Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows

Rafael Ferreira Da Silva; Deborah Bard; Kyle Chard; Shaun de Witt; Ian T. Foster; Carole Goble; William Godoy; Johan Gustafsson; Utz-Uwe Haus; Stephen Hudson; Laila Los; Drew Paine; Frédéric Suter; Logan Ward; Sean Wilkinson; Marcos Amaris; Yadu Babuji; Jonathan Bader; Riccardo Balin; Daniel Balouek; Sarah Beecroft; Khalid Belhajjame; Rajat Bhattarai; Wes Brewer; Paul Brunk; Silvina Caino-Lores; Henri Casanova; Daniela Cassol; Jared Coleman; Taina Coleman; Iacopo Colonnelli; Anderson Andrei Da Silva; Daniel de Oliveira; Pascal Elahi; Nour Elfaramawy; Wael Elwasif; Brian Etz; Thomas Fahringer; Wesley Ferreira; Rosa Filgueira; Jacob Fosso Tande; Luiz Gadelha; Andy Gallo; Daniel Garijo; Yiannis Georgiou; Philipp Gritsch; Patricia Grubel; Amal Gueroudji; Quentin Guilloteau; Carlo Hamalainen; Rolando Hong Enriquez; Lauren Huet; Kevin Hunter Kesling; Paula Iborra; Shiva Jahangiri; Jan Janssen; Joe Jordan; Sehrish Kanwal; Liliane Kunstmann; Fabian Lehmann; Ulf Leser; Peini Liu; Jakob Luettgau; Richard Lupat; Jose M. Fernandez; Ketan Maheshwari; Tanu Malik; Jack Marquez; Motohiko Matsuda; Doriana Medic; Somayeh Mohammadi; Alberto Mulone; John-Luke Navarro; Kin Wai Ng; Klaus Noelp; Bruno P. Kinoshita; Ryan Prout; Michael R. Crusoe; Sashko Ristov; Stefan Robila; Daniel Rosendo; Billy Rowell; Jedrzej Rybicki; Hector Sanchez; Nishant Saurabh; Sumit Kumar Saurav; Tom Scogland; Dinindu Senanayake; Raul Sirvent; Woong Shin; Tyler Skluzacek; Barry Sly-Delgado; Stian Soiland-Reyes; Abel Souza; Renan Souza; Domenico Talia; Nathan Tallent; Lauritz Thamsen; Mikhail Titov; Benjamin Tovar; Karan Vahi; Eric Vardar-Irrgang; Edite Vartina; Yuandou Wang; Merridee Wouters; Qi Yu; Ziad Al Bkhetan; Mahnoor Zulfiqar

doi:10.5281/zenodo.13844758

Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows

Rafael Ferreira Da Silva ^*, Deborah Bard, Kyle Chard, Shaun de Witt, Ian T. Foster, Carole Goble, William Godoy, Johan Gustafsson, Utz-Uwe Haus, Stephen Hudson, Laila Los, Drew Paine, Frédéric Suter, Logan Ward, Sean Wilkinson, Marcos Amaris, Yadu Babuji, Jonathan Bader, Riccardo Balin, Daniel BalouekSarah Beecroft, Khalid Belhajjame, Rajat Bhattarai, Wes Brewer, Paul Brunk, Silvina Caino-Lores, Henri Casanova, Daniela Cassol, Jared Coleman, Taina Coleman, Iacopo Colonnelli, Anderson Andrei Da Silva, Daniel de Oliveira, Pascal Elahi, Nour Elfaramawy, Wael Elwasif, Brian Etz, Thomas Fahringer, Wesley Ferreira, Rosa Filgueira, Jacob Fosso Tande, Luiz Gadelha, Andy Gallo, Daniel Garijo, Yiannis Georgiou, Philipp Gritsch, Patricia Grubel, Amal Gueroudji, Quentin Guilloteau, Carlo Hamalainen, Rolando Hong Enriquez, Lauren Huet, Kevin Hunter Kesling, Paula Iborra, Shiva Jahangiri, Jan Janssen, Joe Jordan, Sehrish Kanwal, Liliane Kunstmann, Fabian Lehmann, Ulf Leser, Peini Liu, Jakob Luettgau, Richard Lupat, Jose M. Fernandez, Ketan Maheshwari, Tanu Malik, Jack Marquez, Motohiko Matsuda, Doriana Medic, Somayeh Mohammadi, Alberto Mulone, John-Luke Navarro, Kin Wai Ng, Klaus Noelp, Bruno P. Kinoshita, Ryan Prout, Michael R. Crusoe, Sashko Ristov, Stefan Robila, Daniel Rosendo, Billy Rowell, Jedrzej Rybicki, Hector Sanchez, Nishant Saurabh, Sumit Kumar Saurav, Tom Scogland, Dinindu Senanayake, Raul Sirvent, Woong Shin, Tyler Skluzacek, Barry Sly-Delgado, Stian Soiland-Reyes, Abel Souza, Renan Souza, Domenico Talia, Nathan Tallent, Lauritz Thamsen, Mikhail Titov, Benjamin Tovar, Karan Vahi, Eric Vardar-Irrgang, Edite Vartina, Yuandou Wang, Merridee Wouters, Qi Yu, Ziad Al Bkhetan, Mahnoor Zulfiqar

