1 | % vim:set spell: |
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2 | % vim:spell spelllang=en: |
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3 | |
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4 | \begin{taskinfo} |
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5 | \let\BULL\leader |
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6 | \let\UPMC\enable |
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7 | \let\TIMA\enable |
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8 | \let\THALES\enable |
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9 | \let\XILINX\enable |
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10 | \end{taskinfo} |
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11 | % |
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12 | \begin{objectif} |
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13 | This task deals with the COACH HPC feature that consists in accelerating an existing |
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14 | application running on a PC by migrating critical parts into a SoC implemented on an |
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15 | FPGA plugged to the PC PCI/X bus (figures~\ref{coach-flow} and \ref{archi-hpc}). |
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16 | It consists in: |
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17 | \begin{itemize} |
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18 | \item Specifying and implementing the communication schemes between the software |
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19 | part running on the PC and the FPGA-SoC. |
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20 | \item Providing a performance analysis tool helping user in the HPC partitioning |
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21 | (figure~\ref{archi-hpc}). |
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22 | \item Providing support for configuration of the FPGA in order to set up the HPC environment. |
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23 | \end{itemize} |
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24 | The low level hardware transmission support will be the PCI/X bus which allows high bit-rate |
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25 | transfers. The reasons of this choice are that both \altera and \xilinx provide PCI/X IP for |
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26 | their FPGA and that GPU HPC softwares use also it. |
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27 | %This will allow us at least to be inspired by GPU communication schemes and may be to reuse |
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28 | %parts of the GPU softwares. |
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29 | \end{objectif} |
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30 | % |
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31 | \begin{workpackage} |
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32 | \subtask{Implementation of API between PC and FPGA-SoC} |
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33 | \begin{livrable} |
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34 | \itemL{0}{6}{d}{\Sbull}{HPC communication API}{3:0:0} |
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35 | \OtherPartner{0}{6}{\Supmc}{.5:0:0} |
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36 | \OtherPartner{0}{6}{\Stima}{.5:0:0} |
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37 | \setMacroInAuxFile{hpcCommApi} |
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38 | Specification of the API. |
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39 | \itemL{6}{12}{x}{\Supmc}{HPC partitioning helper}{1:0:0} |
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40 | \setMacroInAuxFile{hpcCommHelper} |
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41 | A library implementing the communication API defined in the {\hpcCommApi} deliverable. |
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42 | This library is dedicated to help the end-user to partition an application for HPC. |
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43 | \itemL{12}{21}{x}{\Supmc}{HPC API for Linux PC}{0:2.5:0} |
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44 | \setMacroInAuxFile{hpcCommLinux} |
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45 | The PC part of the HPC communication API that communicates with the FPGA-SOC, a |
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46 | library and a LINUX module. |
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47 | \itemL{21}{24}{x}{\Stima}{HPC API for DNA OS}{0:3:0} |
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48 | \setMacroInAuxFile{hpcDnaDriver} |
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49 | The FPGA-SoC part of the communication API (DNA driver). |
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50 | \end{livrable} |
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51 | % |
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52 | \subtask{SystemC model of the PCI/X} |
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53 | This \ST deals with the implementation of SystemC modules |
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54 | required by the neutral architectural template for using the PCI/X IP of \altera and \xilinx. |
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55 | \begin{livrable} |
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56 | \itemL{9}{24}{h}{\Supmc}{PCI/X traffic generator}{1:1:0} |
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57 | The SystemC description of a component that generates PCI/X traffic. It is |
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58 | required to prototype FPGA-SoC dedicated to HPC. |
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59 | \end{livrable} |
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60 | % |
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61 | \subtask{HPC environment set up} |
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62 | % It also includes appropriate SoC-FPGA OS drivers and a modification of the profiling library. |
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63 | \begin{livrable} |
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64 | \itemL{18}{36}{x}{\Stima}{Support for HPC environment set up}{0:4:4} |
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65 | Modification of the CSG software to set-up the HPC environment. |
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66 | The objective is to run easily HPC application and the main features are: |
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67 | automatic calibration of coprocessors (\freqCalibrationVhdl), automatic download of |
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68 | SoC on FPGA (bitstream and application loader), starting the PC and FPGA |
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69 | part of the HPC application. |
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70 | \end{livrable} |
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71 | % \itemL{18}{36}{x}{\Stima}{CSG module for \ganttlf dynamic reconfiguration}{0:4:12} |
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72 | % This livrable is a CSG module allowing to partition the task graph along |
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73 | % the dynamic partial reconfiguration regions. The resulting task-region assignement |
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74 | % is directly used for generation of bitstreams. The module also produces reconfiguration |
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75 | % management software to be run on the SoC-FPGA. |
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76 | % \itemL{18}{30}{x}{\Stima}{Dynamic reconfiguration \ganttlf for DNA drivers}{0:3:3} |
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77 | % \setMacroInAuxFile{hpcDynconfDriver} |
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78 | % The drivers required by the DNA OS in order to manage dynamic partial |
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79 | % reconfiguration inside the SoC-FPGA. |
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80 | % \itemL{30}{36}{x}{\Supmc}{Dynamic reconfiguration \ganttlf for MUTEKH drivers}{0:0:1} |
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81 | % Port of the {\hpcDynconfDriver} drivers on the MUTEKH OS. |
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82 | % \itemL{24}{36}{x}{\Stima}{Profiler for \ganttlf dynamic reconfiguration}{0:0:6} |
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83 | % Extension of the HPC partionning helper in order to integrate dynamic partial |
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84 | % reconfiguration dedicated features (reconfiguration time of regions, variable |
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85 | % number of coprocessors). |
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86 | % \itemL{24}{36}{d}{\Sxilinx}{Optimisation for \xilinx \ganttlf dynamic reconfiguration}{0:0:2} |
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87 | % \xilinx will work with \tima in order to better take into account during |
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88 | % partitioning decisions specific constraints due to partial reconfiguration process. |
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89 | % The deliverable is a document describing the \xilinx specific constraints. |
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90 | % \end{livrable} |
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91 | % %\item This \ST is the delivery of 2 PCI/X \mustbecompleted{FIXME: Stratix4} FPGA board |
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92 | % % with its PCI/X IP. These boards are dedicated to the COACH HPC development. |
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93 | % % They are based on \mustbecompleted{FIXME:stratix4} FPGA device of 400,000 LUT. |
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94 | % % \begin{livrable} |
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95 | % % \itemL{0}{6}{m}{\Saltera}{HPC development boards}{0:0:0} Two PCI/X FPGA boards. |
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96 | \end{workpackage} |
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