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ORCIDThomas Ludwig 0002
Person information
- affiliation: German Climate Computing Center (DKRZ), Hamburg, Germany
- affiliation: University of Hamburg, Department of Informatics, Germany
- affiliation: Ruprecht Karls University of Heidelberg, Institute of Computer Science, Germany
Other persons with the same name
- Thomas Ludwig 0001 — University of Trier, Department of Mathematics and Computer Science, Germany
- Thomas Ludwig 0003 — Limbach-Oberfrohna, Germany
- Thomas Ludwig 0004 — IBM Forschungs- und Entwicklungszentrum, Böblingen
- Thomas Ludwig 0005
![[0000-0003-4020-6321]](https://dblp.uni-trier.de./img/orcid-mark.12x12.png "0000-0003-4020-6321")
— FernUniversität Hagen, Germany (and 1 more) - Thomas Ludwig 0006 — University of Bonn, Germany
- Thomas Ludwig 0007 — Glare Technologies
- Thomas Ludwig 0008 (aka: Thomas E. Ludwig) — University of Western Brittany, INSERM U1078, Brest, France (and 1 more)
- Thomas Ludwig 0009 — Continental Automotive Austria GmbH, Vienna, Austria (and 2 more)
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2020 – today
- 2024
[j62]Thomas Ludwig:
Editorial. Inform. Spektrum 47(1-2): 1-2 (2024)- [j61]Thomas Ludwig:
Editorial - Game Over für den Homo Ludens. Inform. Spektrum 47(5): 121-122 (2024) - [i2]Johannes Meuer, Maximilian Witte, Tobias Sebastian Finn, Claudia Timmreck, Thomas Ludwig, Christopher Kadow:
Latent Diffusion Model for Generating Ensembles of Climate Simulations. CoRR abs/2407.02070 (2024) - 2023
- [j60]Thomas Ludwig, Jannek Squar:
Editorial Themenheft Digitale Landwirtschaft. Inform. Spektrum 46(1): 1-2 (2023) - [j59]Burkhard Wrenger, Thomas Ludwig:
Precision Farming als Studiengang. Inform. Spektrum 46(1): 51-53 (2023) - [j58]Thomas Ludwig:
Das Informatik Spektrum - Sein Beginn 1978 und wie es jetzt weitergeht. Inform. Spektrum 46(1): 54-57 (2023) - [j57]Peter Pagel, Thomas Ludwig:
Künstlich intelligent? Inform. Spektrum 46(2): 63-64 (2023) - [j56]Thomas Ludwig:
Hochleistungsrechnen und Künstliche Intelligenz. Inform. Spektrum 46(3): 129-130 (2023) - [j55]Thomas Ludwig:
Editorial. Inform. Spektrum 46(4): 183-184 (2023) - [j54]Thomas Ludwig:
Editorial. Inform. Spektrum 46(5): 233-234 (2023) - [c93]Thomas Ludwig:
Computational Climate Science: Less Moore, More Brain. CF 2023: 2 - [c92]Georgiana Mania, Nicholas Styles, Michael Kuhn, Andreas Salzburger, Beomki Yeo, Thomas Ludwig:
Vecpar - A Framework for Portability and Parallelization. ICCS (1) 2023: 253-267 - 2022
- [j53]Thomas Ludwig, Peter Pagel:
Editorial 1/22. Inform. Spektrum 45(1): 1-2 (2022) - [j52]Thomas Ludwig:
Editorial. Inform. Spektrum 45(3): 135-136 (2022) - [j51]Christine Regitz, Thomas Ludwig, Peter Pagel:
Editorial. Inform. Spektrum 45(6): 347-348 (2022) - [j50]Julius Plehn, Anna Fuchs, Michael Kuhn, Jakob Lüttgau, Thomas Ludwig:
Data-Aware Compression for HPC using Machine Learning. ACM SIGOPS Oper. Syst. Rev. 56(1): 62-69 (2022) - [c91]Julius Plehn, Anna Fuchs, Michael Kuhn, Jakob Lüttgau, Thomas Ludwig:
Data-aware compression for HPC using machine learning. CHEOPS@EuroSys 2022: 8-15 - [c90]Maximilian Keiff, Frederic Voigt, Anna Fuchs, Michael Kuhn, Jannek Squar, Thomas Ludwig:
Automated performance analysis tools framework for HPC programs. KES 2022: 1067-1076 - [c89]Jannek Squar, Niclas Schroeter, Anna Fuchs, Michael Kuhn, Thomas Ludwig:
Content queries and in-depth analysis on version-controlled software. KES 2022: 1261-1270 - 2021
- [j49]Thomas Ludwig, Michael M. Resch:
Digitale Kunst. Inform. Spektrum 44(1): 1-2 (2021) - [j48]Kerstin Mürer, Eléonore Bernard, Thomas Ludwig:
Archivierung Digitaler Kunst aus Museumssicht. Inform. Spektrum 44(1): 38-43 (2021) - [j47]Armin Weißer, Thomas Ludwig:
Archivierung Digitaler Kunst aus technischer Sicht. Inform. Spektrum 44(1): 44-49 (2021) - [j46]Thomas Ludwig:
Editorial. Inform. Spektrum 44(5): 323 (2021) - 2020
- [j45]Pierre Matri, Yevhen Alforov, Álvaro Brandón, María S. Pérez, Alexandru Costan, Gabriel Antoniu, Michael Kuhn, Philip H. Carns, Thomas Ludwig:
Mission possible: Unify HPC and Big Data stacks towards application-defined blobs at the storage layer. Future Gener. Comput. Syst. 109: 668-677 (2020) - [j44]Wolfgang E. Nagel, Thomas Ludwig:
Data Analytics. Inform. Spektrum 42(6): 385-386 (2020) - [j43]Fabian J. Theis, Thomas Ludwig:
Munich School for Data Science (MUDS) - Eine Graduiertenschule für Data Science in München. Inform. Spektrum 42(6): 429-431 (2020) - [j42]Thomas Ludwig, Wolfgang E. Nagel, Ramin Yahyapour:
Das Ökosystem der Datenwissenschaften. Inform. Spektrum 42(6): 432-440 (2020) - [j41]Thomas Ludwig:
Editorial. Inform. Spektrum 43(6): 365 (2020) - [j40]Thomas Ludwig, Hannes Thiemann:
Datenkompetenz - Data Literacy. Inform. Spektrum 43(6): 436-439 (2020) - [j39]Kira Duwe, Jakob Lüttgau, Georgiana Mania, Jannek Squar, Anna Fuchs, Michael Kuhn, Eugen Betke, Thomas Ludwig:
State of the Art and Future Trends in Data Reduction for High-Performance Computing. Supercomput. Front. Innov. 7(1): 4-36 (2020) - [c88]Julianna C. Oliveira, Eduardo Zorita, Vimal Koul, Thomas Ludwig, Johanna Baehr:
Forecast opportunities for European summer climate ensemble predictions using Self-Organising Maps. CI 2020: 67-71 - [c87]Jannek Squar, Tim Jammer, Michael Blesel, Michael Kuhn, Thomas Ludwig:
Compiler Assisted Source Transformation of OpenMP Kernels. ISPDC 2020: 44-51 - [c86]Frank Gadban, Julian M. Kunkel, Thomas Ludwig:
Investigating the Overhead of the REST Protocol When Using Cloud Services for HPC Storage. ISC Workshops 2020: 161-176 - [p1]Julian M. Kunkel, Nabeeh Jumah, Anastasiia Novikova, Thomas Ludwig, Hisashi Yashiro, Naoya Maruyama, Mohamed Wahib, John Thuburn:
AIMES: Advanced Computation and I/O Methods for Earth-System Simulations. Software for Exascale Computing 2020: 61-102
2010 – 2019
- 2019
- [j38]Thomas Ludwig, Beate Geyer:
Reproduzierbarkeit. Inform. Spektrum 42(1): 48-52 (2019) - [j37]Raul Torres, Julian M. Kunkel, Manuel F. Dolz, Thomas Ludwig:
A similarity study of I/O traces via string kernels. J. Supercomput. 75(12): 7814-7826 (2019) - 2018
- [j36]Thomas Ludwig, Arndt Bode, Peter Pagel:
Das Interview - Klimamodellierungen sind langlaufende Programme, die große Mengen von Ergebnisdaten produzieren. Inform. Spektrum 41(4): 265-269 (2018) - [j35]Jakob Lüttgau, Michael Kuhn, Kira Duwe, Yevhen Alforov, Eugen Betke, Julian M. Kunkel, Thomas Ludwig:
Survey of Storage Systems for High-Performance Computing. Supercomput. Front. Innov. 5(1): 31-58 (2018) - [c85]Michal Zasadzinski, Victor Muntés-Mulero, Marc Solé, David Carrera, Thomas Ludwig:
Early Termination of Failed HPC Jobs Through Machine and Deep Learning. Euro-Par 2018: 163-177 - [c84]Raul Torres, Thomas Ludwig, Julian M. Kunkel, Manuel F. Dolz:
Comparison of Clang Abstract Syntax Trees using String Kernels. HPCS 2018: 106-113 - [c83]Yevhen Alforov, Thomas Ludwig, Anastasiia Novikova, Michael Kuhn, Julian M. Kunkel:
Towards Green Scientific Data Compression Through High-Level I/O Interfaces. SBAC-PAD 2018: 209-216 - [c82]Jakob Lüttgau, Shane Snyder, Philip H. Carns, Justin M. Wozniak, Julian M. Kunkel, Thomas Ludwig:
