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Funding Opportunities at the National Science FoundationCatherine Mavriplis Applied and Computational Mathematics
Tenth Copper Mountain Conference on Multigrid MethodsApril 4th, 2001
DMS HOMEPAGEfor all announcements, solicitations, deadlineshttp://www.nsf.gov/mps/dmsCatherine Mavriplis [email protected] 703-292-4859Thomas Fogwell [email protected] 703-292-8104David Kopriva [email protected] 703-292-4879Michael Steuerwalt [email protected] 703-292-4860
Directorate forMathematical and Physical SciencesDirectorate for Mathematical and Physical SciencesDivision ofChemistryDivision ofMaterialsResearchDivision ofMathematicalSciencesDivision ofPhysicsDivision ofAstronomicalSciencesOffice of Multidisciplinary ActivitiesMPS-1
.NSFBIOENGGEOMPSPHYCHEASTDMRDMSCISEDirectorateDivisionProgram..Applied MathInfrastructureGeom. Analysis / Top. / Found.AnalysisAlgebra & Number TheoryComputational MathStatistics & ProbabilityEHRSBEAdvanced Scientific ComputingCTS, CMS, ...
Individual Grants:Group Grants:NSF-Wide & Federal Initiatives Investments:CAREERMSPRFVIGRE postdocRegular proposalIGMSREU supplementsFRGVIGREIGERTResearch InstitutesREU SitesNanoscale Science & Eng.BiocomplexityInformation TechnologyWorkforce
Funding Opportunities
Faculty Early Career Development Program (CAREER) (Deadline: July 2001)
Mathematical Sciences Postdoctoral Research Fellowships (MSPRF) (Deadline: October)
VIGRE Postdocs (recruited by institution)
Regular research proposal: target datesNovember 15th: Applied MathDecember 15th: Computational Math
NSF and Federal InitiativesFY 2001
Nanoscale Science and Engineering
Biocomplexity in the Environment
Information Technology Research
21st Century Workforce
Nanoscale Science and Engineering
Focus on five interrelated areas of nanoscale science and engineeringMulti-scale, multi-phenomena modeling and simulation at the nanoscaleBiosystems at the nanoscaleNanoscale structures, novel phenomena and quantum controlDevice and system architectureNanoscale processes in the environment
Mathematical Sciences Investments(MSI)
Insuring Our Nations Futurein Science and Technology
Why is the MSI important?
Advances in mathematics and statistics accelerate the pace of discovery and progress in science and engineering at an unprecedented pace.
Advances in fundamental mathematics and statistics are at the core of that process.
The need for mathematical and statistical skills is increasing, while the educational achievements in mathematics and science lag.
Storing and identifying the digitized version of millions of fingerprints is an almost inconceivably enormous task. Uncompressed, the FBIs currentfingerprint files would consist of 200 terabytes. A new piece of mathematics, wavelets, makes data compression fast, relatively routine, and much lessexpensive; so that storage is feasible and retrieval is fast.
Algorithmic Moores Law
Math is Broadly and Deeply Needed Modeling and simulation: physical virtualOrganizing complexity: biology, nuclear phys financeRepresenting extreme scales: sub-atomic galacticDealing with uncertainty: health, educn, social scManaging Large Systems: transp., env., climate
Why the MSI now?Assessment I (Odom report)Senior Assessment Panel of the International Assessment of the U.S. Mathematical Sciences, March 1998, at the NSF.
The panels conclusion:Based on present trends, it is unlikely that the U.S. will be able to maintain its world leadership in the mathematical sciences.
Assessment IIExperiments in International Benchmarking of U.S. Research Fields, April 2000, COSEPUP, NRC. The key issue is one of human resources, particularly the reliance on foreign talent.
The quality of U.S. mathematics research will be affected detrimentally by the sharp falloff in numbers of American students pursuing graduate-level mathematics.
Mathematical Sciences in the U.S.
Between 1992 and 1999, full-time graduate students in math dropped by 21%; U.S. citizens by 27%.
In 1997, only 12% of full-time math graduate students were supported by research assistantships.
Between 1992 and 1999, upper division math majors dropped by 23%.
In 1997 NSF provided 66.5% of federal academic research support in math, and approx. 70% in 2000.
