Stephan Held: English Homepage [Deutsche Homepage] [Research Interests] [Publications] [Conferences & Schools] [Teaching] [Students]

Address:

Professor Dr. Stephan Held
Research Institute for Discrete Mathematics
University of Bonn
Lennéstr. 2
53113 Bonn
Germany
E-Mail: held@dm.uni-bonn.de
Phone: +49 228 738740
Office: Room 303

Research interests:

• Graph Coloring: exactcolors one of the fastest open source codes for the maximum-weight stable set and the graph coloring problem
• Vehicle Routing:
  • Just Passing Through the TSP code with which William Cook, Keld Helsgaun, and I could win the 2021 Last Mile Routing Challenge organized by Amazon and the MIT Center for Transportation and Logistics (press release of the University of Bonn). William Cook created a nice web page describing the contest and our approach.
  • Combinatorial optimization for practical pickup and delivery services in cooperation with Greenplan.
  • In 2022, we created real-world instances with time-dependent travel times using OpenStreetMap data and Uber speed profiles. More details can be found in our paper Vehicle Routing with Time-Dependent Travel Times: Theory, Practice, and Benchmarks. See also the archived version of the new benchmarks.
  • Uniform CVRP instances from VLSI design. These instances arise in chip design, when scan chains are grouped and ordered to minimize the total netlength of the chains.
• VLSI-Design in cooperation with IBM
  • Clock Scheduling and Construction (Instances for the minimum mean cycle problem)
  • Gate Sizing
  • Repeater Trees
  • Threshold Voltage Optimization. Large minimum-cost flow instances arising in the linear time-cost tradeoff relaxation of threshold voltage optimization and placement.
  • Logic Resynthesis
  • Timing Driven Placement & Routing
  • I am member of the ISPD organizing comittee.
  I co-organize the International Symposium on Physical Design (ISPD) and serve as an associate editor of Discrete Optimization.

Publications:

• S. Held and E. Perner: Cost-Distance Steiner Trees for Timing-Constrained Global Routing. arXiv, 2025. Accepted for DAC 2025.
• T. Brand and S. Held: Fractional Chromatic Numbers from Exact Decision Diagrams. arXiv:2411.03003, 2024. See also our corresponding code and data archive.
• J. Blauth, S. Held, D. Müller, N. Schlomberg, V. Traub, T. Tröbst, and J. Vygen: Vehicle Routing with Time-Dependent Travel Times: Theory, Practice, and Benchmarks. Discrete Optimization, Volume 53,100848, 2024, arXiv.2205.00889 (preprint), new benchmarks for VRP with time-dependent travel times.
• J. Foos, S. Held and Y.K.D. Spitzley: Tighter Approximation of the Uniform Cost-Distance Steiner Tree Problem, APPROX/RANDOM 2023, LIPIcs 275, 19:1--19:16, 2023, prerprint arXiv:2305.03381.
• S. Daboul, S. Held, B. Natura, D. Rotter: Global Interconnect Optimization, ACM Transactions on Design Automation of Electronic Systems 28 (5), Article No.: 72, 24 pages, 2023, preprint: Report No : 191187. preliminary short version: Proc. ICCAD 2019, pp. 1--8. doi: 10.1109/ICCAD45719.2019.8942155
• S. Held and Y.K.D. Spitzley: Further Improvements on Approximating the Uniform Cost-Distance Steiner Tree Problem, Technical Report No. 221263, Research Institute for Discrete Mathematics, University of Bonn, 2022, arXiv:2211.03830.
• G. Posser, E.F.Y. Young, S. Held, Y.-L. Li, D.Z. Pan: Challenges and Approaches in VLSI Routing Proc. ISPD, 2022, (preprint),
• S. Daboul, S. Held, and J. Vygen: Approximating the discrete time-cost tradeoff problem with bounded depth, Mathematical Programming, 2022, (preprint: arxiv 2011.02446), Short version in Proc. IPCO 2021, pp. 30--42.
• W. Cook, S. Held. K. Helsgaun: Local Search with Learned Constraints for Last Mile Routing, Transportation Science, published online, 2022, preprint: arXiv:2112.15192, describing our approach for winning the 2021 Last Mile Routing Challenge by Amazon and MIT with significant post-contest improvements.
  A short version can be found in the Technical Proceedings of the Amazon Last Mile Routing Research Challenge, editors M. Winkenbach, S. Parks and J. Noszek, article XXI, 2021
• A. Khazraei and S. Held: An Improved Approximation Algorithm for the Uniform Cost-Distance Steiner Tree Problem, Proc. WAOA 2020, LNCS 12806, pp. 189--203, 2021. (preprint).
• S. Held, J. Könemann, J. Vygen: Vehicle Routing with Subtours, Discrete Optimization 33, 87--100, 2019, (preprint, arXiv:1801.04991).
• S. Daboul, S. Held, J. Vygen, and S. Wittke: An approximation algorithm for threshold voltage optimization, ACM Transactions on Design Automation of Electronic Systems 23 (6), Article No. 68, 2018. (preprint).
• S. Held and B. Rockel: Exact Algorithms for Delay-Bounded Steiner Arborescences, 2018, DAC 2018, Article no. 44, (best paper award).
• S. Daboul, N. Hähnle, S. Held, and U. Schorr: Provably Fast and Near-Optimum Gate Sizing. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems 37(12), 3163--3176 , 2018, (preprint).
• S. Held and S.T.Spirkl: Binary Adder Circuits of Asymptotically Minimum Depth, Linear Size, and Fan-Out Two. ACM Transactions on Algorithms 14(1), Articel No 4, , 2018, ( preprint ).
• S. Held, D. Müller, D. Rotter, R. Scheifele, V. Traub, and J. Vygen: Global Routing with Timing Constraints, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems 37(2), 2018, 406--419. (10.1109/TCAD.2017.2697964), (preprint).
