LICS,
Doi: http://doi.org/10.1109/LICS.1999.782632

Kammüller, F., Wenzel, M. and Paulson, LC., 1999. Locales: A Sectioning Concept for Isabelle Theorem Proving in Higher Order Logics: TPHOLs ’99,

Paulson, LC., 1999. Proving Security Protocols Correct. LICS,
Doi: http://doi.org/10.1109/LICS.1999.782632

Kammüller, F., Wenzel, M. and Paulson, LC., 1999. Locales: A Sectioning Concept for Isabelle Theorem Proving in Higher Order Logics: TPHOLs ’99,

Paulson, LC., 1999. Proving Security Protocols Correct. LICS,
Doi: http://doi.org/10.1109/LICS.1999.782632

Kammüller, F., Wenzel, M. and Paulson, LC., 1999. Locales: A Sectioning Concept for Isabelle Theorem Proving in Higher Order Logics: TPHOLs ’99,

Ballarin, C. and Paulson, LC., 1998. Reasoning about coding theory: The benefits we get from computer algebra Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 1476

Ballarin, C. and Paulson, LC., 1998. Reasoning About Coding Theory: The Benefits We Get from Computer Algebra. AISC, v. 1476

Bella, G. and Paulson, LC., 1998. Kerberos Version IV: Inductive Analysis of the Secrecy Goals Computer Security — ESORICS 98,

Ballarin, C. and Paulson, LC., 1998. Reasoning About Coding Theory: The Benefits We Get from Computer Algebra. AISC, v. 1476

Bella, G. and Paulson, LC., 1998. Kerberos Version IV: Inductive Analysis of the Secrecy Goals Computer Security — ESORICS 98,

Bella, G. and Paulson, LC., 1998. Mechanising BAN Kerberos by the Inductive Method Computer Aided Verification: 10th International Conference, CAV ’98,

Paulson, L., 1998. Inductive analysis of the internet protocol TLS Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 1550
Doi: http://doi.org/10.1007/3-540-49135-X_2

Paulson, LC., 1998. Inductive Analysis of the Internet Protocol TLS (Position Paper). Security Protocols Workshop, v. 1550

Bella, G. and Paulson, LC., 1998. Mechanising BAN Kerberos by the Inductive Method Computer Aided Verification: 10th International Conference, CAV ’98,

Paulson, LC., 1998. Inductive Analysis of the Internet Protocol TLS (Position Paper). Security Protocols Workshop, v. 1550

Fleuriot, J. and Paulson, LC., 1998. A Combination of Nonstandard Analysis and Geometry Theorem Proving, with Application to Newton’s Principia Automated Deduction — CADE-15 International Conference,

Paulson, LC., 1998. Inductive Analysis of the Internet Protocol TLS (Position Paper). Security Protocols Workshop, v. 1550

Paulson, LC., 1998. Inductive Analysis of the Internet Protocol TLS (Transcript of Discussion). Security Protocols Workshop, v. 1550

Paulson, LC., 1998. Inductive Analysis of the Internet Protocol TLS (Position Paper). Security Protocols Workshop, v. 1550

Paulson, LC., 1998. A Generic Tableau Prover and its Integration with Isabelle (Extended Abstract) CADE-15 Workshop on Integration of Deduction Systems,

Paulson, LC., 1998. Inductive Analysis of the Internet Protocol TLS (Transcript of Discussion). Security Protocols Workshop, v. 1550

Bella, G. and Paulson, LC., 1998. Kerberos Version IV: Inductive Analysis of the Secrecy Goals Computer Security — ESORICS 98,

Bella, G. and Paulson, LC., 1998. Mechanising BAN Kerberos by the Inductive Method Computer Aided Verification: 10th International Conference, CAV ’98,

Ballarin, C. and Paulson, LC., 1998. Reasoning About Coding Theory: The Benefits We Get from Computer Algebra. AISC, v. 1476

Paulson, LC., 1998. A Generic Tableau Prover and its Integration with Isabelle (Extended Abstract) CADE-15 Workshop on Integration of Deduction Systems,

Ballarin, C. and Paulson, LC., 1998. Reasoning About Coding Theory: The Benefits We Get from Computer Algebra. AISC, v. 1476

Bella, G. and Paulson, LC., 1998. Kerberos Version IV: Inductive Analysis of the Secrecy Goals Computer Security — ESORICS 98,

