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Frank Würthwein
Frank K. Würthwein
Person information
- affiliation: San Diego Supercomputer Center, La Jolla, CA, USA
- affiliation: University of California, San Diego, CA, USA
- affiliation: California Institute of Technology, Pasadena, CA, USA
- affiliation (PhD 1995): Cornell University, Ithaca, NY, USA
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2020 – today
- 2024
- [c30]Fabio Andrijauskas
, Derek Weitzel
Open Science Data Federation - operation and monitoring. PEARC 2024: 63:1-63:5 - [i37]Fabio Andrijauskas, Igor Sfiligoi, Diego Davila, Aashay Arora, Jonathan Guiang, Brian Bockelman, Greg Thain, Frank Würthwein:
CRIU - Checkpoint Restore in Userspace for computational simulations and scientific applications. CoRR abs/2402.05244 (2024) - [i36]Marco Mascheroni, Antonio Perez-Calero Yzquierdo, Edita Kizinevic, Farrukh Aftab Khan, Hyunwoo Kim, Maria Acosta Flechas, Nikos Tsipinakis, Saqib Haleem, Damiele Spiga, Christoph Wissing, Frank Würthwein:
Repurposing of the Run 2 CMS High Level Trigger Infrastructure as a Cloud Resource for Offline Computing. CoRR abs/2405.14639 (2024) - [i35]Antonio Perez-Calero Yzquierdo, Marco Mascheroni, Edita Kizinevic, Farrukh Aftab Khan, Hyunwoo Kim, Maria Acosta Flechas, Nikos Tsipinakis, Saqib Haleem, Frank Würthwein:
Adoption of a token-based authentication model for the CMS Submission Infrastructure. CoRR abs/2405.14644 (2024) - 2023
- [j7]Wahid Bhimji, Dale Carder, Eli Dart
Snowmass 2021 Computational Frontier CompF4 Topical Group Report Storage and Processing Resource Access. Comput. Softw. Big Sci. 7(1): 5 (2023) - [c29]Ziyue Deng
Analyzing Transatlantic Network Traffic over Scientific Data Caches. SNTA@HPDC 2023: 19-22 - [c28]Caitlin Sim, Kesheng Wu, Alex Sim
Effectiveness and predictability of in-network storage cache for Scientific Workflows. ICNC 2023: 226-230 - [c27]Fabio Andrijauskas
Defining a canonical unit for accounting purposes. PEARC 2023: 288-291 - [c26]Igor Sfiligoi
Testing GitHub projects on custom resources using unprivileged Kubernetes runners. PEARC 2023: 332-335 - [i34]Ziyue Deng, Alex Sim, Kesheng Wu, Chin Guok, Damian Hazen, Inder Monga, Fabio Andrijauskas, Frank Würthwein, Derek Weitzel:
Analyzing Transatlantic Network Traffic over Scientific Data Caches. CoRR abs/2305.00856 (2023) - [i33]Igor Sfiligoi, Daniel McDonald, Rob Knight, Frank Würthwein:
Testing GitHub projects on custom resources using unprivileged Kubernetes runners. CoRR abs/2305.10346 (2023) - [i32]Fabio Andrijauskas, Igor Sfiligoi, Frank Würthwein:
Defining a canonical unit for accounting purposes. CoRR abs/2305.10551 (2023) - [i31]Caitlin Sim, Kesheng Wu, Alex Sim
Effectiveness and predictability of in-network storage cache for scientific workflows. CoRR abs/2307.11069 (2023) - [i30]Igor Sfiligoi, David Schultz, Benedikt Riedel, Frank Würthwein:
Evaluation of ARM CPUs for IceCube available through Google Kubernetes Engine. CoRR abs/2308.03678 (2023) - [i29]David Schultz, Igor Sfiligoi, Benedikt Riedel, Fabio Andrijauskas, Derek Weitzel
IceCube experience using XRootD-based Origins with GPU workflows in PNRP. CoRR abs/2308.07999 (2023) - [i28]Igor Sfiligoi, Frank Würthwein, Jeff Dost, Brian Lin, David Schultz:
Demand-driven provisioning of Kubernetes-like resources in OSG. CoRR abs/2308.11733 (2023) - [i27]Aashay Arora, Jonathan Guiang, Diego Davila, Frank Würthwein, Justas Balcas, Harvey B. Newman:
400Gbps benchmark of XRootD HTTP-TPC. CoRR abs/2312.12589 (2023) - 2022
- [c25]Ruize Han, Alex Sim