• S. Held and N. Kämmerling: Two-Level Rectilinear Steiner Trees, Computational Geometry 61, 2017, 48--59 (link, preprint , short version at EUROCG 2015).
• S. Held and S.T.Spirkl: Fast Prefix Adders for Non-Uniform Input Arrival Times, Algorithmica 77 (1), 2017, 287--308 (link, preprint).
• S. Held and J. Hu: Gate Sizing, in Electronic Design Automation for IC Implementation, Circuit Design, and Process Technology. Edited by Luciano Lavagno, Igor L. Markov, Grant Martin, and Louis K. Scheffer, CRC Press, 2016, 245--260 (Chapter 10).
• S. Held, D. Müller, Daniel Rotter, Vera Traub and J. Vygen: Global Routing with Inherent Static Timing Constraints. Proc. ICCAD 2015, 102--109.
• S. Held, S. Hougardy, and J. Vygen: Chip Design. in: The Princeton Companion to Applied Mathematics, (N.J.Higham, ed.), Princeton University Press 2015, 804--807.
• A. Bock, S. Held, N. Kämmerling, and U. Schorr: Local Search Algorithms for Timing-Driven Placement under Arbitrary Delay Models. Proc. 52th DAC, 2015.
• S. Held and U. Schorr: Post-Routing Latch Optimization for Timing Closure. Proc. 51st DAC, 2014.
• S. Held and S. T. Spirkl: A Fast Algorithm for Rectilinear Steiner Trees with Length Restrictions on Obstacles. Proc. ISPD 2014, pp. 37--44.
• S. Held and D. Rotter: Shallow Light Steiner Arborescences with Vertex Delays. Proc. IPCO 2013, pp. 229--241.
• S. Held, E. C. Sewell, W. Cook: Maximum-Weight Stable Sets and Safe Lower Bounds for Graph Coloring, Mathematical Programming Computation: Volume 4, Issue 4 (2012), 363--381, preprint
• S. Held, B. Korte, D. Rautenbach, J. Vygen: Combinatorial optimization in VLSI design . In: "Combinatorial Optimization: Methods and Applications" (V. Chvatal, ed.), IOS Press, Amsterdam, 2011, pp. 33--96.
• S. Held, E. C. Sewell, W. Cook: Safe Lower Bounds for Graph Coloring. Proc. IPCO 2011, pp. 261--273 .
• C. Bartoschek, S. Held, J. Maßberg, D. Rautenbach, J. Vygen: The repeater tree construction problem. Information Processing Letters 110 (2010), 1079-1083.
• S. Held: Gate Sizing for Large Cell-Based Designs . Proc. DATE 2009, pp. 827--832. ( Best Paper Award )
• C. Bartoschek, S. Held, D. Rautenbach, J. Vygen: Fast Buffering for Optimizing Worst Slack and Resource Consumption in Repeater Trees. Proc. ISPD 2009, pp. 43--50.
• S. Held: Timing Closure in Chip Design. Dissertation, Universität Bonn, 2008.
• C. Bartoschek, S. Held, D. Rautenbach, J. Vygen: Efficient algorithms for short and fast repeater trees. II. Buffering. Technical Report No. 07978, Research Institute for Discrete Mathematics, University of Bonn, 2007
• C. Bartoschek, S. Held, D. Rautenbach, J. Vygen: Efficient algorithms for short and fast repeater trees. I. Topology generation. Technical Report No. 07977, Research Institute for Discrete Mathematics, University of Bonn, 2007
• S. Held: Fast Gate Sizing and Timing Closure for Multi-Million Cell Designs. Technical Report No. 07969, Forschungsinstitut für Diskrete Mathematik, University of Bonn, 2007
• C. Bartoschek, S. Held, D. Rautenbach, J. Vygen: Efficient Generation of Short and Fast Repeater Tree Topologies. Proc. ISPD 2006, pp. 120--127.
• S. Held, B. Korte, J. Maßberg, M. Ringe, J. Vygen: Clock Scheduling and Clocktree Construction for High Performance ASICs. Proc. ICCAD 2003, pp. 232--239.

