source: anr/section-consortium-desc.tex @ 289

\anrdoc{(maximum 0,5 page par partenaire) Decrire brievement chaque
partenaire et fournir ici les elements permettant d'apprecier la
qualification des partenaires dans le projet (le \og pourquoi qui fait quoi
\fg). Il peut s'agir de realisations passees, d'indicateurs (publications,
brevets), de l'interet du partenaire pour le projet.\\
Montrer la complementarite et la valeur ajoutee des cooperations entre les
differents partenaires. L'interdisciplinarite et l'ouverture à diverses
collaborations seront à justifier en accord avec les orientations du
projet. (1 page maximum)}

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\subsubsection{\inria/CAIRN}

INRIA, the French national institute for research in computer science
and control, operating under the dual authority of the Ministry of
Research and the Ministry of Industry, is dedicated to fundamental and
applied research in information and communication science and
technology (ICST). The Institute also plays a major role in technology
transfer by fostering training through research, diffusion of
scientific and technical information, development, as well as
providing expert advice and participating in international programs.
\parlf
By playing a leading role in the scientific community in the field and
being in close contact with industry, INRIA is a major participant in
the development of ICST in France. Throughout its eight research
centres in Rocquencourt, Rennes, Sophia Antipolis, Grenoble, Nancy,
Bordeaux, Lille and Saclay, INRIA has a workforce of 3 800, 2 800 of
whom are scientists from INRIA and INRIA's partner organizations such
as CNRS (the French National Center for Scientific Research),
universities and leading engineering schools. They work in 168 joint
research project-teams. Many INRIA researchers are also professors and
approximately 1 000 doctoral students work on theses as part of INRIA
research project-teams.
%\parlf
%INRIA develops many partnerships with industry and fosters technology
%transfer and company foundation in the field of ICST - some ninety
%companies have been founded with the support of INRIA-Transfert, a
%subsidiary of INRIA, specialized in guiding, evaluating, qualifying,
%and financing innovative high-tech IT start-up companies. INRIA is
%involved in standardization committees such as the IETF, ISO and the
%W3C of which INRIA was the European host from 1995 to 2002.
%\parlf
%INRIA maintains important international relations and exchanges. In
%Europe, INRIA is a member of ERCIM which brings together research
%institutes from 19 European countries. INRIA is a partner in about 120
%FP6 actions and 40 FP7 actions, mainly in the ICST field. INRIA also
%collaborates with numerous scientific and academic institutions abroad
%(joint laboratories such as LIAMA, associated research teams, training
%and internship programs).

The CAIRN group of INRIA Rennes -- Bretagne Atlantique study reconfigurable
system-on-chip, i.e. hardware systems whose configuration may change before or even during
execution. To this end, CAIRN has 13 permanent researchers and a variable number of PhD
students, post-docs and engineers.
CAIRN intends to approach reconfigurable architectures from three
angles: the invention of new reconfigurable platforms, the development
of associated transformation, compilation and synthesis tools, and the
exploration of the interaction between algorithms and architectures.
CAIRN is a joint team with CNRS, University of Rennes 1 and ENS Cachan.

\subsubsection{\lip/Compsys}
The Compsys group of Ecole Normale Sup\'erieure de Lyon is a project-team
of INRIA Rh\^one-Alpes and a part of Laboratoire de l'Informatique du
Parall\'elisme (LIP), UMR 5668 of CNRS. It has four permanent researchers
and a variable number of PhD students and post-docs. Its field of
expertise is compilation for embedded system, optimizing compilers
and automatic parallelization. Its members were among the initiators
of the polyhedral model for automatic parallelization and program
optimization generally. It  has authored or contributed to
several well known libraries for linear programming, polyhedra manipulation
and optimization in general. It has strong industrial cooperations, notably
with ST Microelectronics and \thales.


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\subsubsection{\tima}
The TIMA laboratory ("Techniques of Informatics and Microelectronics
for integrated systems Architecture") is a public research laboratory
sponsored by Centre National de la Recherche Scientifique (CNRS, UMR5159),
Grenoble Institute of Technology (Grenoble-INP) and Universit\'{e} Joseph Fourier
(UJF).
The research topics cover the specification, design, verification, test,
CAD tools and design methods for integrated systems, from analog and
digital components on one end of the spectrum, to multiprocessor
Systems-on-Chip together with their basic operating system on the other end.
\parlf
Currently, the lab employs 124 persons among which 60 PhD candidates, and runs
32 ongoing French/European funded projects.
Since its creation in 1984, TIMA funded 7 startups, patented 36 inventions
and had 243 PhD thesis defended.
\parlf
The System Level Synthesis Group (25 people including PhDs) is
involved in several FP6, FP7, CATRENE and ANR projects.
Its field of expertise is in CAD and architecture for Multiprocessor
SoC and Hardware/Software interface.