Chart1
61859261
65883258
63686243
60287212
54589234
50393210
49187213
465102272
43188279
36689289
34687305
31581330
30482369
28973377
28776435
31398473
31289528
349112600
327103586
386146671
345124590
426141640
377116657
368148642
428164639
372188575
Male US Citizen PhDs
Female US Citizen PhDs
Non-US Citizen PhDs
Year
Number of PhDs
PhD Production in Math Sciences (Source: NOTICES, Amer. Math. Soc., February 2000)
Chart2
61859261
65883258
63686243
60287212
54589234
50393210
49187213
465102272
43188279
36689289
34687305
31581330
30482369
28973377
28776435
31398473
31289528
349112600
327103586
386146671
345124590
426141640
377116657
368148642
428164639
372188575
US Male PhDs
US Female PhDs
Non-US Citizen PhDs
Year
Number
US PhD Production in the Mathematical SciencesSource: NOTICES, Amer. Math. Soc., September 1999
Chart3
59
83
86
87
89
93
87
102
88
89
87
81
82
73
76
98
89
112
103
146
124
141
116
148
164
188
&A
Page &P
US Women Ph.D.s
Year
Number
Female US Citizen PhDs in the Mathematical SciencesSource: AMS NOTICES, September 1999
USPHDMTH
U.S. Ph.D. Production - Mathematical Sciences
Updated: February 2000, NOTICES of the AMS
YEARTOTALUS%NON-USUS-MENUS-WOM%
73-7493867772.2%261618598.7%
74-7599974174.2%2586588311.2%
75-7696572274.8%2436368611.9%Unemployment
76-7790168976.5%2126028712.6%YEARPercent
77-7886863473.0%2345458914.0%19780.7%
78-7980659673.9%2105039315.6%19791.5%
79-8079157873.1%2134918715.1%19800.9%
80-8183956767.6%27246510218.0%19810.0%
81-8279851965.0%2794318817.0%19821.8%
82-8374445561.2%2893668919.6%19832.2%
83-8473843358.7%3053468720.1%19842.1%
84-8572639654.5%3303158120.5%19850.8%
85-8675538651.1%3693048221.2%19862.3%
86-8773936249.0%3772897320.2%19873.0%
87-8879836345.5%4352877620.9%19881.4%
88-8988441146.5%4733139823.8%19893.0%
89-9092940143.2%5283128922.2%19902.2%
90-91106146143.4%60034911224.3%19915.0%
91-92101643042.3%58632710324.0%19926.7%
92-93119752643.9%67138614627.8%19938.9%
93-94105946944.3%59034512426.4%199410.7%
94-95120756747.0%64042614124.9%199510.7%
95-96115049342.9%65737711623.5%19968.1%
96-97115851644.6%64236814828.7%
97-98123159248.1%63942816427.7%
98-99113556049.3%57537218833.6%
USPHDMTH
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Total Doctorates
U.S. Citizens
Year
Number of Doctorates
Doctorates in the Math Sciences1973-1999 (AMS-IMS-MAA) 1999 Survey, February 2000)
Chart3
183209185.2
520535557.6
724750816.1
206206205.9
463477513.6
1993 Investment
1995 Investment
1997 Investment
Disciplines
Millions
Federal R&D Expenditures at Academic InstitutionsSource: 1996,1998 & 2000 S&E Indicators
Chart4
66.5
0.9
18.4
6.1
8.1
0.2
Mathematical Sciences
Agency
Percentage
Federal Academic Research Obligations by Major Agencies, FY 1997Science and Engineering Indicators - 2000 (Appendix Table 6-11)
Sheet1
1993 US Federal R&D Investments at US Academic Institutions (S&E Indicators)
199319951997
Astronomy$183$209$185
Chemistry$520$535$558
Physics$724$750$816
Mathematics$206$206$206
Computer Science$463$477$514
Federal Academic Research Obligations Provided by Major Agencies: FY 1997
NSFNASADODDOEHHSAgriculture
Mathematics66.50.918.46.18.10.2
Source: S&E Indicators - 2000; Table 6-11
Sheet1
1995
Disciplines
Millions
1994 Federal R&D at Academic Institutions
Chart1
13.266.0781.15
13.567.6886.42
14.866.4285.62
15.770.4289.54
15.777.495.69
1674.399.7
1660.3104.9
1662.3105.6
Notes:1) NSF includes DMS plus 'NSF Other'.
2) 2/3's of DoE's support is for national labs.