Paulson, LC., 1997. Mechanizing Coinduction and Corecursion in Higher-Order Logic. J. Log. Comput., v. 7

Paulson, LC., 1997. Proving Properties of Security Protocols by Induction 10th Computer Security Foundations Workshop,

Paulson, LC., 1997. Mechanizing Coinduction and Corecursion in Higher-Order Logic. J. Log. Comput., v. 7
Doi: 10.1093/logcom/7.2.175

Paulson, LC., 1997. Proving Properties of Security Protocols by Induction 10th Computer Security Foundations Workshop,

Paulson, LC., 1997. Mechanized Proofs for a Recursive Authentication Protocol 10th Computer Security Foundations Workshop,

Paulson, LC., 1997. Proving Properties of Security Protocols by Induction 10th Computer Security Foundations Workshop,

Paulson, LC., 1997. Mechanized Proofs for a Recursive Authentication Protocol 10th Computer Security Foundations Workshop,

Bella, G. and Paulson, LC., 1997. Using Isabelle to Prove Properties of the Kerberos Authentication System Workshop on Design and Formal Verification of Security Protocols,

1995. First Isabelle Users Workshop

Paulson, LC., 1994. A Fixedpoint Approach to Implementing (Co)Inductive Definitions Automated Deduction — CADE-12,

Paulson, LC., 1994. A Concrete Final Coalgebra Theorem for ZF Set Theory. TYPES, v. 996

Paulson, LC., 1994. A Fixedpoint Approach to Implementing (Co)Inductive Definitions Automated Deduction — CADE-12,

Paulson, LC., 1993. A Formulation of the Simple Theory of Types (for Isabelle) CoRR, v. cs.LO/9301107

NIPKOW, T. and PAULSON, LC., 1992. ISABELLE-91 AUTOMATED DEDUCTION - CADE-11, v. 607

Nipkow, T. and Paulson, LC., 1992. Isabelle-91 (system abstract) Automated Deduction — CADE-11,

Paulson, LC. and Smith, AW., 1991. Logic Programming, Functional Programming, and Inductive Definitions Extensions of Logic Programming,

Paulson, LC., 1990. A Formulation of the Simple Theory of Types (for Isabelle) COLOG-88: International Conference on Computer Logic,

Paulson, LC. and Smith, AW., 1989. Logic Programming, Functional Programming, and Inductive Definitions. ELP, v. 475

Paulson, LC., 1988. Isabelle: The Next Seven Hundred Theorem Provers. CADE, v. 310

Paulson, LC., 1987. NEXT SEVEN HUNDRED THEOREM PROVERS. IEE Colloquium (Digest),

Paulson, LC., 1986. Natural Deduction as Higher-Order Resolution. J. Log. Program., v. 3
Doi: 10.1016/0743-1066(86)90015-4

Paulson, LC., 1986. Natural Deduction as Higher-Order Resolution. J. Log. Program., v. 3

Paulson, LC., 1985. Verifying the Unification Algorithm in LCF. Sci. Comput. Program., v. 5

Paulson, LC., 1985. Verifying the Unification Algorithm in LCF. Sci. Comput. Program., v. 5
Doi: 10.1016/0167-6423(85)90009-7

Paulson, LC., 1984. Deriving Structural Induction in LCF. Semantics of Data Types, v. 173

Paulson, LC., 1983. A Higher-Order Implementation of Rewriting. Sci. Comput. Program., v. 3

Paulson, LC., 1983. A Higher-Order Implementation of Rewriting. Sci. Comput. Program., v. 3
Doi: 10.1016/0167-6423(83)90008-4

Paulson, LC., 1983. Compiler Generation from Denotational Semantics. Method and tools for compiler construction,

Paulson, LC., 1982. A Semantics-Directed Compiler Generator. POPL,

Paulson, L., 1982. A Semantics-Directed Compiler Generator Ninth Annual ACM Symposium on Principles of Programming Languages,

Paulson, LC., 1982. A Semantics-Directed Compiler Generator. POPL,

Paulson, L., 1982. A Semantics-Directed Compiler Generator Ninth Annual ACM Symposium on Principles of Programming Languages,

Li, W., Yu, L., Wu, Y. and Paulson, L., International Conference on Learning Representations

Paulson, LC. and Susanto, KW., Source-Level Proof Reconstruction for Interactive Theorem Proving

Li, W. and Paulson, L., Counting Polynomial Roots]{Counting Polynomial Roots in Isabelle/HOL: A Formal Proof of the Budan-Fourier Theorem
Doi: http://doi.org/10.1145/3293880.3294092

