ACM/IEEE Supercomputing Conference

Last updated
SC, The International Conference for High Performance Computing Networking, Storage, and Analysis
Statusactive
GenreHigh Performance Computing
Frequencyannual
Years active35
Founder George Michael
Previous event SC23 Website
Next event SC24 Website
Sponsors ACM SIGHPC and IEEE Computer Society
Website SC Conference Series

SC (formerly Supercomputing), the International Conference for High Performance Computing, Networking, Storage and Analysis, is the annual conference established in 1988 by the Association for Computing Machinery and the IEEE Computer Society. In 2019, about 13,950 people participated overall; [1] by 2022 attendance had rebounded to 11,830 both in-person and online. [2] The not-for-profit conference is run by a committee of approximately 600 volunteers who spend roughly three years organizing each conference.

Contents

Sponsorship and Governance

SC is sponsored by the Association for Computing Machinery and the IEEE Computer Society. From its formation through 2011, ACM sponsorship was managed through ACM's Special Interest Group on Computer Architecture (SIGARCH). Sponsors are listed on each proceedings page in the ACM DL; see for example. [3] Beginning in 2012, [4] ACM began the process of transitioning sponsorship from SIGARCH to the recently formed Special Interest Group on High Performance Computing (SIGHPC). This transition was completed after SC15, [5] and for SC16 ACM sponsorship was vested exclusively in SIGHPC (IEEE sponsorship remained unchanged). [6] The conference is non-profit.

The conference is governed by a steering committee that includes representatives of the sponsoring societies, the current conference general chair, the general chairs of the preceding two years, the general chairs of the next two conference years, and a number of elected members. [7] All steering committee members are volunteers, with the exception of the two representatives of the sponsoring societies, who are employees of those societies. The committee selects the conference general chair, approves each year's conference budget, and is responsible for setting policy and strategy for the conference.

Conference Components

Although each conference committee introduces slight variations on the program each year, the core components of the conference remain largely unchanged from year to year.

Technical Program

The SC Technical Program is competitive with an acceptance rate around 20% for papers (see History). Traditionally, the program includes invited talks, panels, research papers, tutorials, workshops, posters, and Birds of a Feather (BoF) sessions. [8]

Awards

Each year, SC hosts the following conference and sponsoring society awards: [9]

Exhibits

In addition to the technical program, SC hosts a research exhibition each year that includes universities, state-sponsored computing research organizations (such as the Federal labs in the US), and vendors of HPC-related hardware and software from many countries around the world. There were 353 exhibitors at SC16 in Salt Lake City, UT. [13]

Student Program

SC's program for students has gone through a variety of changes and emphases over the years. Beginning with SC15 [14] the program is called "Students@SC", and is oriented toward undergraduate and graduate students in computing related fields, and computing-oriented students in science and engineering. The program includes professional development programs, opportunities to learn from mentors, and engagement with SC's technical sessions.

SCinet

SCinet is SC's research network. Started in 1991, SCinet features emerging technologies for very high bandwidth, low latency wide area network communications in addition to operational services necessary to provide conference attendees with connectivity to the commodity Internet and to many national research and engineering networks.

Name changes

Since its establishment in 1988, [3] and until 1995, [15] the full name of the conference was the "ACM/IEEE Supercomputing Conference" (sometimes: "ACM/IEEE Conference on Supercomputing"). The conference's abbreviated (and more commonly used) formal name was "Supercomputing 'XY", where XY denotes the last two digits of the year. In 1996, according to the archived front matter of the conference proceedings, [16] the full name was changed to the ACM/IEEE "International Conference on High Performance Computing and Communications". The latter document further announced that, as of 1997, the conference will undergo a name change and will be called "SC97: High Performance Networking and Computing". The document explained that

1997 [will mark] the first use of "SC97" as the name of the annual conference you've known as "Supercomputing 'XY". This change reflects our growing attention to networking, distributed computing, data-intensive applications, and other emerging technologies that push the frontiers of communications and computing.

