We do research in the design and implementation of programming languages, program synthesis, and computer-assisted formal reasoning about complex systems, at the School of Computing of National University of Singapore, as a part of PLSE@NUS lab.
Postdoc positions are available in a project on automated program repair via static analysis and verification. Check out the project page for the details and get in touch!
We are actively looking for motivated PhD students! Get in touch with Ilya Sergey if you want to chat about research opportunities, and apply here.
Research internships: In case if you are interested in an internship with us, please get in touch with your CV and a paragraph of text describing your specific interests in the research themes we pursue at the moment. Strong background in PL/logic/verification or systems-building is a must. We welcome candidates who will commit six months or longer to focused research on-site.
Our current investigations follow the themes outlined below.
For more details on our research, check out our blog posts, projects, and recent papers.
Program synthesis is an emerging research and technology paradigm for automatically deriving programs from user-provided declarative specifications, thereby significantly reducing the implementation effort required for producing correct-by-construction and efficient code. Our recent work explored the marriage of state-of-the-art techniques for deductive proofs in Coq proof assistant and program synthesis that resulted in a series of tools that produce correct-by construction implementations for complex tasks in mainstream languages.
Our long-term agenda targets synthesis of provably correct high-performance, safety-critical programs with the focus on low-effort proof automation and evolution.
Despite being one of the oldest topics in Computer Science, concurrent programming still poses multiple challenges from both theoretical and practical standpoint: concurrent libraries that utilise available opportunities for parallelism are difficult to implement, optimise, and verify, and bugs in concurrent programs are extremely tricky to identify and fix. To address these challenges, we have developed foundations for machine-assisted verification of concurrent programs. We have also contributed tools for fast compositional bug-funding in concurrent code with theoretical completeness guarantees, and developed a methodology for efficient repair of concurrent bugs. Finally, we used the ideas from static program analysis and type systems to improve system-wide parallelism in modern blockchain protocols.
Our vision in this line of work is to democratise the process implementation of concurrent libraries and applications, developing robust and accessible methods for building correct and performant concurrent programs.
Given the importance of modern software systems (e.g., distributed systems, concurrency and high-performance computing libraries, etc) and their complexity, it is vital in industry to have a rigorous verification methodology for establishing their correctness properties as well as for making sure that the once completed proofs don’t go “bit rot”. In this line of work, our recent work has introduced logical foundations for compositional verification of complex distributed protocols using a proof assistant. We have also produced the first mechanically verified proof of safety of Nakamoto consensus, its probabilistic properties and verified libraries of relevant probabilistic data structures. We also explored techniques for lightweight verification of distributed systems, such as greybox fuzzing. Finally, we have developed the first approach for (mostly) automated evolution of proofs for verified libraries.
Our long-term goal is to build tools that bridge the gap between the systems implementations and their abstract models that can be verified in an interactive or automated fashion, producing robust and easy-to-maintain proofs.
Our paper on verifying tree clocks in Coq will appear at CPP’24. Update: We’ve also got a Distinguished Paper Award!
Congratulations to Mayank Keoliya on awarded the 2023 NUS Outstanding Undergraduate Researcher Prize!
Congratulations to Kiran Gopinathan on receiving a Dean’s Research Excellence Award!
Congratulations to Mayank Keoliya on awarded the 2023 NUS Outstanding Undergraduate Researcher Prize!
The paper on fuzzing distributed systems will appear at CCS’23.
Mechanised Separation Logic for Compositional Verification of Distributed Protocols
Rooting for Efficiency: Mechanised Reasoning about Array-Based Trees in Separation Logic
13th ACM SIGPLAN International Conference on Certified Programs and Proofs (CPP 2024). London, UK, January 2024. Distinguished Paper Award.
Greybox Fuzzing of Distributed Systems
30th ACM Conference on Computer and Communications Security (CCS 2023). Copenhagen, Denmark, December 2023.
Adventure of a Lifetime: Extract Method Refactoring for Rust
38th ACM SIGPLAN Conference on Object-Oriented Programming Systems, Languages and Applications (OOPSLA 2023). Lisbon, Portugal, October 2023.
Mostly Automated Proof Repair for Verified Libraries
2023 ACM SIGPLAN Conference on Programming Language Design and Implementation (PLDI 2023). Orlando, FL, USA, June 2023. ACM SIGPLAN Distinguished Paper Award
Leveraging Rust Types for Program Synthesis
2023 ACM SIGPLAN Conference on Programming Language Design and Implementation (PLDI 2023). Orlando, FL, USA, June 2023. Distinguished Artifact Award
Borrowing without Sorrowing: Implementing Extract Method Refactoring for Rust
Capstone Thesis. Yale-NUS College, 2023. Recipient of the Outstanding Yale-NUS Capstone Prize for 2023.
Formally Verifying Accountable Byzantine Consensus
Capstone Thesis. Yale-NUS College, 2023.
Concurrent Structures and Effect Handlers: A Batch Made in Heaven
Capstone Thesis. Yale-NUS College, 2023.
HIPPODROME: Data Race Repair using Static Analysis Summaries
ACM Transactions on Software Engineering and Methodology. 2023.
Random Testing of a Higher-Order Blockchain Language (Experience Report)
27th ACM SIGPLAN International Conference on Functional Programming (ICFP 2022). Ljubljana, Slovenia, September 2022.