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The Cornell University Center for Advanced Computing (CAC), housed at Frank H. T. Rhodes Hall on the campus of Cornell University, is one of five original centers in the National Science Foundation's Supercomputer Centers Program. It was formerly called the Cornell Theory Center.
The Cornell Theory Center (CTC) was established in 1985 under the direction of Cornell Physics Professor and Nobel Laureate Kenneth G. Wilson. In 1984, the National Science Foundation began work on establishing five new supercomputer centers, including the CTC, to provide high-speed computing resources for research within the United States. In 1985, a team from the National Center for Supercomputing Applications began the development of NSFNet, a TCP/IP-based computer network that could connect to the ARPANET at Cornell University and the University of Illinois at Urbana–Champaign. This high-speed network, unrestricted to academic users, became a backbone to which regional networks would be connected. Initially a 56-kbit/s network, traffic on the network grew exponentially; the links were upgraded to 1.5-Mbit/s T1s in 1988 and to 45 Mbit/s in 1991. The NSFNet was a major milestone in the development of the Internet and its rapid growth coincided with the development of the World Wide Web. [1] [2] In the early 1990s, in addition to support from the National Science Foundation, the CTC received funding from the Advanced Research Projects Agency, the National Institutes of Health, New York State, IBM Corporation, SGI, and members of the center's Corporate Research Institute. [3] The center's focus was on developing scalable parallel computing resources for its user community and applying their expertise in parallel algorithm development and optimization to a wide range of scientific and engineering problems.
In 1995, the building that houses what was then known as the Cornell Theory Center was named Frank H. T. Rhodes Hall which currently houses the Cornell University Center for Advanced Computing. [4]
The Cornell University Center for Advanced Computing, and its predecessor the Cornell Theory Center, deployed the first IBM Scalable POWERparallel System SP2 supercomputer and first Dell supercomputer, and established a financial solutions center for supercomputing. [5]
Today, CAC is a partner on the National Science Foundation XSEDE project, a collection of integrated digital resources and services enabling open science research. CAC is also developing training for TACC's Frontera supercomputer, serving as the technical lead for the Scalable Cyberinfrastructure Institute for Multi-Messenger Astrophysics (SCiMMA) project, developing software for the Institute for Research and Innovation in Software for High Energy Physics (IRIS-HEP), and designing cyberinfrastructure for the NANOGrav Physics Frontiers Center.
A 175 times faster computation of a CDC hepatitis C model on a CAC MATLAB cloud is noted in the International Data Corporation's What the Exascale Era Can Provide report. [6] CAC was an early implementer of cloud computing with the deployment of Red Cloud. CAC also designed and deployed a federated cloud called Aristotle and builds cloud images and containerizes applications for efficiency and portability.
Under the Office of the Vice Provost for Research, CAC provides Cornell faculty, staff, and students, the national research community, and industry with a range of high performance computing and consulting services. Organizations that have participated in CAC's Partner Program include Boeing, Corning, Dell, Ford, HypoVereinsbank, Intel, Microsoft, Pfizer, and start-ups whose technologies have been acquired. The Center is under the direction of David Lifka and Richard Knepper.
Rhodes Hall is an eight-story building occupying a narrow, triangular site between Hoy Road and Cascadilla Gorge.
In 1989, blueprints and material samples were used to simulate new areas of the building before it was complete. Images of the building's stair tower were computed with a ray tracer using soft shadowing techniques. [7]
A supercomputer is a type of computer with a high level of performance as compared to a general-purpose computer. The performance of a supercomputer is commonly measured in floating-point operations per second (FLOPS) instead of million instructions per second (MIPS). Since 2017, supercomputers have existed, which can perform over 1017 FLOPS (a hundred quadrillion FLOPS, 100 petaFLOPS or 100 PFLOPS). For comparison, a desktop computer has performance in the range of hundreds of gigaFLOPS (1011) to tens of teraFLOPS (1013). Since November 2017, all of the world's fastest 500 supercomputers run on Linux-based operating systems. Additional research is being conducted in the United States, the European Union, Taiwan, Japan, and China to build faster, more powerful and technologically superior exascale supercomputers.