3) DoD includes: AFOSR ARO DARPA NSA ONR
Dept of Energy
Dept of Defense
National Science Foundation
Fiscal Year
Millions
Federal Support for Academic R&D in the Mathematical Sciences (Source: AAAS Report XXIII)
Sheet2
Federal Support For the Mathematical Sciences (Millions)
Federal ActivityFY91FY92FY93FY94FY95FY96FY97FY98 EstFY99 RequestFederal SupportFY96
National Science Found81.1586.4285.6289.5495.6999.7104.9105.6126.1DMS87.7
DMS73.1578.4277.6278.0485.2987.792.993.6114.1Other NSF (Estimate)12
Other NSF (Estimate)88811.510.412121212AFOSR16.7
Percentage Change6.5%-0.9%4.6%6.9%4.2%5.2%0.7%19.4%ARO15
DARPA19.9
Dept. of Defense66.0767.6866.4270.4277.474.360.362.358.5NSA2.5
AFOSR17171716.417.516.717.11818ONR20.2
ARO13.513.513151515131212DoE University Support5.5
DARPA16.717.816.6418.422119.918.522.519.5DoE National Laboratory10.5
NSA3.13.12.42.62.52.52.12.12
ONR15.7716.2817.381821.420.29.67.77
Percentage Change6.6%-6.5%10.7%14.0%-5.2%-7.0%21.6%-13.3%
Dept. of Energy13.213.514.815.715.716161617.5
University Support6.75.45.46.26.25.5555
National Laboratory6.58.19.49.59.510.5111112.5
Percentage Change2.3%9.6%6.1%0.0%1.9%0.0%0.0%9.4%
From: AAAS Reports prepared by Lisa Thompson/JPBM through FY1999
Department of Defense
Basic Research (Category 6.1)
Fiscal yearConstant 1997 Dollars
19861334
19871214
19881177
19891197
19901132
19911341
19921291
19931442
19941252
19951231
19961127
19971080
Sheet2
0
0
0
0
0
0
0
0
0
0
0
0
Constant 1997 Dollars
Year
Millions
Department of Defense (Basic Research)
0
0
0
0
0
0
0
0
0
FY96
Agencies
Millions
FY96 Federal Support in the Mathematical Sciences
Mathematical Sciences at NSF
Fundamental Mathematical and Statistical Sciences
Connections to Other Sciences and Engineering
Mathematical Sciences Education
EMBED Unknown
Fundamental Mathematical Sciences(Some examples - these are here for illustration)
Dynamical systems- and their role in modeling geological, oceanic, or atmospheric systems
Advanced statistical methodologies- and their application to prediction and risk in the economic and social sciences
Geometry and topology- and their connections to physical, biological and engineering systems...
Connections to Other Sciences & Engineering
Initial Emphases:
Mathematical & statistical challenges posed bylarge data sets
Managing and modeling uncertainty
Modeling complex interacting nonlinear systems
IMPLEMENTATION
Increase grant size and duration
Increase support for graduate students and postdocs
Collaborative research groups and training
New mathematical sciences institutes
Interdisciplinary centers
Educational enhancements to research efforts
Focused Research Groups in the Mathematical Sciences
Will support projects
with plans for making significant progress in areas of recognized or emerging importance to the mathematical sciences andwhere the success of the project depends in a crucial way upon a group effort
Focused Research Groups in the Mathematical Sciences (continued)
Deadlines: Letter of Intent: September 18, 2001Full Proposals: October 18, 2001
The solicitation is available online.$150,000 < [award amount per year] < $350,000
FY 2000: 12 awardsFY 2001: approx. 15 awards
VIGRE
Core components
graduate traineeshipspostdoctoral fellowshipsundergraduate research experiences
Optional Components
curriculum/instructional materials developmentoutreach
26 projects currently funded Next deadline: July, 2001Goals: # students broaden integrate
Interdisciplinary Grants in the Mathematical Sciences (IGMS)
Allows mathematical scientists to expand knowledge into other disciplinary areas
PI must physically reside in other (non-math) department
Provide 50% support up to $100,000
Anticipated Deadline: 2nd Friday in December
University-Industry Cooperative Research Programs in the Mathematical Sciences
Postdoctoral Research Fellowships
Senior Research Fellowships
Graduate Research Assistantships
Anticipated Deadline: mid-November
Research in Undergraduate Institutions (RUI)
Support is provided for researchers at predominantly undergraduate institutions
Proposals are submitted to disciplinary programs
Usual merit review procedures used with special RUI instructions to reviewers
The target dates are the program target dates
Research Experiences for Undergraduates (REU)
Provides research opportunities for undergraduate students
Two types:
REU Sites: separate awards for a group (usually 6-12) of students
REU Supplements: supplements to existing awards for 1-2 students
Integrative Graduate Education and Research Traineeships (IGERT)
Supports innovative, research-based graduate education and training activities in critical, emerging areas
Must have multidisciplinary research theme
Awards: Up to $500K/year for up to 5 years
Preproposal Deadline: June 28, 2001 Full Proposal Deadline: January 18, 2002
Mathematical Sciences Research Institutes
A new competition underway
We seek proposals for institutes that
will advance research in the mathematical sciences and/or the interface of the mathematical sciences and other disciplines,
address diverse challenges and opportunities facing the nation to which the mathematical sciences can contribute, and
promote the integration of research and education
Small Grants for ExploratoryResearch (SGER)Novel Untested Ideas; New Research Areas; UrgencyAbbreviated Proposal; Limited Award AmountExpedited ReviewPD-23
FastLanehttp://www.fastlane.nsf.gov/ For list of awards abstracts of prior awards
Requires Password - (obtain from your office of sponsored research) proposal submission proposal status annual and final project report submission
Requires special PIN from Program Officer Proposal Review
DMS depends on the mathematical sciences community for its staffing
In 2002 DMS will need new program directors in:
AnalysisInterdisciplinary Math (in particular, Math Biology)Applied Mathematics/Computational MathematicsStatistics and Probability
We are interested in applications from researchers from all fields.