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2020 – today
- 2024
[c25]Zachary Kenton, Ramana Kumar, Sebastian Farquhar, Jonathan Richens, Matt MacDermott, Tom Everitt:
Discovering Agents (Abstract Reprint). AAAI 2024: 22701- [i14]Mary Phuong, Matthew Aitchison, Elliot Catt, Sarah Cogan, Alexandre Kaskasoli, Victoria Krakovna, David Lindner, Matthew Rahtz, Yannis Assael, Sarah Hodkinson, Heidi Howard, Tom Lieberum, Ramana Kumar, Maria Abi Raad, Albert Webson, Lewis Ho, Sharon Lin, Sebastian Farquhar, Marcus Hutter, Grégoire Delétang, Anian Ruoss, Seliem El-Sayed, Sasha Brown, Anca D. Dragan, Rohin Shah, Allan Dafoe, Toby Shevlane:
Evaluating Frontier Models for Dangerous Capabilities. CoRR abs/2403.13793 (2024) - 2023
- [j9]Zachary Kenton, Ramana Kumar, Sebastian Farquhar, Jonathan Richens, Matt MacDermott, Tom Everitt:
Discovering agents. Artif. Intell. 322: 103963 (2023) - [j8]Thomas Sewell
, Magnus O. Myreen, Yong Kiam Tan, Ramana Kumar, Alexander Mihajlovic, Oskar Abrahamsson, Scott Owens:
Cakes That Bake Cakes: Dynamic Computation in CakeML. Proc. ACM Program. Lang. 7(PLDI): 1121-1144 (2023) - [i13]Akhil Bagaria, Ray Jiang, Ramana Kumar, Tom Schaul:
Scaling Goal-based Exploration via Pruning Proto-goals. CoRR abs/2302.04693 (2023) - [i12]Vikrant Varma, Rohin Shah, Zachary Kenton, János Kramár, Ramana Kumar:
Explaining grokking through circuit efficiency. CoRR abs/2309.02390 (2023) - 2022
- [j7]Heiko Becker, Robert Rabe, Eva Darulova, Magnus O. Myreen, Zachary Tatlock, Ramana Kumar, Yong Kiam Tan, Anthony C. J. Fox:
Verified Compilation and Optimization of Floating-Point Programs in CakeML (Artifact). Dagstuhl Artifacts Ser. 8(2): 10:1-10:2 (2022) - [c24]Heiko Becker, Robert Rabe, Eva Darulova, Magnus O. Myreen, Zachary Tatlock, Ramana Kumar, Yong Kiam Tan, Anthony C. J. Fox:
Verified Compilation and Optimization of Floating-Point Programs in CakeML. ECOOP 2022: 1:1-1:28 - [c23]Oskar Abrahamsson, Magnus O. Myreen, Ramana Kumar, Thomas Sewell:
Candle: A Verified Implementation of HOL Light. ITP 2022: 3:1-3:17 - [i11]Matthew Rahtz, Vikrant Varma, Ramana Kumar, Zachary Kenton, Shane Legg, Jan Leike:
Safe Deep RL in 3D Environments using Human Feedback. CoRR abs/2201.08102 (2022) - [i10]Zachary Kenton, Ramana Kumar, Sebastian Farquhar, Jonathan Richens, Matt MacDermott, Tom Everitt:
Discovering Agents. CoRR abs/2208.08345 (2022) - [i9]Rohin Shah, Vikrant Varma, Ramana Kumar, Mary Phuong, Victoria Krakovna, Jonathan Uesato, Zac Kenton:
Goal Misgeneralization: Why Correct Specifications Aren't Enough For Correct Goals. CoRR abs/2210.01790 (2022) - [i8]Jonathan Uesato, Nate Kushman, Ramana Kumar, H. Francis Song, Noah Y. Siegel, Lisa Wang, Antonia Creswell, Geoffrey Irving, Irina Higgins:
Solving math word problems with process- and outcome-based feedback. CoRR abs/2211.14275 (2022) - 2021