The National Center for Supercomputing Applications (NCSA) is a state-federal partnership to develop and deploy national-scale cyberinfrastructure that advances research, science and engineering based in the United States. NCSA operates as a unit of the University of Illinois Urbana-Champaign, and provides high-performance computing resources to researchers across the country. Support for NCSA comes from the National Science Foundation, the state of Illinois, the University of Illinois, business and industry partners, and other federal agencies.
The National Science Foundation Network (NSFNET) was a program of coordinated, evolving projects sponsored by the National Science Foundation (NSF) from 1985 to 1995 to promote advanced research and education networking in the United States. The program created several nationwide backbone computer networks in support of these initiatives. Initially created to link researchers to the NSF-funded supercomputing centers, through further public funding and private industry partnerships it developed into a major part of the Internet backbone.
The San Diego Supercomputer Center (SDSC) is an organized research unit of the University of California, San Diego (UCSD). SDSC is located at the UCSD campus' Eleanor Roosevelt College east end, immediately north the Hopkins Parking Structure.
United States federal research funders use the term cyberinfrastructure to describe research environments that support advanced data acquisition, data storage, data management, data integration, data mining, data visualization and other computing and information processing services distributed over the Internet beyond the scope of a single institution. In scientific usage, cyberinfrastructure is a technological and sociological solution to the problem of efficiently connecting laboratories, data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledge.
TeraGrid was an e-Science grid computing infrastructure combining resources at eleven partner sites. The project started in 2001 and operated from 2004 through 2011.
EPCC, formerly the Edinburgh Parallel Computing Centre, is a supercomputing centre based at the University of Edinburgh. Since its foundation in 1990, its stated mission has been to accelerate the effective exploitation of novel computing throughout industry, academia and commerce.
Larry Lee Smarr is a physicist and leader in scientific computing, supercomputer applications, and Internet infrastructure from Missouri. He currently works at the University of California, San Diego. Smarr has been among the most important synthesizers and conductors of innovation, discovery, and commercialization of new technologies – including areas as disparate as the Web browser and personalized medicine. In his career, Smarr has made pioneering breakthroughs in research on black holes, spearheaded the use of supercomputers for academic research, and presided over some of the major innovations that created the modern Internet. For nearly 20 years, he has been building a new model for academic research based on interdisciplinary collaboration.
The Texas Advanced Computing Center (TACC) at the University of Texas at Austin, United States, is an advanced computing research center that is based on comprehensive advanced computing resources and supports services to researchers in Texas and across the U.S. The mission of TACC is to enable discoveries that advance science and society through the application of advanced computing technologies. Specializing in high performance computing, scientific visualization, data analysis & storage systems, software, research & development and portal interfaces, TACC deploys and operates advanced computational infrastructure to enable the research activities of faculty, staff, and students of UT Austin. TACC also provides consulting, technical documentation, and training to support researchers who use these resources. TACC staff members conduct research and development in applications and algorithms, computing systems design/architecture, and programming tools and environments.
The National Energy Research Scientific Computing Center (NERSC), is a high-performance computing (supercomputer) National User Facility operated by Lawrence Berkeley National Laboratory for the United States Department of Energy Office of Science. As the mission computing center for the Office of Science, NERSC houses high performance computing and data systems used by 9,000 scientists at national laboratories and universities around the country. Research at NERSC is focused on fundamental and applied research in energy efficiency, storage, and generation; Earth systems science, and understanding of fundamental forces of nature and the universe. The largest research areas are in High Energy Physics, Materials Science, Chemical Sciences, Climate and Environmental Sciences, Nuclear Physics, and Fusion Energy research. NERSC's newest and largest supercomputer is Perlmutter, which debuted in 2021 ranked 5th on the TOP500 list of world's fastest supercomputers.