Access Trends of In-network Cache for Scientific Data. SNTA@HPDC 2022: 21-28 - [c24]Julian Bellavita, Alex Sim
Studying Scientific Data Lifecycle in On-demand Distributed Storage Caches. SNTA@HPDC 2022: 43-50 - [c23]Jacob Dunefsky, Mahdi Soleimani, Ryan Yang, Jordi Ros-Giralt, Mario Lassnig, Inder Monga
Transport control networking: optimizing efficiency and control of data transport for data-intensive networks. NAI@SIGCOMM 2022: 60-66 - [c22]Frank Würthwein, Jonathan Guiang, Aashay Arora, Diego Davila, John Graham, Dima Mishin, Thomas Hutton, Igor Sfiligoi, Harvey B. Newman, Justas Balcas, Tom Lehman, Xi Yang, Chin Guok:
Managed Network Services for Exascale Data Movement Across Large Global Scientific Collaborations. XLOOP@SC 2022: 16-19 - [c21]Emily Ann Belli
Comparing single-node and multi-node performance of an important fusion HPC code benchmark. PEARC 2022: 10:1-10:4 - [c20]Jonathan Guiang, Aashay Arora, Diego Davila, John Graham, Dima Mishin, Igor Sfiligoi, Frank Würthwein, Tom Lehman, Xi Yang, Chin Guok, Harvey B. Newman, Justas Balcas, Thomas Hutton:
Integrating End-to-End Exascale SDN into the LHC Data Distribution Cyberinfrastructure. PEARC 2022: 53:1-53:4 - [c19]Igor Sfiligoi, Thomas A. DeFanti, Frank Würthwein:
Auto-scaling HTCondor pools using Kubernetes compute resources. PEARC 2022: 57:1-57:4 - [c18]Igor Sfiligoi
The anachronism of whole-GPU accounting. PEARC 2022: 58:1-58:5 - [i26]Tom Lehman, Xi Yang, Chin Guok, Frank Würthwein, Igor Sfiligoi, John Graham, Aashay Arora, Dima Mishin, Diego Davila, Jonathan Guiang, Tom Hutton, Harvey B. Newman, Justas Balcas:
Data Transfer and Network Services management for Domain Science Workflows. CoRR abs/2203.08280 (2022) - [i25]Igor Sfiligoi, Thomas A. DeFanti, Frank Würthwein:
Auto-scaling HTCondor pools using Kubernetes compute resources. CoRR abs/2205.01004 (2022) - [i24]Ruize Han, Alex Sim
Access Trends of In-network Cache for Scientific Data. CoRR abs/2205.05563 (2022) - [i23]Julian Bellavita, Alex Sim
Studying Scientific Data Lifecycle in On-demand Distributed Storage Caches. CoRR abs/2205.05598 (2022) - [i22]Igor Sfiligoi, David Schultz, Frank Würthwein, Benedikt Riedel, Dmitry Y. Mishin:
The anachronism of whole-GPU accounting. CoRR abs/2205.09232 (2022) - [i21]Emily A. Belli
Comparing single-node and multi-node performance of an important fusion HPC code benchmark. CoRR abs/2205.09682 (2022) - [i20]W. Bhimij, Dale Carder
Snowmass 2021 Computational Frontier CompF4 Topical Group Report: Storage and Processing Resource Access. CoRR abs/2209.08868 (2022) - [i19]Frank Würthwein, Jonathan Guiang, Aashay Arora, Diego Davila, John Graham, Dima Mishin, Thomas Hutton, Igor Sfiligoi, Harvey B. Newman, Justas Balcas, Tom Lehman, Xi Yang, Chin Guok:
Managed Network Services for Exascale Data Movement Across Large Global Scientific Collaborations. CoRR abs/2209.13714 (2022) - 2021
- [j6]Igor Sfiligoi
Pushing the Cloud Limits in Support of IceCube Science. IEEE Internet Comput. 25(1): 71-75 (2021) - [j5]Edgar Fajardo Hernandez, Frank Würthwein, Brian Bockelman
Adapting LIGO workflows to run in the Open Science Grid. SoftwareX 14: 100679 (2021) - [c17]Igor Sfiligoi, Shava Smallen, Frank Würthwein, Nicole Wolter, David Schultz
Expanding IceCube GPU computing into the Clouds. e-Science 2021: 227-228 - [c16]Igor Sfiligoi, Frank Würthwein, Thomas A. DeFanti, John Graham:
HTCondor data movement at 100 Gbps. e-Science 2021: 239-240 - [c15]Elizabeth Copps, Huiyi Zhang, Alex Sim
Analyzing Scientific Data Sharing Patterns for In-network Data Caching. SNTA@HPDC 2021: 9-16 - [c14]Igor Sfiligoi, Michael Hare, David Schultz
