Ed Seidel Assistant Director Directorate for Mathematical and Physical Sciences National Science Foundation October 1, 2010.

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Presentation transcript:

Ed Seidel Assistant Director Directorate for Mathematical and Physical Sciences National Science Foundation October 1, 2010

User Facilities Examples: National Astronomy Observatories, National High Magnetic Field Laboratory, National Center for Atmospheric Research, ALMA, National Center for Supercomputing Applications (NCSA) Managed by university or consortium of universities Scientific and technical staff to support users and conduct in-house research Large experiments Examples: LIGO, IceCube, LHC Managed by university or consortium Science performed by large collaboration Frequently international Collaboration sets access terms, data policy 2

NSF has supported major research user facilities and infrastructure throughout its history Since founding of National Astronomy Observatories and National Center for Atmospheric Research (1957 – 1960) Overriding principle - access is purely on the basis of scientific merit Not limited to NSF grantees; open to world community My EU Network made great use of NSF and DOE computing facilities! Led me to propose EDSN LOI in 2002 to EU! Has fostered a legacy of scientific achievement, advances in technology and techniques, training of students, engagement of the public with the scientific enterprise 3

Telescopes, computer facilities, light sources, accelerators, research vessels, atmospheric radars…. Specifics of support and management vary with sociology of field, but: Access based on scientific merit Users do not pay operations costs – NSF stewards facility for the world community Exception – industry use of light source for proprietary data, e.g. ICFA-like model for large facilities, e.g., LHC now; DUSEL in future International collaborations, e.g., Gemini, ALMA Partners establish administration of time and access, through governing agreements U.S. time open solely on basis of scientific merit 4

Laser Interferometer Gravity Wave Observatory (LIGO) Discovery Data access is restricted to an OPEN collaboration. Anyone can join. Also, via MOU, LIGO shares data with the Virgo collaboration and passes potential events to electromagnetic observatories (Swift, TAROT, QUEST). Data associated with signals will be released as they are published, along with appropriate tools. Observation LIGO will establish a data center to release full data sets (after instrumental artifact removal) with appropriate tools and user support.

Timescale for planning and realization (> 10 years?) Retiring/re-purposing existing facilities Training a new generation of builders as facility scale grows User access policies Data policies, including cost implications of access and long term stewardship/curation and services Not just costs of data services, but also impact of data access policies on investments in facilities themselves. Example: open skies policies for astronomy? Models for collaborative undertakings 6

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9 Novel approach to expanding collaboration Anyone may applyprocedure described on website Previous experience with gravitational waves or physics is not required. All researchers welcome. Example: Korean consortium with no previous connection to LIGO or gravitational waves will now assist in data analysis to learn methods and then try to develop their own approaches. Participants include astronomers, computer scientists, engineers, applied mathematicians,... Joined LSC 9/09.

10 240,000 users 1,000,000 computers 211 countries 210 TeraFlops data is encrypted, unusable

LIGO sensitivity astrophysically interesting during S5