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\subsubsection{\ubs}

The Lab-STICC (Laboratoire des Sciences et Techniques de l'Information, 
de la Communication, et de la Connaissance), is a French CNRS laboratory 
(UMR 3192) that groups 4 research centers in the west and south 
Brittany: the Universit\'e de Bretagne-Sud (UBS), the Universit\'e de 
Bretagne Occidentale (UBO), and Telecom Bretagne (ENSTB). 
The Lab-STICC is composed of three departments: Microwave and equipments (MOM), 
Digital communications, Architectures and circuits (CACS) and Knowledge, 
information and decision (CID). The Lab-STICC represents a staff of 279 
peoples, including 115 researchers and 113 PhD students. 
The scientific production during the last 4 years represents 20 
books, 200 journal publications, 500 conference publications, 22 
patents, 69 PhDs diploma. 
\parlf
The UBS/Lab-STICC laboratory is involved in several national research 
projects (e.g. RNTL : SystemC'Mantic, EPICURE - RNRT : MILPAT, ALIPTA, 
A3S - ANR : MoPCoM, SoCLib, Famous, RaaR, AFANA, Open-PEOPLE, ICTER ...), 
CMCU project (COSIP) and regional projects (e.g. ITR projects PALMYRE 
...). It is also involved in European Project (e.g. ITEA/SPICES, 
IST/AETHER ...). These projects are conducted through tight cooperation 
with national and international companies and organizations (e.g. France 
Telecom CNET, MATRA, CEA, ASTRIUM, \thales Com., \thales Avionics, AIRBUS, 
BarCo, STMicroelectronics, Alcatel-Lucent ...). Results of those or former 
projects are for example the high-level synthesis tool GAUT, the UHLS 
syntax and semantics-oriented editor, the DSP power estimation tool 
Soft-explorer or the co-design framework Design Trotter.
\parlf
The CACS department of the Lab-STICC (also referred as UBS/Lab-STICC), 
located in Lorient, is involved in COACH. 
The UBS/Lab-STICC is working on the design of complex electronic systems 
and circuits, especially but not exclusively focussing on real-time 
embedded systems, power and energy consumption optimization, high-level 
synthesis and IP design, digital communications, hardware/software 
co-design and ESL methodologies. The application targeted by the 
UBS/Lab-STICC are mainly from telecommunication and multimedia domains 
which enclose signal, image, video, vision, and communication processing.

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\subsubsection{\upmc}

University Pierre et Marie Curie (UPMC)  is the largest university in France (7400
employees,38000 students).
The Laboratoire d'Informatique de Paris 6 (LIP6) is the computer science laboratory of
UPMC, hosting more than 400 researchers, under the umbrella of the CNRS (Centre National
de la Recherche Scientifique).
The \og System on Chip \fg Department of LIP6 consists of  80 people, including 40 PHD
students.
The research focuses on CAD tools and methods for VLSI and System on Chip design. 
\\
The annual budget is about 3 M{\texteuro}, and 1.5 M{\texteuro} are from research contracts. 
The SoC department has been involved in several european projects :IDPS, EVEREST, OMI-HIC,
OMI-MACRAME, OMI-ARCHES, EUROPRO, COSY, Medea SMT, Medea MESA, Medea+ BDREAMS, Medea+
TSAR.
\parlf
The public domain VLSI CAD system ALLIANCE, developped at UPMC is installed in more than
200 universities worldwide.
The LIP6 is in charge of the technical coordination of the SoCLib national project, and is
hosting the SoCLib WEB server.
The SoCLib DSX component was designed and developped in our laboratory.
It allows design space exploration and will the base of the $CSG$ COACH tools.
Moreover, the LIP6 developped during the last 10 years the UGH tool for high level
synthesis of control-dominated coprocessors.
This tool will be modified to be integrated in the COACH design flow.
\parlf
Even if the preferred dissemination policy for the COACH design flow will be the free
software policy, the SoC department is ready to support start-ups :
Six startup companies have been created by former
researchers from  the SoC department of LIP6 between 1997 and 2002.

