Changeset 191


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Timestamp:
Feb 15, 2010, 11:07:18 PM (15 years ago)
Author:
coach
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IA

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  • anr/section-2.2.tex

    r177 r191  
    1 
    21% Relevance of the proposal
    3 
    4 
    5 
    6 
    72The COACH proposal addresses directly the \emph{Embedded Systems} item of
    83the ARPEGE program. It aims to propose solutions to the societal/economical challenges by
     
    2823environment, suitable for co-operative and distributed development.
    2924\end{itemize}
    30 %%%
    31 \parlf
    3225COACH outcome will contribute to strengthen Europe's competitive position by developing
    3326technologies and methodologies for product development, focusing (in compliance with the
     
    3730manufacturing and integration of devices and related software into end-products.
    3831%%%
    39 \parlf
     32\parlf\noindent
    4033The COACH project will benefit from a number of previous recent projects:
    4134\begin{description}
    4235  \item[SOCLIB]
    43     The SoCLib ANR platform (2007-2009) is an open infrastructure developped by 10 academic laboratories
    44     (TIMA, LIP6, Lab-STICC, IRISA, ENST, Gipsa-Lab, CEA-LIST, CEA-LETI, CITI, INRIA-Futurs, LIS) and 6
    45         industrial companies (Thales Communications, Thomson R\&D, STMicroelectronics, Silicomp, MDS, TurboConcept).
     36    The SoCLib ANR platform (2007-2009) is an open infrastructure developped by
     37    10 academic laboratories and and 6 industrial companies.
     38%    \mustbecompleted{10 FIXME il y a 11 noms dans la liste :(} academic laboratories
     39%    (TIMA, LIP6, Lab-STICC, IRISA, ENST, Gipsa-Lab, CEA-LIST, CEA-LETI, CITI, INRIA-Futurs, LIS) and 6
     40%    industrial companies (Thales Communications, Thomson R\&D, STMicroelectronics, Silicomp, MDS, TurboConcept).
    4641    It supports system level virtual prototyping of shared memory, multi-processors
    4742    architectures, and provides tools to map multi-tasks software application on these
     
    7974\end{description}
    8075%%%
    81 \parlf
     76\parlf\noindent
    8277The laboratories involved in the COACH project have a well estabished expertise
    8378in the following domains:
     
    111106\end{itemize}
    112107%%%
    113 
    114 
     108\parlf\noindent
    115109The COACH project answers to several of the challenges found in different axis of the
    116 call for proposals. Keywords of the call are indicated below in italic writing.
    117 
    118 Axis 1 "Architectures des syst\`{e}mes embarqu\'{e}s" :
    119 
     110call for proposals.%Keywords of the call are indicated below in italic writing.
     111\begin{description}
     112\item[Axis 1] \textit{Architectures des syst\`{e}mes embarqu\'{e}s} \\
    120113COACH will address new embedded systems architectures by allowing the design of
    121114Multi-Core Systems-on-Chip (possibly heterogeneous) on FPGA according to the design
     
    124117running Embedded Software, as well as an Operating System with associated middleware and
    125118API and using hardware accelerator automatically generated. It will also permit to use
    126 efficiently different dynamic system management techniques and re-configuration mechanisms. 
    127 
    128 Axis 2 "Infrastructures pour l'Internet, le calcul intensif ou les services" :
    129 
     119efficiently different dynamic system management techniques and re-configuration mechanisms.
     120\textbf{Thereby COACH well corresponds to axis 1}.
     121%
     122\item[Axis 2] \textit{Infrastructures pour l'Internet, le calcul intensif ou les services} \\
    130123COACH will address High-Performance Computing (HPC) by helping designer to accelerate an
    131124application running on a PC by migrating critical parts into a SoC implemented on an FPGA
     