- [j6]Thibault Gauthier, Cezary Kaliszyk, Josef Urban, Ramana Kumar, Michael Norrish:
TacticToe: Learning to Prove with Tactics. J. Autom. Reason. 65(2): 257-286 (2021) - [j5]Tom Everitt, Marcus Hutter, Ramana Kumar, Victoria Krakovna:
Reward tampering problems and solutions in reinforcement learning: a causal influence diagram perspective. Synth. 198(27): 6435-6467 (2021) - [i7]Gopal Sarma, James Koppel, Gregory Malecha, Patrick Schultz, Eric Drexler, Ramana Kumar, Cody Roux, Philip Zucker:
Formal Methods for the Informal Engineer: Workshop Recommendations. CoRR abs/2104.00739 (2021) - 2020
- [j4]Oskar Abrahamsson, Son Ho, Hrutvik Kanabar, Ramana Kumar, Magnus O. Myreen, Michael Norrish, Yong Kiam Tan:
Proof-Producing Synthesis of CakeML from Monadic HOL Functions. J. Autom. Reason. 64(7): 1287-1306 (2020) - [i6]Ramana Kumar, Jonathan Uesato, Richard Ngo, Tom Everitt, Victoria Krakovna, Shane Legg:
REALab: An Embedded Perspective on Tampering. CoRR abs/2011.08820 (2020) - [i5]Jonathan Uesato, Ramana Kumar, Victoria Krakovna, Tom Everitt, Richard Ngo, Shane Legg:
Avoiding Tampering Incentives in Deep RL via Decoupled Approval. CoRR abs/2011.08827 (2020)
2010 – 2019
- 2019
- [j3]Yong Kiam Tan, Magnus O. Myreen, Ramana Kumar, Anthony C. J. Fox, Scott Owens, Michael Norrish:
The verified CakeML compiler backend. J. Funct. Program. 29: e2 (2019) - [c22]Tom Everitt, Ramana Kumar, Victoria Krakovna, Shane Legg:
Modeling AGI Safety Frameworks with Causal Influence Diagrams. AISafety@IJCAI 2019 - [c21]Andreas Lööw, Ramana Kumar, Yong Kiam Tan, Magnus O. Myreen, Michael Norrish, Oskar Abrahamsson, Anthony C. J. Fox:
Verified compilation on a verified processor. PLDI 2019: 1041-1053 - [i4]Tom Everitt, Ramana Kumar, Victoria Krakovna, Shane Legg:
Modeling AGI Safety Frameworks with Causal Influence Diagrams. CoRR abs/1906.08663 (2019) - 2018
- [c20]Son Ho, Oskar Abrahamsson, Ramana Kumar, Magnus O. Myreen, Yong Kiam Tan, Michael Norrish:
Proof-Producing Synthesis of CakeML with I/O and Local State from Monadic HOL Functions. IJCAR 2018: 646-662 - [c19]Ramana Kumar, Eric Mullen, Zachary Tatlock, Magnus O. Myreen:
Software Verification with ITPs Should Use Binary Code Extraction to Reduce the TCB - (Short Paper). ITP 2018: 362-369 - [c18]Milad K. Ghale, Dirk Pattinson, Ramana Kumar, Michael Norrish:
Verified Certificate Checking for Counting Votes. VSTTE 2018: 69-87 - [c17]Hugo Férée, Johannes Åman Pohjola, Ramana Kumar, Scott Owens, Magnus O. Myreen, Son Ho:
Program Verification in the Presence of I/O - Semantics, Verified Library Routines, and Verified Applications. VSTTE 2018: 88-111 - [i3]Ramana Kumar, Magnus O. Myreen:
Clocked Definitions in HOL. CoRR abs/1803.03417 (2018) - [i2]Thibault Gauthier, Cezary Kaliszyk, Josef Urban, Ramana Kumar, Michael Norrish:
