Upload
dwight-corum
View
215
Download
0
Tags:
Embed Size (px)
Citation preview
U.S. Department of Energy’s
Office of Science
www.science.doe.gov/ascr
Distributed Science at Department of Energy
Dan [email protected]/16/2005
Office of Science
U.S. Department of Energy
2
The Office of Science is the primary source of support for the Physical Sciences. Provides over 40% of federal support to the physical sciences (e.g. 90% of
High Energy & Nuclear Physics, 60% of Catalysis, 25% of Nanoscience) Provides sole support to select sub-fields (e.g. nuclear medicine, heavy
element chemistry, magnetic fusion) Manages long term, high risk, multidisciplinary science programs to
support DOE missions. Directly supports the research of 15,000 PhDs, PostDocs and Graduate
Students.
Constructs and operates large scientific facilities for the U.S. scientific community. Accelerators, light & neutron sources, nanotechnology research centers.
• Used by more than 19,000 researchers every year. Infrastructure support for ten Science laboratories.
What is the Office of Science?
Office of Science
U.S. Department of Energy
3
Office of Science Vision
National Security, a Clean Environment & Energy Security
Through Basic Research
Begin construction of ITER to demonstrate the feasibility of fusion energy.
Improved hydrogen production, storage, and use
New materials for lighter weight vehicles, more efficient engines, more efficient photovoltaic cells.
Harnessing microbes, microbial communities, and other organisms to produce energy, sequester carbon, and remediate hazardous waste sites.
Scientific Discovery Through
21st Century Computation
Revolutionary New Materials
ThroughNanoscience
Five Nanoscale Research Centers linked to large scientific research instruments at the DOE National Labs to enable:
- High Efficiency energy storage & conversion.
- Miniature sensors.
- Nanocatalysts with enhanced specificity and reactivity.
- Novel materials that are light weight, strong and conductive.
- Low cost, high-efficiency photovoltaic cells.
- Low activation materials for high-temperature applications
Uncovering the Origins of Time
and Matter
Understand the origins of the Universe:
- Mass- Accelerating
Universe/Dark energy
- Dark Matter- Dominance of
Matter over Anti-matter
- Gravity
Create the quark-gluon plasma that existed immediately after the “Big Bang”, providing fundamental insights into the evolution of the early universe.
Understand the nature of Quarks and Gluons: internal structure of protons and neutrons.
Tomorrow’sScience and Technology Capabilities
Spallation Neutron Source: improved materials.
Hands-on experience in science and math research for K-14 teachers; enhancement of the diversity of the scientific workforce.
Protein Production and Tags Facility: mass produce proteins from microbial genomes, identify and tag them to harness microbes for DOE missions, e.g.: hydrogen production, carbon sequestration, bioremediation.
Linac Coherent Light Source: Stop action imaging of chemical reactions; structure determination of single molecules.
Develop computer architectures and leadership class machines that will dramatically improve hardware performance on DOE scientific problems.
Develop scientific simulation codes to fully exploit the capabilities of terascale computers for DOE problems.
For Simulation of:- Climate- Nano-Materials- Protein Folding- Cell Functions via Genomics: GTL
- Origins of Mass (QCD)
- Quark-Gluon Plasma
- Burning Fusion Plasma
- Combustion
Office of Science
U.S. Department of Energy
4
ASCR Program Overview
BasicResearch
…simulation …distributed teams, of complex systems remote access to facilities
Energy Sciences Network (ESnet)
Leadership Computing Facility (LCF)
National Energy Research Scientific Computing Center (NERSC)
• Nanoscience• Materials• Chemistry• Combustion• Accelerator• High energy
Physics• Nuclear physics• Fusion• Climate• Astrophysics• Biology
• Applied Mathematics• Computer Science
• Network Environment• Scientific Applications• Genomes to Life
…ApplicationsBES,
BER, FES, HEP, NP
• Integrated Software Infrastructure Centers
(Mathematicians, computer scientists, application scientists, and software engineers)
High Performance Computing and Network Facilities for Science
Research to enable…
• Grid enabling research
• Nanoscience
Research and Evaluation Prototypes
Office of Science
U.S. Department of Energy
5
ESnet Connects SC Assets to Scientists worldwide
Office of Science
U.S. Department of Energy
6
Everything is Integrated in the Future
Office of Science
U.S. Department of Energy
7
Requirements for Distributed Science
Office of Science
U.S. Department of Energy
8
ESnet Traffic History
Office of Science
U.S. Department of Energy
9
ESnet Traffic Characterization
Office of Science
U.S. Department of Energy
10
Disruptive Changes in Networks for Science
Office of Science
U.S. Department of Energy
11
Network Environment Research
End-to-end performance Multi-domain Ultra high-speed transport protocol Network measurement and prediction
Cyber security scalable distributed authentication and authorization systems Ultra high-speed network components
High-Performance Middleware Network caching and computing Real-time collaborative control and data streams Fault-tolerance, error detection/correction
Integrated testbeds and networks Network research to accelerate advanced technologies Experimental deployment of high-impact applications
Opportunities
Office of Science
U.S. Department of Energy
12
Workshops and Reports www.sc.doe.gov/ascr/
High Performance Network Planning Workshop, August 2002
http://www.doecollaboratory.org/meetings/hpnpw/
Blueprint for Future Science Middleware and Grid Research and Infrastructure, August 2002 http://www.nsf-middleware.org/MAGIC/default.htm
DOE Science Network Meeting, June 2003 http://gate.hep.anl.gov/may/ScienceNetworkingWorkshop/
DOE Science Computing Conference, June 2003 http://www.doe-sci-comp.info
Science Case for Large Scale Simulation, June 2003 www.pnl.gov/scales/
Workshop on the Road Map for the Revitalization of High End Computing http://www.cra.org/Activities/workshops/nitrd/
Cyberinfrastructure Report http://www.cise.nsf.gov/evnt/reports/toc.htm
ASCR Strategic Planning Workshop http://www.fp-mcs.anl.gov/ascr-july03spw
ASCR Strategic Plan, July 2003 http://www.sc.doe.gov/ascr/ASCRstrategicplan073004final.pdf
HECRTF Plan, April 2003 http://www.sc.doe.gov/ascr/20040510_hecrtf.pdf
Office of Science
U.S. Department of Energy
13
ASCR Contact Information
Office of Advanced Scientific Computing ResearchTel: (301) 903-7486Fax: (301) 903- 4846Web: www.science.doe.gov/ascr/
Robin StaffinAssociate Director for Advanced Scientific Computing Research (Acting)[email protected]
Daniel A. HitchcockSenior Technical Advisor for Advanced Scientific Computing [email protected]
Michael StrayerDivision Director Mathematics Information and Computational Sciences (Acting)[email protected]