Summary
Modular Microserver DataCentre (M2DC) will investigate, develop and demonstrate (Technology Readiness Level 7) a modular, highly-efficient, cost-optimized server architecture composed of heterogeneous microserver computing resources, being able to be tailored to meet requirements from various application domains such as image processing, cloud computing or even HPC. To achieve this objective, M2DC will be built on three main pillars:
- [Pillar 1] A flexible server architecture that can be easily customised, maintained and updated so as to enable adaptation of the data centre. Open server architecture will enable integration of computing resources with constrained thermal power dissipation such as embedded CPUs, GPUs, FPGAs, manycore processors integrated using established standards such as COM Express.
- [Pillar 2] Advanced management strategies [Pillar 2a] and system efficiency enhancements (SEE) [Pillar 2b] will improve the behaviour of the system during runtime. The server architecture will include built-in enhancements (e.g., for computing acceleration, energy efficiency, dependability and security, behaviour monitoring, etc.) on system level.
- [Pillar 3] Well-defined interfaces to surrounding software ecosystem will allow for an easy integration into existing data centre management solutions through the use of the latest middleware software for resource management, provisioning, etc.
The results of these three pillars will be combined to produce TCO (Total Cost of Ownership)-optimized appliances, deployed in a real data centre environment and seamlessly interacting with existing infrastructure to run real-life applications.
- [Pillar 1] A flexible server architecture that can be easily customised, maintained and updated so as to enable adaptation of the data centre. Open server architecture will enable integration of computing resources with constrained thermal power dissipation such as embedded CPUs, GPUs, FPGAs, manycore processors integrated using established standards such as COM Express.
- [Pillar 2] Advanced management strategies [Pillar 2a] and system efficiency enhancements (SEE) [Pillar 2b] will improve the behaviour of the system during runtime. The server architecture will include built-in enhancements (e.g., for computing acceleration, energy efficiency, dependability and security, behaviour monitoring, etc.) on system level.
- [Pillar 3] Well-defined interfaces to surrounding software ecosystem will allow for an easy integration into existing data centre management solutions through the use of the latest middleware software for resource management, provisioning, etc.
The results of these three pillars will be combined to produce TCO (Total Cost of Ownership)-optimized appliances, deployed in a real data centre environment and seamlessly interacting with existing infrastructure to run real-life applications.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/688201 |
| Start date: | 01-01-2016 |
| End date: | 30-06-2019 |
| Total budget - Public funding: | 7 998 935,00 Euro - 7 998 935,00 Euro |
Cordis data
Original description
Modular Microserver DataCentre (M2DC) will investigate, develop and demonstrate (Technology Readiness Level 7) a modular, highly-efficient, cost-optimized server architecture composed of heterogeneous microserver computing resources, being able to be tailored to meet requirements from various application domains such as image processing, cloud computing or even HPC. To achieve this objective, M2DC will be built on three main pillars:- [Pillar 1] A flexible server architecture that can be easily customised, maintained and updated so as to enable adaptation of the data centre. Open server architecture will enable integration of computing resources with constrained thermal power dissipation such as embedded CPUs, GPUs, FPGAs, manycore processors integrated using established standards such as COM Express.
- [Pillar 2] Advanced management strategies [Pillar 2a] and system efficiency enhancements (SEE) [Pillar 2b] will improve the behaviour of the system during runtime. The server architecture will include built-in enhancements (e.g., for computing acceleration, energy efficiency, dependability and security, behaviour monitoring, etc.) on system level.
- [Pillar 3] Well-defined interfaces to surrounding software ecosystem will allow for an easy integration into existing data centre management solutions through the use of the latest middleware software for resource management, provisioning, etc.
The results of these three pillars will be combined to produce TCO (Total Cost of Ownership)-optimized appliances, deployed in a real data centre environment and seamlessly interacting with existing infrastructure to run real-life applications.
Status
CLOSEDCall topic
ICT-04-2015Update Date
27-10-2022
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Organisations
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| INSTYTUT CHEMII BIOORGANICZNEJ POLSKIEJ AKADEMII NAUK (Coördinator)
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| ALLIANCE SERVICES PLUS
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| ARM LIMITED
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| BEYOND.PL SP ZOO
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| CEWE STIFTUNG & CO KGAA
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| CHRISTMANN INFORMATIONSTECHNIK + MEDIEN GMBH & CO KG
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| HUAWEI TECHNOLOGIES DUESSELDORF GMBH
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| OFFIS EV (OFFIS EV)
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| Politecnico di Milano
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| REFLEX CES
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| UNIVERSITAET BIELEFELD
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| VODAFONE AUTOMOTIVE ITALIA S.P.A. (VODAFONE)
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| VODAFONE AUTOMOTIVE TELEMATICS SA
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| XLAB RAZVOJ PROGRAMSKE OPREME IN SVETOVANJE D.O.O.