Learning to Prove with Tactics. CoRR abs/1804.00596 (2018) - 2017
- [j2]Scott Owens, Michael Norrish, Ramana Kumar, Magnus O. Myreen, Yong Kiam Tan:
Verifying efficient function calls in CakeML. Proc. ACM Program. Lang. 1(ICFP): 18:1-18:27 (2017) - [c16]Yutaka Nagashima, Ramana Kumar:
A Proof Strategy Language and Proof Script Generation for Isabelle/HOL. CADE 2017: 528-545 - [c15]Anthony C. J. Fox, Magnus O. Myreen, Yong Kiam Tan, Ramana Kumar:
Verified compilation of CakeML to multiple machine-code targets. CPP 2017: 125-137 - [c14]Armaël Guéneau, Magnus O. Myreen, Ramana Kumar, Michael Norrish:
Verified Characteristic Formulae for CakeML. ESOP 2017: 584-610 - 2016
- [j1]Ramana Kumar, Rob Arthan, Magnus O. Myreen, Scott Owens:
Self-Formalisation of Higher-Order Logic - Semantics, Soundness, and a Verified Implementation. J. Autom. Reason. 56(3): 221-259 (2016) - [c13]Scott Owens, Magnus O. Myreen, Ramana Kumar, Yong Kiam Tan:
Functional Big-Step Semantics. ESOP 2016: 589-615 - [c12]Yong Kiam Tan, Magnus O. Myreen, Ramana Kumar, Anthony C. J. Fox, Scott Owens, Michael Norrish:
A new verified compiler backend for CakeML. ICFP 2016: 60-73 - [i1]Yutaka Nagashima, Ramana Kumar:
A Proof Strategy Language and Proof Script Generation for Isabelle. CoRR abs/1606.02941 (2016) - 2015
- [c11]Yong Kiam Tan, Scott Owens, Ramana Kumar:
A verified type system for CakeML. IFL 2015: 7:1-7:12 - [c10]Benja Fallenstein, Ramana Kumar:
Proof-Producing Reflection for HOL - With an Application to Model Polymorphism. ITP 2015: 170-186 - [c9]Thomas Tuerk, Magnus O. Myreen, Ramana Kumar:
Pattern Matches in HOL: - A New Representation and Improved Code Generation. ITP 2015: 453-468 - 2014
- [c8]Ramana Kumar, Rob Arthan, Magnus O. Myreen, Scott Owens:
HOL with Definitions: Semantics, Soundness, and a Verified Implementation. ITP 2014: 308-324 - [c7]Ramana Kumar, Magnus O. Myreen, Michael Norrish, Scott Owens:
CakeML: a verified implementation of ML. POPL 2014: 179-192 - 2013
- [c6]Ramana Kumar:
Challenges in Using OpenTheory to Transport Harrison's HOL Model from HOL Light to HOL4. PxTP@CADE 2013: 110-116 - [c5]Magnus O. Myreen, Scott Owens, Ramana Kumar:
Steps towards Verified Implementations of HOL Light. ITP 2013: 490-495 - 2012
- [c4]Ramana Kumar, Joe Hurd:
Standalone Tactics Using OpenTheory. ITP 2012: 405-411 - 2011
- [c3]Naghmeh Ghafari, Ramana Kumar, Jeff Joyce, Bernd Dehning, Christos Zamantzas:
Formal Verification of Real-Time Data Processing of the LHC Beam Loss Monitoring System: A Case Study. FMICS 2011: 212-227 - [c2]Ramana Kumar, Tjark Weber:
Validating QBF Validity in HOL4. ITP 2011: 168-183 - 2010
- [c1]Ramana Kumar, Michael Norrish:
(Nominal) Unification by Recursive Descent with Triangular Substitutions. ITP 2010: 51-66
Coauthor Index
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