Paulson, LC. and Susanto, KW., Source-Level Proof Reconstruction for Interactive Theorem Proving

Li, W. and Paulson, LC., Counting Polynomial Roots in Isabelle/HOL: A Formal Proof of the Budan-Fourier Theorem Proceedings of the 8th ACM SIGPLAN International Conference on Certified Programs and Proofs,
Doi: http://doi.org/10.1145/3293880.3294092

Slowik, A., Mangla, C., Jamnik, M., Holden, S. and Paulson, L., Bayesian Optimisation for Premise Selection in Automated Theorem Proving (Student Abstract) Proceedings of the AAAI Conference on Artificial Intelligence,

Paulson, L., Wetzel: Formalisation of an Undecidable Problem Linked to the Continuum Hypothesis

Meng, J. and Paulson, LC., Translating Higher-Order Problems to First-Order Clauses

Meng, J. and Paulson, LC., Lightweight Relevance Filtering for Machine-Generated Resolution Problems

de Vilhena, PE. and Paulson, L., Algebraically Closed Fields in Isabelle/HOL Automated Reasoning—10th International Joint Conference, IJCAR 2020,
Doi: http://doi.org/10.1007/978-3-030-51054-1_12

Meng, J. and Paulson, LC., Translating Higher-Order Problems to First-Order Clauses

Meng, J. and Paulson, LC., Lightweight Relevance Filtering for Machine-Generated Resolution Problems

Edmonds, C. and Paulson, L., A Modular First Formalisation of Combinatorial Design Theory Intelligent Computer Mathematics 14th International Conference, CICM 2021,

Mangla, C., Paulson, L. and Holden, S., Bayesian Optimisation of Solver Parameters in CBMC

Słowik, A., Mangla, C., Jamnik, M., Holden, S. and Paulson, L., Bayesian Optimisation for Heuristic Configuration in Automated Theorem Proving EPiC Series in Computing,
Doi: 10.29007/q91g

Book chapters

Paulson, LC., 2023. Large-Scale Formal Proof for the Working Mathematician—Lessons Learnt from the ALEXANDRIA Project
Doi: 10.1007/978-3-031-42753-4_1

Mangla, C., Holden, SB. and Paulson, LC., 2022. Bayesian Ranking for Strategy Scheduling in Automated Theorem Provers
Doi: 10.1007/978-3-031-10769-6_33

Paulson, LC., 2022. Wetzel: Formalisation of an Undecidable Problem Linked to the Continuum Hypothesis
Doi: 10.1007/978-3-031-16681-5_6

Passmore, G., Paulson, L. and de Moura, L., 2012. Real Algebraic Strategies for MetiTarski Proofs
Doi: http://doi.org/10.1007/978-3-642-31374-5_24

Paulson, LC., 2010. Functional Programming in ML.

Wenzel, M., Paulson, LC. and Nipkow, T., 2008. The Isabelle Framework
Doi: http://doi.org/10.1007/978-3-540-71067-7_7

Wenzel, M., Paulson, LC. and Nipkow, T., 2008. The Isabelle Framework
Doi: 10.1007/978-3-540-71067-7_7

Paulson, LC., 2001. Making Sense of Specifications: The Formalization of SET
Doi: 10.1007/3-540-44810-1_12

Paulson, LC., 2000. A fixedpoint approach to (co)inductive and (co)datatype definitions.

Paulson, LC., 1997. Tool Support for Logics of Programs

Paulson, LC., 1997. Generic Automatic Proof Tools

Paulson, LC., 1997. Tool Support for Logics of Programs

Paulson, LC., 1997. Generic Automatic Proof Tools

Paulson, LC., 1992. Designing a Theorem Prover

Paulson, LC., 1990. Isabelle: The Next 700 Theorem Provers

Abdulaziz, M. and Paulson, LC., An Isabelle/HOL Formalisation of Green’s Theorem
Doi: http://doi.org/10.1007/978-3-319-43144-4_1

Paulson, LC., Wetzel: Formalisation of an Undecidable Problem Linked to the Continuum Hypothesis
Doi: 10.1007/978-3-031-16681-5_6

Journal articles

Bayer, J., Benzmüller, C., Buzzard, K., David, M., Lamport, L., Matiyasevich, Y., Paulson, L., Schleicher, D., Stock, B. and Zelmanov, E., 2022. Mathematical Proof Between Generations