Toward Understanding I/O Behavior in HPC Workflows. PDSW-DISCS@SC 2018: 64-75 - [i1]Michal Zasadzinski, Victor Muntés-Mulero, Marc Solé, Thomas Ludwig:
Mistral Supercomputer Job History Analysis. CoRR abs/1801.07624 (2018) - 2017
- [c81]Pierre Matri, Yevhen Alforov, Álvaro Brandón, Michael Kuhn, Philip H. Carns, Thomas Ludwig:
Could Blobs Fuel Storage-Based Convergence Between HPC and Big Data? CLUSTER 2017: 81-86 - [c80]Hashim Iqbal Chunpir, Thomas Ludwig:
A Software to Capture Mental Models. HCI (9) 2017: 393-409 - [c79]Hashim Iqbal Chunpir, Dean N. Williams, Thomas Ludwig:
User Experience (UX) of a Big Data Infrastructure. HCI (4) 2017: 467-474 - [c78]Raul Torres, Julian M. Kunkel, Manuel F. Dolz, Thomas Ludwig:
A Novel String Representation and Kernel Function for the Comparison of I/O Access Patterns. PaCT 2017: 500-512 - 2016
- [j34]Wolfgang E. Nagel, Daniel Molka, Thomas Ludwig, Matthias S. Müller:
Editorial for the special issue on Energy-aware high performance computing. Comput. Sci. Res. Dev. 31(4): 163-164 (2016) - [j33]Pablo Reble, Thomas Ludwig, Matthias S. Müller, Wolfgang E. Nagel, Vincent Heuveline:
Editorial for the special issue on energy-aware high performance computing. Comput. Sci. Res. Dev. 31(4): 195-196 (2016) - [j32]Michael Kuhn, Julian M. Kunkel, Thomas Ludwig:
Data Compression for Climate Data. Supercomput. Front. Innov. 3(1): 75-94 (2016) - [c77]Hashim Iqbal Chunpir, Endrit Curri, Luciana A. M. Zaina, Thomas Ludwig:
Improving User Interfaces for a Request Tracking System: Best Practical RT. HCI (5) 2016: 391-401 - 2015
- [j31]Manuel F. Dolz, Francisco D. Igual, Thomas Ludwig, Luis Piñuel, Enrique S. Quintana-Ortí:
Balancing task- and data-level parallelism to improve performance and energy consumption of matrix computations on the Intel Xeon Phi. Comput. Electr. Eng. 46: 95-111 (2015) - [j30]Wolfgang E. Nagel, Daniel Molka, Thomas Ludwig, Matthias S. Müller:
Editorial for the fifth international conference on energy-aware high performance computing. Comput. Sci. Res. Dev. 30(2): 105-106 (2015) - [c76]Manuel F. Dolz, Mohammad Reza Heidari, Michael Kuhn, Thomas Ludwig, Germán Fabregat:
ARDUPOWER: A low-cost wattmeter to improve energy efficiency of HPC applications. IGSC 2015: 1-8 - [c75]Hashim Iqbal Chunpir, Thomas Ludwig, Dean N. Williams:
Evolution of e-Research: From Infrastructure Development to Service Orientation. HCI (20) 2015: 25-35 - [c74]Alexander Droste, Michael Kuhn, Thomas Ludwig:
MPI-checker: static analysis for MPI. LLVM@SC 2015: 3:1-3:10 - [c73]Christopher Bartz, Konstantinos Chasapis, Michael Kuhn, Petra Nerge, Thomas Ludwig:
A Best Practice Analysis of HDF 5 5 and NetCDF- 4 4 Using Lustre. ISC 2015: 274-281 - [e5]Julian M. Kunkel, Thomas Ludwig:
High Performance Computing - 30th International Conference, ISC High Performance 2015, Frankfurt, Germany, July 12-16, 2015, Proceedings. Lecture Notes in Computer Science 9137, Springer 2015, ISBN 978-3-319-20118-4 [contents] - 2014
- [j29]Timo Minartz, Thomas Ludwig:
Editorial for the third international conference on energy-aware high performance computing. Comput. Sci. Res. Dev. 29(2): 95-96 (2014) - [j28]Wolfgang E. Nagel, Thomas Ludwig, Matthias S. Müller:
Editorial for the Fourth International Conference on Energy-Aware High Performance Computing. Comput. Sci. Res. Dev. 29(3-4): 159-160 (2014) - [j27]Julian Martin Kunkel, Michael Kuhn, Thomas Ludwig:
Exascale Storage Systems - An Analytical Study of Expenses. Supercomput. Front. Innov. 1(1): 116-134 (2014) - [c72]Hashim Iqbal Chunpir, Thomas Ludwig, Endrit Curri:
