source: anr/task-5.tex @ 59

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\begin{taskinfo}
\let\UPMC\leader
\let\TIMA\enable
\let\ALTERA\enable
\end{taskinfo}
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\begin{objectif}
This task pools the features dedicated to HPC system design. It is described on
figures~\ref{coach-flow} and \ref{archi-hpc}. It consists in
\begin{itemize}
\item Helping the HPC designer to find a good partition of the initial application
    (figure~\ref{archi-hpc}).
\item Providing communication schemes between the software part running on the PC and the
FPGA-SoC.
\item Implementing the communication scheme at all levels: partition help, software
implementation both on the PC and in the operating system of the FPGA-SoC, hardware.
\item Providing support for dynamic partial reconfiguration of \xilinx FPGA in order to optimize FPGA ressource usage.
\end{itemize}

The low level hardware transmission support will be the PCI/X bus which allows high bit-rate
transfers. The reasons of this choices are that both ALTERA and Xilinx provide PCI/X IP for
their FPGA and that GPU HPC softwares use also it.
This will allow us at least to be inspired by GPU communication schemes and may be to reuse
parts of the GPU softwares.

\end{objectif}
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\begin{workpackage}
\item This \ST is the definition of the communication schemes as a software API
    (Application Programing Interface) between the application part running on the PC and
    the application part running on the FPGA-SoC.
    \begin{livrable}
    \itemL{0}{6}{d}{\Supmc}{HPC communication API}{1.0:0:0}
        \setMacroInAuxFile{hpcCommApi}
        User reference manual describing the API.
    \end{livrable}
\item This \ST consists in helping to partition applications.
    It is a library implementing the communication API with features to profile
    the partitioned application.
%FIXME (Olivier) pour moi, on veut un outil de profiling pour partitionner l'application.
% It is a profiling (or simulation) library implementing the communication API

    \begin{livrable}
    \itemL{6}{12}{x}{\Supmc}{HPC partionning helper}{1:0:0}
        A library implementing the communication API defined in the {\hpcCommApi} delivrable.
    \end{livrable}
\item This \ST deals with the implementation of the communication API on the both sides (PC
    part and FPGA-SoC).
    \begin{livrable}
    \itemL{12}{21}{x}{\Supmc}{HPC API for Linux PC}{0:3:0}
        The PC part of the HPC communication API that comminicates with the FPGA-SOC, a
        library and probably a LINUX module.
    \itemL{12}{21}{x}{\Supmc}{HPC API for MUTEK OS}{0:3:0}
        \setMacroInAuxFile{hpcMutekDriver}
        The FPGA-SoC part of the communication API, a driver.
    \itemL{21}{24}{x}{\Stima}{HPC API for DNA OS}{0:3:0}
        Port of the {\hpcMutekDriver} driver on the DNA OS.
    \itemL{24}{33}{x}{\Supmc}{HPC API}{0:0:1}
        Maintenance work of HPC API for both Linux PC and MUTEK OS.
    \end{livrable}
\item This \ST deals with the implementation of hardware and SystemC modules
    required by the COACH architectural template for using the PCI/X IP of \altera and \xilinx.
    \begin{livrable}
    \itemL{9}{18}{h}{\Stima}{HPC hardware \xilinx}{3:9:0}
        \setMacroInAuxFile{hpcPlbBridge}
        The synthesizable VHDL description of a PLB/VCI bridge and its corresponding SystemC model.
    \itemL{9}{18}{h}{\Saltera}{HPC hardware \altera}{0:0:0}
        \setMacroInAuxFile{hpcAvalonBridge}
        The synthesizable VHDL description of an AVALON/VCI bridge and its corresponding SystemC model.
    \itemL{9}{24}{h}{\Supmc}{PCI/X traffic generator}{1:1:0}
        The SystemC description of a component that generates PCI/X traffic. It is
        required to prototype FPGA-SoC dedicated to HPC.
    \end{livrable}

\item This \ST consists in integrating dynamic partial reconfiguration of \xilinx FPGA in the CSG design flow.
It also includes appropriate SoC-FPGA OS drivers and a modification of the profiling library.
    \begin{livrable}
    \itemL{18}{36}{x}{\Supmc}{CSG support for \ganttlf dynamic reconfiguration}{0:0:2}
        Extension of the \xilinx architectural template ({\csgAllArch}) in order to
        integrate dynamic partial reconfiguration regions.
        Modification of CSG software to support the extended \xilinx template.
    \itemL{18}{30}{x}{\Stima}{dynamic reconfiguration \ganttlf DNA drivers}{0:2:3}
        \setMacroInAuxFile{hpcDynconfDriver}
            The drivers required by the DNA OS in order to manage dynamic partial
        reconfiguration inside the SoC-FPGA.
    \itemL{30}{36}{x}{\Supmc}{dynamic reconfiguration \ganttlf MUTEK drivers}{0:0:1}
        Port of the {\hpcDynconfDriver} drivers on the MUTEK OS.
    \itemL{24}{36}{x}{\Stima}{HPC profiler for \ganttlf dynamic reconfiguration}{0:0:6}
        Extension of the HPC partionning helper in order to integrate dynamic partial
        reconfiguration dedicated features (reconfiguration time of regions, variable
        number of coprocessors).
    \end{livrable}
\item This \ST is the delivery of 2 PCI/X \mustbecompleted{FIXME: Stratix4} FPGA board
    with its PCI/X IP. These boards are dedicated to the COACH HPC development.
    They are based on \mustbecompleted{FIXME:stratix4} FPGA device of 400,000 LUT.
    \begin{livrable}
    \itemL{0}{6}{m}{\Saltera}{HPC development boards}{0:0:0} Two PCI/X FPGA boards.
    \end{livrable}
\end{workpackage}