^*Corresponding author for this work

EPCC

Research output: Working paper › Preprint

Abstract

The Workflows Community Summit gathered 111 participants from 18 countries to discuss emerging trends and challenges in scientific workflows, focusing on six key areas: time-sensitive workflows, AI-HPC convergence, multi-facility workflows, heterogeneous HPC environments, user experience, and FAIR computational workflows. The integration of AI and exascale computing has revolutionized scientific workflows, enabling higher-fidelity models and complex, time-sensitive processes, while introducing challenges in managing heterogeneous environments and multi-facility data dependencies. The rise of large language models is driving computational demands to zettaflop scales, necessitating modular, adaptable systems and cloud-service models to optimize resource utilization and ensure reproducibility. Multi-facility workflows present challenges in data movement, curation, and overcoming institutional silos, while diverse hardware architectures require integrating workflow considerations into early system design and developing standardized resource management tools. The summit emphasized improving user experience in workflow systems and ensuring FAIR workflows to enhance collaboration and accelerate scientific discovery. Key recommendations include developing standardized metrics for time-sensitive workflows, creating frameworks for cloud-HPC integration, implementing distributed-by-design workflow modeling, establishing multi-facility authentication protocols, and accelerating AI integration in HPC workflow management. The summit also called for comprehensive workflow benchmarks, workflow-specific UX principles, and a FAIR workflow maturity model, highlighting the need for continued collaboration in addressing the complex challenges posed by the convergence of AI, HPC, and multi-facility research environments.

Original language	English
DOIs	https://doi.org/10.5281/zenodo.13844758
Publication status	Published - 19 Oct 2024

Keywords / Materials (for Non-textual outputs)

cs.DC

Access to Document

10.5281/zenodo.13844758

2410.14943v1

Cite this

Ferreira Da Silva , R., Bard, D., Chard, K., Witt, S. D., Foster, I. T., Goble, C., Godoy, W., Gustafsson, J., Haus, U.-U., Hudson, S., Los, L., Paine, D., Suter, F., Ward, L., Wilkinson, S., Amaris, M., Babuji, Y., Bader, J., Balin, R., ... Zulfiqar, M. (2024). Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows. https://doi.org/10.5281/zenodo.13844758

@techreport{9e9aa0afc80d494a9a8f39440d648333,

title = "Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows",

abstract = " The Workflows Community Summit gathered 111 participants from 18 countries to discuss emerging trends and challenges in scientific workflows, focusing on six key areas: time-sensitive workflows, AI-HPC convergence, multi-facility workflows, heterogeneous HPC environments, user experience, and FAIR computational workflows. The integration of AI and exascale computing has revolutionized scientific workflows, enabling higher-fidelity models and complex, time-sensitive processes, while introducing challenges in managing heterogeneous environments and multi-facility data dependencies. The rise of large language models is driving computational demands to zettaflop scales, necessitating modular, adaptable systems and cloud-service models to optimize resource utilization and ensure reproducibility. Multi-facility workflows present challenges in data movement, curation, and overcoming institutional silos, while diverse hardware architectures require integrating workflow considerations into early system design and developing standardized resource management tools. The summit emphasized improving user experience in workflow systems and ensuring FAIR workflows to enhance collaboration and accelerate scientific discovery. Key recommendations include developing standardized metrics for time-sensitive workflows, creating frameworks for cloud-HPC integration, implementing distributed-by-design workflow modeling, establishing multi-facility authentication protocols, and accelerating AI integration in HPC workflow management. The summit also called for comprehensive workflow benchmarks, workflow-specific UX principles, and a FAIR workflow maturity model, highlighting the need for continued collaboration in addressing the complex challenges posed by the convergence of AI, HPC, and multi-facility research environments. ",