Bordg, A., Paulson, LC. and Li, W., 2021. Grothendieck's Schemes in Algebraic Geometry. Arch. Formal Proofs, v. 2021

Paulson, LC., 2021. The Inductive Approach to Verifying Cryptographic Protocols. CoRR, v. abs/2105.06319

Paulson, LC., 2020. Ordinal Partitions. Arch. Formal Proofs, v. 2020

Li, W. and Paulson, LC., 2020. Evaluating Winding Numbers and Counting Complex Roots Through Cauchy Indices in Isabelle/HOL. J. Autom. Reasoning, v. 64
Doi: http://doi.org/10.1007/s10817-019-09521-3

Paulson, LC., 2020. The Nash-Williams Partition Theorem. Arch. Formal Proofs, v. 2020

Li, W., Yu, L., Wu, Y. and Paulson, LC., 2020. Modelling High-Level Mathematical Reasoning in Mechanised Declarative Proofs. CoRR, v. abs/2006.09265

Huang, Z., England, M., Wilson, DJ., Bridge, JP., Davenport, JH. and Paulson, LC., 2019. Using Machine Learning to Improve Cylindrical Algebraic Decomposition. Math. Comput. Sci., v. 13

Abdulaziz, M. and Paulson, LC., 2019. An Isabelle/HOL Formalisation of Green’s Theorem Journal of Automated Reasoning, v. 63
Doi: http://doi.org/10.1007/s10817-018-9495-z

Paulson, LC., 2019. Fourier Series. Arch. Formal Proofs, v. 2019

Paulson, LC., Nipkow, T. and Wenzel, M., 2019. From LCF to Isabelle/HOL Formal Aspects of Computing, v. 31
Doi: http://doi.org/10.1007/s00165-019-00492-1

Paulson, L., Nipkow, T. and Wenzel, M., 2019. From LCF to Isabelle/HOL Formal Aspects of Computing, v. 31
Doi: http://doi.org/10.1007/s00165-019-00492-1

Paulson, LC., 2019. Zermelo Fraenkel Set Theory in Higher-Order Logic. Arch. Formal Proofs, v. 2019

Paulson, LC., 2019. Fourier Series. Arch. Formal Proofs, v. 2019

Paulson, L., Nipkow, T. and Wenzel, M., 2019. From LCF to Isabelle/HOL Formal Aspects of Computing, v. 31
Doi: http://doi.org/10.1007/s00165-019-00492-1

Abdulaziz, M. and Paulson, LC., 2019. An Isabelle/HOL Formalisation of Green’s Theorem Journal of Automated Reasoning, v. 63
Doi: 10.1007/s10817-018-9495-z

Li, W., Passmore, GO. and Paulson, LC., 2019. Deciding Univariate Polynomial Problems Using Untrusted Certificates in Isabelle/HOL JOURNAL OF AUTOMATED REASONING, v. 62
Doi: http://doi.org/10.1007/s10817-017-9424-6

Paulson, LC., Nipkow, T. and Wenzel, M., 2019. From LCF to Isabelle/HOL Formal Aspects of Computing, v. 31
Doi: 10.1007/s00165-019-00492-1

Słowik, A., Mangla, C., Jamnik, M., Holden, SB. and Paulson, LC., 2019. Bayesian Optimisation with Gaussian Processes for Premise Selection

Paulson, LC., 2019. Zermelo Fraenkel Set Theory in Higher-Order Logic. Arch. Formal Proofs, v. 2019

Avigad, J., Blanchette, JC., Klein, G., Paulson, L., Popescu, A. and Snelting, G., 2018. Introduction to Milestones in Interactive Theorem Proving Journal of Automated Reasoning, v. 61
Doi: http://doi.org/10.1007/s10817-018-9465-5

Paulson, LC., 2018. Michael John Caldwell Gordon (FRS 1994), 28 February 1948 -- 22 August 2017 Biographical memoirs of fellows of the Royal Society. Royal Society (Great Britain), v. 65
Doi: http://doi.org/10.1098/rsbm.2018.0019

Eberl, M. and Paulson, LC., 2018. The Prime Number Theorem. Arch. Formal Proofs, v. 2018

Paulson, LC., 2018. Predicting Failure of the University COMMUNICATIONS OF THE ACM, v. 61

Eberl, M. and Paulson, LC., 2018. The Prime Number Theorem. Arch. Formal Proofs, v. 2018