Improving Processes for User Support in e-Science. eScience Workshops 2014: 87-90 - [c71]Hashim Iqbal Chunpir, Thomas Ludwig:
Reviewing the Governance Structure of End-User Support in e-Science Infrastructures. GI-Jahrestagung 2014: 1687-1697 - [c70]Hashim Iqbal Chunpir, Amgad Ali Badewi, Thomas Ludwig:
User Support System in the Complex Environment. HCI (11) 2014: 392-402 - [c69]Hashim Iqbal Chunpir, Thomas Ludwig, Amgad Ali Badewi:
Using Soft Systems Methodology (SSM) in Understanding Current User-Support Scenario in the Climate Science Domain of Cyber-Infrastructures. HCI (10) 2014: 495-506 - [c68]Konstantinos Chasapis, Manuel F. Dolz, Michael Kuhn, Thomas Ludwig:
Evaluating Lustre's metadata server on a multi-socket platform. PDSW@SC 2014: 13-18 - [e4]Julian Martin Kunkel, Thomas Ludwig, Hans Werner Meuer:
Supercomputing - 29th International Conference, ISC 2014, Leipzig, Germany, June 22-26, 2014. Proceedings. Lecture Notes in Computer Science 8488, Springer 2014, ISBN 978-3-319-07517-4 [contents] - 2013
- [j26]Julian M. Kunkel, Thomas Ludwig, Hans Werner Meuer:
Editorial for the ISC'12 research paper sessions proceedings. Comput. Sci. Res. Dev. 28(2-3): 107-108 (2013) - [j25]Marc C. Wiedemann, Julian M. Kunkel, Michaela Zimmer, Thomas Ludwig, Michael M. Resch, Thomas Bönisch, Xuan Wang, Andriy Chut, Alvaro Aguilera, Wolfgang E. Nagel, Michael Kluge, Holger Mickler:
Towards I/O analysis of HPC systems and a generic architecture to collect access patterns. Comput. Sci. Res. Dev. 28(2-3): 241-251 (2013) - [c67]Nathanael Hübbe, Al Wegener, Julian Martin Kunkel, Yi Ling, Thomas Ludwig:
Evaluating Lossy Compression on Climate Data. ISC 2013: 343-356 - [c66]Michaela Zimmer, Julian Martin Kunkel, Thomas Ludwig:
Towards Self-optimization in HPC I/O. ISC 2013: 422-434 - [e3]Julian M. Kunkel, Thomas Ludwig, Hans Werner Meuer:
Supercomputing - 28th International Supercomputing Conference, ISC 2013, Leipzig, Germany, June 16-20, 2013. Proceedings. Lecture Notes in Computer Science 7905, Springer 2013, ISBN 978-3-642-38749-4 [contents] - 2012
- [j24]Thomas Ludwig, Timo Minartz:
Editorial for the second international conference on energy-aware high performance computing. Comput. Sci. Res. Dev. 27(4): 225-226 (2012) - [j23]Julian M. Kunkel, Timo Minartz, Michael Kuhn, Thomas Ludwig:
Towards an energy-aware scientific I/O interface - Stretching the ADIOS interface to foster performance analysis and energy awareness. Comput. Sci. Res. Dev. 27(4): 337-345 (2012) - [c65]Thomas Ludwig, Costas Bekas, Alice Koniges, Kengo Nakajima:
Topic 15: High Performance and Scientific Applications. Euro-Par 2012: 779-780 - [c64]Timo Minartz, Julian M. Kunkel, Thomas Ludwig:
Tracing and Visualization of Energy-Related Metrics. IPDPS Workshops 2012: 1023-1030 - [c63]Julian M. Kunkel, Thomas Ludwig:
IOPm - Modeling the I/O Path with a Functional Representation of Parallel File System and Hardware Architecture. PDP 2012: 554-561 - [c62]Michael Kuhn, Julian M. Kunkel, Thomas Ludwig:
Simulation-Aided Performance Evaluation of Server-Side Input/Output Optimizations. PDP 2012: 562-566 - [c61]Thomas Ludwig:
The Costs of HPC-Based Science in the Exascale Era. SC Companion 2012: 2120-2188 - [r1]Timo Minartz, Daniel Molka, Julian M. Kunkel, Michael Knobloch, Michael Kuhn, Thomas Ludwig:
Tool Environments to Measure Power Consumption and Computational Performance. Handbook of Energy-Aware and Green Computing 2012: 709-744 - 2011