keywords = "cs.DC",

author = "{Ferreira Da Silva}, Rafael and Deborah Bard and Kyle Chard and Witt, {Shaun de} and Foster, {Ian T.} and Carole Goble and William Godoy and Johan Gustafsson and Utz-Uwe Haus and Stephen Hudson and Laila Los and Drew Paine and Fr{\'e}d{\'e}ric Suter and Logan Ward and Sean Wilkinson and Marcos Amaris and Yadu Babuji and Jonathan Bader and Riccardo Balin and Daniel Balouek and Sarah Beecroft and Khalid Belhajjame and Rajat Bhattarai and Wes Brewer and Paul Brunk and Silvina Caino-Lores and Henri Casanova and Daniela Cassol and Jared Coleman and Taina Coleman and Iacopo Colonnelli and Silva, {Anderson Andrei Da} and Oliveira, {Daniel de} and Pascal Elahi and Nour Elfaramawy and Wael Elwasif and Brian Etz and Thomas Fahringer and Wesley Ferreira and Rosa Filgueira and Tande, {Jacob Fosso} and Luiz Gadelha and Andy Gallo and Daniel Garijo and Yiannis Georgiou and Philipp Gritsch and Patricia Grubel and Amal Gueroudji and Quentin Guilloteau and Carlo Hamalainen and Enriquez, {Rolando Hong} and Lauren Huet and Kesling, {Kevin Hunter} and Paula Iborra and Shiva Jahangiri and Jan Janssen and Joe Jordan and Sehrish Kanwal and Liliane Kunstmann and Fabian Lehmann and Ulf Leser and Peini Liu and Jakob Luettgau and Richard Lupat and Fernandez, {Jose M.} and Ketan Maheshwari and Tanu Malik and Jack Marquez and Motohiko Matsuda and Doriana Medic and Somayeh Mohammadi and Alberto Mulone and John-Luke Navarro and Ng, {Kin Wai} and Klaus Noelp and Kinoshita, {Bruno P.} and Ryan Prout and Crusoe, {Michael R.} and Sashko Ristov and Stefan Robila and Daniel Rosendo and Billy Rowell and Jedrzej Rybicki and Hector Sanchez and Nishant Saurabh and Saurav, {Sumit Kumar} and Tom Scogland and Dinindu Senanayake and Raul Sirvent and Woong Shin and Tyler Skluzacek and Barry Sly-Delgado and Stian Soiland-Reyes and Abel Souza and Renan Souza and Domenico Talia and Nathan Tallent and Lauritz Thamsen and Mikhail Titov and Benjamin Tovar and Karan Vahi and Eric Vardar-Irrgang and Edite Vartina and Yuandou Wang and Merridee Wouters and Qi Yu and Bkhetan, {Ziad Al} and Mahnoor Zulfiqar",