SC97 Call for Participation, included in the archived front matter of Supercomputing '96. [16]

A 1997 HPC Wire article discussed at length the reasoning, considerations, and concerns that accompanied the decision to change the name of the conference series from "Supercomputing 'XY" to "SC 'XY", [17] stating that

It's official: the age of supercomputing has ended. At any rate, the word "supercomputing" has been excised from the title of the annual trade shows, sponsored by the IEEE and ACM, that have been known for almost ten years as "Supercomputing '(final two digits of year)". The next event, to be held in San Jose next November, has been redesignated "SC '97." Like Lewis Carroll's Cheshire Cat, "supercomputing" has faded steadily away until only the smile, nose, and whiskers remain. ... The loss is a real one. An enormous range of ordinary people had some idea, however vague, what "supercomputing" meant. No-caf, local alternatives like "SC" and "HPC" lack this authority. This is not a trivial issue. In these days of rapid change, passing technofancies, and information overload, a rose with the wrong name is just another thorn -- or forgotten immediately. After all, how can businessmen, ordinary consumers, and taxpayers be expected to pay money for something they can't comprehend? More important, will investors and grant-givers hand over money to support further R&D on something whose only identity is an arbitrary clump of capital letters?

Norris Parker Smith. HPC Wire. February 7, 1997.

Despite these concerns, the abbreviated name of the conference, "SC", is still used today, a reminiscent of the abbreviation of the conference's original name—"Supercomputing Conference".

The full name, in contrast, underwent several changes. Between 1997 and 2003, [18] [19] [20] [21] [22] [23] [24] the name "High Performance Networking and Computing" was specified in the front matter of the archived conference proceedings in some years (1997, 1998, 2000, 2002), whereas in other years it was omitted altogether in favor of the abbreviated name (1999, 2001, 2003). In 2004, [25] the stated front matter full name was changed to "High Performance Computing, Networking and Storage Conference". In 2005, [26] this name was replaced by the original name of the conference—"supercomputing"— in the front matter. Finally, in 2006, [27] the current full name, as used today, emerged: "The International Conference for High Performance Computing, Networking, Storage and Analysis".

Despite all of the name variances in the proceedings through the years, the digital library of ACM, the co-sponsoring society, records the name of the conference as "The ACM/IEEE Conference on Supercomputing" from 1998 - 2008, when it changes to ""The International Conference for High Performance Computing, Networking, Storage and Analysis". It is these two names that are used in the full citations to the conference proceedings provided in this article.

History

The table below provides the location, name of the general chair, and acceptance statistics for each year of SC. Note that references for data in these tables apply to data preceding the reference to the left on the same row; for example, for SC17 the single reference substantiates all the information in that row, but for SC05 the source for the convention center and chair is different than the source for the acceptance statistics.

Originally slated to be held in Atlanta, GA, SC20 was converted to a fully virtual conference [28] due to the COVID-19 pandemic; the conference agenda spread across two weeks instead of the typical one week for an in-person conference. Over 7,440 attendees participated from 115 countries. [29] SC21 was held as a hybrid conference with both in-person attendance in St. Louis, MO, and virtual attendance options available. [30]

