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Deian Stefan
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- affiliation: University of California at San Diego, USA
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2020 – today
- 2024
- [j16]Shravan Narayan, Tal Garfinkel, Mohammadkazem Taram, Joey Rudek, Daniel Moghimi, Evan Johnson, Chris Fallin, Anjo Vahldiek-Oberwagner, Michael LeMay, Ravi Sahita, Dean M. Tullsen, Deian Stefan:
Hardware-Assisted Fault Isolation: Going Beyond the Limits of Software-Based Sandboxing. IEEE Micro 44(4): 70-79 (2024) - [c55]Hosein Yavarzadeh, Archit Agarwal, Max Christman, Christina Garman, Daniel Genkin, Andrew Kwong, Daniel Moghimi, Deian Stefan, Kazem Taram, Dean M. Tullsen:
Pathfinder: High-Resolution Control-Flow Attacks Exploiting the Conditional Branch Predictor. ASPLOS (3) 2024: 770-784 - [c54]Naomi Smith, Abhishek Sharma, John Renner, David Thien, Fraser Brown, Hovav Shacham, Ranjit Jhala, Deian Stefan:
Icarus: Trustworthy Just-In-Time Compilers with Symbolic Meta-Execution. SOSP 2024: 473-487 - [c53]Leo Cao, Luoxi Meng, Deian Stefan, Earlence Fernandes:
Stateful Least Privilege Authorization for the Cloud. USENIX Security Symposium 2024 - [i23]Enze Liu, Elisa Luo, Jian Chen Yan, Katherine Izhikevich, Stewart Grant, Deian Stefan, Geoffrey M. Voelker, Stefan Savage:
Count of Monte Crypto: Accounting-based Defenses for Cross-Chain Bridges. CoRR abs/2410.01107 (2024) - 2023
- [j15]Marco Vassena, Alejandro Russo, Deepak Garg, Vineet Rajani, Deian Stefan:
From Fine- to Coarse-Grained Dynamic Information Flow Control and Back. Found. Trends Program. Lang. 8(1): 1-117 (2023) - [j14]Alexandra E. Michael, Anitha Gollamudi, Jay Bosamiya, Evan Johnson, Aidan Denlinger, Craig Disselkoen, Conrad Watt, Bryan Parno, Marco Patrignani, Marco Vassena, Deian Stefan:
MSWasm: Soundly Enforcing Memory-Safe Execution of Unsafe Code. Proc. ACM Program. Lang. 7(POPL): 425-454 (2023) - [c52]Shravan Narayan, Tal Garfinkel, Mohammadkazem Taram, Joey Rudek, Daniel Moghimi, Evan Johnson, Chris Fallin, Anjo Vahldiek-Oberwagner, Michael LeMay, Ravi Sahita, Dean M. Tullsen, Deian Stefan:
Going beyond the Limits of SFI: Flexible and Secure Hardware-Assisted In-Process Isolation with HFI. ASPLOS (3) 2023: 266-281 - [c51]Hosein Yavarzadeh, Mohammadkazem Taram, Shravan Narayan, Deian Stefan, Dean M. Tullsen:
Half&Half: Demystifying Intel's Directional Branch Predictors for Fast, Secure Partitioned Execution. SP 2023: 1220-1237 - [c50]Hosein Yavarzadeh, Mohammadkazem Taram, Shravan Narayan, Deian Stefan, Dean M. Tullsen:
Half&Half: Demystifying Intel's Directional Branch Predictors for Fast, Secure Partitioned Execution. SP 2023: 1220-1237 - [c49]Evan Johnson, Evan Laufer, Zijie Zhao, Dan Gohman, Shravan Narayan, Stefan Savage, Deian Stefan, Fraser Brown:
WaVe: a verifiably secure WebAssembly sandboxing runtime. SP 2023: 2940-2955 - [i22]Matthew Kolosick, Basavesh Ammanaghatta Shivakumar, Sunjay Cauligi, Marco Patrignani, Marco Vassena, Ranjit Jhala, Deian Stefan:
Robust Constant-Time Cryptography. CoRR abs/2311.05831 (2023) - [i21]Karthikeyan Bhargavan, Jonathan Protzenko, Andreas Rossberg, Deian Stefan:
Foundations of WebAssembly (Dagstuhl Seminar 23101). Dagstuhl Reports 13(3): 1-16 (2023) - 2022
- [j13]Matthew Kolosick, Shravan Narayan, Evan Johnson, Conrad Watt, Michael LeMay, Deepak Garg, Ranjit Jhala, Deian Stefan:
Isolation without taxation: near-zero-cost transitions for WebAssembly and SFI. Proc. ACM Program. Lang. 6(POPL): 1-30 (2022) - [j12]Michael Smith, Peter Snyder, Moritz Haller, Benjamin Livshits, Deian Stefan, Hamed Haddadi:
Blocked or Broken? Automatically Detecting When Privacy Interventions Break Websites. Proc. Priv. Enhancing Technol. 2022(4): 6-23 (2022) - [c48]Sunjay Cauligi, Craig Disselkoen, Daniel Moghimi, Gilles Barthe, Deian Stefan:
SoK: Practical Foundations for Software Spectre Defenses. SP 2022: 666-680 - [i20]Michael Smith, Peter Snyder, Moritz Haller, Benjamin Livshits, Deian Stefan, Hamed Haddadi:
Blocked or Broken? Automatically Detecting When Privacy Interventions Break Websites. CoRR abs/2203.03528 (2022) - [i19]Sunjay Cauligi, Marco Guarnieri, Daniel Moghimi, Deian Stefan, Marco Vassena:
A Turning Point for Verified Spectre Sandboxing. CoRR abs/2208.01548 (2022) - [i18]Marco Vassena, Alejandro Russo, Deepak Garg, Vineet Rajani, Deian Stefan:
From Fine- to Coarse-Grained Dynamic Information Flow Control and Back, a Tutorial on Dynamic Information Flow. CoRR abs/2208.13560 (2022) - [i17]Alexandra E. Michael, Anitha Gollamudi, Jay Bosamiya, Craig Disselkoen, Aidan Denlinger, Conrad Watt, Bryan Parno, Marco Patrignani, Marco Vassena, Deian Stefan:
MSWasm: Soundly Enforcing Memory-Safe Execution of Unsafe Code. CoRR abs/2208.13583 (2022) - 2021
- [j11]Marco Vassena, Craig Disselkoen, Klaus von Gleissenthall, Sunjay Cauligi, Rami Gökhan Kici, Ranjit Jhala, Dean M. Tullsen, Deian Stefan:
Automatically eliminating speculative leaks from cryptographic code with blade. Proc. ACM Program. Lang. 5(POPL): 1-30 (2021) - [c47]Klaus von Gleissenthall, Rami Gökhan Kici, Deian Stefan, Ranjit Jhala:
Solver-Aided Constant-Time Hardware Verification. CCS 2021: 429-444 - [c46]Michael Smith, Peter Snyder, Benjamin Livshits, Deian Stefan:
SugarCoat: Programmatically Generating Privacy-Preserving, Web-Compatible Resource Replacements for Content Blocking. CCS 2021: 2844-2857 - [c45]Evan Johnson, David Thien, Yousef Alhessi, Shravan Narayan, Fraser Brown, Sorin Lerner, Tyler McMullen, Stefan Savage, Deian Stefan:
Доверя'й, но проверя'й: SFI safety for native-compiled Wasm. NDSS 2021 - [c44]Nico Lehmann, Rose Kunkel, Jordan Brown, Jean Yang, Niki Vazou, Nadia Polikarpova, Deian Stefan, Ranjit Jhala:
STORM: Refinement Types for Secure Web Applications. OSDI 2021: 441-459 - [c43]John Renner, Alex Sanchez-Stern, Fraser Brown, Sorin Lerner, Deian Stefan:
Scooter & Sidecar: a domain-specific approach to writing secure database migrations. PLDI 2021: 710-724 - [c42]Shravan Narayan, Craig Disselkoen, Deian Stefan:
Tutorial: Sandboxing (unsafe) C code with RLBox. SecDev 2021: 11-12 - [c41]Shravan Narayan, Craig Disselkoen, Daniel Moghimi, Sunjay Cauligi, Evan Johnson, Zhao Gang, Anjo Vahldiek-Oberwagner, Ravi Sahita, Hovav Shacham, Dean M. Tullsen, Deian Stefan:
Swivel: Hardening WebAssembly against Spectre. USENIX Security Symposium 2021: 1433-1450 - [i16]Shravan Narayan, Craig Disselkoen, Daniel Moghimi, Sunjay Cauligi, Evan Johnson, Zhao Gang, Anjo Vahldiek-Oberwagner, Ravi Sahita, Hovav Shacham, Dean M. Tullsen, Deian Stefan:
Swivel: Hardening WebAssembly against Spectre. CoRR abs/2102.12730 (2021) - [i15]Rami Gökhan Kici, Klaus von Gleissenthall, Deian Stefan, Ranjit Jhala:
Solver-Aided Constant-Time Circuit Verification. CoRR abs/2104.00461 (2021) - [i14]Matthew Kolosick, Shravan Narayan, Conrad Watt, Michael LeMay, Deepak Garg, Ranjit Jhala, Deian Stefan:
Isolation Without Taxation: Near Zero Cost Transitions for SFI. CoRR abs/2105.00033 (2021) - [i13]Sunjay Cauligi, Craig Disselkoen, Daniel Moghimi, Gilles Barthe, Deian Stefan:
SoK: Practical Foundations for Spectre Defenses. CoRR abs/2105.05801 (2021) - 2020
- [j10]Nadia Polikarpova, Deian Stefan, Jean Yang, Shachar Itzhaky, Travis Hance, Armando Solar-Lezama:
Liquid information flow control. Proc. ACM Program. Lang. 4(ICFP): 105:1-105:30 (2020) - [j9]Tal Garfinkel, Shravan Narayan, Craig Disselkoen, Hovav Shacham, Deian Stefan:
The Road to Less Trusted Code: Lowering the Barrier to In-Process Sandboxing. login Usenix Mag. 45(4) (2020) - [c40]Fraser Brown, John Renner, Andres Nötzli, Sorin Lerner, Hovav Shacham, Deian Stefan:
Towards a verified range analysis for JavaScript JITs. PLDI 2020: 135-150 - [c39]Sunjay Cauligi, Craig Disselkoen, Klaus von Gleissenthall, Dean M. Tullsen, Deian Stefan, Tamara Rezk, Gilles Barthe:
Constant-time foundations for the new spectre era. PLDI 2020: 913-926 - [c38]Fraser Brown, Deian Stefan, Dawson R. Engler:
Sys: A Static/Symbolic Tool for Finding Good Bugs in Good (Browser) Code. USENIX Security Symposium 2020: 199-216 - [c37]Shravan Narayan, Craig Disselkoen, Tal Garfinkel, Nathan Froyd, Eric Rahm, Sorin Lerner, Hovav Shacham, Deian Stefan:
Retrofitting Fine Grain Isolation in the Firefox Renderer. USENIX Security Symposium 2020: 699-716 - [i12]Shravan Narayan, Craig Disselkoen, Tal Garfinkel, Nathan Froyd, Eric Rahm, Sorin Lerner, Hovav Shacham, Deian Stefan:
Retrofitting Fine Grain Isolation in the Firefox Renderer (Extended Version). CoRR abs/2003.00572 (2020) - [i11]Marco Vassena, Klaus von Gleissenthall, Rami Gökhan Kici, Deian Stefan, Ranjit Jhala:
Automatically Eliminating Speculative Leaks With Blade. CoRR abs/2005.00294 (2020)
2010 – 2019
- 2019
- [j8]Klaus von Gleissenthall, Rami Gökhan Kici, Alexander Bakst, Deian Stefan, Ranjit Jhala:
Pretend synchrony: synchronous verification of asynchronous distributed programs. Proc. ACM Program. Lang. 3(POPL): 59:1-59:30 (2019) - [j7]Marco Vassena, Alejandro Russo, Deepak Garg, Vineet Rajani, Deian Stefan:
From fine- to coarse-grained dynamic information flow control and back. Proc. ACM Program. Lang. 3(POPL): 76:1-76:31 (2019) - [j6]Conrad Watt, John Renner, Natalie Popescu, Sunjay Cauligi, Deian Stefan:
CT-wasm: type-driven secure cryptography for the web ecosystem. Proc. ACM Program. Lang. 3(POPL): 77:1-77:29 (2019) - [c36]Jean-Pierre Talpin, Jean-Joseph Marty, Shravan Narayan, Deian Stefan, Rajesh Gupta:
Towards verified programming of embedded devices. DATE 2019: 1445-1450 - [c35]Craig Disselkoen, John Renner, Conrad Watt, Tal Garfinkel, Amit Levy, Deian Stefan:
Position Paper: Progressive Memory Safety for WebAssembly. HASP@ISCA 2019: 4:1-4:8 - [c34]Sunjay Cauligi, Gary Soeller, Brian Johannesmeyer, Fraser Brown, Riad S. Wahby, John Renner, Benjamin Grégoire, Gilles Barthe, Ranjit Jhala, Deian Stefan:
FaCT: a DSL for timing-sensitive computation. PLDI 2019: 174-189 - [c33]Marco Vassena, Gary Soeller, Peter Amidon, Matthew Chan, John Renner, Deian Stefan:
Foundations for Parallel Information Flow Control Runtime Systems. POST 2019: 1-28 - [c32]Klaus von Gleissenthall, Rami Gökhan Kici, Deian Stefan, Ranjit Jhala:
IODINE: Verifying Constant-Time Execution of Hardware. USENIX Security Symposium 2019: 1411-1428 - [i10]Sunjay Cauligi, Craig Disselkoen, Klaus von Gleissenthall, Deian Stefan, Tamara Rezk, Gilles Barthe:
Towards Constant-Time Foundations for the New Spectre Era. CoRR abs/1910.01755 (2019) - [i9]Klaus von Gleissenthall, Rami Gökhan Kici, Deian Stefan, Ranjit Jhala:
Iodine: Verifying Constant-Time Execution of Hardware. CoRR abs/1910.03111 (2019) - [i8]Shravan Narayan, Tal Garfinkel, Sorin Lerner, Hovav Shacham, Deian Stefan:
Gobi: WebAssembly as a Practical Path to Library Sandboxing. CoRR abs/1912.02285 (2019) - 2018
- [c31]Marc Andrysco, Andres Nötzli, Fraser Brown, Ranjit Jhala, Deian Stefan:
Towards Verified, Constant-time Floating Point Operations. CCS 2018: 1369-1382 - [c30]Michael Smith, Craig Disselkoen, Shravan Narayan, Fraser Brown, Deian Stefan:
Browser history re: visited. WOOT @ USENIX Security Symposium 2018 - [i7]Conrad Watt, John Renner, Natalie Popescu, Sunjay Cauligi, Deian Stefan:
CT-Wasm: Type-Driven Secure Cryptography for the Web Ecosystem. CoRR abs/1808.01348 (2018) - 2017
- [j5]Daniel B. Giffin, Amit Levy, Deian Stefan, David Terei, David Mazières, John C. Mitchell, Alejandro Russo:
Hails: Protecting data privacy in untrusted web applications. J. Comput. Secur. 25(4-5): 427-461 (2017) - [j4]Deian Stefan, David Mazières, John C. Mitchell, Alejandro Russo:
Flexible dynamic information flow control in the presence of exceptions. J. Funct. Program. 27: e5 (2017) - [c29]Sunjay Cauligi, Gary Soeller, Fraser Brown, Brian Johannesmeyer, Yunlu Huang, Ranjit Jhala, Deian Stefan:
FaCT: A Flexible, Constant-Time Programming Language. SecDev 2017: 69-76 - [c28]Fraser Brown, Shravan Narayan, Riad S. Wahby, Dawson R. Engler, Ranjit Jhala, Deian Stefan:
Finding and Preventing Bugs in JavaScript Bindings. IEEE Symposium on Security and Privacy 2017: 559-578 - 2016
- [c27]Toby C. Murray, Deian Stefan:
PLAS'16: ACM SIGPLAN 11th Workshop on Programming Languages and Analysis for Security. CCS 2016: 1870 - [e1]Toby C. Murray, Deian Stefan:
Proceedings of the 2016 ACM Workshop on Programming Languages and Analysis for Security, PLAS@CCS 2016, Vienna, Austria, October 24, 2016. ACM 2016, ISBN 978-1-4503-4574-3 [contents] - 2015
- [b1]Deian Stefan:
Principled and practical web application security. Stanford University, USA, 2015 - [c26]Stefan Heule, Devon Rifkin, Alejandro Russo, Deian Stefan:
The Most Dangerous Code in the Browser. HotOS 2015 - [c25]Stefan Heule, Deian Stefan, Edward Z. Yang, John C. Mitchell, Alejandro Russo:
IFC Inside: Retrofitting Languages with Dynamic Information Flow Control. POST 2015: 11-31 - [i6]Stefan Heule, Deian Stefan, Edward Z. Yang, John C. Mitchell, Alejandro Russo:
IFC Inside: Retrofitting Languages with Dynamic Information Flow Control (Extended Version). CoRR abs/1501.04132 (2015) - [i5]Pablo Buiras, Deian Stefan, Alejandro Russo:
On Dynamic Flow-Sensitive Floating-Label Systems. CoRR abs/1507.06189 (2015) - 2014
- [c24]Pablo Buiras, Deian Stefan, Alejandro Russo:
On Dynamic Flow-Sensitive Floating-Label Systems. CSF 2014: 65-79 - [c23]Deian Stefan, David Mazières:
Building Secure Systems with LIO (Demo). PLAS@ECOOP 2014: 25 - [c22]Amit A. Levy, David Terei, Deian Stefan, David Mazières:
Demo proposal: making web applications -XSafe. Haskell 2014: 91 - [c21]Deian Stefan, Amit Levy, Alejandro Russo, David Mazières:
Building secure systems with LIO (demo). Haskell 2014: 93-94 - [c20]Deian Stefan, Edward Z. Yang, Petr Marchenko, Alejandro Russo, David Herman, Brad Karp, David Mazières:
Protecting Users by Confining JavaScript with COWL. OSDI 2014: 131-146 - 2013
- [c19]Deian Stefan, Pablo Buiras, Edward Z. Yang, Amit Levy, David Terei, Alejandro Russo, David Mazières:
Eliminating Cache-Based Timing Attacks with Instruction-Based Scheduling. ESORICS 2013: 718-735 - [c18]Edward Z. Yang, Deian Stefan, John C. Mitchell, David Mazières, Petr Marchenko, Brad Karp:
Toward Principled Browser Security. HotOS 2013 - [c17]Pablo Buiras, Amit Levy, Deian Stefan, Alejandro Russo, David Mazières:
A Library for Removing Cache-Based Attacks in Concurrent Information Flow Systems. TGC 2013: 199-216 - 2012
- [j3]Deian Stefan, Xiaokui Shu, Danfeng (Daphne) Yao:
Robustness of keystroke-dynamics based biometrics against synthetic forgeries. Comput. Secur. 31(1): 109-121 (2012) - [j2]Kui Xu, Huijun Xiong, Chehai Wu, Deian Stefan, Danfeng Yao:
Data-Provenance Verification For Secure Hosts. IEEE Trans. Dependable Secur. Comput. 9(2): 173-183 (2012) - [c16]John C. Mitchell, Rahul Sharma, Deian Stefan, Joe Zimmerman:
Information-Flow Control for Programming on Encrypted Data. CSF 2012: 45-60 - [c15]Deian Stefan, Alejandro Russo, Pablo Buiras, Amit Levy, John C. Mitchell, David Mazières:
Addressing covert termination and timing channels in concurrent information flow systems. ICFP 2012: 201-214 - [c14]Daniel B. Giffin, Amit Levy, Deian Stefan, David Terei, David Mazières, John C. Mitchell, Alejandro Russo:
Hails: Protecting Data Privacy in Untrusted Web Applications. OSDI 2012: 47-60 - [i4]Deian Stefan, Alejandro Russo, John C. Mitchell, David Mazières:
Flexible Dynamic Information Flow Control in the Presence of Exceptions. CoRR abs/1207.1457 (2012) - [i3]John C. Mitchell, Rahul Sharma, Deian Stefan, Joe Zimmerman:
Information-flow control for programming on encrypted data. IACR Cryptol. ePrint Arch. 2012: 205 (2012) - 2011
- [c13]Alex Bain, John C. Mitchell, Rahul Sharma, Deian Stefan, Joe Zimmerman:
A Domain-Specific Language for Computing on Encrypted Data (Invited Talk). FSTTCS 2011: 6-24 - [c12]Deian Stefan, Alejandro Russo, John C. Mitchell, David Mazières:
Flexible dynamic information flow control in Haskell. Haskell 2011: 95-106 - [c11]Deian Stefan, Alejandro Russo, David Mazières, John C. Mitchell:
Disjunction Category Labels. NordSec 2011: 223-239 - [i2]Alex Bain, John C. Mitchell, Rahul Sharma, Deian Stefan, Joe Zimmerman:
A Domain-Specific Language for Computing on Encrypted Data. IACR Cryptol. ePrint Arch. 2011: 561 (2011) - 2010
- [c10]Shahram Khazaei, Simon Knellwolf, Willi Meier, Deian Stefan:
Improved Linear Differential Attacks on CubeHash. AFRICACRYPT 2010: 407-418 - [c9]Joppe W. Bos, Deian Stefan:
Performance Analysis of the SHA-3 Candidates on Exotic Multi-core Architectures. CHES 2010: 279-293 - [c8]Deian Stefan, Danfeng Yao:
Keystroke-dynamics authentication against synthetic forgeries. CollaborateCom 2010: 1-8 - [c7]Dag Arne Osvik, Joppe W. Bos, Deian Stefan, David Canright:
Fast Software AES Encryption. FSE 2010: 75-93
2000 – 2009
- 2009
- [c6]Deian Stefan:
Hardware Framework for the Rabbit Stream Cipher. Inscrypt 2009: 230-247 - [c5]Hassan Edrees, Brian Cheung, McCullen Sandora, David B. Nummey, Deian Stefan:
Hardware-Optimized Ziggurat Algorithm for High-Speed Gaussian Random Number Generators. ERSA 2009: 254-260 - [c4]Huijun Xiong, Prateek Malhotra, Deian Stefan, Chehai Wu, Danfeng Yao:
User-Assisted Host-Based Detection of Outbound Malware Traffic. ICICS 2009: 293-307 - [i1]Joppe W. Bos, Dag Arne Osvik, Deian Stefan:
Fast Implementations of AES on Various Platforms. IACR Cryptol. ePrint Arch. 2009: 501 (2009) - 2008
- [c3]Ishaan L. Dalal, Deian Stefan, Jared Harwayne-Gidansky:
Low discrepancy sequences for Monte Carlo simulations on reconfigurable platforms. ASAP 2008: 108-113 - [c2]Ishaan L. Dalal, Deian Stefan:
A hardware framework for the fast generation of multiple long-period random number streams. FPGA 2008: 245-254 - [c1]Deian Stefan, David B. Nummey, Jared Harwayne-Gidansky, Ishaan L. Dalal:
On Parallelizing the CryptMT Stream Cipher. VTC Spring 2008: 1082-1086 - 2007
- [j1]Deian Stefan:
Prostate ultrasound image processing. ACM Crossroads 13(3): 8 (2007)
Coauthor Index
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