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Christoph Lenzen 0001
Person information
- affiliation: CISPA Helmholtz Center for Information Security, Saarbrücken, Germany
- affiliation (former): Max Planck Institute for Informatics, Saarbrücken, Germany
- affiliation (former): Massachusetts Institute of Technology (MIT), Computer Sciene and Artificial Intelligence Laboratory (CSAIL), Cambridge, MA, USA
- affiliation (former): Weizmann Institute of Science, Department of Computer Science and Applied Mathematics, Rehovot, Israel
- affiliation (former): Hebrew University of Jerusalem, School of Engineering and Computer Science, Jerusalem, Israel
- affiliation (former, PhD 2011): ETH Zurich, Switzerland
Other persons with the same name
- Christoph Lenzen — disambiguation page
- Christoph Lenzen 0002 — German AeroSpace Center (DLR), Oberpfaffenhofen, Germany
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2020 – today
- 2024
- [j30]Ruben Becker, Yuval Emek, Mohsen Ghaffari, Christoph Lenzen:
Decentralized Low-Stretch Trees via Low Diameter Graph Decompositions. SIAM J. Comput. 53(2): 247-286 (2024) - [j29]Christoph Lenzen, Moti Medina, Mehrdad Saberi, Stefan Schmid:
Robust Routing Made Easy: Reinforcing Networks Against Non-Benign Faults. IEEE/ACM Trans. Netw. 32(1): 283-297 (2024) - [c66]Renas Bacho, Christoph Lenzen, Julian Loss, Simon Ochsenreither, Dimitrios Papachristoudis:
GRandLine: Adaptively Secure DKG and Randomness Beacon with (Log-)Quadratic Communication Complexity. CCS 2024: 941-955 - [c65]Christoph Lenzen, Shreyas Srinivas:
Brief Announcement: Clock Distribution with Gradient TRIX. DISC 2024: 51:1-51:7 - [i49]Corinna Coupette, Alipasha Montaseri, Christoph Lenzen:
Model-Agnostic Approximation of Constrained Forest Problems. CoRR abs/2407.14536 (2024) - 2023
- [j28]Ioannis Anagnostides, Christoph Lenzen, Bernhard Haeupler, Goran Zuzic, Themis Gouleakis:
Almost universally optimal distributed Laplacian solvers via low-congestion shortcuts. Distributed Comput. 36(4): 475-499 (2023) - [i48]Christoph Lenzen, Shreyas Srinivas:
Gradient TRIX. CoRR abs/2301.05073 (2023) - [i47]Christoph Lenzen, Moti Medina, Mehrdad Saberi, Stefan Schmid:
Robust Routing Made Easy: Reinforcing Networks Against Non-Benign Faults. CoRR abs/2307.05547 (2023) - [i46]Renas Bacho, Christoph Lenzen, Julian Loss, Simon Ochsenreither, Dimitrios Papachristoudis:
GRandLine: Adaptively Secure DKG and Randomness Beacon with (Almost) Quadratic Communication Complexity. IACR Cryptol. ePrint Arch. 2023: 1887 (2023) - 2022
- [j27]Swen Jacobs, Christoph Lenzen:
Current Challenges in Reliable and Secure Clock Synchronization. Bull. EATCS 138 (2022) - [j26]Matthias Függer, Attila Kinali, Christoph Lenzen, Ben Wiederhake:
Fast All-Digital Clock Frequency Adaptation Circuit for Voltage Droop Tolerance. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 41(8): 2518-2531 (2022) - [c64]Matthias Függer, Christoph Lenzen, Ulrich Schmid:
On Specifications and Proofs of Timed Circuits. Principles of Systems Design 2022: 107-130 - [c63]Johannes Bund, Christoph Lenzen, Moti Medina:
Small Hazard-Free Transducers. ITCS 2022: 32:1-32:24 - [c62]Christoph Lenzen, Sahar Sheikholeslami:
A Recursive Early-Stopping Phase King Protocol. PODC 2022: 60-69 - [c61]Ioannis Anagnostides, Christoph Lenzen, Bernhard Haeupler, Goran Zuzic, Themis Gouleakis:
Brief Announcement: Almost Universally Optimal Distributed Laplacian Solver. PODC 2022: 372-374 - [c60]Christoph Lenzen, Julian Loss:
Optimal Clock Synchronization with Signatures. PODC 2022: 440-449 - [c59]Marc Frei, Jonghoon Kwon, Seyedali Tabaeiaghdaei, Marc Wyss, Christoph Lenzen, Adrian Perrig:
G-SINC: Global Synchronization Infrastructure for Network Clocks. SRDS 2022: 133-145 - [c58]Ioannis Anagnostides, Christoph Lenzen, Bernhard Haeupler, Goran Zuzic, Themis Gouleakis:
Almost Universally Optimal Distributed Laplacian Solvers via Low-Congestion Shortcuts. DISC 2022: 6:1-6:20 - [i45]Christoph Lenzen, Julian Loss:
Optimal Clock Synchronization with Signatures. CoRR abs/2203.02553 (2022) - [i44]Marc Frei, Jonghoon Kwon, Seyedali Tabaeiaghdaei, Marc Wyss, Christoph Lenzen, Adrian Perrig:
G-SINC: Global Synchronization Infrastructure for Network Clocks. CoRR abs/2207.06116 (2022) - [i43]Matthias Függer, Christoph Lenzen, Ulrich Schmid:
On Specifications and Proofs of Timed Circuits. CoRR abs/2208.08147 (2022) - 2021
- [j25]Ruben Becker, Sebastian Forster, Andreas Karrenbauer, Christoph Lenzen:
Near-Optimal Approximate Shortest Paths and Transshipment in Distributed and Streaming Models. SIAM J. Comput. 50(3): 815-856 (2021) - [c57]Christoph Lenzen, Hossein Vahidi:
Approximate Minimum Directed Spanning Trees Under Congestion. SIROCCO 2021: 352-369 - [c56]Corinna Coupette, Christoph Lenzen:
A Breezing Proof of the KMW Bound. SOSA 2021: 184-195 - [i42]Ioannis Anagnostides, Themis Gouleakis, Christoph Lenzen:
Accelerated Distributed Laplacian Solvers via Shortcuts. CoRR abs/2109.05151 (2021) - 2020
- [j24]Amir Abboud, Keren Censor-Hillel, Seri Khoury, Christoph Lenzen:
Fooling views: a new lower bound technique for distributed computations under congestion. Distributed Comput. 33(6): 545-559 (2020) - [j23]Johannes Bund, Christoph Lenzen, Moti Medina:
Optimal Metastability-Containing Sorting via Parallel Prefix Computation. IEEE Trans. Computers 69(2): 198-211 (2020) - [j22]Johannes Bund, Matthias Függer, Christoph Lenzen, Moti Medina:
Synchronizer-Free Digital Link Controller. IEEE Trans. Circuits Syst. 67-I(10): 3562-3573 (2020) - [c55]Johannes Bund, Matthias Függer, Christoph Lenzen, Moti Medina, Will Rosenbaum:
PALS: Plesiochronous and Locally Synchronous Systems. ASYNC 2020: 36-43 - [c54]Ruben Becker, Yuval Emek, Christoph Lenzen:
Low Diameter Graph Decompositions by Approximate Distance Computation. ITCS 2020: 50:1-50:29 - [c53]Christoph Lenzen, Ben Wiederhake:
Brief Announcement: TRIX: Low-Skew Pulse Propagation for Fault-Tolerant Hardware. SSS 2020: 295-300 - [i41]Corinna Coupette, Christoph Lenzen:
A Breezing Proof of the KMW Bound. CoRR abs/2002.06005 (2020) - [i40]Johannes Bund, Matthias Függer, Christoph Lenzen, Moti Medina, Will Rosenbaum:
PALS: Plesiochronous and Locally Synchronous Systems. CoRR abs/2003.05542 (2020) - [i39]Christoph Lenzen, Ben Wiederhake:
TRIX: Low-Skew Pulse Propagation for Fault-Tolerant Hardware. CoRR abs/2010.01415 (2020) - [i38]Johannes Bund, Matthias Függer, Christoph Lenzen, Moti Medina:
Synchronizer-Free Digital Link Controller. CoRR abs/2010.02017 (2020)
2010 – 2019
- 2019
- [j21]Christoph Lenzen, Boaz Patt-Shamir, David Peleg:
Distributed distance computation and routing with small messages. Distributed Comput. 32(2): 133-157 (2019) - [j20]Christoph Lenzen, Joel Rybicki:
Near-optimal self-stabilising counting and firing squads. Distributed Comput. 32(4): 339-360 (2019) - [j19]Keren Censor-Hillel, Petteri Kaski, Janne H. Korhonen, Christoph Lenzen, Ami Paz, Jukka Suomela:
Algebraic methods in the congested clique. Distributed Comput. 32(6): 461-478 (2019) - [j18]Christian Ikenmeyer, Balagopal Komarath, Christoph Lenzen, Vladimir Lysikov, Andrey Mokhov, Karteek Sreenivasaiah:
On the Complexity of Hazard-free Circuits. J. ACM 66(4): 25:1-25:20 (2019) - [j17]Christoph Lenzen, Joel Rybicki:
Self-Stabilising Byzantine Clock Synchronisation Is Almost as Easy as Consensus. J. ACM 66(5): 32:1-32:56 (2019) - [j16]Pankaj Khanchandani, Christoph Lenzen:
Self-Stabilizing Byzantine Clock Synchronization with Optimal Precision. Theory Comput. Syst. 63(2): 261-305 (2019) - [c52]Johannes Bund, Christoph Lenzen, Will Rosenbaum:
Fault Tolerant Gradient Clock Synchronization. PODC 2019: 357-365 - [c51]Alkida Balliu, Juho Hirvonen, Christoph Lenzen, Dennis Olivetti, Jukka Suomela:
Locality of Not-so-Weak Coloring. SIROCCO 2019: 37-51 - [c50]Christoph Lenzen, Merav Parter, Eylon Yogev:
Parallel Balanced Allocations: The Heavily Loaded Case. SPAA 2019: 313-322 - [c49]Ruben Becker, Yuval Emek, Mohsen Ghaffari, Christoph Lenzen:
Distributed Algorithms for Low Stretch Spanning Trees. DISC 2019: 4:1-4:14 - [i37]Johannes Bund, Christoph Lenzen, Will Rosenbaum:
Fault Tolerant Gradient Clock Synchronization. CoRR abs/1902.08042 (2019) - [i36]Alkida Balliu, Juho Hirvonen, Christoph Lenzen, Dennis Olivetti, Jukka Suomela:
Locality of not-so-weak coloring. CoRR abs/1904.05627 (2019) - [i35]Christoph Lenzen, Merav Parter, Eylon Yogev:
Parallel Balanced Allocations: The Heavily Loaded Case. CoRR abs/1904.07532 (2019) - [i34]Ruben Becker, Yuval Emek, Christoph Lenzen:
Low Diameter Graph Decompositions by Approximate Distance Computation. CoRR abs/1909.09002 (2019) - [i33]Johannes Bund, Christoph Lenzen, Moti Medina:
Optimal Metastability-Containing Sorting via Parallel Prefix Computation. CoRR abs/1911.00267 (2019) - 2018
- [j15]Stephan Friedrichs, Christoph Lenzen:
Parallel Metric Tree Embedding Based on an Algebraic View on Moore-Bellman-Ford. J. ACM 65(6): 43:1-43:55 (2018) - [j14]Mohsen Ghaffari, Andreas Karrenbauer, Fabian Kuhn, Christoph Lenzen, Boaz Patt-Shamir:
Near-Optimal Distributed Maximum Flow. SIAM J. Comput. 47(6): 2078-2117 (2018) - [j13]Stephan Friedrichs, Matthias Függer, Christoph Lenzen:
Metastability-Containing Circuits. IEEE Trans. Computers 67(8): 1167-1183 (2018) - [c48]Matthias Függer, Attila Kinali, Christoph Lenzen, Ben Wiederhake:
Fast All-Digital Clock Frequency Adaptation Circuit for Voltage Droop Tolerance. ASYNC 2018: 68-77 - [c47]Johannes Bund, Christoph Lenzen, Moti Medina:
Optimal metastability-containing sorting networks. DATE 2018: 521-526 - [c46]Christoph Lenzen, Reut Levi:
A Centralized Local Algorithm for the Sparse Spanning Graph Problem. ICALP 2018: 87:1-87:14 - [c45]Christian Ikenmeyer, Balagopal Komarath, Christoph Lenzen, Vladimir Lysikov, Andrey Mokhov, Karteek Sreenivasaiah:
On the complexity of hazard-free circuits. STOC 2018: 878-889 - [i32]Johannes Bund, Christoph Lenzen, Moti Medina:
Optimal Metastability-Containing Sorting Networks. CoRR abs/1801.07549 (2018) - [i31]Johannes Bund, Christoph Lenzen, Moti Medina:
Small Hazard-free Transducers. CoRR abs/1811.12369 (2018) - 2017
- [j12]Christoph Lenzen, Nancy A. Lynch, Calvin Newport, Tsvetomira Radeva:
Searching without communicating: tradeoffs between performance and selection complexity. Distributed Comput. 30(3): 169-191 (2017) - [j11]Christoph Lenzen, Joel Rybicki, Jukka Suomela:
Efficient Counting with Optimal Resilience. SIAM J. Comput. 46(4): 1473-1500 (2017) - [c44]Ghaith Tarawneh, Matthias Függer, Christoph Lenzen:
Metastability Tolerant Computing. ASYNC 2017: 25-32 - [c43]Matthias Függer, Attila Kinali, Christoph Lenzen, Thomas Polzer:
Metastability-Aware Memory-Efficient Time-to-Digital Converters. ASYNC 2017: 49-56 - [c42]Johannes Bund, Christoph Lenzen, Moti Medina:
Near-optimal metastability-containing sorting networks. DATE 2017: 226-231 - [c41]Christoph Lenzen, Moti Medina:
Robust Routing Made Easy. SSS 2017: 187-202 - [c40]Ruben Becker, Andreas Karrenbauer, Sebastian Krinninger, Christoph Lenzen:
Near-Optimal Approximate Shortest Paths and Transshipment in Distributed and Streaming Models. DISC 2017: 7:1-7:16 - [c39]Christoph Lenzen, Joel Rybicki:
Self-Stabilising Byzantine Clock Synchronisation is Almost as Easy as Consensus. DISC 2017: 32:1-32:15 - [c38]Christoph Lenzen, Reut Levi:
Brief Announcement: A Centralized Local Algorithm for the Sparse Spanning Graph Problem. DISC 2017: 57:1-57:3 - [i30]Christoph Lenzen, Reut Levi:
A Local Algorithm for the Sparse Spanning Graph Problem. CoRR abs/1703.05418 (2017) - [i29]Christoph Lenzen, Moti Medina:
Robust Routing Made Easy. CoRR abs/1705.04042 (2017) - [i28]Christoph Lenzen, Joel Rybicki:
Self-stabilising Byzantine Clock Synchronisation is Almost as Easy as Consensus. CoRR abs/1705.06173 (2017) - [i27]Amir Abboud, Keren Censor-Hillel, Seri Khoury, Christoph Lenzen:
Fooling Views: A New Lower Bound Technique for Distributed Computations under Congestion. CoRR abs/1711.01623 (2017) - [i26]Christian Ikenmeyer, Balagopal Komarath, Christoph Lenzen, Vladimir Lysikov, Andrey Mokhov, Karteek Sreenivasaiah:
On the complexity of hazard-free circuits. CoRR abs/1711.01904 (2017) - 2016
- [j10]Christoph Lenzen, Roger Wattenhofer:
Tight bounds for parallel randomized load balancing. Distributed Comput. 29(2): 127-142 (2016) - [j9]Danny Dolev, Keijo Heljanko, Matti Järvisalo, Janne H. Korhonen, Christoph Lenzen, Joel Rybicki, Jukka Suomela, Siert Wieringa:
Synchronous counting and computational algorithm design. J. Comput. Syst. Sci. 82(2): 310-332 (2016) - [j8]Danny Dolev, Matthias Függer, Christoph Lenzen, Martin Perner, Ulrich Schmid:
HEX: Scaling honeycombs is easier than scaling clock trees. J. Comput. Syst. Sci. 82(5): 929-956 (2016) - [c37]Christoph Lenzen, Moti Medina:
Efficient Metastability-Containing Gray Code 2-Sort. ASYNC 2016: 49-56 - [c36]Attila Kinali, Florian Huemer, Christoph Lenzen:
Fault-Tolerant Clock Synchronization with High Precision. ISVLSI 2016: 490-495 - [c35]Stephan Friedrichs, Christoph Lenzen:
Parallel Metric Tree Embedding based on an Algebraic View on Moore-Bellman-Ford. SPAA 2016: 455-466 - [c34]Pankaj Khanchandani, Christoph Lenzen:
Self-stabilizing Byzantine Clock Synchronization with Optimal Precision. SSS 2016: 213-230 - [c33]Christoph Lenzen, Joel Rybicki:
Near-Optimal Self-stabilising Counting and Firing Squads. SSS 2016: 263-280 - [i25]Stephan Friedrichs, Matthias Függer, Christoph Lenzen:
Metastability-Containing Circuits. CoRR abs/1606.06570 (2016) - [i24]Christoph Lenzen, Roger Wattenhofer:
CLEX: Yet Another Supercomputer Architecture? CoRR abs/1607.00298 (2016) - [i23]Ruben Becker, Andreas Karrenbauer, Sebastian Krinninger, Christoph Lenzen:
Approximate Undirected Transshipment and Shortest Paths via Gradient Descent. CoRR abs/1607.05127 (2016) - [i22]Christoph Lenzen, Joel Rybicki:
Near-Optimal Self-Stabilising Counting and Firing Squads. CoRR abs/1608.00214 (2016) - [i21]Pankaj Khanchandani, Christoph Lenzen:
Self-stabilizing Byzantine Clock Synchronization with Optimal Precision. CoRR abs/1609.09281 (2016) - 2015
- [j7]Danny Dolev, Matthias Függer, Christoph Lenzen, Ulrich Schmid, Andreas Steininger:
Fault-tolerant Distributed Systems in Hardware. Bull. EATCS 116 (2015) - [j6]Christoph Lenzen, Philipp Sommer, Roger Wattenhofer:
PulseSync: An Efficient and Scalable Clock Synchronization Protocol. IEEE/ACM Trans. Netw. 23(3): 717-727 (2015) - [c32]Pierre Bertrand, Christoph Lenzen:
The 1-2-3-Toolkit for Building Your Own Balls-into-Bins Algorithm. ALENEX 2015: 44-54 - [c31]Mohsen Ghaffari, Andreas Karrenbauer, Fabian Kuhn, Christoph Lenzen, Boaz Patt-Shamir:
Near-Optimal Distributed Maximum Flow: Extended Abstract. PODC 2015: 81-90 - [c30]Keren Censor-Hillel, Petteri Kaski, Janne H. Korhonen, Christoph Lenzen, Ami Paz, Jukka Suomela:
Algebraic Methods in the Congested Clique. PODC 2015: 143-152 - [c29]Christoph Lenzen, Boaz Patt-Shamir:
Fast Partial Distance Estimation and Applications. PODC 2015: 153-162 - [c28]Christoph Lenzen, Joel Rybicki, Jukka Suomela:
Towards Optimal Synchronous Counting. PODC 2015: 441-450 - [c27]Christoph Lenzen, Joel Rybicki:
Efficient Counting with Optimal Resilience. DISC 2015: 16-30 - [i20]Keren Censor-Hillel, Petteri Kaski, Janne H. Korhonen, Christoph Lenzen, Ami Paz, Jukka Suomela:
Algebraic Methods in the Congested Clique. CoRR abs/1503.04963 (2015) - [i19]Christoph Lenzen, Joel Rybicki, Jukka Suomela:
Towards Optimal Synchronous Counting. CoRR abs/1503.06702 (2015) - [i18]Christoph Lenzen, Joel Rybicki:
Efficient counting with optimal resilience. CoRR abs/1508.02535 (2015) - [i17]Mohsen Ghaffari, Andreas Karrenbauer, Fabian Kuhn, Christoph Lenzen, Boaz Patt-Shamir:
Near-Optimal Distributed Maximum Flow. CoRR abs/1508.04747 (2015) - [i16]Stephan Friedrichs, Christoph Lenzen:
Parallel Metric Tree Embedding based on an Algebraic View on Moore-Bellman-Ford. CoRR abs/1509.09047 (2015) - 2014
- [j5]Danny Dolev, Matthias Függer, Ulrich Schmid, Christoph Lenzen:
Fault-tolerant algorithms for tick-generation in asynchronous logic: Robust pulse generation. J. ACM 61(5): 30:1-30:74 (2014) - [j4]Danny Dolev, Matthias Függer, Markus Posch, Ulrich Schmid, Andreas Steininger, Christoph Lenzen:
Rigorously modeling self-stabilizing fault-tolerant circuits: An ultra-robust clocking scheme for systems-on-chip. J. Comput. Syst. Sci. 80(4): 860-900 (2014) - [c26]Christoph Lenzen, Nancy A. Lynch, Calvin C. Newport, Tsvetomira Radeva:
Trade-offs between selection complexity and performance when searching the plane without communication. PODC 2014: 252-261 - [c25]Christoph Lenzen, Boaz Patt-Shamir:
Improved distributed steiner forest construction. PODC 2014: 262-271 - [c24]Miikka Hilke, Christoph Lenzen, Jukka Suomela:
Brief announcement: local approximability of minimum dominating set on planar graphs. PODC 2014: 344-346 - [c23]Mohsen Ghaffari, Christoph Lenzen:
Near-Optimal Distributed Tree Embedding. DISC 2014: 197-211 - [c22]Pierre Bertrand, Christoph Lenzen:
The 1-2-3-Toolkit for Building Your Own Balls-into-Bins Algorithm. DISC 2014: 557-558 - [i15]Miikka Hilke, Christoph Lenzen, Jukka Suomela:
Local Approximability of Minimum Dominating Set on Planar Graphs. CoRR abs/1402.2549 (2014) - [i14]Christoph Lenzen, Nancy A. Lynch, Calvin C. Newport, Tsvetomira Radeva:
Trade-offs between Selection Complexity and Performance when Searching the Plane without Communication. CoRR abs/1405.1688 (2014) - [i13]Christoph Lenzen, Boaz Patt-Shamir:
Improved Distributed Steiner Forest Construction. CoRR abs/1405.2011 (2014) - [i12]Pierre Bertrand, Christoph Lenzen:
The 1-2-3-Toolkit for Building Your Own Balls-into-Bins Algorithm. CoRR abs/1407.8433 (2014) - [i11]Christoph Lenzen, Boaz Patt-Shamir:
Fast Partial Distance Estimation and Applications. CoRR abs/1412.7922 (2014) - 2013
- [j3]Christoph Lenzen, Yvonne-Anne Pignolet, Roger Wattenhofer:
Distributed minimum dominating set approximations in restricted families of graphs. Distributed Comput. 26(2): 119-137 (2013) - [c21]Christoph Lenzen, Matthias Függer, Markus Hofstatter, Ulrich Schmid:
Efficient Construction of Global Time in SoCs Despite Arbitrary Faults. DSD 2013: 142-151 - [c20]Christoph Lenzen:
Optimal deterministic routing and sorting on the congested clique. PODC 2013: 42-50 - [c19]Danny Dolev, Christoph Lenzen:
Early-deciding consensus is expensive. PODC 2013: 270-279 - [c18]Christoph Lenzen, David Peleg:
Efficient distributed source detection with limited bandwidth. PODC 2013: 375-382 - [c17]Danny Dolev, Matthias Függer, Christoph Lenzen, Martin Perner, Ulrich Schmid:
HEX: scaling honeycombs is easier than scaling clock trees. SPAA 2013: 164-175 - [c16]Danny Dolev, Janne H. Korhonen, Christoph Lenzen, Joel Rybicki, Jukka Suomela:
Synchronous Counting and Computational Algorithm Design. SSS 2013: 237-250 - [c15]Christoph Lenzen, Boaz Patt-Shamir:
Fast routing table construction using small messages: extended abstract. STOC 2013: 381-390 - [i10]Danny Dolev, Janne H. Korhonen, Christoph Lenzen, Joel Rybicki, Jukka Suomela:
Synchronous Counting and Computational Algorithm Design. CoRR abs/1304.5719 (2013) - [i9]Danny Dolev, Christoph Lenzen:
Node-Initiated Byzantine Consensus Without a Common Clock. CoRR abs/1307.7976 (2013) - 2012
- [c14]Danny Dolev, Christoph Lenzen, Shir Peled:
"Tri, Tri Again": Finding Triangles and Small Subgraphs in a Distributed Setting - (Extended Abstract). DISC 2012: 195-209 - [i8]Danny Dolev, Christoph Lenzen, Shir Peled:
"Tri, Tri again": Finding Triangles and Small Subgraphs in a Distributed Setting. CoRR abs/1201.6652 (2012) - [i7]Danny Dolev, Matthias Függer, Christoph Lenzen, Markus Posch, Ulrich Schmid, Andreas Steininger:
FATAL+: A Self-Stabilizing Byzantine Fault-tolerant Clocking Scheme for SoCs. CoRR abs/1202.1925 (2012) - [i6]Christoph Lenzen:
Optimal Deterministic Routing and Sorting on the Congested Clique. CoRR abs/1207.1852 (2012) - [i5]Christoph Lenzen, Boaz Patt-Shamir:
Fast Routing Table Construction Using Small Messages. CoRR abs/1210.5774 (2012) - 2011
- [b1]Christoph Lenzen:
Synchronization and symmetry breaking in distributedsystems. ETH Zurich, 2011, ISBN 978-3-86628-390-9, pp. 1-179 - [c13]Christoph Lenzen, Roger Wattenhofer:
MIS on trees. PODC 2011: 41-48 - [c12]Danny Dolev, Matthias Függer, Christoph Lenzen, Ulrich Schmid:
Fault-Tolerant Algorithms for Tick-Generation in Asynchronous Logic: Robust Pulse Generation - [Extended Abstract]. SSS 2011: 163-177 - [c11]Christoph Lenzen, Roger Wattenhofer:
Tight bounds for parallel randomized load balancing: extended abstract. STOC 2011: 11-20 - [i4]Christoph Lenzen, Roger Wattenhofer:
Tight Bounds for Parallel Randomized Load Balancing. CoRR abs/1102.5425 (2011) - [i3]Danny Dolev, Matthias Függer, Christoph Lenzen, Ulrich Schmid:
Fault-tolerant Algorithms for Tick-Generation in Asynchronous Logic: Robust Pulse Generation. CoRR abs/1105.4780 (2011) - 2010
- [j2]Christoph Lenzen, Thomas Locher, Roger Wattenhofer:
Tight bounds for clock synchronization. J. ACM 57(2): 8:1-8:42 (2010) - [c10]Christoph Lenzen, Roger Wattenhofer:
Brief announcement: exponential speed-up of local algorithms using non-local communication. PODC 2010: 295-296 - [c9]Fabian Kuhn, Christoph Lenzen, Thomas Locher, Rotem Oshman:
Optimal gradient clock synchronization in dynamic networks. PODC 2010: 430-439 - [c8]Christoph Lenzen, Thomas Locher, Philipp Sommer, Roger Wattenhofer:
Clock Synchronization: Open Problems in Theory and Practice. SOFSEM 2010: 61-70 - [c7]Christoph Lenzen, Roger Wattenhofer:
Minimum Dominating Set Approximation in Graphs of Bounded Arboricity. DISC 2010: 510-524 - [i2]Fabian Kuhn, Christoph Lenzen, Thomas Locher, Rotem Oshman:
Optimal Gradient Clock Synchronization in Dynamic Networks. CoRR abs/1005.2894 (2010)
2000 – 2009
- 2009
- [j1]Keren Censor, Christoph Lenzen:
A review of PODC 2009. SIGACT News 40(4): 71-74 (2009) - [c6]Christoph Lenzen, Thomas Locher, Roger Wattenhofer:
Tight bounds for clock synchronization. PODC 2009: 46-55 - [c5]Christoph Lenzen, Philipp Sommer, Roger Wattenhofer:
Optimal clock synchronization in networks. SenSys 2009: 225-238 - [c4]Christoph Lenzen, Jukka Suomela, Roger Wattenhofer:
Local Algorithms: Self-stabilization on Speed. SSS 2009: 17-34 - [i1]Christoph Lenzen, Jukka Suomela, Roger Wattenhofer:
Local Algorithms: Self-Stabilization on Speed. Algorithmic Methods for Distributed Cooperative Systems 2009 - 2008
- [c3]Christoph Lenzen, Thomas Locher, Roger Wattenhofer:
Clock Synchronization with Bounded Global and Local Skew. FOCS 2008: 509-518 - [c2]Christoph Lenzen, Yvonne Anne Oswald, Roger Wattenhofer:
What can be approximated locally?: case study: dominating sets in planar graphs. SPAA 2008: 46-54 - [c1]Christoph Lenzen, Roger Wattenhofer:
Leveraging Linial's Locality Limit. DISC 2008: 394-407
Coauthor Index
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load citations from opencitations.net
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OpenAlex data
Load additional information about publications from .
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last updated on 2024-12-23 20:35 CET by the dblp team
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