Peer reviewed paper measures
YearLocationConference centerChairAcceptedSubmittedPercentage (%)
1988 Orlando, Florida Orange County Convention Center George Michael 40% [3]
1989 Reno, Nevada Reno-Sparks Convention Center Ron Bailey [31]
1990 New York, New York New York Hilton Midtown [32] Joanne Martin [33]
1991 Albuquerque, New Mexico Albuquerque Convention Center Ray Elliott8321539% [34]
1992 Minneapolis, Minnesota Minneapolis Convention Center Bill Buzbee [35] 7522034% [36]
1993 Portland, Oregon Oregon Convention Center [37] Bob Borchers7230024% [38]
1994 Washington, D.C. Washington D.C. Convention Center [39] Gary Johnson [40]
1995 San Diego, California San Diego Convention Center [41] Sid Karin6924129% [15]
1996 Pittsburgh, Pennsylvania David L. Lawrence Convention Center [42] Beverly Clayton [16]
1997 San Jose, California San Jose Convention Center Dona Crawford [18]
1998 Orlando, Florida Orange County Convention Center Dennis Duke [19]
1999 Portland, Oregon Oregon Convention Center Cherri Pancake [20]
2000 Dallas, Texas Dallas Convention Center [43] Louis Turcotte6217935% [21]
2001 Denver, Colorado Colorado Convention Center [44] Charles Slocomb6024025% [22]
2002 Baltimore, Maryland Baltimore Convention Center [45] Roscoe Giles 6723029% [23]
2003 Phoenix, Arizona Phoenix Civic Plaza Convention Center James R. McGraw [46] 6020729% [24]
2004 Pittsburgh, Pennsylvania David L. Lawrence Convention Center Jeffrey C. Huskamp [47] 6020030% [25]
2005 Seattle, Washington Washington State Convention Center William Kramer [48] 6226024% [26]
2006 Tampa, Florida Tampa Convention Center [49] Barbara Horner-Miller5423923% [27]
2007 Reno, Nevada Reno-Sparks Convention Center Becky Verastegui5426820% [50]
2008 Austin, Texas Austin Convention Center Pat Teller5927721% [51]
2009 Portland, Oregon Oregon Convention Center Wilf Pinfold5926123% [52]
2010 New Orleans, Louisiana New Orleans Morial Convention Center Barry Hess5125320% [53]
2011 Seattle, Washington Washington State Convention Center Scott Lathrop7435221% [54]
2012 Salt Lake City, Utah Salt Palace Convention Center Jeff Hollingsworth10046122% [4]
2013 Denver, Colorado Colorado Convention Center William Gropp 9144920% [55]
2014 New Orleans, Louisiana New Orleans Morial Convention Center Trish Damkroger8339421% [56]
2015 Austin, Texas Austin Convention Center Jackie Kern7935822% [5]
2016 Salt Lake City, Utah Salt Palace Convention Center John West8144618.3% [6]
2017 Denver, Colorado Colorado Convention Center Bernd Mohr6132718.7% [57]
2018 Dallas, Texas Kay Bailey Hutchison Convention Center Ralph McEldowney [58] 6828824% [59]
2019 Denver, Colorado Colorado Convention Center Michela Taufer [60] 8733925% [61]
2020Planned: Atlanta, Georgia

Actual: Virtual

Georgia World Congress Center Christine E. Cuicchi [62] 9537825.1% [63]
2021 St. Louis, Missouri America's Center Bronis de Supinski [64] 9837925.9% [65]
2022 Dallas, Texas Kay Bailey Hutchison Convention Center Candace Culhane [66] 8132025.3% [67]
2023 Denver, Colorado Colorado Convention Center Dorian C. Arnold [68] 9037623.9% [69]
2024 Atlanta, Georgia Georgia World Congress Center Philip C. Roth [70]

Keynote speakers

The following table details the keynote speakers during the history of the conference; as of SC23, 16.7% of the keynote speakers have been female, with a mix of speakers from corporate, academic, and national government organizations.

