1 | |
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2 | % Relevance of the proposal |
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3 | |
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4 | The COACH proposal addresses directly the Embedded Systems of |
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5 | the ARPEGE program. It aims to propose solutions to the societal/economical challenges by |
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6 | providing the industry the novel design capabilities enabling them to increase their |
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7 | design productivity with design exploration and synthesis methods that are placed on top |
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8 | of the state-of-the-art methods, and thus, allowing the industry to better cope with the |
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9 | complexity of designed digital systems. |
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10 | \par |
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11 | COACH will also contribute to the following strategic objectives of the ARPEGE program: |
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12 | COACH will specifically contribute to enable the building of open development and run-time |
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13 | environments for software and services, interoperable middleware and tools to support |
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14 | developers in the production of embedded software, through all phases of the software lifecycle, |
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15 | from requirements analysis until deployment and maintenance. |
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16 | \\ |
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17 | More specifically, COACH focuses on: |
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18 | \begin{itemize} |
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19 | \item High level methods and concepts (esp. requirements and architectural level) for system |
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20 | design, development and integration, addressing complexity aspects and modularity. |
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21 | \item Open and modular development environments, enabling flexibility and extensibility by |
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22 | means of new or sector-specific tools and ensuring consistency and traceability along the |
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23 | development lifecycle. |
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24 | \item Light/agile methodologies and adaptive workflow providing a dynamic and adaptive |
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25 | environment, suitable for co-operative and distributed development. |
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26 | \end{itemize} |
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27 | COACH outcome will contribute to strengthen Europe's competitive position by developing |
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28 | technologies and methodologies for product development, focusing (in compliance with the |
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29 | scope of the above program) on technologies, engineering methodologies, novel tools, |
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30 | methods which facilitate resource use efficiency. The approaches and tools to be developed |
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31 | in COACH will enable new and emerging information technologies for the development, |
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32 | manufacturing and integration of devices and related software into end-products. |
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33 | \\ |
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34 | This project proposes an open-source framework for architecture synthesis targeting |
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35 | Field Programmable Gate Array circuits (FPGA). |
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36 | \par |
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37 | % LIEN AVEC AUTRES PROJETS: LIP6/TIMA OK |
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38 | To evaluate the different architectures, the project uses the prototyping platform of the SoCLIB ANR project (2006-2009). |
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39 | \\ % LIEN AVEC AUTRES PROJETS: IRISA |
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40 | The project will also borrow from the ROMA ANR project (2007-2009) and the ongoing |
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41 | joint INRIA-STMicro Nano2012 project. In particular we will adapt existing pattern |
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42 | extraction algorithms and datapath merging techniques to the synthesis of customized |
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43 | ASIP processors. |
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44 | \par |
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45 | On the HPC application side, we also hope to benefit from the experience in |
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46 | hardware acceleration of bioinformatic algorithms/workfows gathered by the |
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47 | CAIRN group in the context of the ANR BioWic project (2009-2011), so as to |
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48 | be able to validate the framework on real-life HPC applications. |
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49 | \par |
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50 | %%% EXPERTISE DANS DES DOMAINES: LIP6/TIMA/LAB-STIC OK |
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51 | Regarding the expertise in High Level Synthesis (HLS), the project |
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52 | leverages on know-how acquired over 15 years with GAUT~\cite{gaut08} project |
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53 | developped in Lab-STIC laboratory and UGH~\cite{ugh08} project developped |
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54 | in LIP6 and TIMA laboratories. \\ |
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55 | Regarding architecture synthesis skills, the project is based on a know-how |
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56 | acquired over 10 years with the COSY European project (1998-2000) and the |
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57 | DISYDENT~\cite{disydent05} project developped in LIP6.\\ |
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58 | %%% EXPERTISE DANS DES DOMAINES: IRISA OK |
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59 | Regarding Application Specific Instruction Processor (ASIP) design, the |
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60 | CAIRN group at INRIA Bretagne Atlantique benefits from several years of |
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61 | expertise in the domain of retargetable compiler |
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62 | (Armor/Calife\cite{FIXME:IRISA} since 1996, and the Gecos |
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63 | compilers\cite{FIXME:IRISA} since 2002). |
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64 | %%% EXPERTISE DANS DES DOMAINES: FIXME:LIP |
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65 | %%%\mustbecompleted{For polyedric transformations and memory optimization, SYNTOL, BEE, ... LIP (CA ou PF)} |
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66 | |
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67 | Compsys was founded in 2002 by several senior researchers with experience in |
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68 | high performance computing and automatic parallelization. They have been |
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69 | among the initiators of the polyhedral model, a theory which serve to |
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70 | unify many parallelism detection and exploitation techniques for regular |
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71 | programs. It is expected that the techniques developped by Compsys for |
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72 | parallelism detection, scheduling, process construction and memory management |
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73 | will be very useful as a first step for a high-level synthesis tool. |
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74 | |
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75 | \par |
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76 | %%% DESCRIPTION DES PROJETS ANR UTILISES: SOCLIB OK |
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77 | The SoCLIB ANR platform were developped by 11 laboratories and 6 companies. It allows to |
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78 | describe hardware architectures with shared memory space and to deploy software |
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79 | applications on them to evaluate their performance. |
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80 | The heart of this platform is a library containing simulation models (in SystemC) |
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81 | of hardware IP cores such as processors, buses, networks, memories, IO controller. |
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82 | The platform provides also embedded operating systems and software/hardware |
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83 | communication components useful to implement applications quickly. |
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84 | However, the synthesisable description of IPs have to be provided by users. \\ |
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85 | This project enhances SoCLib by providing synthesisable VHDL of standard IPs. |
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86 | In addition, HLS tools such as UGH and GAUT allow to get automatically a synthesisable |
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87 | description of an IP (coprocessor) from a sequential algorithm. |
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88 | \par |
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89 | %%% DESCRIPTION DES PROJETS ANR UTILISES: ROMA FIXME:IRISA (~10 lignes) |
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90 | %%% 2 IRISA ? |
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91 | %%% 2 ASIP tool such as ... |
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92 | %%% 2 ... |
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93 | %%% 2 Coach uses pattern extractions from ROMA |
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94 | \mustbecompleted{ROMA \\...\\...\\...\\...\\...\\...\\...\\IRISA (SD)\\} |
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95 | \par |
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96 | % FIXME A VERIFIER L'appel d'offre |
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97 | The different points proposed in this project cover priorities defined by the commission |
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98 | experts in the field of Information Technolgies Society (IST) for Embedded |
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99 | systems: $<<$Concepts, methods and tools for designing systems dealing with systems complexity |
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100 | and allowing to apply efficiently applications and various products on embedded platforms, |
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101 | considering resources constraints (delais, power, memory, etc.), security and quality |
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102 | services$>>$. |
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103 | \\ |
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104 | Our team aims at covering all the steps of the design flow of architecture synthesis. |
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105 | Our project overcomes the complexity of using various synthesis tools and description |
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106 | languages required today to design architectures. |
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107 | |
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