    134127configurations. Moreover, Dynamic Partial Reconfiguration will be used for improving HPC performance
    135128as well as reducing the required area.
     129\textbf{Thereby COACH partially corresponds to axis 2}.
     130%
     131% IA2PC: comme ce sont des axes tertiaire, il faut faire + court que primaire et
     132% IA2PC: secondaire.
     133\item[Axis 3 \& 5] \textit{Robotique et contr\^{o}le/commande} and \textit{S\'{e}curit\'{e} et suret\'{e}} \\
     134%VERS 1
     135%Future control applications employ more and more SoC.
     136%Application domains for such systems are for example the automotive domain, as well as the
     137%aerospace and avionics domains.
     138%In all cases, high performance and real time requirements are combined with
     139%requirements to low power, low temperature, high dependability, and low cost.\\
     140%Similary manufacturing, security and safety technologies require also more and more
     141%computation power.
     142%VERS 2 pour gagner de la place
     143Manufacturing, controling, security and safety technologies employ more and more SoC.
     144COACH will permit to design such complex digital systems.
     145\textbf{Thereby COACH indirectly answers to axis 3 and 5 too}.
     146\end{description}
     147%Axis 3 "Robotique et contr\^{o}le/commande}"
     148%
     149%COACH will permit to design complex digital systems based on high-performance multi-core systems.
     150%Like in the consumer electronics domain (telecommunication, multimedia), future control applications
     151%will employ more and more SoC not just for typical consumer functionality, but also for safety and
     152%security applications (by performing complex analyses on data gathered with intelligent sensors,
     153%by initiating appropriate responses to dangerous phenomena...). Application domains for such systems
     154%are for example the automotive domain, as well as the aerospace and avionics domains (i.e. sophisticated on-board
     155%radar systems, collision-detection, intelligent navigation...).
     156%Manufacturing technology will also increasingly need high-end vision analysis and high-speed
     157%robot control. In all cases, high performance and real time requirements are combined with
     158%requirements to low power, low temperature, high dependability, and low cost.
     159%
     160%Axis 5 "S\'{e}curit\'{e} et suret\'{e}" :
     161%
     162%The results of the COACH project will help users to build cryptographic secure systems implemented in
     163%hardware or both in software/ hardware in an effective way, substantially enhancing the
     164%process productivity of the cryptographic algorithms hardware synthesis, improving the
     165%quality and reducing the design time and the cost of synthesised cryptographic devices.
    136166
    137 Axis 3 "Robotique et controle/commande" :
    138 
    139 COACH will permit to design complex digital systems based on high-performance multi-core systems.
    140 Like in the consumer electronics domain (telecommunication, multimedia), future control applications
    141 will employ more and more SoC not just for typical consumer functionality, but also for safety and
    142 security applications (by performing complex analyses on data gathered with intelligent sensors,
    143 by initiating appropriate responses to dangerous phenomena...). Application domains for such systems
    144 are for example the automotive domain, as well as the aerospace and avionics domains (i.e. sophisticated on-board
    145 radar systems, collision-detection, intelligent navigation...).
    146 Manufacturing technology will also increasingly need high-end vision analysis and high-speed
    147 robot control. In all cases, high performance and real time requirements are combined with
    148 requirements to low power, low temperature, high dependability, and low cost.
    149 
    150 Axis 5 "S\'{e}curit\'{e} et suret\'{e}" :
    151 
    152 The results of the COACH project will help users to build cryptographic secure systems implemented in
    153 hardware or both in software/ hardware in an effective way, substantially enhancing the
    154 process productivity of the cryptographic algorithms hardware synthesis, improving the
    155 quality and reducing the design time and the cost of synthesised cryptographic devices.
    156 
    157 COACH technologies can be used in both large and small business, as they will permit users to design
    158 embedded systems which meet a wide range of requirements: from low cost and low power consuming
    159 devices to very high speed devices, based on parallel computing. For enterprises that will use embedded
    160 systems designed via the approaches and tools targeted by COACH, there is the potential for greater
    161 efficiency, improved business processes and models. The net results: lower costs, faster response times,
    162 better service, and higher revenue.
    163 
    164 
     167% IA2PC: 1) je ne vois pas trop ce que ca fait la.
     168% IA2PC: 2) c'est deja dans le 2.1 pour le small business.
     169% IA2PC: 3) Pour le large business, on avait mis ca dans la premiere version et je pense
     170% IA2PC     toujours que le large business est encore vise par COACH.
     171% IA2PC     Alain a enleve toute reference sur ce large business. Sa raison est +
     172% IA2PC     politico/stylistique: en parlant des 2 on n'est pas tres clair et on brouille
     173% IA2PC     le message. Je partage assez son avis, la version actuelle est + claire que
     174% IA2PC     celle d'avant. De plus on ne dit jamais que l'on ne vise pas les grosses
     175% IA2PC     boites.
     176% IA2PC
     177% IA2PC Bref je serai assez pour enlever ce paragraphe, et ne pas faire reference au large
     178% IA2PC business meme dans les section precedente. Par contre d'essayer de recaser le reste dans
     179% IA2PC les sections precedentes.
     180%
     181% VERS 2 pour gagner de la place je l'enleve
     182% COACH technologies can be used in both large and small business, as they will permit users to design
     183% embedded systems which meet a wide range of requirements: from low cost and low power consuming
     184% devices to very high speed devices, based on parallel computing. For enterprises that will use embedded
     185% systems designed via the approaches and tools targeted by COACH, there is the potential for greater
     186% efficiency, improved business processes and models. The net results: lower costs, faster response times,
     187% better service, and higher revenue.
    165188\parlf
    166189Finally, it is worth to note that this project covers priorities defined by the commission
     
    168191Systems: $<<$Concepts, methods and tools for designing systems dealing with systems complexity
    169192and allowing to apply efficiently applications and various products on embedded platforms,
    170 considering resources constraints (delais, power, memory, etc.), security and quality
     193considering resources constraints (delays, power, memory, etc.), security and quality
    171194services$>>$.
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