FP7 ICT WP 2007

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Transcript FP7 ICT WP 2007 

e-Infrastructures Call-9
(WP2011)
Kostas Glinos
European Commission - DG INFSO
Head of Unit, Géant and e-Infrastructures
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Digital Agenda for Europe
the policy context
DAE is one of the
flagships of "Europe
2020: a strategy for
smart, sustainable
and inclusive growth"
Digital Agenda for Europe
the policy context
“The Digital Agenda for Europe outlines
policies and actions to maximise the benefit
of the digital revolution for all. Supporting
research and innovation is a key priority of
the Agenda, essential if we want to establish a
flourishing digital economy.”
Neelie Kroes,
Vice-President of the EC, responsible for the Digital Agenda
e-Infrastructures Vision
empower research communities through ubiquitous,
trusted and easy access to services for data,
computation, communication and collaborative
work
Sharing and federating scientific data
Sharing computers, software and instruments
Linking at the speed of the light
.......
Scientific facilities, research communities
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Status of GÉANT in Europe
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EGI/EGEE: Tackling Global Challenges
Astrophysics and astroparticle physics
Biomedical and bioinformatics
Computational chemistry
Computational sciences
High Energy Physics
Disaster recovery
Digital Libraries
Earth sciences
Infrastructure
Geophysics
 >340 sites
Finance
 >70 000 CPUs, 25 PByte of storage
Fusion
 ~150 000 jobs successfully completed per day
 270 Virtual Organisations
 >8000 registered users, representing 1000s of scientists
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DEISA: Virtual HPC Services
 11 sites/7 countries connected at 10 Gb/s
 Over 22,000 CPUs sporting 200 TFlop
 Larger parallel applications in individual
sites
 Workflow applications with grid
technologies
 Global data management service
 Extreme Computing Initiative
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Overview: Scientific Data e-Infrastructure
scientific data infrastructure
distributed computing/software infrastructure
network infrastructure, GÉANT
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ICT infrastructures for e-Science
COM(2009) 108
Three vectors of a renewed European strategy:
Europe as hub
Sustainable and
of excellence in continuous services
e-Science
of production quality
24/7
Innovation by
exploiting know-how
beyond science
(public services,
large scale
experimentation,…)
e-Infrastructure
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Funding per topic (FP6, FP7*) (1)
Millions
(*)
350
including FP7-INFRA Call 5
Total EC Funding (€)
300
250
Layers
200
Support, Policy
Virtual Research Communities
Data
Computing
Connectivity/Network
150
100
50
0
FP6
FP7
FP
Support to Infrastructure vs support
to user communities
100%
90%
80%
70%
60%
Data
User Communities (€)
Support & policy (€)
Infrastructure (€)
50%
40%
30%
20%
10%
0%
FP6
FP7
FP
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Millions
Support to user communities per
infrastructure layer
300
250
200
Data
User Communities (€)
Support/policy (€)
Infrastructure (€)
150
100
50
0
Connectivity/Network
Computing
Data
Layers
Virtual Research
Communities
Support, Policy
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International Dimension
100%
Number of Projects
yes
yes
90%
80%
yes
yes
yes
70%
60%
50%
no
no
40%
30%
INCO Dimension
yes
no
no
no
no
20%
10%
0%
Connectivity/Network
Computing
Data
Layers
Virtual Research
Communities
Support, Policy
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Millions
Main user communities supported
30
25
20
FP
FP7
FP6
15
10
5
0
SSH
Environmental
Sciences
Energy and
transports
Biological and
Medical Sciences
Data
Materials and
Analytical
Facilities
Physical
Sciences and
Engineering
Security/Civil
protection
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User community support per
infrastructure layer
100%
90%
80%
70%
Data
Security/Civil protection
60%
Physical Sciences and Engineering
Materials and Analytical Facilities
50%
Biological and Medical Sciences
Energy and transports
40%
Environmental Sciences
SSH
30%
20%
10%
0%
Connectivity/Network
Computing
Data
Layers
Virtual Research
Communities
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FP7-INFRA-2010-2 Call 7 overview