ConferenceKeynote SpeakerGenderAffiliation [71] Job Title [71] Presentation Title
SC88 Seymour Cray Male Cray Research FounderWhat's this about Gallium Arsenide? [72]
SC89John RollwagonMale Cray Research CEOSupercomputing – A Look Into the Future [73]
SC90 Danny Hillis Male Thinking Machines Corporation FounderThe Fastest Computers [73]
SC91 Allan Bromley Male Office of Science and Technology Policy ChairThe President's Initiative in HPCC [34]
SC92 Larry Smarr Male NCSA DirectorGrand Challenges! Voyages of Discovery in the 1990s [74]
SC93 Neal Lane Male National Science Foundation DirectorHPCC and the NII [73]
SC94 Ed McCracken Male SGI CEOMaking the NII Real [75]
SC95 William A. Wulf Male University of Virginia ProfessorAnd Now For Some "Really" Super Computing [76]
SC96 Frances Allen Female IBM IBM FellowScaling Up [77]
SC97 Paul Saffo Male Institute for the Future DirectorIs Digital Dead? [78]
SC98 Bran Ferren Male Walt Disney Imagineering President of R&DThere's No Bits Like Show Bits [79]
SC99 Donna Shirley Female NASA Mars Exploration Program managerManaging Creativity in Technical Projects [80]
SC00 Steve Wallach MaleCenterPoint VenturesAdvisorPetaflops in the year 2009 [43]
SC01 Craig Venter Male Celera Genomics FounderAccelerating Discovery through Supercomputing [44]
SC02 Rita Colwell Female National Science Foundation DirectorComputing: Getting us on the Path to Wisdom [45]
SC03 Donna Cox Female NCSA ProfessorBeyond Computing: The Search for Creativity [46]
SC04Tom WestMale National LambdaRail CEONLR: Providing the Nationwide Network Infrastructure for Network and "Big Science" Research [47]
SC05 Bill Gates Male Microsoft CEOThe Changing Role of IT in the Sciences [26]
SC06 Ray Kurzweil MaleInventorThe Coming Merger of Biological and Non-Biological Intelligence [27]
SC07 Neil Gershenfeld Male MIT ProfessorProgramming Bits and Atoms [50]
SC08 Michael Dell Male Dell Founder and CEOHigher Performance: Supercomputing in the Connected Era [81]
SC09 Al Gore MaleUS GovernmentFormer Vice President of the United StatesBuilding Solutions: Energy, Climate and Computing for a Changing World [82]
SC10 Clayton M. Christensen Male Harvard Business School ProfessorHow to Create New Growth in a Risk-Minimizing Environment [53]
SC11 Jen-Hsun Huang Male NVIDIA CEOExascale: An Innovator's Dilemma [54]
SC12 Michio Kaku Male City University of New York ProfessorPhysics of the Future [83]
SC13 Genevieve Bell Female Intel Intel FellowThe Secret Life of Data [84]
SC14 Brian Greene Male Columbia University ProfessorThe Quest for Nature's Deepest Laws [85]
SC15 Alan Alda MaleActorGetting Beyond a Blind Date with Science: Communicating Science for Scientists [86]
SC16Katharine FraseFemale IBM (Retired)Chief Technology Officer of Public SectorCognitive Computing: How can we accelerate human decision making, creativity and innovation using techniques from Watson and beyond? [87]
SC17Philip DiamondMale Square Kilometre Array (SKA) projectDirector GeneralLife, the Universe and Computing: The Story of the SKA Telescope [88]
SC18Erik BrynjolfssonMale MIT Initiative on the Digital Economy DirectorHow to Deploy the Unruly Power of Machine, Platform, and Crowd [89]
SC19Steven SquyresMale Cornell University ProfessorExploring the Solar System with the Power of Technology [90]
SC20 Bjorn Stevens Male Max-Planck-Institute for Meteorology Department Head/ProfessorClimate Science in the Age of Exascale [91]
SC21 Vint Cerf Male Google Vice PresidentComputing and the Humanities [92]
SC22 Jack Dongarra Male University of Tennessee Distinguished Professor ACM A.M. Turing Award Lecture: A Not So Simple Matter of Software [93]
SC23 Hakeem Oluseyi MaleSelfInspirational SpeakerA Quantum Life: My Unlikely Journey from the Street to the Stars [94]