year = "2024",

month = oct,

day = "19",

doi = "10.5281/zenodo.13844758",

language = "English",

type = "WorkingPaper",

}

Ferreira Da Silva , R, Bard, D, Chard, K, Witt, SD, Foster, IT, Goble, C, Godoy, W, Gustafsson, J, Haus, U-U, Hudson, S, Los, L, Paine, D, Suter, F, Ward, L, Wilkinson, S, Amaris, M, Babuji, Y, Bader, J, Balin, R, Balouek, D, Beecroft, S, Belhajjame, K, Bhattarai, R, Brewer, W, Brunk, P, Caino-Lores, S, Casanova, H, Cassol, D, Coleman, J, Coleman, T, Colonnelli, I, Silva, AAD, Oliveira, DD, Elahi, P, Elfaramawy, N, Elwasif, W, Etz, B, Fahringer, T, Ferreira, W, Filgueira, R, Tande, JF, Gadelha, L, Gallo, A, Garijo, D, Georgiou, Y, Gritsch, P, Grubel, P, Gueroudji, A, Guilloteau, Q, Hamalainen, C, Enriquez, RH, Huet, L, Kesling, KH, Iborra, P, Jahangiri, S, Janssen, J, Jordan, J, Kanwal, S, Kunstmann, L, Lehmann, F, Leser, U, Liu, P, Luettgau, J, Lupat, R, Fernandez, JM, Maheshwari, K, Malik, T, Marquez, J, Matsuda, M, Medic, D, Mohammadi, S, Mulone, A, Navarro, J-L, Ng, KW, Noelp, K, Kinoshita, BP, Prout, R, Crusoe, MR, Ristov, S, Robila, S, Rosendo, D, Rowell, B, Rybicki, J, Sanchez, H, Saurabh, N, Saurav, SK, Scogland, T, Senanayake, D, Sirvent, R, Shin, W, Skluzacek, T, Sly-Delgado, B, Soiland-Reyes, S, Souza, A, Souza, R, Talia, D, Tallent, N, Thamsen, L, Titov, M, Tovar, B, Vahi, K, Vardar-Irrgang, E, Vartina, E, Wang, Y, Wouters, M, Yu, Q, Bkhetan, ZA & Zulfiqar, M 2024 'Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows'. https://doi.org/10.5281/zenodo.13844758

TY - UNPB

T1 - Workflows Community Summit 2024

T2 - Future Trends and Challenges in Scientific Workflows

AU - Ferreira Da Silva , Rafael

AU - Bard, Deborah

AU - Chard, Kyle

AU - Witt, Shaun de

AU - Foster, Ian T.

AU - Goble, Carole

AU - Godoy, William

AU - Gustafsson, Johan

AU - Haus, Utz-Uwe

AU - Hudson, Stephen

AU - Los, Laila

AU - Paine, Drew

AU - Suter, Frédéric

AU - Ward, Logan

AU - Wilkinson, Sean

AU - Amaris, Marcos

AU - Babuji, Yadu

AU - Bader, Jonathan

AU - Balin, Riccardo

AU - Balouek, Daniel

AU - Beecroft, Sarah

AU - Belhajjame, Khalid

AU - Bhattarai, Rajat

AU - Brewer, Wes

AU - Brunk, Paul

AU - Caino-Lores, Silvina

AU - Casanova, Henri

AU - Cassol, Daniela

AU - Coleman, Jared

AU - Coleman, Taina

AU - Colonnelli, Iacopo

AU - Silva, Anderson Andrei Da

AU - Oliveira, Daniel de

AU - Elahi, Pascal

AU - Elfaramawy, Nour

AU - Elwasif, Wael

AU - Etz, Brian

AU - Fahringer, Thomas

AU - Ferreira, Wesley

AU - Filgueira, Rosa

AU - Tande, Jacob Fosso

AU - Gadelha, Luiz

AU - Gallo, Andy

AU - Garijo, Daniel

AU - Georgiou, Yiannis

AU - Gritsch, Philipp

AU - Grubel, Patricia

AU - Gueroudji, Amal

AU - Guilloteau, Quentin

AU - Hamalainen, Carlo

AU - Enriquez, Rolando Hong

AU - Huet, Lauren

AU - Kesling, Kevin Hunter

AU - Iborra, Paula

AU - Jahangiri, Shiva

AU - Janssen, Jan

AU - Jordan, Joe

AU - Kanwal, Sehrish

AU - Kunstmann, Liliane

AU - Lehmann, Fabian

AU - Leser, Ulf

AU - Liu, Peini

AU - Luettgau, Jakob

AU - Lupat, Richard

AU - Fernandez, Jose M.

AU - Maheshwari, Ketan

AU - Malik, Tanu

AU - Marquez, Jack

AU - Matsuda, Motohiko

AU - Medic, Doriana

AU - Mohammadi, Somayeh

AU - Mulone, Alberto

AU - Navarro, John-Luke

AU - Ng, Kin Wai

AU - Noelp, Klaus

AU - Kinoshita, Bruno P.

AU - Prout, Ryan

AU - Crusoe, Michael R.