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\subsubsection{\xilinx}

\xilinx is the world leader in the domain of programmable logic circuits (FPGA).
\xilinx develops on one hand several FPGA architectures (CoolRunner, Spartan and Virtex
families) and on the other hand a software solution allowing exploiting the
characteristics of these FPGA.
\parlf
The tools proposed allow the designer to describe his architecture from a modeling
language (VHDL/Verilog) to an optimized architecture implemented to the selected
technology.
The team located at Grenoble is responsible of the logic synthesis tool development (XST)
of the software solution, which aggregates all the steps allowing proceeding from a  HDL
model to a technological netlist:
\begin{itemize}
  \item Compilation of HDL code and model generation at Register Transfer Level (RTL).
  \item RTL model optimizations.
  \item Inference and generation of optimized macro blocks (Finite states machine, counter).
  \item Boolean equations generation for random logic.
  \item Logical, mapping and timing optimizations.
\end{itemize}
\parlf
The architectures developed by \xilinx offer a collection of technological primitives
(variable complexity) from simple Boolean generators (LUT) to complex DSP blocks or memory
and even configurable processor cores (Pico and MicroBlaze families).
This kind of architecture allows, therefore, the designer to validate different
hardware/software possibilities in a High Level Synthesis (HLS) framework.
\parlf
The classical optimization techniques focus, mainly, on the frequency aspects and on
available resources use.
The optimizations, taking into account the consumption criteria, become critical due to
the fact of the increase of the architecture complexity and due to the use of FPGA
component for low power applications.

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\subsubsection{\mds}

\mustbecompleted{A COMPLETER: Emmanuel ....}

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\subsubsection{\bull}

\bull designs and develops servers and software for an open environment, integrating the
most advanced technologies. It brings to its customers its expertise and know-how to help
them in the transformation of their information systems and to optimize their IT
infrastructure and their applications.
\parlf
\bull is particularly present in the public sector, banking, finance, telecommunication
and industry sectors. Capitalizing on its wide experience, the Group has a thorough
understanding of the business and specific processes of these sectors, thus enabling it to
efficiently advise and to accompany its customers. Its distribution network spreads to
over 100 countries worldwide.
\parlf
The team participating to the COACH project is from the Server Development Department
based in Les Clayes-sous-Bois, France. The SD Department is in charge of developing
hardware for open servers (e.g. NovaScale) and HPC solutions. Its main activities range
from architecture specification, ASIC design/verification/prototyping to board design and
include also specific EDA development to complement standard tools.

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\subsubsection{\thales}

\thales is a world leader for mission critical information systems, with activities in 3
core businesses: aerospace (with all major aircraft manufacturers as customers), defence,
and security (including ground transportation solutions). It employs 68000 people
worldwide, and is present in 50 countries. \thales Research \& Technology operates at the
corporate level as the technical community network architect, in charge of developing
upstream and \thales-wide R \& T activities, with vision and visibility. In support of
\thales applications, TRT's mission is also to anticipate and speed up technology transfer
from research to development in Divisions by developing collaborations in R\&T. \thales is
international, but Europe-centered. Research \& Development activities are disseminated,
and corporate Research and Technology is concentrated in Centres in France, the United
Kingdom and the Netherlands. A key mission of our R\&T centres is to have a bi-directional
transfer, or "impedance matching" function between the scientific research network and the
corresponding businesses. The TRT's Information Science and Technology Group is able to
develop innovative solutions along the information chain exploiting sensors data, through
expertise in: computational architectures in embedded systems, typically suitable for
autonomous system environments, mathematics and technologies for decision involving
information fusion and cognitive processing, and cooperative technologies including man
system interaction.
\parlf
The Embedded System Laboratory (ESL) of TRT involved in the COACH project is part of the
Information Science and Technology Group. Like other labs of TRT, ESL is in charge of
making the link between the needs from \thales business units and the emerging
technologies, in particular through assessment and de-risking studies. It has a long
experience on parallel architectures design, in particular on SIMD architectures used for
image processing and signal processing applications and on reconfigurable architectures.
ESL is also strongly involved in studies on programming tools for these types of
architectures and has developed the SpearDE tool used in this project. The laboratory had
coordinated the FP6 IST MORPHEUS project on reconfigurable technology, being highly
involved in the associated programming toolset. The team is also involved in the FP6 IST
FET AETHER project on self-adaptability technologies and coordinates national projects on
MPSoC architecture and tools like the Ter\verb+@+ops project (P\^{o}le de
Comp\'{e}titivit\'{e} System\verb+@+tic) dedicated to the design of a MPSoC for intensive
computing embedded systems.