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2020 – today
- 2024
[c43]Dan Dietsche, T. Elise Dettling, Christian Trefftz, Byron DeVries:
Comparing Data Structures Used in Divide-and-Conquer Three-Dimensional Voronoi Diagrams. EIT 2024: 1-5- [c42]Levi Klamer, T. Elise Dettling, Dan Dietsche, Christian Trefftz, Byron DeVries:
Language Timing for Computing Voronoi Diagrams. EIT 2024: 1-5 - 2023
- [c41]T. Elise Dettling, Byron DeVries, Christian Trefftz:
Calculating an Approximate Voronoi Diagram using QuadTrees and Triangles. eIT 2023: 133-136 - [c40]Dan Dietsche, T. Elise Dettling, Christian Trefftz, Byron DeVries:
Divide-and-Conquer Algorithms for Computing Three-Dimensional Voronoi Diagrams. eIT 2023: 357-361 - [c39]William F. Godoy
, Pedro Valero-Lara, T. Elise Dettling, Christian Trefftz, Ian Jorquera, Thomas Sheehy, Ross G. Miller, Marc González Tallada, Jeffrey S. Vetter, Valentin Churavy:
Evaluating performance and portability of high-level programming models: Julia, Python/Numba, and Kokkos on exascale nodes. IPDPS Workshops 2023: 373-382 - [i1]William F. Godoy, Pedro Valero-Lara, T. Elise Dettling, Christian Trefftz, Ian Jorquera, Thomas Sheehy, Ross G. Miller, Marc González Tallada, Jeffrey S. Vetter, Valentin Churavy:
Evaluating performance and portability of high-level programming models: Julia, Python/Numba, and Kokkos on exascale nodes. CoRR abs/2303.06195 (2023) - 2022
- [c38]Jhoseph Ruiz Fachin, Christian Trefftz, Xiang Cao, Byron DeVries:
Optimizing Trade-offs Between Distance and Coverage for Facility Location. EIT 2022: 346-351 - 2021
- [c37]Christian Trefftz, Byron DeVries, Benjamin Jenkins:
An Algorithm to solve a Facility Location Problem using a Discrete Approximation to the Voronoi Diagram. EIT 2021: 86-90 - [c36]Byron DeVries, Christian Trefftz:
A Novelty Search and Metamorphic Testing Approach to Automatic Test Generation. SBST@ICSE 2021: 8-11 - 2020
- [c35]Xiang Cao, Byron DeVries, Jerry Scripps, Christian Trefftz:
Data Allocation and Replication in Data Center: Tradeoff and Solutions. EIT 2020: 239-244 - [c34]Elijah Smith, Christian Trefftz, Byron DeVries:
A Divide-and-Conquer Algorithm for Computing Voronoi Diagrams. EIT 2020: 495-499
2010 – 2019
- 2019
- [c33]Christian Trefftz, Debaditya Gautam, Joseph S. Szakas:
A Parallel Algorithm to Calculate an Approximation to the Order-K Voronoi Diagram using Java Streams and Thrust. CCWC 2019: 30-33 - [c32]Jerry Scripps, Christian Trefftz, Gregory Wolffe, Roger Ferguson, Xiang Cao:
Repel Communities and Multipartite Networks. COMPLEX NETWORKS (1) 2019: 105-115 - [c31]Xiang Cao, Jerry Scripps, Christian Trefftz, Zachary Kurmas:
Data Placement Strategy in Data Center. EIT 2019: 114-119 - [c30]Christian Trefftz, Ronald Rounsifer, Jerry Scripps:
Parallelizing FluidC, a Community Finding Algorithm. EIT 2019: 141-144 - 2018
- [j3]Jerry Scripps, Christian Trefftz, Zachary Kurmas:
The difference between optimal and germane communities. Soc. Netw. Anal. Min. 8(1): 44:1-44:19 (2018) - [c29]Christian Trefftz, Hugh McGuire, Zack Kurmas, Jerry Scripps, Juan D. Pineda:
Exhaustive community enumeration on a cluster. CCWC 2018: 233-237 - 2017
- [c28]Christian Trefftz, Zack Kurmas, Jerry Scripps:
Covers, partitions and a heuristic to calculate two-covers. EIT 2017: 1-6 - 2016
- [j2]Christian Trefftz, Hugh McGuire, Zachary Kurmas, Jerry Scripps:
Exhaustive Community Enumeration in Parallel. Parallel Process. Lett. 26(2): 1650006:1-1650006:16 (2016) - 2015
- [c27]Jerry Scripps, Christian Trefftz:
Parallelizing an algorithm to find communities using the Jaccard metric. EIT 2015: 370-372 - 2014
- [c26]Christian Trefftz, Andrés Santamaría-Galvis, Roberto Cruz:
Parallelizing an algorithm to find the maximal clique on interval graphs on graphical processing units. EIT 2014: 100-102 - [c25]Nicholas Vogel, Colin Uhen, Zachary Burnside, Sergio Botero, Christian Trefftz, Gregory Wolffe:
Using an unrank framework to solve small instances of NP-hard problems on graphical processing units. EIT 2014: 495-500 - [c24]Zachary Kurmas, Hugh McGuire, Jerry Scripps, Christian Trefftz:
Enumerating Communities for a Deeper Understanding of Community Finding. WI-IAT (2) 2014: 35-42 - 2013
- [c23]Roberto Cruz, Nancy Lopez, Christian Trefftz:
Parallelizing a heuristic for the Maximum Clique Problem on GPUs and clusters of workstations. EIT 2013: 1-6 - [c22]Andrés Santamaría-Galvis, Roberto Cruz, John Willian Branch, Christian Trefftz:
Parallelizing an algorithm to decide if a bipartite graph is shellable. EIT 2013: 1-3 - [c21]Byron DeVries, Joe Iannelli, Christian Trefftz, Kurt A. O'Hearn, Gregory Wolffe:
Parallel Implementations of FGMRES for Solving Large, Sparse Non-Symmetric Linear Systems. ICCS 2013: 491-500 - [c20]Christian Trefftz, Jerry Scripps:
Revisiting a Pattern for Processing Combinatorial Objects in Parallel. IPDPS Workshops 2013: 1889-1893 - [c19]Jerry Scripps, Christian Trefftz:
Community finding within the community set space. SNAKDD 2013: 13:1-13:9 - 2012
- [c18]Alex Restrepo, Andrés Solano, Jerry Scripps, Christian Trefftz, Jonathan Engelsma, Gregory Wolffe:
High-performance implementations of a clustering algorithm for finding network communities. EIT 2012: 1-6 - [c17]Christian Trefftz:
An algorithm to solve the Dominating Set Problem on GPUs. EIT 2012: 1-4
2000 – 2009
- 2009
- [c16]Barry Schulz, Chirag Parikh, Christian Trefftz:
Opportunities for parallelism when implementing algorithms in VHDL - a case study - Shift-Or. EIT 2009: 235-238 - [c15]Christian Trefftz, Joseph S. Szakas, Igor Majdandzic, Gregory Wolffe:
Accelerated Discovery of Discrete M-Clusters/Outliers on the Raster Plane Using Graphical Processing Units. ICCS (1) 2009: 934-943 - 2008
- [c14]Igor Majdandzic, Christian Trefftz, Gregory Wolffe:
Computation of Voronoi diagrams using a graphics processing unit. EIT 2008: 437-441 - 2007
- [c13]Robert Barnhart, Christian Trefftz, Paul C. Jorgensen, Yonglei Tao:
An Investigation on Testing of Parallelized Code with OpenMP. IWOMP 2007: 125-128 - 2006
- [c12]Joseph S. Szakas, Christian Trefftz:
Voronoi-diagram based heuristics for the location of mobile and unreliable service providers. ACST 2006: 73-78 - 2004
- [c11]Joseph S. Szakas, Christian Trefftz:
Two Parallel Computational Geometry Algorithms: A Discrete Voronoi Diagram with Disappearing Seeds and Convex Hull. IPDPS 2004 - [c10]D. Robert Adams, Christian Trefftz:
Using XML in a compiler course. ITiCSE 2004: 4-6 - 2003
- [c9]Christian Trefftz, Joseph S. Szakas:
Parallel Algorithms to Find the Voronoi Diagram and the Order-k Voronoi Diagram. IPDPS 2003: 270 - 2002
- [c8]Christian Trefftz, Helmuth Trefftz:
Observations about an Approximate Algorithm for the Point Robot Motion Planning Problem. SCCC 2002: 52-
1990 – 1999
- 1995
- [j1]Christian Trefftz, C. C. Huang, Philip K. McKinley, Tien-Yien Li, Zhonggang Zeng:
A Scalable Eigenvalue Solver for Symmetric Tridiagonal Matrices. Parallel Comput. 21(8): 1213-1240 (1995) - [c7]Christian Trefftz, Philip K. McKinley, Tien-Yien Li, Zhonggang Zeng:
A Parallel Algorithm for the Singular Value Problem in Bidiagonal Matrices. PP 1995: 62-67 - 1994
- [c6]Christian Trefftz, C. C. Huang, Philip K. McKinley, Tien-Yien Li, Zhonggang Zeng:
Design and Performance Evaluation of a Distributed Eigenvalue Solver on a Workstation Cluster. ICDCS 1994: 608-615 - 1993
- [c5]Philip K. McKinley, Christian Trefftz:
Efficient Broadcast in All-Port Wormhole-Routed Hypercubes. ICPP (2) 1993: 288-291 - [c4]Philip K. McKinley, Christian Trefftz:
MultiSim: A Simulation Tool for the Study of Large-Scale Multiprocessors. MASCOTS 1993: 57-62 - [c3]Christian Trefftz, Philip K. McKinley, Tien-Yien Li, Zhonggang Zeng:
A Scalable Eigenvalue Solver for Symmetric Tridiagonal Matrices. PPSC 1993: 602-609 - 1991
- [c2]Joseph S. Szakas, Christian Trefftz:
An algorithm for approximating Dirichlet tessellations (abstract only). ACM Conference on Computer Science 1991: 692 - 1990
- [c1]Joseph S. Szakas, Christian Trefftz:
Cooperation of the Pattern Recognition Techniques of Dirichlet Tessellations with Political Science to Produce Ward Partitioning of Cities Without Bias (Abstract). ACM Conference on Computer Science 1990: 439
Coauthor Index
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