(Co-) organization of conferences & schools

• International Symposium on Physical Design, yearly: 2023-2027
• Bonn Worksh on Compuational Combinatorial Optimization, October 17-21, 2022
• Hausdorff Summer School on Compuational Combinatorial Optimization, September 12-16, 2022
• The 17th Conference on Integer Programming and Combinatorial Optimization, June 23 - 25, 2014, Bonn - Germany
• Spring School on Mathemtics of Chip Design, March 30 - April 8, 2009, Hangzhou, China.

Teaching

• WS 24/25: Lecture Course on Advanced Integer Programming (V4C1)
• WS 24/25: Seminar über "Perfect Matchings" (S2C1)
• SS 24: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 24: Graduate Seminar on "New Shortest Path Algorithms" (S4C1)
• SS 24: Programmierpraktikum über "Steinerbäume" (P2C1)
• WS 23/24: Lecture Course on Combinatorial Optimization (V4C1)
• WS 22/23: Seminar über "Matching-Theorie" (S2C1)
• WS 22/23: Lecture Course on Combinatorial Optimization (V4C1)
• WS 22/23: Seminar über "Geometric Spanner Networks" (S2C1)
• SS 22: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 22: Graduate Seminar on "Continuous Approaches to Network Flows" (S4C1)
• SS 22: Programmierpraktikum über "Steinerbäume" (P2C1)
• WS 21/22: Lecture "Einführung in die Diskrete Mathematik" (V2C1)
• WS 21/22: Seminar on Beyond the Worst-Case Analysis of Algorithms(S2C1))
• SS 21: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 21: Graduate Seminar on "Randomized Algorithm with Approximation Ratio Better than 3/2 for Symmetric TSP" (S4C1)
• SS 21: Programmierpraktikum über "Tourenplanung" (P2C1)
• SS 21: Seminar über Diskrete Mathematik (S1G1)
• WS 20/21: Vorlesung Algorithmische Mathematik I (V4G5)
• WS 20/21: Seminar über "Graphen und Geometrie" (S2C1)
• SS 20: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 20: Graduate Seminar on "Graph isomorphisms in quasi-polynomial time " (S4C1)
• SS 20: Programmierpraktikum über "Graphenisomorphie" (P2C1)
• SS 20: Seminar über Diskrete Mathematik (S1G1)
• WS 19/20: Lecture Course on Combinatorial Optimization (V4C1)
• WS 19/20: Seminar über "Packungs- und Überdeckungsprobleme in Hypergraphen" (S2C1)
• SS 19: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 19: Graduate Seminar on "Matroid Parity" (S4C1)
• SS 19: Programmierpraktikum über das "Traveling Salesman Problem" (P2C1)
• SS 19: Seminar über Diskrete Mathematik (S1G1)
• WS 18/19: Vorlesung "Einführung in die Diskrete Mathematik" (V2C1)
• WS 18/19: Seminar über Boolean Function Complexity(S2C2))
• SS 18: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 18: Graduate Seminar on "Facility Location Problems" (S4C1)
• SS 18: Seminar über Diskrete Mathematik (S1G1)
• SS 18: Programmierpraktikum über "Rechteckpackungen" (P2C1)
• WS 17/18: Lecture Course on Linear and Integer Programming (V3C1 bzw. MA-INF 1102)
• WS 17/18: Seminar on Exact Algorithms for NP-Hard Problems(S2C2))
• SS 17: Lecture Course on Chip Design (V4C3 and MA-INF 1201)
• SS 17: Seminar on "Extended Formulations" (S4C1)
• SS 17: Seminar über Diskrete Mathematik (S1G1)
• SS 17: Programmierpraktikum über "Tourenplanung" (P2C1)
• WS 16/17: Vorlesung über "Einführung in die Diskrete Mathematik" (V2C1)
• WS 16/17: Seminar über "Kombinatorische Diskrepanz" (S2C1)
• SS 16: Seminar on "Advanced Strongly Polynomial Algorithms in Combinatorial Optimization" (S4C1)
• SS 16: Seminar über Diskrete Mathematik (S1G1)
• SS 16: Programmierpraktikum über "Facility Location und Clustering" (P2C1)
• WS 15/16: Lecture Course on Combinatorial Optimization (V4C1)
• WS 15/16: Seminar über "Steiner-Bäume" (S2C1)
• SS 15: Lecture Course on Boolean Circuit Optimization (V5C2)
• SS 15: Graduate Seminar on Submodularity and Discrete Convexity (S4C1)
• SS 15: Seminar über Diskrete Mathematik (S1G1)
• SS 15: Programmierpraktikum über Darstellungen von Rechteckpackungen (P2C1)
• WS 14/15: Lecture Course on Combinatorial Optimization (V4C1 bzw. MA-INF 1102)
• WS 14/15: Hauptseminar über Iterative Methoden in der Kombinatorischen Optimierung (S2C2)
• WS 14/15: Practical Training Course on Algorithms for Chip Design (P4C2 and MA-INF 1308)
• SS 14: Graduate Seminar on Hierarchies of Relaxations (S4C1)
• SS 14: Seminar über Diskrete Mathematik (S1G1)
• SS 14: Programmierpraktikum: Das Steiner-Baum-Problem. (P2C1)
• WS 13/14: Vorlesung über Lineare und Ganzzahlige Optimierung (V3C1 bzw. MA-INF 1102)
• WS 13/14: Hauptseminar über Maximale Flüsse (S2C2))
• WS 13/14: Practical Training Course on Algorithms for Chip Design (P4C2)
• SS 13: Seminar über Diskrete Mathematik (S1G1)
• SS 13: Graduate Seminar on Semidefinite Programming and Approximation Algorithms (S4C1)
• SS 13: Programmierpraktikum über das Time-Cost-Tradeoff-Problem (P2C1)
• WS 12/13: Lecture Course on Combinatorial Optimization (V4C1 bzw. MA-INF 1102)
• WS 12/13: Hauptseminar über Neue Approximationsalgorithmen für das TSP (S2C2)
• WS 12/13: Practical Training Course on Algorithms for Chip Design (P4C2)
• SS 12: Seminar über Diskrete Mathematik (S1G1)
• SS 12: Graduate Seminar on Integer Multiflows (S4C1)
• SS 12: Programmierpraktikum: Das Stable Set Problem. (P2C1)
• WS 11/12: Vorlesung über Lineare und Ganzzahlige Optimierung (V2C2 and BA-INF 106)
• WS 11/12: Hauptseminar über Graphentheorie (S2C2)
• WS 11/12: Practical Training Course on Algorithms for Chip Design (P4C2)
• SS 11: Seminar über Diskrete Mathematik (S1G1)
• SS 11: Graduate Seminar on Graph Partitioning (S4C1)
• SS 11: Programmierpraktikum: TSP (P2C1)
• WS 10/11: Lineare und Ganzzahlige Optimierung (V2C2 and BA-INF 106)
• WS 10/11: Hauptseminar über Verallgemeinerte Flussprobleme (S2C2)
• WS 10/11: Practical Training Course on Algorithms for Chip Design (P4C2)

Students

Information for Prospective Students and Applicants:

Due to the increasing number of spam in this area, I will not answer applications that are sent by e-mail. Please read the following, and then send your application to the appropriate address.
• Internships: I am sorry, but I do not offer internships. Due to the large number of applications, I will not answer such requests.
• Bachelor's and Master's Programs: Please do not send me applications directly, but rather contact the appropriate office for mathematics or computer science.
• Doctoral Studies / PhD Program: You can send me your application directly at any time, but not by e-mail. Applications should contain at least a curriculum vitae and (an address to download) the bachelor's and/or master's thesis (in discrete mathematics or a related area). Please also include any further relevant information (such as publications, grades, recommendation letters, programming skills, English language certificates, GRE results). Note that the Bonn International Graduate School in Mathematics (BIGS) also offers various possibilities.