See also

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References

  1. "Post-Conference Resources and Gratitude from SC19 General Chair Michela Taufer". SC19. 2019-12-11. Retrieved 2021-06-03.
  2. "SC22 Dazzles in Dallas". SC22 Newsletter. Retrieved 12 January 2023.
  3. 1 2 3 Proceedings of SC88. The ACM/IEEE Conference on Supercomputing. Orlando, FL, US. 1988. ISBN   0-8186-0882-X.
  4. 1 2 Hollingsworth, Jeffrey K. (2012). Proceedings of SC12. The International Conference for High Performance Computing, Networking, Storage and Analysis. Salt Lake City, UT, USA. ISBN   978-1-4673-0804-5.
  5. 1 2 Kern, Jackie (2015). Proceedings of SC15. The International Conference for High Performance Computing, Networking, Storage and Analysis. Austin, TX, USA. ISBN   978-1-4503-3723-6.
  6. 1 2 West, John (2016). Proceedings of SC16. The International Conference for High Performance Computing, Networking, Storage and Analysis. Salt Lake City, UT, USA. ISBN   978-1-4673-8815-3.
  7. "SC Steering Committee". The Supercomputing Conference Series. Retrieved 2016-11-06.
  8. "SC16 Full Conference Program". SC16 conference website. Archived from the original on 2016-11-06. Retrieved 2016-11-06.
  9. "SC16 Awards Program". SC16 conference website. Retrieved 2016-11-06.
  10. "ACM SIGHPC Computational & Data Science Fellowships". SIGHPC Website. Retrieved 2022-10-20.
  11. "ACM SIGHPC Outstanding Doctoral Dissertation Award". SIGHPC Website. Retrieved 2022-10-20.
  12. "ACM SIGHPC Emerging Woman Leader in Technical Computing Award". SIGHPC Website. Retrieved 2022-10-20.
  13. "SC16 List of Exhibitors". SC16 exhibitor directory. Retrieved 2016-11-06.
  14. "Students@SC". SC15 conference website. Retrieved 2016-11-06.
  15. 1 2 Proceedings of SC95. The ACM/IEEE Conference on Supercomputing. San Diego, CA, USA. 1995. ISBN   0-89791-816-9.
  16. 1 2 3 Proceedings of SC96. The ACM/IEEE International Conference on High Performance Computing and Communications. Pittsburgh, PA, USA. 1996. ISBN   0-89791-854-1 . Retrieved 2016-04-17.
  17. Smith, Norris Parker (1997-02-07). "Supercomputing is dead; the new king needs a name". HPC Wire. Retrieved 2016-04-17.
  18. 1 2 Proceedings of SC97 . The ACM/IEEE Conference on Supercomputing. San Jose, CA, USA. 1997. ISBN   0-89791-985-8.
  19. 1 2 Proceedings of SC98. The ACM/IEEE Conference on Supercomputing. Orlando, FL, US. 1998. ISBN   0-89791-984-X.
  20. 1 2 Proceedings of SC99. The ACM/IEEE Conference on Supercomputing. Portland, OR, USA. 1999. ISBN   1-58113-091-0.
  21. 1 2 Proceedings of SC00. The ACM/IEEE Conference on Supercomputing. Dallas, TX, USA. 2000. ISBN   0-7803-9802-5.[ permanent dead link ]
  22. 1 2 Proceedings of SC01. The ACM/IEEE Conference on Supercomputing. Denver, CO, USA. 2001. ISBN   1-58113-293-X.
  23. 1 2 Proceedings of SC02. The ACM/IEEE Conference on Supercomputing. Baltimore, MD, USA. 2002.
  24. 1 2 Proceedings of SC03. The ACM/IEEE Conference on Supercomputing. Phoenix, AZ, USA. 2003. ISBN   1-58113-695-1.
  25. 1 2 Proceedings of SC04. The ACM/IEEE Conference on Supercomputing. Pittsburgh, PA, USA. 2004. ISBN   0-7695-2153-3 . Retrieved 2016-04-17.
  26. 1 2 3 Proceedings of SC05. The ACM/IEEE Conference on Supercomputing. Seattle, WA, USA. 2005. ISBN   1-59593-061-2.
  27. 1 2 3 Proceedings of SC06. The ACM/IEEE Conference on Supercomputing. Tampa, FL, USA. 2006. ISBN   0-7695-2700-0.
  28. "SC20 Virtual Event Announced by General Chair Christine E. Cuicchi • SC20". SC20. 2020-07-27. Retrieved 2021-06-03.
  29. "Post-Conference Recap and Gratitude from SC20 General Chair Christine E. Cuicchi • SC20". SC20. 2020-12-03. Retrieved 2021-06-02.