- [j22]Julian M. Kunkel, Thomas Ludwig, Hans Werner Meuer:
ISC'11 research paper sessions proceedings. Comput. Sci. Res. Dev. 26(3-4): 143-144 (2011) - [j21]Christoph Biardzki, Thomas Ludwig:
DMetabench - a metadata benchmark for distributed file systems. J. Supercomput. 57(2): 179-188 (2011) - [c60]Timo Minartz, Thomas Ludwig, Michael Knobloch, Bernd Mohr:
Managing hardware power saving modes for high performance computing. IGCC 2011: 1-8 - [c59]Panagiotis Adamidis, Irina Fast, Thomas Ludwig:
Performance Characteristics of Global High-Resolution Ocean (MPIOM) and Atmosphere (ECHAM6) Models on Large-Scale Multicore Cluster. PaCT 2011: 390-403 - [c58]Michael Kuhn, Julian M. Kunkel, Yuichi Tsujita, Hidetaka Muguruma, Thomas Ludwig:
Optimizations for Two-Phase Collective I/O. PARCO 2011: 455-462 - [c57]Julian M. Kunkel, Thomas Ludwig:
Visualization of MPI(-IO) Datatypes. PARCO 2011: 473-480 - [c56]Michael Knobloch, Timo Minartz, Daniel Molka, Stephan Krempel, Thomas Ludwig, Bernd Mohr:
Electronic poster: eeclust: energy-efficient cluster computing. SC Companion 2011: 99-100 - 2010
- [j20]Thomas Ludwig:
Editorial for the ISC'10 Scientific Sessions Proceedings. Comput. Sci. Res. Dev. 25(1-2): 1-2 (2010) - [j19]Thomas Ludwig:
Editorial for the First International Conference on Energy-Aware High Performance Computing. Comput. Sci. Res. Dev. 25(3-4): 123-124 (2010) - [j18]Timo Minartz, Julian M. Kunkel, Thomas Ludwig:
Simulation of power consumption of energy efficient cluster hardware. Comput. Sci. Res. Dev. 25(3-4): 165-175 (2010) - [j17]Julian M. Kunkel, Olga Mordvinova, Michael Kuhn, Thomas Ludwig:
Collecting energy consumption of scientific data - Energy demands for files during their life cycle. Comput. Sci. Res. Dev. 25(3-4): 197-205 (2010) - [c55]Timo Minartz, Daniel Molka, Michael Knobloch, Stephan Krempel, Thomas Ludwig, Wolfgang E. Nagel, Bernd Mohr, Hugo Falter:
eeClust: Energy-Efficient Cluster Computing. CHPC 2010: 111-124 - [c54]Olga Mordvinova, Dennis Runz, Julian M. Kunkel, Thomas Ludwig:
I/O performance evaluation with Parabench - programmable I/O benchmark. ICCS 2010: 2125-2134
2000 – 2009
- 2009
- [j16]Michael Kuhn, Julian M. Kunkel, Thomas Ludwig:
Dynamic file system semantics to enable metadata optimizations in PVFS. Concurr. Comput. Pract. Exp. 21(14): 1775-1788 (2009) - [j15]Hans Werner Meuer, Thomas Ludwig, Karl Kaiser, Werner Hansmann, Peer Stelldinger:
Editorial for the ISC'09 Scientific Day Proceedings. Comput. Sci. Res. Dev. 23(3-4): 115-116 (2009) - [j14]Christian Baun, Marcel Kunze, Thomas Ludwig:
Servervirtualisierung. Inform. Spektrum 32(3): 197-205 (2009) - [c53]Olga Mordvinova, Julian M. Kunkel, Christian Baun, Thomas Ludwig, Marcel Kunze:
USB flash drives as an energy efficient storage alternative. GRID 2009: 175-182 - [c52]Olga Mordvinova, Oleksandr Shepil, Thomas Ludwig, Andrew Ross:
A strategy for cost efficient distributed data storage for in-memory OLAP. IADIS AC (1) 2009: 109-117 - [c51]Philip H. Carns, Samuel Lang, Robert B. Ross, Murali Vilayannur, Julian M. Kunkel, Thomas Ludwig:
Small-file access in parallel file systems. IPDPS 2009: 1-11 - [c50]Christoph Biardzki, Thomas Ludwig:
Analyzing Metadata Performance in Distributed File Systems. PaCT 2009: 8-18 - [c49]Yuichi Tsujita, Julian M. Kunkel, Stephan Krempel, Thomas Ludwig:
Tracing Performance of MPI-I/O with PVFS2: A Case Study of Optimization. PARCO 2009: 379-386 - [c48]Julian M. Kunkel, Yuichi Tsujita, Olga Mordvinova, Thomas Ludwig:
Tracing Internal Communication in MPI and MPI-I/O. PDCAT 2009: 280-286 - [c47]David Büttner, Julian M. Kunkel, Thomas Ludwig:
Using Non-blocking I/O Operations in High Performance Computing to Reduce Execution Times. PVM/MPI 2009: 134-142 - 2008
- [c46]Michael Kuhn, Julian M. Kunkel, Thomas Ludwig:
Directory-Based Metadata Optimizations for Small Files in PVFS. Euro-Par 2008: 90-99 - [c45]Julian M. Kunkel, Thomas Ludwig:
Bottleneck Detection in Parallel File Systems with Trace-Based Performance Monitoring. Euro-Par 2008: 212-221 - 2007
- [j13]Thomas Ludwig:
Vietnam on its way to High Performance Computing. Scalable Comput. Pract. Exp. 8(1) (2007) - [c44]Domnic Savio, Thomas Ludwig:
Smart Carpet: A Footstep Tracking Interface. AINA Workshops (2) 2007: 754-760 - [c43]Julian M. Kunkel, Thomas Ludwig:
Performance Evaluation of the PVFS2 Architecture. PDP 2007: 509-516 - [c42]Thomas Ludwig, Stephan Krempel, Michael Kuhn, Julian M. Kunkel, Christian Lohse:
Analysis of the MPI-IO Optimization Levels with the PIOViz Jumpshot Enhancement. PVM/MPI 2007: 213-222 - 2006
- [c41]Thomas Ludwig, Stephan Krempel, Julian M. Kunkel, Frank Panse, Dulip Withanage:
Tracing the MPI-IO Calls' Disk Accesses. PVM/MPI 2006: 322-330 - 2005
- [j12]Alexandros Stamatakis, Thomas Ludwig, Harald Meier:
RAxML-III: a fast program for maximum likelihood-based inference of large phylogenetic trees. Bioinform. 21(4): 456-463 (2005) - [j11]Alexandros Stamatakis, Thomas Ludwig, Harald Meier:
RAxML-II: a program for sequential, parallel and distributed inference of large phylogenetic trees. Concurr. Comput. Pract. Exp. 17(14): 1705-1723 (2005) - [j10]Alexandros Stamatakis, Markus Lindermeier, Michael Ott, Thomas Ludwig, Harald Meier:
DRAxML at home: a distributed program for computation of large phylogenetic trees. Future Gener. Comput. Syst. 21(4): 725-730 (2005) - [c40]Alexandros Stamatakis, Michael Ott, Thomas Ludwig:
RAxML-OMP: An Efficient Program for Phylogenetic Inference on SMPs. PaCT 2005: 288-302 - [c39]Hipolito Vásquez Lucas, Thomas Ludwig:
Hint Controlled Distribution with Parallel File Systems. PVM/MPI 2005: 110-118 - 2004
- [j9]Alexandros Stamatakis, Thomas Ludwig, Harald Meier:
The AxML program family for maximum likelihood-based phylogenetic tree inference. Concurr. Pract. Exp. 16(9): 975-988 (2004) - [c38]Wolfgang E. Nagel, Thomas Ludwig, Jeffrey S. Vetter, Lorenzo Donatiello:
Topic 2: Performance Evaluation. Euro-Par 2004: 117-118 - [c37]Alexandros Stamatakis, Thomas Ludwig, Harald Meier:
Parallel Inference of a 10.000-Taxon Phylogeny with Maximum Likelihood. Euro-Par 2004: 997-1004 - [c36]Alexandros Stamatakis, Harald Meier, Thomas Ludwig:
New Fast and Accurate Heuristics for Inference of Large Phylogenetic Trees. IPDPS 2004 - [c35]Alexandros Stamatakis, Thomas Ludwig, Harald Meier:
A fast program for maximum likelihood-based inference of large phylogenetic trees. SAC 2004: 197-201 - 2003
- [c34]Helmar Burkhart, Rudolf Eigenmann, Tomàs Margalef, Thomas Ludwig:
Topic Introduction. Euro-Par 2003: 5-6 - [c33]Alexandros Stamatakis, Thomas Ludwig:
Phylogenetic Tree Inference on PC Architectures with AxML/PAxML. IPDPS 2003: 157 - [c32]Alexandros Stamatakis, Markus Lindermeier, Michael Ott, Thomas Ludwig, Harald Meier:
DAxML: A Program for Distributed Computation of Phylogenetic Trees Based on Load Managed CORBA. PaCT 2003: 538-548 - 2002
- [j8]Thomas Ludwig, Markus Lindermeier, Alexandros Stamatakis, Günther Rackl:
Tool environments in CORBA-based medical high-performance computing. Future Gener. Comput. Syst. 18(6): 841-847 (2002) - [j7]Günther Rackl, Thomas Ludwig, Markus Lindermeier, Alexandros Stamatakis:
Efficiently building on-line tools for distributed heterogeneous environments. Sci. Program. 10(1): 67-74 (2002) - [c31]Alexandros Stamatakis, Thomas Ludwig, Harald Meier, Marty J. Wolf:
AxML: A Fast Program for Sequential and Parallel Phylogenetic Tree Calculations Based on the Maximum Likelihood Method. CSB 2002: 21- - [c30]Marian Bubak, Thomas Ludwig:
Support Tools and Environments. Euro-Par 2002: 73-74 - [c29]Alexandros Stamatakis, Thomas Ludwig, Harald Meier, Marty J. Wolf:
Accelerating parallel maximum likelihood-based phylogenetic tree calculations using subtree equality vectors. SC 2002: 2:1-2:16 - 2001
- [j6]Thomas Ludwig, Barton P. Miller:
Monitoring Systems and Tool Interoperability. Parallel Distributed Comput. Pract. 4(3) (2001) - [j5]Roland Wismüller, Thomas Ludwig, Wolfgang Karl, Arndt Bode:
Monitoring Concepts for Parallel Systems - An Evolution towards Interoperable Tool Environments. Parallel Distributed Comput. Pract. 4(3) (2001) - [c28]Günther Rackl, Thomas Ludwig:
A Methodology for Efficiently Developing On-Line Tools for Heterogeneous Middleware. HICSS 2001 - [c27]Thomas Ludwig, Markus Lindermeier, Alexandros Stamatakis, Günther Rackl:
Tool Environments in CORBA-Based Medical High Performance Computing. PaCT 2001: 447-455 - 2000
- [j4]Günther Rackl, Filippo de Stefani, Francois Héran, Antonello Pasquarelli, Thomas Ludwig:
Airport simulation using CORBA and DIS. Future Gener. Comput. Syst. 16(5): 465-472 (2000) - [j3]Frank Munz, Thomas Ludwig, Sibylle Ziegler, Peter Bartenstein, Markus Schwaiger, Arndt Bode:
Performance assessment of parallel spectral analysis: towards a practical performance model for parallel medical applications. Future Gener. Comput. Syst. 16(5): 553-562 (2000) - [j2]Roland Wismüller, Thomas Ludwig:
Interoperable Run-Time Tools for Distributed Systems--A Case Study. J. Supercomput. 17(3): 277-289 (2000) - [c26]Marcel May, Frank Munz, Thomas Ludwig:
CORBA-basierte verteilte Berechnung medizinischer Bilddaten mit SPM. Bildverarbeitung für die Medizin 2000: 213-217 - [c25]Frank Munz, Thomas Ludwig, Arndt Bode, Sibylle Ziegler, Markus Schwaiger:
Effiziente Scheduling-Algorithmen für datenparallele Anwendungen der funktionellen medizinischen Bildgebung auf NOWs. Bildverarbeitung für die Medizin 2000: 403-407 - [c24]Jörg Trinitis, Vaidy S. Sunderam, Thomas Ludwig, Roland Wismüller:
Interoperability Support in Distributed On-Line Monitoring Systems. HPCN Europe 2000: 261-269 - [e2]Arndt Bode, Thomas Ludwig, Wolfgang Karl, Roland Wismüller:
Euro-Par 2000, Parallel Processing, 6th International Euro-Par Conference, Munich, Germany, August 29 - September 1, 2000, Proceedings. Lecture Notes in Computer Science 1900, Springer 2000, ISBN 3-540-67956-1 [contents]
1990 – 1999
- 1999
- [c23]Günther Rackl, Filippo de Stefani, Francois Héran, Antonello Pasquarelli, Thomas Ludwig:
Airport Simulation using CORBA and DIS. HPCN Europe 1999: 70-79 - [c22]Frank Munz, Thomas Ludwig, Sibylle Ziegler, Peter Bartenstein, Markus Schwaiger, Arndt Bode:
Performance Assessment of Parallel Spectral Analysis: Towards a Practical Performance Model for Parallel Medical Applications. HPCN Europe 1999: 430-439 - [c21]Frank Munz, Thomas Ludwig, Sibylle Ziegler, Peter Bartenstein, Markus Schwaiger, Arndt Bode:
Kinetic Analysis of Functional Images: The Case for a Practical Approach to Performance Prediction. ISHPC 1999: 167-180 - [c20]Thomas Ludwig, Jörg Trinitis, Roland Wismüller:
Synergetic Tool Environments. PaCT 1999: 248-257 - [c19]Roland Wismüller, Thomas Ludwig:
Interoperable Run-Time Tools for Distributed Systems - A Case Study. PDPTA 1999: 1763-1769 - [c18]Günther Rackl, Filippo de Stefani, Francois Héran, Antonello Pasquarelli, Thomas Ludwig:
Distributed Airport Simulation Using CORBA and DIS. PDSE 1999: 166-173 - 1998
- [c17]Frank Munz, T. Stephan, Ursula Maier, Thomas Ludwig, Arndt Bode, Sibylle Ziegler, Stephan G. Nekolla, Peter Bartenstein, Markus Schwaiger:
Improved Functional Imaging through Network Based Parallel Processing. CANPC 1998: 88-97 - [c16]Roland Wismüller, Jörg Trinitis, Thomas Ludwig:
A Universal Infrastructure for the Run-Time Monitoring of Parallel and Distributed Applications. Euro-Par 1998: 173-180 - [c15]Christian Röder, Thomas Ludwig, Arndt Bode:
Configurable Load Measurement in Heterogeneous Workstation Clusters. Euro-Par 1998: 193-205 - [c14]Frank Munz, T. Stephan, Ursula Maier, Thomas Ludwig, Arndt Bode, Sibylle Ziegler, Stephan G. Nekolla, Peter Bartenstein, Markus Schwaiger:
NOW Parallel Reconstruction of Functional Images. IPPS/SPDP 1998: 210-214 - [c13]Roland Wismüller, Jörg Trinitis, Thomas Ludwig:
OCM - a monitoring system for interoperable tools. SPDT 1998: 1-9 - [c12]Thomas Ludwig, Roland Wismüller, Arndt Bode:
Interoperable tools based on OMIS. SPDT 1998: 155 - 1997
- [j1]Thomas Ludwig, Roland Wismüller, Michael Oberhuber, Arndt Bode:
An Open Interface for the On-Line Monitoring of Parallel and Distributed Programs. Int. J. High Perform. Comput. Appl. 11(2): 160-174 (1997) - [c11]Sebastiano Bottalico, Filippo de Stefani, Thomas Ludwig, Günther Rackl:
SEEDS - Simulation Environment for the Evaluation of Distributed Traffic Control Systems. Euro-Par 1997: 1357-1362 - [c10]Thomas Ludwig, Roland Wismüller:
OMIS 2.0 - A Universal Interface for Monitoring Systems. PVM/MPI 1997: 267-276 - 1996
- [c9]Thomas Ludwig, Michael Oberhuber, Roland Wismüller:
An Open Monitoring System for Parallel and Distributed Programs. Euro-Par, Vol. I 1996: 78-83 - [c8]Roland Wismüller, Thomas Ludwig:
The Tool-Set - An Integrated Tool Envrionment for PVM. HPCN Europe 1996: 1029-1030 - [c7]Thomas Ludwig, Roland Wismüller, Michael Oberhuber:
OCM - An OMIS Compliant Monitoring System. PVM 1996: 81-90 - [e1]Arndt Bode, Jack J. Dongarra, Thomas Ludwig, Vaidy S. Sunderam:
Parallel Virtual Machine - EuroPVM'96, Third European PVM Conference, München, Germany, October 7-9, 1996, Proceedings. Lecture Notes in Computer Science 1156, Springer 1996, ISBN 3-540-61779-5 [contents] - 1995
- [c6]Thomas Ludwig, Stefan Lamberts:
PFSLib - A Parallel File System for Workstation Clusters. PaCT 1995: 246-251 - 1994
- [c5]Georg Stellner, Arndt Bode, Stefan Lamberts, Thomas Ludwig:
Developing Applications for Multicomputer Systems on Workstation Clusters. HPCN 1994: 286-292 - [c4]Georg Stellner, Arndt Bode, Stefan Lamberts, Thomas Ludwig:
NXLib - A Parallel Programming Environment for Workstation Clusters. PARLE 1994: 745-748 - 1993
- [c3]Thomas Ludwig:
Load Management on Multiprocessor Systems. Parallel Computer Architectures 1993: 87-101 - 1992
- [b1]Thomas Ludwig:
Lastverwaltungsverfahren für Mehrprozessorsysteme mit verteiltem Speicher. Technical University Munich, Germany, 1992, pp. 1-202 - 1990
- [c2]Thomas Bemmerl, Thomas Ludwig:
MMK - A Distributed Operating System Kernel with Integrated Dynamic Loadbalancing. CONPAR 1990: 744-755 - [c1]Thomas Bemmerl, Olav Hansen, Thomas Ludwig:
PATOP for Performance Tuning of Parallel Programs. CONPAR 1990: 840-851
Coauthor Index
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