Opened: 30/07/2009

Closed: 24/11/2009
107 proposals received (106 eligible)
Budget
M EUR
Retained
Proposals
48.3
6
20
1
Simulation software and services
12.1
5
Virtual Research Communities
24.2
10
Coordination actions, conferences and studies
supporting policy development
10.4
16
Topics called
Distributed computing infrastructure (DCI)
High Performance Computing service PRACE
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RI WP2011 (e-Infrastructure part)
- main objectives
 Consolidation and reinforcement
• of existing initiatives (data infrastructures, HPC, user
communities etc)
 Integration
• of e-Infrastructure layers
• into e-Science environments
• service oriented approach
 Openness
• to new technologies and concepts
Support actions
NCPs
…
ICT
€27M
medical
spectroscopy
fusion
physics
geosciences
astronomy
climatology
space
biology
€4M
environment
DRAFT
User Communities
Data layer
eScience
Environment
Simulation software & services layer
Computing layer: Distributed Computing & PRACE
Network layer
€1M
€43M
PRACE €20M
e-Science environments
(indicative budget: €27m)
 Seamless service provision to Research Communities
• network/computing/data integration; unified access
• resource virtualisation, hybrid cloud-grid implementations
 Design, development and deployment of interfaces
• Advanced software tools and techniques
• Standardisation
 Virtual access, facilities and testbeds
• Access (lower barriers, cost effectiveness, interfaces,...)
• Composition of virtual facilities
 e-Science support centres and training
 including for ESFRI communities
Also: Pilot implementations, non-researcher usage, open standards and
APIs, clear licensing schemes, international cooperation
Data infrastructures for e-Science
(indicative budget: €43m)
General objective:
Establish a persistent and robust service
infrastructure for scientific data in Europe that
responds to the needs of the data-intensive
Science of 2020
INFRA-2011-1.2.2
More specifically:
Deployment of generic services for persistent data storage, access
and management that assure data provenance, authenticity and
integrity and respond to the needs of advanced user communities
Development of an open access, participatory infrastructure for
scientific information linking peer-reviewed literature and
associated data sets and collections which can be open to nonscientists and to providers of value-added services
Scientific community-driven policy development and service
deployment for data generation, provenance, quality assessment,
certification, curation, annotation, navigation and management so
as to promote the sharing of data and the development of trust
INFRA-2011-1.2.2
Development and deployment of tools and techniques for
the provision of advanced data services notably for data
discovery, mining, visualisation and simulation
All proposals are encouraged to:
(a) consider the international dimension of their activities;
(b) address education and training;
(c) address social factors and incentives or rewards that would encourage the
use of open data infrastructures by scientists;
(d) leverage national e-Science initiatives on data;
(e) foster the use and deployment of open standards and APIs in order to
encourage value-added services by third parties;
(f) set up help/support lines for users where appropriate;
(g) consider appropriate licensing schemes for open source software;
(h) address financial sustainability.
Data infrastructures for e-Science
(indicative budget: €43m)
 Service deployment for data storage & manag’t
• Data provenance, authenticity, integrity
• Legal aspects, business models, interoperability, PPPs
• Financial and environmental sustainability
 Open access infrastructures
• IPR frameworks, financing models, interoperability
 Community-driven infrastructures & policies
 data generation, provenance, quality assessment, certification,
curation, annotation
• Harmonisation of metadata, semantics, ontologies
 Tool frameworks (e.g. visualisation, mining)
Encouraged: international cooperation, open standards, training,
social factors,…
High Performance Computing (HPC)
(indicative budget: €20m)
 Integration of DEISA services in PRACE
 Peta-scaling of applications
• In synchrony with PRACE procurement plans
• Led by user communities
• Vendor involvement
• Applications of societal relevance
 Prototyping of new architectures/machines
Support actions (draft)
