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LEIT (ICT7 + ICT8): Cloud strategy - Cloud R&I: Heterogeneous cloud infrastructures, federated cloud networking; cloud innovation platforms; - PCP for.

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Presentation on theme: "LEIT (ICT7 + ICT8): Cloud strategy - Cloud R&I: Heterogeneous cloud infrastructures, federated cloud networking; cloud innovation platforms; - PCP for."— Presentation transcript:

1 LEIT (ICT7 + ICT8): Cloud strategy - Cloud R&I: Heterogeneous cloud infrastructures, federated cloud networking; cloud innovation platforms; - PCP for public sector cloud computing services; PPI for cloud computing solutions. LEIT (ICT7 + ICT8): Cloud strategy - Cloud R&I: Heterogeneous cloud infrastructures, federated cloud networking; cloud innovation platforms; - PCP for public sector cloud computing services; PPI for cloud computing solutions. LEIT (ICT4): Customised and low power computing systems Next generation computing systems: scalable micro- servers ("data-centres in the box") Programming approaches for the computing continuum: productivity, multi-parameter optimisation Platform-building for problems with real-time constraints; application experiments in cyber-physical systems LEIT (ICT4): Customised and low power computing systems Next generation computing systems: scalable micro- servers ("data-centres in the box") Programming approaches for the computing continuum: productivity, multi-parameter optimisation Platform-building for problems with real-time constraints; application experiments in cyber-physical systems Societal Challenges: Applications Health, food, energy, transport, climate, inclusion/innovation, security Societal Challenges: Applications Health, food, energy, transport, climate, inclusion/innovation, security LEIT: ECSEL joint undertaking Components Next generation micro processors / controllers, System-on-Chip, processor architectures LEIT: ECSEL joint undertaking Components Next generation micro processors / controllers, System-on-Chip, processor architectures LEIT = LEadership in Industrial Technologies ICT4 - Customised and low power computing The context

2 LEIT (ICT7 + ICT8): Cloud strategy - Cloud R&I: Heterogeneous cloud infrastructures, federated cloud networking; cloud innovation platforms; - PCP for public sector cloud computing services; PPI for cloud computing solutions. LEIT (ICT7 + ICT8): Cloud strategy - Cloud R&I: Heterogeneous cloud infrastructures, federated cloud networking; cloud innovation platforms; - PCP for public sector cloud computing services; PPI for cloud computing solutions. LEIT (ICT4): Customised and low power computing systems Next generation computing systems: scalable micro- servers ("data-centres in the box") Programming approaches for the computing continuum: productivity, multi-parameter optimisation Platform-building for problems with real-time constraints; application experiments in cyber-physical systems LEIT (ICT4): Customised and low power computing systems Next generation computing systems: scalable micro- servers ("data-centres in the box") Programming approaches for the computing continuum: productivity, multi-parameter optimisation Platform-building for problems with real-time constraints; application experiments in cyber-physical systems Societal Challenges: Applications Health, food, energy, transport, climate, inclusion/innovation, security Societal Challenges: Applications Health, food, energy, transport, climate, inclusion/innovation, security LEIT: ECSEL joint undertaking Components Next generation micro processors / controllers, System-on-Chip, processor architectures LEIT: ECSEL joint undertaking Components Next generation micro processors / controllers, System-on-Chip, processor architectures LEIT = LEadership in Industrial Technologies Seismic data analysis Vehicle stability System on a Chip Integrated system Application Tools & platforms Commercial public Cloud Embedded specialised computing ICT4 - Customised and low power computing Examples The context

3 ICT4 - Customised and low power computing Computing is changing (again): embedded ICT and cyber- physical systems are everywhere; demand for low-power and high-performance computing is growing; a new "computing continuum" is emerging. Three trends are common across many market segments: Multi core and parallel architectures Energy efficiency Mixed criticality systems and applications

4 ICT4 - Customised and low power computing What we ask for (1) Servers, micro-server and highly parallel embedded computing systems based on ultra-low power architectures Integration of HW and SW into working prototypes Low-power, low-cost, high-density, secure, reliable, scalable Cross-layer programming approaches to exploit the full potential of heterogeneous parallel architectures Multi-dimensional optimisation (performance, energy, response time…) Programming approach per application class, easy for programmers Scalable market approach

