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David Broman
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2020 – today
- 2024
- [j12]Daniel Arnström, David Broman, Daniel Axehill:
Exact Worst-Case Execution-Time Analysis for Implicit Model Predictive Control. IEEE Trans. Autom. Control. 69(10): 7190-7196 (2024) - [c49]Krista Opsahl-Ong, Michael J. Ryan, Josh Purtell, David Broman, Christopher Potts, Matei Zaharia, Omar Khattab:
Optimizing Instructions and Demonstrations for Multi-Stage Language Model Programs. EMNLP 2024: 9340-9366 - [c48]Daniel Lundén, Lars Hummelgren, Jan Kudlicka, Oscar Eriksson, David Broman:
Suspension Analysis and Selective Continuation-Passing Style for Universal Probabilistic Programming Languages. ESOP (2) 2024: 302-330 - [i20]Bobby Yan, Alexander J. Root, Trevor Gale, David Broman, Fredrik Kjolstad:
Scorch: A Library for Sparse Deep Learning. CoRR abs/2405.16883 (2024) - [i19]Krista Opsahl-Ong, Michael J. Ryan, Josh Purtell, David Broman, Christopher Potts, Matei Zaharia, Omar Khattab:
Optimizing Instructions and Demonstrations for Multi-Stage Language Model Programs. CoRR abs/2406.11695 (2024) - [i18]Rohan Yadav, Michael Bauer, David Broman, Michael Garland, Alex Aiken, Fredrik Kjolstad:
Automatic Tracing in Task-Based Runtime Systems. CoRR abs/2406.18111 (2024) - [i17]Gabriel Poesia, David Broman, Nick Haber, Noah D. Goodman:
Learning Formal Mathematics From Intrinsic Motivation. CoRR abs/2407.00695 (2024) - [i16]Viktor Palmkvist, Anders Ågren Thuné, Elias Castegren, David Broman:
Repr Types: One Abstraction to Rule Them All. CoRR abs/2409.07950 (2024) - 2023
- [j11]Viktor Palmkvist, Elias Castegren, Philipp Haller, David Broman:
Statically Resolvable Ambiguity. Proc. ACM Program. Lang. 7(POPL): 1686-1712 (2023) - [c47]Marten Lohstroh, Edward A. Lee, Stephen A. Edwards, David Broman:
Logical Time for Reactive Software. CPS-IoT Week Workshops 2023: 313-318 - [c46]Daniel Lundén, Gizem Çaylak, Fredrik Ronquist, David Broman:
Automatic Alignment in Higher-Order Probabilistic Programming Languages. ESOP 2023: 535-563 - [c45]Oscar Eriksson, Viktor Palmkvist, David Broman:
Partial Evaluation of Automatic Differentiation for Differential-Algebraic Equations Solvers. GPCE 2023: 57-71 - [i15]Daniel Lundén, Gizem Çaylak, Fredrik Ronquist, David Broman:
Automatic Alignment in Higher-Order Probabilistic Programming Languages. CoRR abs/2301.11664 (2023) - [i14]Daniel Lundén, Lars Hummelgren, Jan Kudlicka, Oscar Eriksson, David Broman:
Suspension Analysis and Selective Continuation-Passing Style for Higher-Order Probabilistic Programming Languages. CoRR abs/2302.13051 (2023) - [i13]Daniel Arnström, David Broman, Daniel Axehill:
Exact Worst-Case Execution-Time Analysis for Implicit Model Predictive Control. CoRR abs/2304.11576 (2023) - [i12]Lars Hummelgren, Matthias Becker, David Broman:
Real-Time Probabilistic Programming. CoRR abs/2311.06788 (2023) - 2022
- [c44]Robert Bereza, Oscar Eriksson, Mohamed Rasheed-Hilmy Abdalmoaty, David Broman, Håkan Hjalmarsson:
Stochastic Approximation for Identification of Non-Linear Differential-Algebraic Equations with Process Disturbances. CDC 2022: 6712-6717 - [c43]Daniel Lundén, Joey Öhman, Jan Kudlicka, Viktor Senderov, Fredrik Ronquist, David Broman:
Compiling Universal Probabilistic Programming Languages with Efficient Parallel Sequential Monte Carlo Inference. ESOP 2022: 29-56 - [i11]Linnea Stjerna, David Broman:
Programming with Context-Sensitive Holes using Dependency-Aware Tuning. CoRR abs/2209.01000 (2022) - [i10]Lars Hummelgren, John Wikman, Oscar Eriksson, Philipp Haller, David Broman:
Expression Acceleration: Seamless Parallelization of Typed High-Level Languages. CoRR abs/2211.00621 (2022) - 2021
- [j10]David Broman:
Interactive Programmatic Modeling. ACM Trans. Embed. Comput. Syst. 20(4): 33:1-33:26 (2021) - [c42]Viktor Palmkvist, Elias Castegren, Philipp Haller, David Broman:
Resolvable ambiguity: principled resolution of syntactically ambiguous programs. CC 2021: 153-164 - [c41]Mohamed Rasheed-Hilmy Abdalmoaty, Oscar Eriksson, Robert Bereza, David Broman, Håkan Hjalmarsson:
Identification of Non-Linear Differential-Algebraic Equation Models with Process Disturbances. CDC 2021: 2300-2305 - [c40]Daniel Lundén, Johannes Borgström, David Broman:
Correctness of Sequential Monte Carlo Inference for Probabilistic Programming Languages. ESOP 2021: 404-431 - [c39]Nicolas Harrand, Thomas Durieux, David Broman, Benoit Baudry:
The Behavioral Diversity of Java JSON Libraries. ISSRE 2021: 412-422 - [e5]Linh Thi Xuan Phan, David Broman:
EMSOFT '21: Proceedings of the 2021 International Conference on Embedded Software, Virtual Event, October 8 - 15, 2021. ACM 2021, ISBN 978-1-4503-8712-5 [contents] - [i9]Nicolas Harrand, Thomas Durieux, David Broman, Benoit Baudry:
The Behavioral Diversity of Java JSON Libraries. CoRR abs/2104.14323 (2021) - [i8]Nicolas Harrand, Thomas Durieux, David Broman, Benoit Baudry:
Automatic Diversity in the Software Supply Chain. CoRR abs/2111.03154 (2021) - [i7]Daniel Lundén, Joey Öhman, Jan Kudlicka, Viktor Senderov, Fredrik Ronquist, David Broman:
Universal Probabilistic Programming Language Compilation with Parallel Efficient Sequential Monte Carlo Inference. CoRR abs/2112.00364 (2021) - 2020
- [j9]Hokeun Kim, Eunsuk Kang, David Broman, Edward A. Lee:
Resilient Authentication and Authorization for the Internet of Things (IoT) Using Edge Computing. ACM Trans. Internet Things 1(1): 4:1-4:27 (2020) - [c38]Saranya Natarajan, David Broman:
Temporal Property-Based Testing of a Timed C Compiler using Time-Flow Graph Semantics. FDL 2020: 1-8 - [i6]Daniel Lundén, Johannes Borgström, David Broman:
Correctness of Sequential Monte Carlo Inference for Probabilistic Programming Languages. CoRR abs/2003.05191 (2020)
2010 – 2019
- 2019
- [j8]Fabio Cremona, Marten Lohstroh, David Broman, Edward A. Lee, Michael Masin, Stavros Tripakis:
Hybrid co-simulation: it's about time. Softw. Syst. Model. 18(3): 1655-1679 (2019) - [c37]David Broman, Oscar Eriksson:
Functional programmatic modeling in modelyze. EOOLT 2019: 7 - [c36]Viktor Palmkvist, David Broman:
Creating Domain-Specific Languages by Composing Syntactical Constructs. PADL 2019: 187-203 - [c35]Saranya Natarajan, Mitra Nasri, David Broman, Björn B. Brandenburg, Geoffrey Nelissen:
From Code to Weakly Hard Constraints: A Pragmatic End-to-End Toolchain for Timed C. RTSS 2019: 167-180 - [c34]David Broman:
A vision of miking: interactive programmatic modeling, sound language composition, and self-learning compilation. SLE 2019: 55-60 - [i5]Viktor Palmkvist, Elias Castegren, Philipp Haller, David Broman:
Resolvable Ambiguity. CoRR abs/1911.05672 (2019) - 2018
- [j7]Cláudio Gomes, Casper Thule, David Broman, Peter Gorm Larsen, Hans Vangheluwe:
Co-Simulation: A Survey. ACM Comput. Surv. 51(3): 49:1-49:33 (2018) - [c33]Lawrence M. Murray, Daniel Lundén, Jan Kudlicka, David Broman, Thomas B. Schön:
Delayed Sampling and Automatic Rao-Blackwellization of Probabilistic Programs. AISTATS 2018: 1037-1046 - [c32]David Broman:
Hybrid Simulation Safety: Limbos and Zero Crossings. Principles of Modeling 2018: 106-121 - [c31]Fabio Cremona, Marten Lohstroh, David Broman, Edward A. Lee, Michael Masin, Stavros Tripakis:
Hybrid Co-simulation: It's About Time. MoDELS 2018: 368 - [c30]David Broman, Jeremy G. Siek:
Gradually typed symbolic expressions. PEPM 2018: 15-29 - [c29]Saranya Natarajan, David Broman:
Timed C: An Extension to the C Programming Language for Real-Time Systems. RTAS 2018: 227-239 - [i4]Daniel Lundén, David Broman, Fredrik Ronquist, Lawrence M. Murray:
Automatic Alignment of Sequential Monte Carlo Inference in Higher-Order Probabilistic Programs. CoRR abs/1812.07439 (2018) - 2017
- [j6]Yooseong Kim, David Broman, Aviral Shrivastava:
WCET-Aware Function-Level Dynamic Code Management on Scratchpad Memory. ACM Trans. Embed. Comput. Syst. 16(4): 112:1-112:26 (2017) - [c28]Hokeun Kim, Eunsuk Kang, Edward A. Lee, David Broman:
A Toolkit for Construction of Authorization Service Infrastructure for the Internet of Things. IoTDI 2017: 147-158 - [c27]Hokeun Kim, Eunsuk Kang, David Broman, Edward A. Lee:
An Architectural Mechanism for Resilient IoT Services. SafeThings@SenSys 2017: 8-13 - [i3]Cláudio Gomes, Casper Thule, David Broman, Peter Gorm Larsen, Hans Vangheluwe:
Co-simulation: State of the art. CoRR abs/1702.00686 (2017) - [i2]David Broman:
Hybrid Simulation Safety: Limbos and Zero Crossings. CoRR abs/1710.06516 (2017) - [i1]David Broman:
A Brief Overview of the KTA WCET Tool. CoRR abs/1712.05264 (2017) - 2016
- [j5]Leif Jonsson, Markus Borg, David Broman, Kristian Sandahl, Sigrid Eldh, Per Runeson:
Automated bug assignment: Ensemble-based machine learning in large scale industrial contexts. Empir. Softw. Eng. 21(4): 1533-1578 (2016) - [c26]Viktor Kozma, David Broman:
MORAP: a modular robotic arm platform for teaching and experimenting with equation-based modeling languages. EOOLT 2016: 27-30 - [c25]Fabio Cremona, Marten Lohstroh, David Broman, Marco Di Natale, Edward A. Lee, Stavros Tripakis:
Step revision in hybrid Co-simulation with FMI. MEMOCODE 2016: 173-183 - [c24]Leif Jonsson, David Broman, Måns Magnusson, Kristian Sandahl, Mattias Villani, Sigrid Eldh:
Automatic Localization of Bugs to Faulty Components in Large Scale Software Systems Using Bayesian Classification. QRS 2016: 423-430 - [c23]Insa Fuhrmann, David Broman, Reinhard von Hanxleden, Alexander Schulz-Rosengarten:
Time for Reactive System Modeling: Interactive Timing Analysis with Hotspot Highlighting. RTNS 2016: 289-298 - 2015
- [j4]Maria Vasilevskaya, David Broman, Kristian Sandahl:
Assessing Large-Project Courses: Model, Activities, and Lessons Learned. ACM Trans. Comput. Educ. 15(4): 20:1-20:30 (2015) - [c22]Ankush Desai, Sanjit A. Seshia, Shaz Qadeer, David Broman, John C. Eidson:
Approximate Synchrony: An Abstraction for Distributed Almost-Synchronous Systems. CAV (2) 2015: 429-448 - [c21]David Broman, Lev Greenberg, Edward A. Lee, Michael Masin, Stavros Tripakis, Michael Wetter:
Requirements for hybrid cosimulation standards. HSCC 2015: 179-188 - [c20]Hokeun Kim, David Broman, Edward A. Lee, Michael Zimmer, Aviral Shrivastava, Junkwang Oh:
A predictable and command-level priority-based DRAM controller for mixed-criticality systems. RTAS 2015: 317-326 - 2014
- [c19]Eugene Yip, Matthew M. Y. Kuo, Partha S. Roop, David Broman:
Relaxing the synchronous approach for mixed-criticality systems. RTAS 2014: 89-100 - [c18]Michael Zimmer, David Broman, Chris Shaver, Edward A. Lee:
FlexPRET: A processor platform for mixed-criticality systems. RTAS 2014: 101-110 - [c17]Yooseong Kim, David Broman, Jian Cai, Aviral Shrivastava:
WCET-aware dynamic code management on scratchpads for Software-Managed Multicores. RTAS 2014: 179-188 - [c16]Maria Vasilevskaya, David Broman, Kristian Sandahl:
An assessment model for large project courses. SIGCSE 2014: 253-258 - [e4]Peter Pepper, David Broman:
Equation-Based Object-Oriented Modeling Languages and Tools 2014, EOOLT 2014, Berlin, Germany, October 10, 2014. ACM 2014, ISBN 978-1-4503-2953-8 [contents] - 2013
- [j3]David Broman:
High-confidence cyber-physical co-design. SIGBED Rev. 10(2): 23 (2013) - [c15]David Broman, Christopher X. Brooks, Lev Greenberg, Edward A. Lee, Michael Masin, Stavros Tripakis, Michael Wetter:
Determinate composition of FMUs for co-simulation. EMSOFT 2013: 2:1-2:12 - 2012
- [j2]David Broman, Kristian Sandahl, Mohamed Abu Baker:
The Company Approach to Software Engineering Project Courses. IEEE Trans. Educ. 55(4): 445-452 (2012) - [c14]Isaac Liu, Jan Reineke, David Broman, Michael Zimmer, Edward A. Lee:
A PRET microarchitecture implementation with repeatable timing and competitive performance. ICCD 2012: 87-93 - [c13]Leif Jonsson, David Broman, Kristian Sandahl, Sigrid Eldh:
Towards Automated Anomaly Report Assignment in Large Complex Systems Using Stacked Generalization. ICST 2012: 437-446 - [c12]David Broman, Edward A. Lee, Stavros Tripakis, Martin Törngren:
Viewpoints, formalisms, languages, and tools for cyber-physical systems. MPM@MoDELS 2012: 49-54 - [c11]David Broman, Henrik Nilsson:
Node-Based Connection Semantics for Equation-Based Object-Oriented Modeling Languages. PADL 2012: 258-272 - [c10]David Broman, Peter Fritzson, Görel Hedin, Johan Åkesson:
A comparison of two metacompilation approaches to implementing a complex domain-specific language. SAC 2012: 1919-1921 - 2011
- [c9]David Broman, Kristian Sandahl:
How can we make software engineering text books well-founded, up-to-date, and accessible to students? CSEE&T 2011: 386-390 - [e3]François E. Cellier, David Broman, Peter Fritzson, Edward A. Lee:
Proceedings of the 4th International Workshop on Equation-Based Object-Oriented Modeling Languages and Tools, EOOLT 2011, Zurich, Switzerland, September 5, 2011. Linköping Electronic Conference Proceedings 56, Linköping University Electronic Press 2011 [contents] - 2010
- [b1]David Broman:
Meta-Languages and Semantics for Equation-Based Modeling and Simulation. Linköping University, Sweden, 2010 - [c8]David Broman:
Should Software Engineering Projects Be the Backbone or the Tail of Computing Curricula? CSEE&T 2010: 153-156 - [c7]Peter Fritzson, Edward A. Lee, François E. Cellier, David Broman:
Equation-Based Object-Oriented Modeling Languages and Tools - Report on the Workshop EOOLT 2010 at MODELS 2010 Oslo, Norway, October 3, 2010. MoDELS (Workshops) 2010: 140-144 - [e2]Peter Fritzson, Edward A. Lee, François E. Cellier, David Broman:
Proceedings of the 3rd International Workshop on Equation-Based Object-Oriented Modeling Languages and Tools, EOOLT 2010, Oslo, Norway, October 3, 2010. Linköping Electronic Conference Proceedings 47, Linköping University Electronic Press 2010 [contents]
2000 – 2009
- 2009
- [j1]David Broman, Peter Fritzson:
High-Order Acausal Models. Simul. Notes Eur. 19(1): 5-16 (2009) - [c6]Peter Fritzson, Adrian Pop, David Broman, Peter Aronsson:
Formal Semantics Based Translator Generation and Tool Development in Practice. Australian Software Engineering Conference 2009: 256-266 - 2008
- [c5]Peter Fritzson, David Broman, François E. Cellier:
Equation-Based Object-Oriented Languages and Tools. ECOOP Workshops 2008: 18-29 - [c4]David Broman, Peter Fritzson:
Higher-Order Acausal Models. EOOLT 2008: 59-69 - [e1]Peter Fritzson, François E. Cellier, David Broman:
Proceedings of the 2nd International Workshop on Equation-Based Object-Oriented Languages and Tools, EOOLT 2008, Paphos, Cyprus, July 8, 2008. Linköping Electronic Conference Proceedings 29, Linköping University Electronic Press 2008 [contents] - 2007
- [c3]Peter Fritzson, David Broman, François E. Cellier, Christoph Nytsch-Geusen:
Equation-Based Object-Oriented Languages and Tools Report on the Workshop EOOLT 2007 at ECOOP 2007. ECOOP Workshops 2007: 27-39 - [c2]David Broman, Peter Fritzson:
Abstract Syntax Can Make the Definition of Modelica Less Abstract. EOOLT 2007: 111-126 - 2006
- [c1]David Broman, Kaj Nyström, Peter Fritzson:
Determining over- and under-constrained systems of equations using structural constraint delta. GPCE 2006: 151-160
Coauthor Index
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last updated on 2024-12-05 20:42 CET by the dblp team
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