Paulson, LC., 2017. Time to Retire 'Computational Thinking'? COMMUNICATIONS OF THE ACM, v. 60

Paulson, LC., 2016. The Cartan Fixed Point Theorems. Arch. Formal Proofs, v. 2016

Hibon, Q. and Paulson, LC., 2016. Source Coding Theorem. Arch. Formal Proofs, v. 2016

Abdulaziz, M. and Paulson, LC., 2016. An Isabelle/HOL formalisation of Green’s theorem Lecture Notes in Computer Science, v. 9807
Doi: http://doi.org/10.1007/978-3-319-43144-4_1

Li, W. and Paulson, LC., 2016. A formal proof of Cauchy’s residue theorem Lecture Notes in Computer Science, v. 9807
Doi: http://doi.org/10.1007/978-3-319-43144-4_15

Blanchette, JC., Kaliszyk, C., Paulson, LC. and Urban, J., 2016. Hammering towards QED Journal of Formalized Reasoning, v. 9

Hibon, Q. and Paulson, LC., 2016. Source Coding Theorem. Arch. Formal Proofs, v. 2016

Abdulaziz, M. and Paulson, LC., 2016. An Isabelle/HOL formalisation of Green’s theorem Lecture Notes in Computer Science, v. 9807
Doi: http://doi.org/10.1007/978-3-319-43144-4_1

Li, W. and Paulson, LC., 2016. A formal proof of Cauchy’s residue theorem Lecture Notes in Computer Science, v. 9807
Doi: http://doi.org/10.1007/978-3-319-43144-4_15

Paulson, LC., 2015. A Mechanised Proof of Gödel’s Incompleteness Theorems Using Nominal Isabelle Journal of Automated Reasoning,
Doi: http://doi.org/10.1007/s10817-015-9322-8

Paulson, LC., 2015. A Mechanised Proof of Gödel’s Incompleteness Theorems Using Nominal Isabelle Journal of Automated Reasoning, v. 55
Doi: http://doi.org/10.1007/s10817-015-9322-8

Benzmüller, C., Sultana, N., Paulson, LC. and Theiß, F., 2015. The Higher-Order Prover Leo-II. J Autom Reason, v. 55
Doi: http://doi.org/10.1007/s10817-015-9348-y

Paulson, LC., 2015. Abolish Software Warranty Disclaimers COMMUNICATIONS OF THE ACM, v. 58

Paulson, LC., 2015. Finite Automata in Hereditarily Finite Set Theory. Arch. Formal Proofs, v. 2015

Paulson, LC., 2015. A Mechanised Proof of Gödel’s Incompleteness Theorems Using Nominal Isabelle Journal of Automated Reasoning, v. 55
Doi: 10.1007/s10817-015-9322-8

Paulson, LC., 2015. Finite Automata in Hereditarily Finite Set Theory. Arch. Formal Proofs, v. 2015

Martina, JE. and Paulson, LC., 2015. Verifying multicast-based security protocols using the inductive method International Journal of Information Security, v. 14
Doi: http://doi.org/10.1007/s10207-014-0251-z

Paulson, LC., 2015. A Formalisation of Finite Automata using Hereditarily Finite Sets. CoRR, v. abs/1505.01662

Martina, JE. and Paulson, LC., 2015. Verifying multicast-based security protocols using the inductive method International Journal of Information Security, v. 14
Doi: 10.1007/s10207-014-0251-z

Paulson, LC., 2014. A machine-assisted proof of Gödel's incompleteness theorems for the theory of hereditarily finite sets Review of Symbolic Logic, v. 7
Doi: http://doi.org/10.1017/S1755020314000112

Huang, Z., England, M., Wilson, DJ., Davenport, JH., Paulson, LC. and Bridge, JP., 2014. Applying machine learning to the problem of choosing a heuristic to select the variable ordering for cylindrical algebraic decomposition. CoRR, v. abs/1404.6369

Paulson, LC., 2014. Automated theorem proving for special functions: The next phase Proceedings of the 2014 Symposium on Symbolic-Numeric Computation, SNC 2014,
Doi: http://doi.org/10.1145/2631948.2631950

Paulson, LC., 2014. A machine-assisted proof of Gödel's incompleteness theorems for the theory of hereditarily finite sets Review of Symbolic Logic, v. 7
Doi: 10.1017/S1755020314000112