  30. "Home • SC21". SC21. Retrieved 2022-01-20.
  31. Proceedings of SC89. The ACM/IEEE Conference on Supercomputing. Reno, NV, USA. 1989. ISBN   0-89791-341-8.
  32. "Proceedings of SC90, front matter" (PDF). ACM Digital Library. 1990. Retrieved 2016-11-05.
  33. Proceedings of SC90. The ACM/IEEE Conference on Supercomputing. New York City, NY, USA. 1990. ISBN   0-89791-412-0.
  34. 1 2 Proceedings of SC91. The ACM/IEEE Conference on Supercomputing. Albuquerque, NM, USA. 1991. ISBN   0-89791-459-7.
  35. "Proceedings of SC92, front matter" (PDF). ACM Digital Library. 1992. Retrieved 2016-11-05.
  36. Proceedings of SC92. The ACM/IEEE Conference on Supercomputing. Minneapolis, MN, USA. 1992. ISBN   0-8186-2630-5.
  37. SCD Computing News. Vol. 14, no. 1. May 7, 1993 https://web.archive.org/web/20141020093538/http://opensky.library.ucar.edu/collections/?itemId=SCDN-000-000-000-082. Archived from the original on October 20, 2014. Retrieved May 7, 2012.{{cite magazine}}: Missing or empty |title= (help)
  38. Proceedings of SC93. The ACM/IEEE Conference on Supercomputing. Portland, OR, USA. 1993. ISBN   0-8186-4340-4.
  39. "SC index". 1994. Archived from the original on March 3, 2012. Retrieved May 7, 2012.
  40. Proceedings of SC94. The ACM/IEEE Conference on Supercomputing. Washington, D.C., USA. 1994. ISBN   0-8186-6605-6.
  41. "Strong technical program characterizes Supercomputing '95". 1995. Retrieved May 7, 2012.
  42. "High Fiber: Supercomputing Conference Organizers cable the convention for the future". Pittsburgh Post-Gazette . November 16, 1996. Retrieved May 7, 2012.
  43. 1 2 "Proceedings of SC00, front matter" (PDF). ACM Digital Library. 2000. Retrieved 2018-02-01.
  44. 1 2 Proceedings of SC01, front matter (PDF). 2001. ISBN   9781581132939 . Retrieved 2018-02-01.{{cite book}}: |website= ignored (help)
  45. 1 2 "Proceedings of SC02, front matter" (PDF). ACM Digital Library. 2002. Retrieved 2016-11-05.
  46. 1 2 Proceedings of SC03, front matter (PDF). 2003. ISBN   9781581136951 . Retrieved 2016-11-05.{{cite book}}: |website= ignored (help)
  47. 1 2 "Proceedings of SC04, front matter" (PDF). ACM Digital Library. 2004. Retrieved 2016-11-05.
  48. "Proceedings of SC05, front matter" (PDF). ACM Digital Library. 2005. Retrieved 2016-11-05.
  49. Proceedings of SC06, front matter (PDF). 2006. ISBN   9780769527000 . Retrieved 2018-02-01.{{cite book}}: |website= ignored (help)
  50. 1 2 Proceedings of SC07. The ACM/IEEE Conference on Supercomputing. Reno, NV, USA. 2007. ISBN   978-1-59593-764-3.
  51. Teller, Patricia (2008). Proceedings of SC08. The ACM/IEEE Conference on Supercomputing. Austin, TX, USA. ISBN   978-1-4244-2835-9.
  52. Pinfold, Wilfred (2009). Proceedings of SC09. The International Conference for High Performance Computing, Networking, Storage and Analysis. Portland, OR, USA. ISBN   978-1-60558-744-8.
  53. 1 2 Proceedings of SC10. The International Conference for High Performance Computing, Networking, Storage and Analysis. New Orleans, LA, USA. 2010. ISBN   978-1-4244-7559-9.
  54. 1 2 Proceedings of SC11. The International Conference for High Performance Computing, Networking, Storage and Analysis. Seattle, WA, USA. 2011. ISBN   978-1-4503-0771-0.
  55. Gropp, William (2013). Proceedings of SC13. The International Conference for High Performance Computing, Networking, Storage and Analysis. Denver, CO, USA. ISBN   978-1-4503-2378-9.
  56. Damkroger, Trish (2014). Proceedings of SC14. The International Conference for High Performance Computing, Networking, Storage and Analysis. New Orleans, LA, USA. ISBN   978-1-4799-5500-8.
