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Aeronomy Solar Terrestial Petrology Geochemis try Tectonics EarthScope IES Biological Ocean Geomomor phology & land use dyn Chem Ocean Chem Ocean High Perf Computing Emerging Frontiers (BIO) Software Data Networks EarthCube CI ANT Astro & Geospace ANT Earth Sciences ANT Glaciology ANT Ocean & Atm. Sci. ANT Organisms & Ecosys. ARC Natural Sciences ARC Obs. Network (AON) ARC Social Sciences ARC Sys Science (ARCSS) NCAR Biological Infrastructu re Envir. Biology Atm. Chemistry Clm & Large Scale Dyn Paleo- Climate Phy. & Dyn Met. Magneto- spheric Phys. Hydrology Sediment Geology and Paleobio EAR Ed. Geophysics Geobio & Low Temp Geochem Phys Ocean Ocean Drilling OCE ED GeoPRISM Marine Geology & Geo-phys OOI geohazards climate change formation & evolution of the atmosphere & oceans environmental change & resilience extreme events – causes, periodicity, & implications the origin of life resource discovery & abundance human-earth interactions continental evolution & changes through time deep – surface earth Interactions & feedbacks
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2/08/2013Eva Zanzerkia, Barbara Ransom, Irene Lombardo, Leonard PaceLisa Boush, Bob Chadduck, Mark Suskin
EarthCube Solicitation Update
Content
The Motivation for EarthCube
The EarthCube Strategy
FY13 Themes
Governance; Community EngagementResource Leveraging; Architecture
Comment and Questions
EarthCube Supports the Geosciences
Aeronomy
Solar Terresti
al
Petrology
Geochemistry
Tectonics
EarthScope
IES
Biological
Ocean
Geomomorphol
ogy & land
use dyn
ChemOcean
High Perf
Computing
Emerging
Frontiers (BIO)
Software
Data
Networks
EarthCube CI
ANT Astro & Geospa
ce
ANT Earth
Sciences
ANT Glaciolo
gy
ANT Ocean &
Atm. Sci.
ANT Organis
ms & Ecosys.
ARC Natural Science
s
ARC Obs.
Network (AON) ARC
Social Science
s
ARC Sys Science (ARCSS)
NCAR
Biological
Infrastructure Envir.
Biology
Atm. Chemist
ry
Clm & Large Scale Dyn
Paleo-Climate
Phy. & Dyn Met. Magnet
o-spheric Phys.
Hydrology
Sediment
Geology and
Paleobio
EAR Ed.
Geophysics
Geobio & Low Temp
Geochem
Phys Ocean
OceanDrilling
OCE ED
GeoPRISM
Marine Geology & Geo-phys
OOI
geohazards
climate change
formation & evolution of the atmosphere & oceansenvironmental
change &
resilience
extreme events –
causes, periodicity
, &
implications
the origin of life
resource
discovery &
abundance
human-earth interactionscontinental evolution & changes through time
deep – surface earthInteractions & feedbacks
What the Geosciences Need
• Getting Science done now and in the future• Science drivers and aspirations
• Identifying and addressing barriers and challenges• Similar barriers with diverse solutions but no cross-
communication• Assessing the distribution of resources (data and CI)
and access to them• EarthCube must address the needs of big, medium, and
small science activities. • Developing a systematic approach to the multifaceted
and multivariate conduct of research within the geosciences
• NSF can act as a facilitator
EarthCube Vision
• Transform the conduct of geosciences research with the next generation CI .
• Create effective community-driven cyberinfrastructure.
• Enable global data discovery within the geosciences
• Achieve interoperability and data integration across disciplines.
Dynamic
Earth Changing
Climate
Earth & LifeGeospher
e-Biospheri
c Connecti
on
Water: Changing Perspecti
ves
6
An alternative approach to respond to daunting
science and cyberinfrastructure
challenges
EarthCube is an outcome
and a process
EarthCube: next
generation CI to
transform the
conduct of geoscience
s
Unidata
IRIS IEDANCAR
OOI
CUASHI
The process must• Engage all stakeholders: Geosciences end-users
Geosciences and CI facilitiesCI and Computer Science specialists
• EarthCube built on existing resources, understanding that different geosciences communities are not uniformly served
• Build EarthCube iteratively, with community input and assessment in yearly intervals
DataOne
The EarthCube Strategy
10 Years
EarthCube designed in a step-wise fashion to accommodate needs, change and new developments.