(indicative budget: €4+1m; financial limits apply!)
 Laying the theoretical foundations of e-infrastructure
development
 Involving youngsters / citizens in Science through eInfrastructure
 Social and human aspects; trust
 Development of skills and curricula for information & data
scientists
 Business models for supporting open Science
 International cooperation in REN for (a) EU- China link
and (b) feasibility of transantlantic connectivity with Latin
America
+ Continuation of NCP network
ICT WP2011-12: Exascale computing
(indicative budget: €25m)
 Develop a few advanced computing platforms with
extreme performance (100 petaflop/s in 2014 with
potential for exascale by 2020)
 Develop optimised application codes for above
systems driven by the computational needs of
 science & engineering
 today's grand challenges (climate change, energy,
industrial design & manufacturing, systems biology etc)
 Strong synergy with PRACE
 International cooperation
•
Leaflet on the RI Call 9:
http://cordis.europa.eu/fp7/ict/einfrastructure/publications_en.html
•
Web page of the Call 9 information day held on 11.06.10:
http://cordis.europa.eu/fp7/ict/e-infrastructure/events20100611_en.html
•
E-mail for questions related to the call:
[email protected]
•
Once published (20.07.09) the call page will be accessible from:
http://cordis.europa.eu/fp7/dc/index.cfm
•
e-Infrastructures home page:
http://cordis.europa.eu/fp7/ict/e-infrastructure/home_en.html
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Contacts
INFRA-2011-1.2.1: e-Science environments
Contact: Enric Mitjana, Ioannis Sagias
INFRA-2011-1.2.2: Data infrastructures for e-Science
Contact: Krystyna Marek, Carlos Morais Pires
INFRA-2011-2.3.5: Second implementation phase of
the European High Performance Computing (HPC)
service PRACE
Contact: Bernhard Fabianek, Carmela Asero
INFRA-2011-3.4: Coordination actions, conferences and studies
supporting policy development, including international
cooperation, for e-Infrastructures
Contact: Bernhard Fabianek, Carmela Asero
INFRA-2011-3.5: Trans-national cooperation among NCPs
Contact: Bernhard Fabianek, Carmela Asero
[email protected]
rising tide of data…
A fundamental characteristic of our age is the raising tide
of data – global, diverse, valuable and complex. In the
realm of science, this is both an opportunity and a
challenge.
Report of the High-Level Experts Group on Scientific Data, to be published in October
“Riding the wave
How Europe can Gain from the rising tide of scientific data”
vision 2030
high-level experts group on Scientific Data
“Our vision is a scientific e-infrastructure that supports
seamless access, use, re-use, and trust of data. In a sense,
the physical and technical infrastructure becomes
invisible and the data themselves become the
infrastructure – a valuable asset, on which science,
technology, the economy and society can advance.”
high-level experts group on Scientific Data
Data as Infrastructure
Vision 2030 of the High-Level Group on Scientific Data
Source: High-level Group on Scientific Data
Aggregated Data Sets
(Temporary or Permanent)
Other Data
Climatology
Biology
Scientific Data
(Discipline Specific)
Workflows
Aggregation Path
Researcher 2
Researcher 1
Scientific World
• API
• Data Discovery & Navigation
• Workflows Generation
• Computing Infrastructure
• Persistent Storage Capacity
• Integrity
• Authentication & Security
Community Support Services
Data Services
Non Scientific World
Future perspectives
 e-Infrastructures underpinning a creativity machine
 Contribution to ERA and “5th freedom”, Digital Agenda,
Innovation Union; Communications on HPC and Access
 e-Infrastructures in transition
•
Towards infrastructure-as-a-service
•
From connectivity and grids to an integrated offer involving
networks, data, all computing and software
•
Progressive and disparate involvement of users
•
Governance and financial models in evolution
 More emphasis on Scientific Data Infrastructures

“Data’s shameful neglect” (Nature, 10 September 2009)
 International dimension important
e-Infrastructures
underpinning a creativity machine…
“We humans have built a creativity machine. It’s the sum
of three things: a few hundred million of computers, a
communication system connecting those computers, and
some millions of human beings using those computers
and communications.”
Vernor Vinge (Nature, Vol 440, March 2006)
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