PAULSON, LC., 2014. A MACHINE-ASSISTED PROOF OF GÖDEL'S INCOMPLETENESS THEOREMS FOR THE THEORY OF HEREDITARILY FINITE SETS Review of Symbolic Logic,
Doi: http://doi.org/10.1017/S1755020314000112

Paulson, LC., 2014. Provenance of British Computing COMMUNICATIONS OF THE ACM, v. 57

Huang, Z., England, M., Wilson, D., Davenport, JH. and Paulson, LC., 2014. A comparison of three heuristics to choose the variable ordering for CAD ACM Communications in Computer Algebra 48:3 (issue 189), pp. 121-123, ACM, 2014,

Bridge, JP., Holden, SB. and Paulson, LC., 2014. Machine Learning for First-Order Theorem Proving Journal of Automated Reasoning,

Paulson, LC., 2014. Real-Valued Special Functions: Upper and Lower Bounds. Arch. Formal Proofs, v. 2014

Bridge, JP., Holden, SB. and Paulson, LC., 2014. Machine Learning for First-Order Theorem Proving Journal of Automated Reasoning,

Paulson, LC., 2014. Theorem proving and the real numbers: Overview and challenges Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 8430 LNCS

Bridge, JP., Holden, SB. and Paulson, LC., 2014. Machine learning for first-order theorem proving: Learning to select a good Heuristic Journal of Automated Reasoning, v. 53
Doi: http://doi.org/10.1007/s10817-014-9301-5

Huang, Z., England, M., Wilson, D., Davenport, JH., Paulson, LC. and Bridge, J., 2014. Applying machine learning to the problem of choosing a heuristic to select the variable ordering for cylindrical algebraic decomposition Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 8543 LNAI
Doi: http://doi.org/10.1007/978-3-319-08434-3_8

Paulson, LC., 2014. Provenance of British Computing COMMUNICATIONS OF THE ACM, v. 57

Bridge, JP. and Paulson, LC., 2013. Case splitting in an automatic theorem prover for real-valued special functions Journal of Automated Reasoning, v. 50
Doi: http://doi.org/10.1007/s10817-012-9245-6

Bridge, JP. and Paulson, LC., 2013. Case splitting in an automatic theorem prover for real-valued special functions Journal of Automated Reasoning, v. 50
Doi: 10.1007/s10817-012-9245-6

Sultana, N., Blanchette, JC. and Paulson, LC., 2013. LEO-II and Satallax on the Sledgehammer test bench Journal of Applied Logic, v. 11
Doi: http://doi.org/10.1016/j.jal.2012.12.002

Paulson, LC., 2013. What we want from computer science Communications of the ACM, v. 56
Doi: http://doi.org/10.1145/2483852.2483856

Paulson, LC., 2013. What we want from computer science Communications of the ACM, v. 56
Doi: 10.1145/2483852.2483856

Sultana, N., Blanchette, JC. and Paulson, LC., 2013. LEO-II and Satallax on the Sledgehammer test bench Journal of Applied Logic, v. 11
Doi: 10.1016/j.jal.2012.12.002

Blanchette, JC., Böhme, S. and Paulson, LC., 2013. Extending sledgehammer with SMT solvers Journal of Automated Reasoning, v. 51
Doi: http://doi.org/10.1007/s10817-013-9278-5

Benzmüller, C. and Paulson, LC., 2013. Quantified Multimodal Logics in Simple Type Theory Logica Universalis, v. 7
Doi: http://doi.org/10.1007/s11787-012-0052-y

Blanchette, JC., Böhme, S. and Paulson, LC., 2013. Extending sledgehammer with SMT solvers Journal of Automated Reasoning, v. 51
Doi: http://doi.org/10.1007/s10817-013-9278-5

Martina, JE. and Paulson, LC., 2013. Verifying multicast-based security protocols using the inductive method Proceedings of the ACM Symposium on Applied Computing,
Doi: http://doi.org/10.1145/2480362.2480703

Benzmüller, C. and Paulson, LC., 2013. Quantified Multimodal Logics in Simple Type Theory Logica Universalis, v. 7
Doi: http://doi.org/10.1007/s11787-012-0052-y

Paulson, LC., 2013. The Hereditarily Finite Sets. Arch. Formal Proofs, v. 2013

Paulson, LC., 2013. Gödel's Incompleteness Theorems. Arch. Formal Proofs, v. 2013

