Scientific Computing Plan for the ECCE Detector at the Electron Ion Collider
Instrumentation and Detectors
2022-12-20 v1 High Energy Physics - Experiment
Nuclear Experiment
Computational Physics
Abstract
The Electron Ion Collider (EIC) is the next generation of precision QCD facility to be built at Brookhaven National Laboratory in conjunction with Thomas Jefferson National Laboratory. There are a significant number of software and computing challenges that need to be overcome at the EIC. During the EIC detector proposal development period, the ECCE consortium began identifying and addressing these challenges in the process of producing a complete detector proposal based upon detailed detector and physics simulations. In this document, the software and computing efforts to produce this proposal are discussed; furthermore, the computing and software model and resources required for the future of ECCE are described.
Keywords
Cite
@article{arxiv.2205.08607,
title = {Scientific Computing Plan for the ECCE Detector at the Electron Ion Collider},
author = {J. C. Bernauer and C. T. Dean and C. Fanelli and J. Huang and K. Kauder and D. Lawrence and J. D. Osborn and C. Paus and J. K. Adkins and Y. Akiba and A. Albataineh and M. Amaryan and I. C. Arsene and C. Ayerbe Gayoso and J. Bae and X. Bai and M. D. Baker and M. Bashkanov and R. Bellwied and F. Benmokhtar and V. Berdnikov and F. Bock and W. Boeglin and M. Borysova and E. Brash and P. Brindza and W. J. Briscoe and M. Brooks and S. Bueltmann and M. H. S. Bukhari and A. Bylinkin and R. Capobianco and W. -C. Chang and Y. Cheon and K. Chen and K. -F. Chen and K. -Y. Cheng and M. Chiu and T. Chujo and Z. Citron and E. Cline and E. Cohen and T. Cormier and Y. Corrales Morales and C. Cotton and J. Crafts and C. Crawford and S. Creekmore and C. Cuevas and J. Cunningham and G. David and M. Demarteau and S. Diehl and N. Doshita and R. Dupré and J. M. Durham and R. Dzhygadlo and R. Ehlers and L. El Fassi and A. Emmert and R. Ent and R. Fatemi and S. Fegan and M. Finger and M. Finger and J. Frantz and M. Friedman and I. Friscic and D. Gangadharan and S. Gardner and K. Gates and F. Geurts and R. Gilman and D. Glazier and E. Glimos and Y. Goto and N. Grau and S. V. Greene and A. Q. Guo and L. Guo and S. K. Ha and J. Haggerty and T. Hayward and X. He and O. Hen and D. W. Higinbotham and M. Hoballah and T. Horn and A. Hoghmrtsyan and P. -h. J. Hsu and G. Huber and A. Hutson and K. Y. Hwang and C. Hyde and M. Inaba and T. Iwata and H. S. Jo and K. Joo and N. Kalantarians and G. Kalicy and K. Kawade and S. J. D. Kay and A. Kim and B. Kim and C. Kim and M. Kim and Y. Kim and Y. Kim and E. Kistenev and V. Klimenko and S. H. Ko and I. Korover and W. Korsch and G. Krintiras and S. Kuhn and C. -M. Kuo and T. Kutz and J. Lajoie and S. Lebedev and H. Lee and J. S. H. Lee and S. W. Lee and Y. -J. Lee and W. Li and W. Li and X. Li and X. Li and Y. T. Liang and S. Lim and C. -h. Lin and D. X. Lin and K. Liu and M. X. Liu and K. Livingston and N. Liyanage and W. J. Llope and C. Loizides and E. Long and R. -S. Lu and Z. Lu and W. Lynch and D. Marchand and M. Marcisovsky and P. Markowitz and H. Marukyan and P. McGaughey and M. Mihovilovic and R. G. Milner and A. Milov and Y. Miyachi and A. Mkrtchyan and P. Monaghan and R. Montgomery and D. Morrison and A. Movsisyan and H. Mkrtchyan and A. Mkrtchyan and C. Munoz Camacho and M. Murray and K. Nagai and J. Nagle and I. Nakagawa and C. Nattrass and D. Nguyen and S. Niccolai and R. Nouicer and G. Nukazuka and M. Nycz and V. A. Okorokov and S. Orešić and C. O'Shaughnessy and S. Paganis and Z Papandreou and S. F. Pate and M. Patel and G. Penman and M. G. Perdekamp and D. V. Perepelitsa and H. Periera da Costa and K. Peters and W. Phelps and E. Piasetzky and C. Pinkenburg and I. Prochazka and T. Protzman and M. L. Purschke and J. Putschke and J. R. Pybus and R. Rajput-Ghoshal and J. Rasson and B. Raue and K. Read and K. Røed and R. Reed and J. Reinhold and E. L. Renner and J. Richards and C. Riedl and T. Rinn and J. Roche and G. M. Roland and G. Ron and M. Rosati and C. Royon and J. Ryu and S. Salur and N. Santiesteban and R. Santos and M. Sarsour and J. Schambach and A. Schmidt and N. Schmidt and C. Schwarz and J. Schwiening and R. Seidl and A. Sickles and P. Simmerling and S. Sirca and D. Sharma and Z. Shi and T. -A. Shibata and C. -W. Shih and S. Shimizu and U. Shrestha and K. Slifer and K. Smith and D. Sokhan and R. Soltz and W. Sondheim and J. Song and J. Song and I. I. Strakovsky and P. Steinberg and P. Stepanov and J. Stevens and J. Strube and P. Sun and X. Sun and K. Suresh and V. Tadevosyan and W. -C. Tang and S. Tapia Araya and S. Tarafdar and L. Teodorescu and A. Timmins and L. Tomasek and N. Trotta and R. Trotta and T. S. Tveter and E. Umaka and A. Usman and H. W. van Hecke and C. Van Hulse and J. Velkovska and E. Voutier and P. K. Wang and Q. Wang and Y. Wang and Y. Wang and D. P. Watts and N. Wickramaarachchi and L. Weinstein and M. Williams and C. -P. Wong and L. Wood and M. H. Wood and C. Woody and B. Wyslouch and Z. Xiao and Y. Yamazaki and Y. Yang and Z. Ye and H. D. Yoo and M. Yurov and N. Zachariou and W. A. Zajc and J. Zhang and Y. Zhang and Y. X. Zhao and X. Zheng and P. Zhuang},
journal= {arXiv preprint arXiv:2205.08607},
year = {2022}
}