AU - Ristov, Sashko

AU - Robila, Stefan

AU - Rosendo, Daniel

AU - Rowell, Billy

AU - Rybicki, Jedrzej

AU - Sanchez, Hector

AU - Saurabh, Nishant

AU - Saurav, Sumit Kumar

AU - Scogland, Tom

AU - Senanayake, Dinindu

AU - Sirvent, Raul

AU - Shin, Woong

AU - Skluzacek, Tyler

AU - Sly-Delgado, Barry

AU - Soiland-Reyes, Stian

AU - Souza, Abel

AU - Souza, Renan

AU - Talia, Domenico

AU - Tallent, Nathan

AU - Thamsen, Lauritz

AU - Titov, Mikhail

AU - Tovar, Benjamin

AU - Vahi, Karan

AU - Vardar-Irrgang, Eric

AU - Vartina, Edite

AU - Wang, Yuandou

AU - Wouters, Merridee

AU - Yu, Qi

AU - Bkhetan, Ziad Al

AU - Zulfiqar, Mahnoor

PY - 2024/10/19

Y1 - 2024/10/19

N2 - The Workflows Community Summit gathered 111 participants from 18 countries to discuss emerging trends and challenges in scientific workflows, focusing on six key areas: time-sensitive workflows, AI-HPC convergence, multi-facility workflows, heterogeneous HPC environments, user experience, and FAIR computational workflows. The integration of AI and exascale computing has revolutionized scientific workflows, enabling higher-fidelity models and complex, time-sensitive processes, while introducing challenges in managing heterogeneous environments and multi-facility data dependencies. The rise of large language models is driving computational demands to zettaflop scales, necessitating modular, adaptable systems and cloud-service models to optimize resource utilization and ensure reproducibility. Multi-facility workflows present challenges in data movement, curation, and overcoming institutional silos, while diverse hardware architectures require integrating workflow considerations into early system design and developing standardized resource management tools. The summit emphasized improving user experience in workflow systems and ensuring FAIR workflows to enhance collaboration and accelerate scientific discovery. Key recommendations include developing standardized metrics for time-sensitive workflows, creating frameworks for cloud-HPC integration, implementing distributed-by-design workflow modeling, establishing multi-facility authentication protocols, and accelerating AI integration in HPC workflow management. The summit also called for comprehensive workflow benchmarks, workflow-specific UX principles, and a FAIR workflow maturity model, highlighting the need for continued collaboration in addressing the complex challenges posed by the convergence of AI, HPC, and multi-facility research environments.

AB - The Workflows Community Summit gathered 111 participants from 18 countries to discuss emerging trends and challenges in scientific workflows, focusing on six key areas: time-sensitive workflows, AI-HPC convergence, multi-facility workflows, heterogeneous HPC environments, user experience, and FAIR computational workflows. The integration of AI and exascale computing has revolutionized scientific workflows, enabling higher-fidelity models and complex, time-sensitive processes, while introducing challenges in managing heterogeneous environments and multi-facility data dependencies. The rise of large language models is driving computational demands to zettaflop scales, necessitating modular, adaptable systems and cloud-service models to optimize resource utilization and ensure reproducibility. Multi-facility workflows present challenges in data movement, curation, and overcoming institutional silos, while diverse hardware architectures require integrating workflow considerations into early system design and developing standardized resource management tools. The summit emphasized improving user experience in workflow systems and ensuring FAIR workflows to enhance collaboration and accelerate scientific discovery. Key recommendations include developing standardized metrics for time-sensitive workflows, creating frameworks for cloud-HPC integration, implementing distributed-by-design workflow modeling, establishing multi-facility authentication protocols, and accelerating AI integration in HPC workflow management. The summit also called for comprehensive workflow benchmarks, workflow-specific UX principles, and a FAIR workflow maturity model, highlighting the need for continued collaboration in addressing the complex challenges posed by the convergence of AI, HPC, and multi-facility research environments.

KW - cs.DC

U2 - 10.5281/zenodo.13844758

DO - 10.5281/zenodo.13844758

M3 - Preprint

BT - Workflows Community Summit 2024

ER -

Workflows Community Summit 2024: Future Trends and Challenges in Scientific Workflows

Abstract

Keywords / Materials (for Non-textual outputs)

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