5 ICT4 - Customised and low power computing What we ask for (1) Servers, micro-server and highly parallel embedded computing systems based on ultra-low power architectures Integration of HW and SW into working prototypes Low-power, low-cost, high-density, secure, reliable, scalable Cross-layer programming approaches to exploit the full potential of heterogeneous parallel architectures Multi-dimensional optimisation (performance, energy, response time…) Programming approach per application class, easy for programmers Scalable market approach A good start: EUROSERVER project (FP7) New low-power architecture Reuse energy-efficient components in a micro-server solution High-performance, scalable from embedded to cloud BUT: focused on hardware for H2020 we need integration across all layers (HW & SW) A good start: EUROSERVER project (FP7) New low-power architecture Reuse energy-efficient components in a micro-server solution High-performance, scalable from embedded to cloud BUT: focused on hardware for H2020 we need integration across all layers (HW & SW)

6 ICT4 - Customised and low power computing What we ask for (2) Reference architectures and platforms across several sectors and application domains Use-case driven Industrial consensus building, pre-normative activities, reference implementations, proof-of concept demonstrations and validation in key application domains Small proposals Application experiments bringing together all actors along the value chain experiments clustered in large scale projects driven by networks of European centres of excellence Open calls Large proposals

7 ICT4 - Customised and low power computing What we ask for (2) Reference architectures and platforms across several sectors and application domains. Use-case driven Industrial consensus building, pre-normative activities, reference implementations, proof-of concept demonstrations and validation in key application domains Small proposals Application experiments bringing together all actors along the value chain experiments clustered in large scale projects driven by networks of European centres of excellence Open calls Large proposals A good example: I4MS (ICT for Manufacturing SMEs) Helping high-tech and innovative SMEs to profit from advances in ICT "In total about 200 SMEs will take part in I4MS with more than 150 innovation experiments over the next 3 years" Need a similar initiative for customised and low-power computing A good example: I4MS (ICT for Manufacturing SMEs) Helping high-tech and innovative SMEs to profit from advances in ICT "In total about 200 SMEs will take part in I4MS with more than 150 innovation experiments over the next 3 years" Need a similar initiative for customised and low-power computing

8 ICT4 - Customised and low power computing Yes, but what's new? Embedded systems have evolved into cyber-physical systems (connected) Wide availability of multi-core and the end of Moore's law Optimisation is now multi-dimensional: energy, performance, response time, security… (more non-functional requirements) HPC remains a different market, but now "embedded HPC" is emerging Programmers don’t have to be specialists in parallel algorithms Yes, but what's new? Embedded systems have evolved into cyber-physical systems (connected) Wide availability of multi-core and the end of Moore's law Optimisation is now multi-dimensional: energy, performance, response time, security… (more non-functional requirements) HPC remains a different market, but now "embedded HPC" is emerging Programmers don’t have to be specialists in parallel algorithms We do NOT want: Proposals with no industrial or innovation aspects. Proposals without prototypes, applications or experiments. We do NOT want: Proposals with no industrial or innovation aspects. Proposals without prototypes, applications or experiments. Who are the leading players? System integrators (Bull, Eurotech, Ericsson, IBM, Thales) Hardware (ST-Microelectronics, ARM, Infineon, Intel) Research (Barcelona Supercomputing Center, FORTH, Fraunhofer, INRIA, POLIMI, UNI-Stuttgart, TU-Wien) Industrial users (Airbus, Comau, EDF, Philips) …and many others (including many innovative SMEs) Who are the leading players? System integrators (Bull, Eurotech, Ericsson, IBM, Thales) Hardware (ST-Microelectronics, ARM, Infineon, Intel) Research (Barcelona Supercomputing Center, FORTH, Fraunhofer, INRIA, POLIMI, UNI-Stuttgart, TU-Wien) Industrial users (Airbus, Comau, EDF, Philips) …and many others (including many innovative SMEs)

9 http://ec.europa.eu/digital-agenda/en/advanced-computing sandro.delia@ec.europa.eu


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