1 | \anrdoc{% |
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2 | Presentez le programme scientifique et justifiez la decomposition en taches du |
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3 | programme de travail en coherence avec les objectifs poursuivis.\\ |
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4 | Utilisez un diagramme pour presenter les liens entre les differentes taches (organigramme technique)\\ |
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5 | Les taches representent les grandes phases du projet. Elles sont en nombre |
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6 | limite.\\ |
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7 | Le cas echeant (programmes exigeant la pluridisciplinarite), demontrer |
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8 | l'articulation entre les disciplines scientifiques.\\ |
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9 | N'oubliez pas les activites et actions correspondant à la dissemination et à la valorisation.} |
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10 | |
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11 | |
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12 | \begin{figure}[h!]\leavevmode\center |
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13 | \includegraphics[width=.7\linewidth]{architecture-csg} |
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14 | \caption{\label{archi-csg} Software architecture for digital system generation} |
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15 | %\end{figure}\begin{figure}\leavevmode\center |
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16 | %\mbox{}\vspace*{1ex}\\ |
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17 | \includegraphics[width=1.0\linewidth]{architecture-hls} |
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18 | \caption{\label{archi-hls} Software architecture of HAS (hardware Accelerator Synthesis)} |
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19 | %\end{figure}\begin{figure}\leavevmode\center |
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20 | %\mbox{}\vspace*{1ex}\\ |
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21 | \includegraphics[width=.65\linewidth]{architecture-hpc} |
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22 | \caption{\label{archi-hpc} Performance analysis of a HPC partitioning} |
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23 | \end{figure} |
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24 | % |
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25 | Figures~\ref{archi-csg}, \ref{archi-hls} and \ref{archi-hpc} |
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26 | summarize the software architecture of the COACH framework we will develop. |
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27 | In figures, the dotted boxes are the softwares or formats that COACH |
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28 | has to provide and to support. |
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29 | \parlf |
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30 | For the system generation presented in figure~\ref{archi-csg}, the conductor |
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31 | is the tool \verb!CSG! (COACH System Generator). Its inputs are a process |
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32 | network describing the target application and the synthesis parameters. |
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33 | The main parameters are the target hardware architectural template |
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34 | with its instantiation parameters, the hardware/software mapping of the |
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35 | tasks, the FPGA device and design constraints. |
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36 | \verb+CSG+ thus requires an architectural template library, an operating system |
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37 | library, two system hardware component (CPU, memories, BUS...) libraries |
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38 | (one for synthesis, one for simulation). |
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39 | For generating the coprocessor of a task mapped as hardware, \verb+CSG+ |
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40 | controls the \verb!HAS! (Hardware Accelerator Synthesis) tools described below. |
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41 | From these inputs \verb!CSG! can generate the entire system (both software and |
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42 | hardware) either as an IP under IP-XACT to integrate the SoC in larger |
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43 | design or |
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44 | as a SystemC simulator (cycle accurate and/or TLM) to prototype and explore quickly the |
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45 | design space or as a bitstream\footnote{COACH generates synthesizable VHDL, and |
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46 | launch the \xilinx or \altera RTL synthesis tools.} directly downloadable on the |
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47 | FPGA device\footnote{Additional partial bitstreams are generated in case of |
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48 | dynamic partial reconfiguration}. |
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49 | \\ |
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50 | Furthermore the architecture template and hardware component libraries will be described |
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51 | under the IP-XACT specification to facilitate the configuration of \verb+CSG+ to other |
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52 | architecture or the enhancement of existing template with IP. |
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53 | \parlf |
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54 | The software architecture for \verb!HAS! is presented in figure~\ref{archi-hls}. |
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55 | The input is a single task of the process network. The \verb!HAS! tools do not work |
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56 | directly on the C++ task description but on an internal format called |
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57 | \xcoach generated by a plugin into the GNU C compiler (GCC). |
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58 | This will allow on the one hand to insure that all the tools will |
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59 | accept the same C++ description and on the other hand make possible |
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60 | their chaining. The front-end tools read a \xcoach description and generate |
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61 | a new \xcoach description that exhibits more parallelism or implement |
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62 | specific instructions for ASIP. The back-end tools read an \xcoach |
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63 | description and generate an \xcoachplus description. This is an \xcoach |
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64 | description annotated with hardware information (scheduling, binding) required by |
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65 | the VHDL and systemC drivers. |
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66 | Furthermore, the back-end tools uses a macro-cell library (functional and memory |
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67 | unit). |
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68 | \parlf |
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69 | \label{HPC:howto} |
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70 | In addition to digital system design, HPC requires a supplementary |
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71 | partitioning step presented in figure~\ref{archi-hpc}. The designer |
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72 | splits the initial application (tag 1) into two parts: one still on the PC and the |
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73 | other running in a FPGA plugged on the PCI/X PC bus. The two parts exchange data |
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74 | through communication primitives (tag 2) implemented in a library. |
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75 | To evaluate the relevance of the partitioning, the designer can build a |
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76 | simulator. Once the partitioning is validated, the design of the FPGA part |