Governance
Community
Engagement
Resource Leveragi
ngArchitect
ure
CommunityAssessment
YEAR 1
Next Opportunities
YEAR 2
CommunityAssessment
Next Opportunities
YEAR 3
EarthCube’s Iterative Process
FY13 Themes
FY13 Themes: Engage Stakeholders
Geoscientists
Students
GeosciencesFacilities
GeosciencesCyberinfrastructureCI Experts
Builders
Academic Researchers
Geo-edGovernance Community
Engagement
ResourceLeveraging
Architecture
Data ProvidersCI Resources
Computer Scientists
Industry
Enterprise Governance
• Coordinate, organize and set priorities for a complex set of activities that will change over time• Build consensus; set priorities; foster collaboration • Geosciences Community Engagement• Coordinate discussion of architecture for EarthCube• Work with existing organizations and institutions within
the Geosciences
• http://www.nsf.gov/geo/earthcube/docs/EarthCubeGovernanceFramework.pdf
• http://www.nsf.gov/geo/earthcube/docs/EarthCubeGovernanceRoadmap.pdf
Governance
Phased Approach
1. Planning
2. Demonstration
3. Enterprise Governance
Community Engagement
ResourceLeveraging
Architecture
OutreachScopeGovernance ModelsTerms of Reference
NSF Review
NSF Review + Peer Reviewed
Competition
Phased Approach
1. Planning
2. Demonstration Community Engagement
ResourceLeveraging
Architecture
OutreachScopeGovernance ModelsTerms of Reference
NSF Review
Test Enterprise Governance
Test Enterprise Governance• 2-year project• Collaborative and broadly inclusive• Looking for the best set of organizations• To engage academic geoscientists• That understand and can work with geosciences CI • To build consensus• To set priorities • To foster connections between communities and geo- and CI experts
Anticipate one award, but leaving options open depending on proposals
Governance
Community EngagementCommunity Engagement
Aeronomy
Solar Terrestial
Petrology Geochemistry
Tectonics
EarthScope
IES
Biological Ocea
n
Geomomorphology & land use dyn
ChemOcea
n
High Perf
Computing
Emerging
Frontiers
(BIO)
Software
Data
Networks
ANT Astro
& Geospace ANT
Earth Sciences
ANT Glaciology
ANT Ocean &
Atm. Sci.
ANT Organisms
& Ecosy
s.
ARC Natur
al Sciences ARC
Obs. Network
(AON)
ARC Socia
l Sciences
ARC Sys
Science
(ARCSS)
NCAR
Biological Infrastructure
Envir. Biolo
gy
Atm. Chemistry
Clm & Large Scale Dyn
Paleo-
Climate
Phy. &
Dyn Met.
Magneto-
spheric
Phys. Hydrology
Sediment Geolo
gy and
Paleobio
EAR Ed.
GeophysicsGeobi
o & Low
Temp Geochem
Phys Ocea
n
Ocean
Drilling
OCE ED
GeoPRISM
Marine
Geology & Geo-phys
OOI
Geosciences Observatories
Data Policies/StandardsCommunity Orgs
Databases and ServersHPC Resources
Software Institutes
2. EarthCube RCNs
1. Domain WSScience, challenges, resourcesThrough 2013Contact your NSF POConnect to CI experts
Building Partnershipsning.earthcube.comExecutive SummariesCommon Needs/Goals
Research Coordination Networks
• Planning activity for geosciences communities• Shared resources• Representative plans for needed CI• Data/CI standards
• Multi-disciplinary is preferred• Communication and Participation Required• Not designed to build CI or groups planning to
build CI
Community Engagement
EarthCube Amendment I
• March 26 deadline
•Test Enterprise Governance• 1 award; ~2yrs; $2m-$3m
•EarthCube Research Coordination Networks• 4-6 awards; 2yrs; $300k
Governance
Community Engagement
EarthCube Amendment II• Follow on Webex when Amendment II
released
•Building Blocks• CI Integration and development to better connects current resources•Domain and technical collaboration•Serving a broader community•Initial work on potential building blocks of EarthCube
•Conceptual Designs• Initial planning stage for Architecture• Understand the landscape of existing
resources• Consider innovative designs for an evolving
system
ResourceLeveraging
Architecture
Questions and Comments?
earthcube@nsf.gov
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