TITLE: Cyberinfrastructure Framework for 21st Century Science and Engineering
       (CF21)
DATE: 12/16/2009
NSF 10-015


National Science Foundation
4201 Wilson Boulevard
Arlington, Virginia  22230

Dear Colleague,

Today, every discipline of science and engineering is being revolutionized by
the widespread use of comprehensive cyberinfrastructure (CI).  Computing
power, data volumes, and network capacities are all on exponential growth
paths, collaborations are growing dramatically, and all forms of CI---and
multiple communities spanning multiple agencies and international
domains---often must be brought to bear to address a single complex grand
challenge problem, such as climate change.  All of these developments are part
of a revolutionary new approach to scientific discovery in which advanced
computational facilities (e.g., data systems, computing hardware, high speed
networks) and instruments (e.g., telescopes, sensor networks, sequencers) are
coupled to the development of quantifiable models, algorithms, software and
other tools and services to provide unique insights into complex problems in
science and engineering.

NSF has, for over two decades, been providing the scientific community with
open access to high performance computing facilities and the associated user
support so that those facilities could be used to enable state-of-the-art,
often transformative, scientific investigations.  The support began in the
1980’s with the initial funding of the NSF supercomputer centers, followed by
the Partnerships for Advanced Computational Infrastructure (PACI) program and
finally the TeraGrid program. Along with these programs, there have been other
important developments in cyberinfrastructure such as the Open Science Grid,
the National Virtual Observatory, data activities, major collaborative
projects such as Network for Earthquake Engineering Simulation (NEES), The
National Ecological Observatory Network (NEON), Ocean Observatories Initiative
(OOI), Large Hadron Collider (LHC) and many others too numerous to list here.

As a logical next step, it is imperative that NSF develop a strategic long
term vision of what is being called a Cyberinfrastructure Framework for 21st
Century Science and Engineering (CF21).  This vision will need to address
concepts and capabilities such as,

1. High end computational, data, visualization and sensor-based systems and
the associated user support needed for transformative science; HPC systems and
services of all types and flavors, networking, interoperable data systems and
mining, including a focus on sustainability and extensibility. 2. Activities
that link cyberinfrastructure framework into campuses (including government
and business) and programs that provide the widely dispersed, most broadly
based activities and resources; grids, cloud computing, loosely coupled campus
services, federated ID management and hybrid networks involving wireless and
social networks. 3. Major national and international research facilities and
collaborations including large-scale NSF collaborative facilities and
projects, cyberinfrastructure developed across NSF and other government
agencies, including international partners. 4. A comprehensive plan for
education and outreach in computational science to support learning and
workforce development for 21st century science and engineering.

CF21 will consist of geographically distributed locally-available
cyberinfrastructure, advanced computing resources found at larger centers,
software environments, advanced networks and data storage capabilities in the
US and other nations.  This framework needs to address a wide range of needs
and requirements beyond physical resources including expertise and know-how,
access, policy, virtual communities and collaboration.  These resources will
be integrated, interoperable and comprehensive, so that individual
researchers, teams, and multiple communities can more easily work together,
bringing collaborative data- and compute-intensive methods to bear on the
complex problems under investigation.  Such an integrated cyberinfrastructure
will also generate important economies of scale by leveraging closely related
activities.

OCI has begun a process to partner with Directorates across NSF to help
develop and establish the vision for Cyberinfrastructure Framework for 21st
Science and Engineering.   The NSF-wide Advisory Committee for
Cyberinfrastructure (ACCI) has established 6 Task Forces and has asked them to
address long-term cyberinfrastructure issues.  The Task Forces are as follows:
        Campus Bridging                   Data
        Grand Challenges                  High Performance
        Computing Software and Tools      Work Force Development

These Task Forces are composed of NSF program officers from each of the NSF
research directorates and offices as well as a set of distinguished members
from the external science and engineering community.  The Task Forces are
beginning to explore, discuss and generate a set of recommendations and ideas,
and input is encouraged and solicited from the larger community to be combined
and coordinated with the deliberations.

OCI has also established a Cyberinfrastructure Coordinating Committee (CICC)
within NSF to help address CI efforts and plans across NSF.  Additional
efforts and collaborations will be developed and it is critical that these
activities continue to expand in a coordinated way so that they also
contribute to building out the vision for CF21.

The Task Forces and CICC have already started their work and are beginning to
create working documents and meeting notes.  Draft versions of these documents
will be posted on an external wiki for public access and comment:
https://nsf.sharepointspace.com/acci_public/default.aspx. Members of the
community who are interested in tracking or contributing to CF21 activities
are encouraged to send an email to acci-task-forces@nsf.gov. Please join us in
creating this ambitious framework for 21st Century Science and Engineering.

Sincerely,

Joann P. Roskoski Assistant Director (Acting) Directorate for Biological
Sciences

Jeannette M. Wing Assistant Director Directorate for Computer and Information
Science and Engineering

José Muñoz Director (Acting) Office of Cyberinfrastructure

Wanda E. Ward Assistant Director (Acting) Directorate for Education and Human
Resources

Thomas W. Peterson Assistant Director Directorate for Engineering

Timothy L. Killeen Assistant Director Directorate for Geosciences W. Lance
Haworth Director Office of Integrative Activities

Larry H. Weber Director Office of International Science and Engineering

Edward Seidel Assistant Director (Acting) Directorate for Mathematical and
Physical Sciences

Karl A. Erb Director Office of Polar Programs

Myron Gutmann Assistant Director Directorate for Social, Behavioral and
Economic Science