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77 | is done through \verb!CSG! (figure~\ref{archi-csg}). |
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78 | \parlf |
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79 | The project is split into 8 tasks numbered from 1 to 8. They are described |
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80 | in short below and in detail in section \ref{task-description}. |
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81 | \begin{description} |
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82 | \item[Task-1: \textit{Project management}] |
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83 | This task relates to the monitoring of the COACH project. |
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84 | \item[Task-2: \textit{\Backbone}] This task tackles the fundamental points of the |
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85 | project such as the definition of the COACH inputs and outputs, |
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86 | the internal formats (i.e. \xcoach and \xcoachplus) and their associated tools, |
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87 | the architectural templates and the design flow. |
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88 | \item[Task-3: \textit{System generation}] This task addresses the prototyping and |
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89 | the generation of digital system. Apart from \verb!HAS! that belongs to task 3 |
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90 | and 4, its components are those presented in figure~\ref{archi-csg} |
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91 | (e.g. \verb!CSG!, operating systems). |
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92 | \item[Task-4: \textit{HAS front-end}] This task mainly focusses on four functionalities: |
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93 | optimization of the memory usage, parallelism enhancement through loop |
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94 | transformations, coarse grain parallelization and ASIP generation. |
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95 | \item[Task-5: \textit{HAS back-end}] This task groups two functionalities: |
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96 | High-Level Synthesis of data dominated description and HLS of control |
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97 | dominated description. |
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98 | This task contains also the development of a frequency adapter |
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99 | that will allow the coprocessors to meet processor and bus |
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100 | frequency constraints. |
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101 | \item[Task-6: \textit{PC/FPGA communication middleware}] |
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102 | This task pools the features dedicated to HPC. These are mainly the |
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103 | validation of the partitioning (see figure~\ref{archi-hpc}), the system drivers for |
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104 | both PC and FPGA-SoC sides, the hardware communication components and |
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105 | the support for dynamic partial reconfiguration. |
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106 | \item[Task-7: \textit{Industrial demonstrators}] |
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107 | This task groups the demonstrators of the COACH project. |
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108 | Most of them are industrial applications that will be developed within |
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109 | the COACH framework. |
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110 | Others consist in integrating the COACH framework as a driver of |
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111 | industrial proprietary design tools. |
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112 | \item[Task 8: \textit{Dissemination}] |
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113 | This task concerns the diffusion of the project results. |
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114 | It mainly consists of the production of 4 COACH releases (\verb!T0+12!, \verb!T0+18!, |
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115 | \verb!T0+24! and \verb!T0+36!), the publication of a tutorial and user manuals on a WEB site, the publication |
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116 | of research papers in international journals and conferences and the organization of workshops and tutorials in |
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117 | international conferences. |
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118 | \end{description} |
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119 | % |
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120 | \begin{figure}\leavevmode\center |
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121 | %\includegraphics[width=.4\linewidth]{dependence-task} |
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122 | \includegraphics[width=0.50\linewidth]{dependence-task-h} |
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123 | \caption{\label{dependence-task}Task dependencies} |
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124 | \end{figure} |
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125 | Figure~\ref{dependence-task} presents the tasks dependencies. |
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126 | "$T_N \longrightarrow T_M$" means that $T_N$ impacts the $T_M$. |
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127 | The more bold the arrow, the more important is the impact. |
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128 | The graph shows: |
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129 | \begin{itemize} |
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130 | \item Even though $T4$ and $T5$ functionalities are complementary, |
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131 | their developments are independent (thanks to the \xcoach internal format). |
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132 | \item $T3$ slightly depends on $T4$ and $T5$. Indeed, $T3$ may work |
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133 | without $T4$ and $T5$ if targeted digital systems do not include hardware |
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134 | accelerators. |
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135 | \item $T3$ strongly impacts $T6$ but $T3$ does not depend at all on |
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136 | $T6$. Hence demonstrators ($T7$) of embedded system would not be impacted if |
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137 | $T6$ would fail. |
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138 | \item $T2$ drives all the tasks ($T3$, $T4$, $T5$, $T6$) and is at the heart of |
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139 | the COACH project. |
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140 | \item The demonstrators developed in $T7$, of course strongly depend on the achievements |
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141 | of the previous tasks ($T2$, $T3$, $T4$, $T5$, $T6$). |
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142 | \item $T8$ and $T1$ depend on and impact all the other tasks. |
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143 | \end{itemize} |
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144 | This organisation offers enough robustness to insure the success of the |
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145 | project, the only critical task in this chart being $T2$. \label{xcoach-problem} |
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146 | %However, the partners met 12 times (a one-day meeting per month) during the last year. |
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147 | %Ten meeting were dedicated to preliminary technical discussions, including a tentative specification |
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148 | %of {\tt xcoach}. The other meetings were dedicated to the preparation of the present proposal. |
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149 | However, the partners had 10 one-day meetings where a preliminary draft of the |
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150 | \xcoach format was defined. This makes this task less critical. |
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151 | |
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