Managing Cloud networking costs for data-intensive applications by provisioning dedicated network links. PEARC 2021: 18:1-18:8 - [i18]Giuseppe Cerati, Peter Elmer, Brian J. Gravelle, Matti Kortelainen, Vyacheslav Krutelyov, Steven Lantz, Mario Masciovecchio, Kevin McDermott, Boyana Norris, Allison Reinsvold Hall, Micheal Reid, Daniel Riley, Matevz Tadel, Peter Wittich, Bei Wang, Frank Würthwein, Avraham Yagil:
Parallelizing the Unpacking and Clustering of Detector Data for Reconstruction of Charged Particle Tracks on Multi-core CPUs and Many-core GPUs. CoRR abs/2101.11489 (2021) - [i17]Edgar Fajardo Hernandez, Aashay Arora, Diego Davila, Richard Gao, Frank Würthwein, Brian Bockelman:
Systematic benchmarking of HTTPS third party copy on 100Gbps links using XRootD. CoRR abs/2103.12116 (2021) - [i16]Igor Sfiligoi, Michael Hare, David Schultz, Frank Würthwein, Benedikt Riedel, Tom Hutton, Steve Barnet, Vladimir Brik:
Managing Cloud networking costs for data-intensive applications by provisioning dedicated network links. CoRR abs/2104.06913 (2021) - [i15]Elizabeth Copps, Huiyi Zhang, Alex Sim
Analyzing scientific data sharing patterns for in-network data caching. CoRR abs/2105.00964 (2021) - [i14]Igor Sfiligoi, Frank Würthwein, Thomas A. DeFanti, John Graham:
HTCondor data movement at 100 Gbps. CoRR abs/2107.03947 (2021) - [i13]Igor Sfiligoi, Shava Smallen, Frank Würthwein, Nicole Wolter, David Schultz, Benedikt Riedel:
Expanding IceCube GPU computing into the Clouds. CoRR abs/2107.03963 (2021) - [i12]Igor Sfiligoi, Frank Würthwein, Diego Davila:
Data intensive physics analysis in Azure cloud. CoRR abs/2110.13187 (2021) - 2020
- [c13]Igor Sfiligoi, Frank Würthwein, Benedikt Riedel, David Schultz:
Running a Pre-exascale, Geographically Distributed, Multi-cloud Scientific Simulation. ISC 2020: 23-40 - [c12]Frank Würthwein, Igor Sfiligoi:
High throughput science. PEARC Companion 2020: 11:1 - [c11]Igor Sfiligoi, David Schultz
Demonstrating a Pre-Exascale, Cost-Effective Multi-Cloud Environment for Scientific Computing: Producing a fp32 ExaFLOP hour worth of IceCube simulation data in a single workday. PEARC 2020: 85-90 - [i11]Igor Sfiligoi, John Graham, Frank Würthwein:
Characterizing network paths in and out of the clouds. CoRR abs/2002.04568 (2020) - [i10]Igor Sfiligoi, Frank Würthwein, Benedikt Riedel, David Schultz:
Running a Pre-Exascale, Geographically Distributed, Multi-Cloud Scientific Simulation. CoRR abs/2002.06667 (2020) - [i9]Edgar Fajardo Hernandez, Matevz Tadel, Justas Balcas, Alja Mrak Tadel, Frank Würthwein, Diego Davila, Jonathan Guiang, Igor Sfiligoi:
Moving the California distributed CMS xcache from bare metal into containers using Kubernetes. CoRR abs/2003.02319 (2020) - [i8]Igor Sfiligoi, David Schultz, Benedikt Riedel, Frank Würthwein, Steve Barnet, Vladimir Brik:
Demonstrating a Pre-Exascale, Cost-Effective Multi-Cloud Environment for Scientific Computing. CoRR abs/2004.09492 (2020) - [i7]Robert W. Gardner, Lincoln Bryant, Mark S. Neubauer, Frank Würthwein, Judith Stephen, Andrew A. Chien:
The Scalable Systems Laboratory: a Platform for Software Innovation for HEP. CoRR abs/2005.06151 (2020) - [i6]Edgar Fajardo Hernandez, Marián Zvada, Derek Weitzel, Mats Rynge, John Hicks, Matyas Selmeci, Brian Lin, Pascal Paschos, Brian Bockelman, Igor Sfiligoi, Andrew Hanushevsky, Frank Würthwein:
Creating a content delivery network for general science on the internet backbone using XCaches. CoRR abs/2007.01408 (2020) - [i5]Edgar Fajardo Hernandez, Frank Würthwein, Brian Bockelman, Miron Livny, Greg Thain, James Alexander Clark, Peter Couvares, Josh Willis:
Adapting LIGO workflows to run in the Open Science Grid. CoRR abs/2011.14995 (2020)
2010 – 2019
- 2019
- [c10]Scott L. Sellars, Joulien Tatar, Phu Nguyen
The Evolution of Bits and Bottlenecks in a Scientific Workflow Trying to Keep Up with Technology: Accelerating 4D Image Segmentation Applied to NASA Data. eScience 2019: 77-85 - 2018
- [c9]Larry Smarr, Camille Crittenden, Thomas A. DeFanti, John Graham, Dmitry Mishin
The Pacific Research Platform: Making High-Speed Networking a Reality for the Scientist. PEARC 2018: 29:1-29:8 - 2017
- [c8]Derek Weitzel
Data Access for LIGO on the OSG. PEARC 2017: 24:1-24:6 - [i4]Derek Weitzel, Brian Bockelman, Duncan A. Brown
Data Access for LIGO on the OSG. CoRR abs/1705.06202 (2017) - 2015
- [c7]Kenneth Bloom, Tommaso Boccali, Brian Bockelman
Any Data, Any Time, Anywhere: Global Data Access for Science. BDC 2015: 85-91 - [c6]Rafael Ferreira da Silva
Characterizing a High Throughput Computing Workload: The Compact Muon Solenoid (CMS) Experiment at LHC. ICCS 2015: 39-48 - [i3]Lothar Bauerdick, Brian Bockelman, Peter Elmer, Stephen Gowdy, Matevz Tadel, Frank Würthwein:
Designing Computing System Architecture and Models for the HL-LHC era. CoRR abs/1507.07430 (2015) - [i2]Kenneth Bloom, Tommaso Boccali, Brian Bockelman, Daniel C. Bradley, Sridhara Dasu, Jeff Dost, Federica Fanzago, Igor Sfiligoi, Alja Mrak Tadel, Matevz Tadel, Carl Vuosalo, Frank Würthwein, Avi Yagil, Marián Zvada:
Any Data, Any Time, Anywhere: Global Data Access for Science. CoRR abs/1508.01443 (2015) - 2013
- [c5]Rick Wagner
Using Gordon to accelerate LHC science. XSEDE 2013: 59:1-59:4 - 2011
- [j4]Mine Altunay, Paul Avery, Kent Blackburn, Brian Bockelman
A Science Driven Production Cyberinfrastructure - the Open Science Grid. J. Grid Comput. 9(2): 201-218 (2011) - [c4]Mats Rynge, Gideon Juve, Gaurang Mehta, Ewa Deelman, Krista Larson, Burt Holzman
Experiences Using GlideinWMS and the Corral Frontend across Cyberinfrastructures. eScience 2011: 311-318 - 2010
- [j3]Alessandra Fanfani, M. Anzar Afaq, Jose Afonso Sanches, Julia Andreeva, Giuseppe Bagliesi, Lothar Bauerdick, Stefano Belforte
Distributed Analysis in CMS. J. Grid Comput. 8(2): 159-179 (2010)
2000 – 2009
- 2009
- [j2]Morris Riedel
Interoperation of world-wide production e-Science infrastructures. Concurr. Comput. Pract. Exp. 21(8): 961-990 (2009) - [c3]Igor Sfiligoi
The Pilot Way to Grid Resources Using glideinWMS. CSIE (2) 2009: 428-432 - 2008
- [j1]Markus Lorch, Dennis G. Kafura, Ian Fisk, Kate Keahey, Timothy Freeman, Abhishek Singh Rana, Frank Würthwein:
Authorisation and identity mapping services for the Open Science Grid. Int. J. High Perform. Comput. Netw. 5(3): 144-155 (2008) - 2006
- [c2]Stefano Belforte, Matthew Norman, Subir Sarkar, Igor Sfiligoi, Douglas Thain, Frank Würthwein:
Using Condor Glide-Ins and Parrot to Move from Dedicated Ressources to the Grid. ARCS Workshops 2006: 285-292 - [c1]Timothy Freeman, Katarzyna Keahey, Ian T. Foster, Abhishek Rana, Borja Sotomayor, Frank Würthwein:
Division of Labor: Tools for Growing and Scaling Grids. ICSOC 2006: 40-51 - 2003
- [i1]A. Baranovski, Gabriele Garzoglio, Arthur Kreymer, Lee Lueking, Stefan Stonjek, Igor Terekhov, Frank Würthwein, Alain Roy, P. Mhashikar, V. Murthi, Todd Tannenbaum, Rod Walker, Fedor Ratnikov, T. Rockwell:
Management of Grid Jobs and Information within SAMGrid. CoRR cs.DC/0307007 (2003)
Coauthor Index
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last updated on 2024-10-07 21:22 CEST by the dblp team
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