  57. Raghavan, Padma (2017). Proceedings of SC17. The International Conference for High Performance Computing, Networking, Storage and Analysis. Denver, CO, USA. ISBN   978-1-4503-5114-0.
  58. SC18 website. Retrieved 02-01-2018
  59. Proceedings of SC18. The International Conference for High Performance Computing, Networking, Storage and Analysis. Dallas, TX, USA. 2018.
  60. SC19 website. Retrieved 11-27-2018
  61. Proceedings of SC19. The International Conference for High Performance Computing, Networking, Storage and Analysis. Denver, CO, USA. 2019. doi:10.1145/3295500.
  62. SC20 website. Retrieved 02-18-2020
  63. Cuicchi, Christine; Cappello, Franck; Eigenmann, Rudolf (2020). SC '20: Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis. IEEE Press. ISBN   9781728199986.
  64. "SC21 website". SC21. Archived from the original on 2021-01-16. Retrieved 2021-06-02.
  65. De Supinski, Bronis R.; Hall, Mary; Gamblin, Todd (2021). SC '21: Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis. doi:10.1145/3458817. ISBN   9781450384421. S2CID   239037035. Archived from the original on 2021-10-23. Retrieved 20 January 2022.{{cite book}}: |website= ignored (help)
  66. "Home • SC22". SC22. Retrieved 2022-01-20.
  67. Culhane, Candace; Wolf, Felix; Shende, Sameer (2022). SC '22: Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis. ISBN   978-1-6654-5444-5.{{cite book}}: |work= ignored (help)
  68. "Home - SC23". SC23. Retrieved 2023-01-12.
  69. Arnold, Dorian; Catayurek, Umit; Devine, Karen (2023). SC '23: Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis.{{cite book}}: |work= ignored (help)
  70. "Home - SC24". SC24. Retrieved 2023-12-04.
  71. 1 2 Information current as of the date of the conference
  72. "Proceedings of SC88, front matter" (PDF). ACM Digital Library. 1988. Retrieved 2018-02-01.
  73. 1 2 3 "SC 25th Anniversary – The Complete History of Keynotes" (PDF). The Exascale Report. November 2013. Retrieved February 1, 2018.
  74. "National Metacenter for Computational Science and Engineering". NCSA access. Vol. 6, no. 4. NCSA. 1992. Retrieved February 1, 2018.[ permanent dead link ]
  75. "Proceedings of SC94, front matter" (PDF). ACM Digital Library. 1994. Retrieved 2018-02-01.
  76. Proceedings of SC95, front matter (PDF). 1995. ISBN   9780897918169 . Retrieved 2018-02-01.{{cite book}}: |website= ignored (help)
  77. "Keynoter Allen Sees Future in Terms of Virtual Enterprise". HPC Wire. November 4, 1997. Retrieved January 31, 2018.
  78. "SC97 Announces Keynoter Paul Saffo and Technical Panels". HPC Wire. November 14, 1997. Retrieved February 1, 2018.
  79. "Proceedings of SC98, front matter" (PDF). ACM Digital Library. 1998. Retrieved 2018-02-01.
  80. Proceedings of SC99, front matter (PDF). 1999. ISBN   9781581130911 . Retrieved 2018-02-01.{{cite book}}: |website= ignored (help)
  81. SC08 keynote webpage. Retrieved 02-01-2018
  82. SC09 Press Release. Retrieved 02-01-2018
  83. SC12 keynote webpage. Retrieved 02-01-2018
  84. SC13 keynote webpage. Retrieved 02-01-2018
  85. SC14 keynote webpage. Retrieved 02-01-2018
  86. SC15 keynote webpage. Retrieved 02-01-2018
  87. SC16 keynote webpage. Retrieved 02-01-2018
  88. SC17 keynote webpage. Retrieved 02-01-2018
  89. SC18 keynote webpage. Retrieved 09-25-2018
  90. SC19 keynote webpage. Retrieved 02-18-2020
  91. "Keynote • SC20". SC20. Retrieved 2021-06-02.
  92. "Keynote • SC21". SC21. 2021. Retrieved 13 January 2023.
  93. "Keynote • SC22". SC22. Retrieved 2022-12-05.
  94. "SC23 Conference Schedule". SC23 Conference Schedule. Retrieved 2023-12-04.
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