The very high-speed Backbone Network Service (vBNS) came on line in April 1995 as part of a National Science Foundation (NSF) sponsored project to provide high-speed interconnection between NSF-sponsored supercomputing centers and select access points in the United States. The network was engineered and operated by MCI Telecommunications under a cooperative agreement with the NSF.
Vijay Pandurang Bhatkar is an Indian computer scientist, IT leader and educationalist. He is best known as the architect of India's national initiative in supercomputing where he led the development of Param supercomputers. He is a Padma Shri, Padma Bhushan, and Maharashtra Bhushan awardee. Indian computer magazine Dataquest placed him among the pioneers of India's IT industry. He was the founder and executive director of Centre for Development of Advanced Computing (C-DAC) and is currently working on developing exascale supercomputing for India.
The Center for Computation and Technology (CCT) is an interdisciplinary research center located on the campus of Louisiana State University in Baton Rouge, Louisiana.
Kevin Franklin, EdD was born in Virginia, where he received degrees in psychology and education from Old Dominion University. He holds a Doctorate of Education in organization and leadership from the University of San Francisco. Formerly executive director of the University of California system-wide Humanities Research Institute (UCHRI) and a deputy director of the San Diego Supercomputer Center (SDSC), Franklin was appointed as executive director of the Institute for Computing in Humanities, Arts, and Social Science, (I-CHASS), research professor, education policy, organization and leadership, adjunct associate professor, African American studies, and senior research scientist for the National Center for Supercomputing Applications at the University of Illinois in July 2007. In addition Franklin was appointed associate director for the National Center for Supercomputing Applications (NCSA) in 2014.
Exascale computing refers to computing systems capable of calculating at least "1018 IEEE 754 Double Precision (64-bit) operations (multiplications and/or additions) per second (exaFLOPS)"; it is a measure of supercomputer performance.
Several centers for supercomputing exist across Europe, and distributed access to them is coordinated by European initiatives to facilitate high-performance computing. One such initiative, the HPC Europa project, fits within the Distributed European Infrastructure for Supercomputing Applications (DEISA), which was formed in 2002 as a consortium of eleven supercomputing centers from seven European countries. Operating within the CORDIS framework, HPC Europa aims to provide access to supercomputers across Europe.
Francine Berman is an American computer scientist, and a leader in digital data preservation and cyber-infrastructure. In 2009, she was the inaugural recipient of the IEEE/ACM-CS Ken Kennedy Award "for her influential leadership in the design, development and deployment of national-scale cyberinfrastructure, her inspiring work as a teacher and mentor, and her exemplary service to the high performance community". In 2004, Business Week called her the "reigning teraflop queen".
Dennis M. Jennings is an Irish physicist, academic, Internet pioneer, and venture capitalist. In 1985–1986 he was responsible for three critical decisions that shaped the subsequent development of NSFNET, the network that became the Internet.
The National Strategic Computing Initiative (NSCI) is a United States initiative calling for the accelerated development of technologies for exascale supercomputers, and funding research into post-semiconductor computing. The initiative was created by an executive order issued by President Barack Obama in July 2015. Ten United States government departments and independent agencies are involved in the initiative. The initiative initially brought together existing programs, with some dedicated funding increases proposed in the Obama administration's 2017 budget request. The initiative's strategic plan was released in July 2016.
Ilkay Altintas is a Turkish-American data and computer scientist, and researcher in the domain of supercomputing and high-performance computing applications. Since 2015, Altintas has served as chief data science officer of the San Diego Supercomputer Center (SDSC), at the University of California, San Diego (UCSD), where she has also served as founder and director of the Workflows for Data Science Center of Excellence (WorDS) since 2014, as well as founder and director of the WIFIRE lab. Altintas is also the co-initiator of the Kepler scientific workflow system, an open-source platform that endows research scientists with the ability to readily collaborate, share, and design scientific workflows.