Romanos, R. and Paulson, LC., 2012. Proving the Impossibility of Trisecting an Angle and Doubling the Cube. Arch. Formal Proofs, v. 2012

Paulson, LC., 2012. What liability for faulty software? Communications of the ACM, v. 55
Doi: http://doi.org/10.1145/2076450.2076452

Blanchette, JC., Böhme, S. and Paulson, LC., 2011. Extending sledgehammer with SMT solvers Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), v. 6803 LNAI
Doi: http://doi.org/10.1007/978-3-642-22438-6_11

Akbarpour, B. and Paulson, LC., 2010. MetiTarski: An Automatic Theorem Prover for Real-Valued Special Functions J AUTOM REASONING, v. 44
Doi: http://doi.org/10.1007/s10817-009-9149-2

Benzmueller, C. and Paulson, LC., 2010. Multimodal and Intuitionistic Logics in Simple Type Theory Logic Jnl IGPL,
Doi: http://doi.org/10.1093/jigpal/jzp080

Paulson, LC., 2010. Robin Milner The Elegant Pragmatist (vol 53, pg 20, 2010) COMMUNICATIONS OF THE ACM, v. 53

Paulson, LC., 2009. Refocus Fragmented CS Conference Culture COMMUNICATIONS OF THE ACM, v. 52

Meng, J. and Paulson, LC., 2009. Lightweight relevance filtering for machine-generated resolution problems J APPL LOGIC, v. 7
Doi: http://doi.org/10.1016/j.jal.2007.07.004

Paulson, LC., 2009. Refocus Fragmented CS Conference Culture COMMUNICATIONS OF THE ACM, v. 52

Meng, J. and Paulson, LC., 2009. Lightweight relevance filtering for machine-generated resolution problems J APPL LOGIC, v. 7
Doi: http://doi.org/10.1016/j.jal.2007.07.004

Paulson, LC., 2009. Refocus fragmented CS conference culture [3] Communications of the ACM, v. 52
Doi: http://doi.org/10.1145/1536616.1536619

Akbarpour, B. and Paulson, LC., 2009. MetiTarski: An Automatic Theorem Prover for Real-Valued Special Functions Journal of Automated Reasoning,

Akbarpour, B. and Paulson, L., 2008. MetiTarski: An Automatic Prover for the Elementary Functions Intelligent Computer Mathematics,

Nipkow, T. and Paulson, LC., 2008. Fun With Tilings. Arch. Formal Proofs, v. 2008

Akbarpour, B. and Paulson, L., 2008. MetiTarski: An Automatic Prover for the Elementary Functions Intelligent Computer Mathematics,

Meng, J. and Paulson, LC., 2008. Translating higher-order clauses to first-order clauses J AUTOM REASONING, v. 40
Doi: http://doi.org/10.1007/s10817-007-9085-y

Paulson, LC., 2007. Even a good abstraction needs experience and testing, too COMMUNICATIONS OF THE ACM, v. 50

Beckert, B. and Paulson, LC., 2007. Special issue on automated reasoning with analytic tableaux - Preface J AUTOM REASONING, v. 38
Doi: http://doi.org/10.1007/s10817-006-9058-6

Paulson, LC., 2007. Even a good abstraction needs experience and testing, too COMMUNICATIONS OF THE ACM, v. 50

Beckert, B. and Paulson, LC., 2007. Journal of Automated Reasoning: Preface Journal of Automated Reasoning, v. 38
Doi: http://doi.org/10.1007/s10817-006-9058-6

Paulson, LC., 2006. Defining functions on equivalence classes ACM Transactions on Computational Logic, v. 7
Doi: 10.1145/1166109.1166111

Meng, J., Quigley, C. and Paulson, LC., 2006. Automation for interactive proof: First prototype INFORM COMPUT, v. 204
Doi: http://doi.org/10.1016/j.ic.2005.05.010

Paulson, LC., 2006. Defining functions on equivalence classes ACM Transactions on Computational Logic, v. 7
Doi: http://doi.org/10.1145/1166109.1166111

Bella, G. and Paulson, LC., 2006. Accountability protocols: Formalized and verified ACM Trans. Inf. Syst. Secur., v. 9
Doi: http://doi.org/10.1145/1151414.1151416

Paulson, LC., 2006. Defining Functions on Equivalence Classes TOCL, v. 7
Doi: http://doi.org/10.1145/1166109.1166111

