1 | \begin{taskinfo} |
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2 | \let\UPMC\leader |
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3 | \let\TIMA\enable |
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4 | \end{taskinfo} |
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5 | % |
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6 | \begin{objectif} |
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7 | The objectives of this task are to allow the system designer to explore the |
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8 | design space by quickly prototyping and then to automatically generate the |
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9 | FPGA-SoC systems. It is described on figure~\ref{archi-csg} and it consists of: |
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10 | \begin{itemize} |
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11 | \item The development of the synthesizable models required for the connection |
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12 | of the coprocessors on the platform bus (2 bridges). |
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13 | \item The configuration and the development of drivers of the operating |
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14 | systems (Board Support Package, HAL). |
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15 | \item The CSG software that generates the SystemC simulators for prototyping |
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16 | and the FPGA-SoC system including its bitstream and software executable code |
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17 | (see Figures~\ref{archi-csg} and ~\ref{archi-hls}). |
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18 | \end{itemize} |
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19 | A first release will be delivered at $T0+12$ to allow the demonstrators to start working. |
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20 | This release will include the standard communication schemes based on SoCLib MWMR component |
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21 | and support the neutral architectural template for prototyping and hardware generation. |
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22 | \end{objectif} |
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23 | % |
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24 | \begin{workpackage} |
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25 | \subtask{Bridge implementation} |
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26 | This \ST deals with the development of the synthesizable models required for |
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27 | the connection of the coprocessors on the platform bus. |
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28 | \begin{livrable} |
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29 | \itemL{18}{30}{h}{\Stima}{HPC hardware \xilinx}{0:3:3} |
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30 | \setMacroInAuxFile{hpcPlbBridge} |
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31 | The synthesizable VHDL description of a VCI/\xilinxbus bridge. |
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32 | \itemL{18}{30}{h}{\Supmc}{HPC hardware \altera}{0:3:3} |
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33 | \setMacroInAuxFile{hpcAvalonBridge} |
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34 | The synthesizable VHDL description of an VCI/AVALON bridge. |
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35 | \end{livrable} |
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36 | \subtask{OS setup} |
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37 | This \ST consists of the configuration of the SocLib DNA operating |
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38 | system and the development of drivers for the hardware architectural templates. |
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39 | For the \altera and \xilinx architectural templates, the OS must also be ported on |
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40 | the NIOS2 and \xilinxcpu processors. |
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41 | \begin{livrable} |
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42 | \itemV{6}{8}{x}{\Stima}{DNA OS} |
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43 | Idenfication and Specification of the drivers required for |
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44 | the first CSG release using a vendor neutral virtual |
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45 | prototype. |
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46 | \itemV{8}{18}{x}{\Stima}{DNA 0S} |
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47 | Implementation of the identified drivers and integration in |
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48 | the first CSG release. |
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49 | \itemL{18}{33}{x}{\Stima}{DNA OS drivers for SoCLib}{6:2:2} |
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50 | \OtherPartner{6}{33}{\Supmc} {.5:.5:.5} |
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51 | Final release of the DNA OS drivers for the CSG selected IPs. |
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52 | \itemL{12}{18}{x}{\Stima}{Driver ports}{0:2:0} |
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53 | \OtherPartner{6}{33}{\Supmc} {0:2:0} |
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54 | %\mustbecompleted{TIMA: tima sur \xilinxcpu, UPMC sur Nios} |
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55 | Final port of the DNA OS on the NIOS2 and \xilinxcpu |
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56 | processors and CSG platforms, along with the driver dependant |
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57 | drivers. |
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58 | \Stima will focus on the platform based on Xilinx IPs, whereas |
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59 | \Supmc will focus on the Altera related IPs and platform. |
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60 | \end{livrable} |
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61 | \subtask{Implementation of CSG} |
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62 | \begin{livrable} |
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63 | \itemV{0}{12}{x}{\Supmc}{CSG} |
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64 | The first software release of the CSG tool that will allow demonstrators to start |
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65 | working by using the neutral architectural template only for SystemC. |
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66 | \itemV{12}{18}{x}{\Supmc}{CSG} |
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67 | The second release of CSG integrates the VHDL driver for the neutral |
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68 | architectural template, and an integration of an HLS tools |
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69 | but only for SystemC prototyping. |
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70 | \itemV{18}{27}{x}{\Supmc}{CSG} |
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71 | This release extends CSG to FPGA-SoC generation for the \xilinx and |
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72 | \altera architectural template. |
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73 | \itemL{27}{36}{x}{\Supmc}{CSG tool}{5:2:3} |
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74 | \OtherPartner{0}{36}{\Stima}{1:3:2} |
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75 | \OtherPartner{0}{36}{\Smds}{1:3:3} |
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76 | \setMacroInAuxFile{csgImplementation} |
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77 | Final release of CSG enhanced by the demonstrator's feedback. |
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78 | \\ |
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79 | The work will be split between the partner as follow: 1) \Supmc will |
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80 | design the core of CSG, 2) \Stima will design the part concerning the |
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81 | generation of system software and the configuration of CSG to other OS. |
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82 | 3) \Smds will focus to interface CSG to the IP-XACT format for |
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83 | generating IP integrable into a IP-XACT flow such as the one defined in the SoCket project and to |
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84 | configure CSG to new IP or plate-form. |
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85 | \end{livrable} |
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86 | \end{workpackage} |
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