• Condividi su Facebook

PRO3D - Programming for Future 3D Architectures with Many Cores

  • 26254
  • CORDIS - PROJECTS 01/01/2010
  • RISULTATO

The shift from systems-on-chip (SoC) to manycore architectures brings new hardware and software challenges ranging from seamless integration of processors, memories the design of modular systems and application software to run on massively parallel and scalable platforms. Manycores will benefit tremendously from 3-dimensional (3D) integration technology that enables distribution in space of computational and storage functions to achieve unprecedented performance levels.
PROD3D is an ambitious high risk and high reward project that builds upon existing European world-class R&D expertise of the partners. PRO3D will innovate in both hardware and software technologies and demonstrate the effectiveness of manycores by an integrated and concerted effort in key aspects of hardware and software design. The uniqueness of this proposal stems from the experience of the partners in various aspects of manycore design that need to be addressed concurrently.
The key outcome of PRO3D will be a holistic system design methodology to bring a drastic improvement of productivity to reduce cost development and time to market for future embedded computing.
In particular, PROD3D will:

  1. Develop a system software flow that can operate transparently on parallel manycore platforms;
  2. Develop formal methods for software design guaranteeing the composability and correct operation of both Hardware and software;
  3. Explore the impact of 3D integration for new computing architectures
  4. Extend the software-flow to 3D-stacked manycores. The PRO3D consortium brings together world-class leaders in their own field with competencies to cover software, architecture and 3D integration.

One of the key differentiators of the PRO3D consortium is its access to an industrial many core System on Chip, named 'Platform 2012' and provided by STM. The industrial impact of PRO3D is potentially high since re-search outcomes will be directly exploitatable into STM product roadmaps.


Start date: 2010-01-01
End date: 2012-06-30

Duration: 30 months

Project Reference: 248776

Project cost: 3542773 EURO
Project Funding: 2617000 EURO

Subprogramme Area: Computing Systems
Contract type: Collaborative project (generic)


Coordinatore: COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES -  (FRANCE) - Christian FABRE (Mr)

Altri Partecipanti

  • UNIVERSITE JOSEPH FOURIER GRENOBLE 1 (FRANCE)
  • EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZURICH (SVIZZERA)
  • ALMA MATER STUDIORUM-UNIVERSITA DI BOLOGNA - DEIS (ITALIA)
  • ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE - INTEGRATED SYSTEM CENTER AT EPF LAUSANNE (SVIZZERA)
  • STMICROELECTRONICS GRENOBLE 2 SAS - ADVANCED SYSTEM TECHNOLOGY (FRANCE)
Link
Quadro di finanziamento
  • 7FP-ICT : TECNOLOGIE DELL’INFORMAZIONE E DELLA COMUNICAZIONE: priorità tematica 3 nell'ambito del programma specifico “Cooperazione” recante attuazione del Settimo programma quadro (2007-2013) di attività comunitarie di ricerca, sviluppo tecnologico e dimostrazione
Area di interesse
  • Unione Europea