Bella, G., Massacci, F. and Paulson, LC., 2006. Verifying the SET purchase protocols J AUTOM REASONING, v. 36
Doi: http://doi.org/10.1007/s10817-005-9018-6

Bella, G. and Paulson, LC., 2006. Accountability protocols: Formalized and verified ACM Trans. Inf. Syst. Secur., v. 9
Doi: http://doi.org/10.1145/1151414.1151416

Meng, J., Quigley, C. and Paulson, LC., 2006. Automation for interactive proof: First prototype (vol 204, pg 1575, 2006) INFORM COMPUT, v. 204
Doi: http://doi.org/10.1016/j.ic.2006.09.004

Meng, J., Quigley, C. and Paulson, LC., 2006. Automation for Interactive Proof: First Prototype Information and Computation, v. 204

Bella, G., Massacci, F. and Paulson, LC., 2006. Verifying the SET purchase protocols J AUTOM REASONING, v. 36
Doi: http://doi.org/10.1007/s10817-005-9018-6

Paulson, LC., 2006. Defining Functions on Equivalence Classes TOCL, v. 7
Doi: http://doi.org/10.1145/1166109.1166111

Meng, J., Quigley, C. and Paulson, LC., 2006. Erratum to "Automation for interactive proof: First prototype" [Inform. and Comput. 204 (2006) 1575-1596] (DOI:10.1016/j.ic.2005.05.010) Information and Computation, v. 204

Meng, J., Quigley, C. and Paulson, LC., 2006. Automation for Interactive Proof: First Prototype Information and Computation, v. 204

Bella, G., Massacci, F. and Paulson, LC., 2006. Verifying the SET purchase protocols J AUTOM REASONING, v. 36
Doi: http://doi.org/10.1007/s10817-005-9018-6

Meng, J., Quigley, C. and Paulson, LC., 2006. Automation for interactive proof: First prototype INFORM COMPUT, v. 204
Doi: http://doi.org/10.1016/j.ic.2005.05.010

Paulson, LC., 2005. Welcome defects as a sign of innovation? [1] Communications of the ACM, v. 48
Doi: http://doi.org/10.1145/1096000.1096016

Bella, G., Massacci, F. and Paulson, LC., 2005. An Overview of the Verification of SET International Journal of Information Security, v. 4
Doi: http://doi.org/10.1007/s10207-004-0047-7

Paulson, LC., 2005. Welcome defects as a sign of innovation? [1] Communications of the ACM, v. 48
Doi: http://doi.org/10.1145/1096000.1096016

Bella, G., Massacci, F. and Paulson, LC., 2005. An Overview of the Verification of SET International Journal of Information Security, v. 4
Doi: http://doi.org/10.1007/s10207-004-0047-7

Ehmety, SO. and Paulson, LC., 2005. Mechanizing compositional reasoning for concurrent systems: some lessons FORM ASP COMPUT, v. 17
Doi: http://doi.org/10.1007/s00165-004-0053-6

Paulson, LC., 2004. Organizing Numerical Theories Using Axiomatic Type Classes Journal of Automated Reasoning, v. 33

Paulson, LC., 2003. The Relative Consistency of the Axiom of Choice — Mechanized Using Isabelle/ZF LMS Journal of Computation and Mathematics, v. 6

Bella, G., Massacci, F. and Paulson, LC., 2003. Verifying the SET registration protocols IEEE J SEL AREA COMM, v. 21
Doi: http://doi.org/10.1109/JSAC.2002.806133

Paulson, LC., 2003. The Relative Consistency of the Axiom of Choice — Mechanized Using Isabelle/ZF LMS Journal of Computation and Mathematics, v. 6

Nipkow, T., Paulson, LC. and Wenzel, M., 2002. The basics LECT NOTES COMPUT SC, v. 2283

Paulson, LC., 2001. Keep E-journals affordable COMMUNICATIONS OF THE ACM, v. 44

Paulson, LC., 2001. Relations Between Secrets: Two Formal Analyses of the Yahalom Protocol. J. Comput. Secur., v. 9

Paulson, LC., 2001. Mechanizing a theory of program composition for UNITY ACM T PROGR LANG SYS, v. 23

Paulson, LC., 2001. Mechanizing a Theory of Program Composition for UNITY ACM Transactions on Programming Languages and Systems, v. 25

Paulson, LC., 2001. A Simple Formalization and Proof for the Mutilated Chess Board Logic Journal of the IGPL, v. 9
Doi: http://doi.org/10.1093/jigpal/9.3.475