X-Git-Url: https://git.ralfj.de/web.git/blobdiff_plain/527eabeeebfbd8bbbca29b48bbe8e834c51fbb89..a3f9d0ed51ec4d4f74dc6f9b34a19d745b8ff6d6:/research/publications.html
diff --git a/research/publications.html b/research/publications.html
index 2a691eb..7d85125 100644
--- a/research/publications.html
+++ b/research/publications.html
@@ -3,21 +3,55 @@ title: Publications
slug: Publications
---
-
+
Conference and journal papers
+
+2022
+
+-
+ Simuliris: A separation logic framework for verifying concurrent program optimizations
+ Lennard Gäher, Michael Sammler, Simon Spies, Ralf Jung, Hoang-Hai Dang, Robbert Krebbers, Jeehoon Kang, Derek Dreyer
+ In POPL 2022, Distinguished Paper Award
+ [paper]
+
+
+2021
+
+-
+ GhostCell: Separating Permissions from Data in Rust
+ Joshua Yanovski, Hoang-Hai Dang, Ralf Jung, Derek Dreyer
+ In ICFP 2021
+ [paper] [paper website (incl. Coq formalization)]
+
+
+-
+ GoJournal: a verified, concurrent, crash-safe journaling system
+ Tej Chajed, Joseph Tassarotti, Mark Theng, Ralf Jung, M. Frans Kaashoek, Nickolai Zeldovich
+ In OSDI 2021
+ [paper]
+
+
+-
+ Safe Systems Programming in Rust: The Promise and the Challenge
+ Ralf Jung, Jacques-Henri Jourdan, Robbert Krebbers, Derek Dreyer
+ In Communications of the ACM (CACM)
+ [article]
+ [pdf]
+ [video]
+
2020
-
The Future is Ours: Prophecy Variables in Separation Logic
Ralf Jung, Rodolphe Lepigre, Gaurav Parthasarathy, Marianna Rapoport, Amin Timany, Derek Dreyer, Bart Jacobs
- In POPL 2020
+ In POPL 2020
[paper] [paper website (incl. appendix and Coq formalization)]
-
Stacked Borrows: An Aliasing Model for Rust
Ralf Jung, Hoang-Hai Dang, Jeehoon Kang, Derek Dreyer
- In POPL 2020
+ In POPL 2020
[paper] [paper website (incl. appendix and Coq formalization)]
@@ -26,28 +60,28 @@ slug: Publications
-
Iris from the Ground Up: A Modular Foundation for Higher-Order Concurrent Separation Logic
Ralf Jung, Robbert Krebbers, Jacques-Henri Jourdan, Aleš Bizjak, Lars Birkedal, Derek Dreyer
- In Journal of Functional Programming (JFP), Volume 28, e20, November 2018
+ In Journal of Functional Programming (JFP), Volume 28, e20, November 2018
[paper] [project website (incl. appendix and Coq formalization)]
-
Reconciling High-Level Optimizations and Low-Level Code in LLVM
Juneyoung Lee, Chung-Kil Hur, Ralf Jung, Zhengyang Liu, John Regehr, Nuno P. Lopes
- In OOPSLA 2018
+ In OOPSLA 2018
[paper] [paper website]
-
MoSeL: A General, Extensible Modal Framework for Interactive Proofs in Separation Logic
Robbert Krebbers, Jacques-Henri Jourdan, Ralf Jung, Joseph Tassarotti, Jan-Oliver Kaiser, Amin Timany, Arthur Charguéraud, Derek Dreyer
- In ICFP 2018
+ In ICFP 2018
[paper] [paper website (incl. appendix and Coq formalization)]
@@ -63,7 +97,7 @@ slug: Publications
-
A Higher-Order Logic for Concurrent Termination-Preserving Refinement
Joseph Tassarotti, Ralf Jung, Robert Harper
- In ESOP 2017
+ In ESOP 2017
[paper] [paper website (incl. Coq formalization)]
@@ -72,43 +106,64 @@ slug: Publications
2015
-
-
-
Iris: Monoids and Invariants as an Orthogonal Basis for Concurrent Reasoning
Ralf Jung, David Swasey, Filip Sieczkowski, Kasper Svendsen, Aaron Turon, Lars Birkedal, Derek Dreyer
- In POPL 2015
+ In POPL 2015
[paper] [project website (incl. appendix and Coq formalization)] [talk (slides)]
+Theses
+
+2020
+-
+ Understanding and Evolving the Rust Programming Language
+ Ralf Jung
+ PhD Thesis
+ [website]
+
+
+
+2019
+
+
2013
-
- An Intermediate Language To Formally Justify Memory Access Reordering (Bachelor's Thesis)
- Ralf Jung, Supervisor: Sebastian Hack, Advisor: Sigurd Schneider
+ An Intermediate Language To Formally Justify Memory Access Reordering
+ Ralf Jung
+ Bachelor Thesis
[thesis] [slides] [coq]
-
-Selected Talks
+Workshop Talks
+
+2020
+
+-
+ Stacked Borrows: An Aliasing Model for Rust
+ Ralf Jung
+ At PRiML 2020 (invited talk)
+ [slides]
+
2019
2015
@@ -116,6 +171,6 @@ slug: Publications
-
Unifying Worlds and Resources
Ralf Jung, Derek Dreyer
- At HOPE 2015: 4th ACM SIGPLAN Workshop on Higher-Order Programming with Effects
+ At HOPE 2015: 4th ACM SIGPLAN Workshop on Higher-Order Programming with Effects
[slides] [YouTube]