source: anr/task-5.tex @ 278

% vim:set spell:
% vim:spell spelllang=en:

\begin{taskinfo}
\let\BULL\leader
\let\UPMC\enable
\let\TIMA\enable
\let\THALES\enable
\let\XILINX\enable
\end{taskinfo}
%
\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 Providing a software tool that helps the HPC designer to find a good partition of the initial application
    (figure~\ref{archi-hpc}).
\item specification of the 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 choice 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}
%
\begin{workpackage}
  \subtask{Implementation of API between PC and FPGA-SoC}
    This \ST deals with the COACH HPC feature that consists in accelerating an existing
    application running on a PC by migrating critical parts into a SoC implemented on an
    FPGA plugged to the PC PCI/X bus.
    The main steps and components of this \ST are:
    \begin{itemize}
      \item The definition of the communication middleware as a software API (Application
        Programing Interface) between the application part running on the PC and the
        application part running on the FPGA-SoC.
      \item A software for helping the end-user to partition applications (figure~\ref{archi-hpc}).
        This software is a library implementing the communication API with features to profile
        the partitioned application.
      \item The implementation of the communication API on the both sides (PC part and FPGA-SoC).
    \end{itemize}
    \begin{livrable}
      \itemL{0}{6}{d}{\Sbull}{HPC communication API}{3:0:0}
        \setMacroInAuxFile{hpcCommApi}
        Specification describing the API.
      \itemL{6}{12}{x}{\Supmc}{HPC partionning helper}{1:0:0}
        \setMacroInAuxFile{hpcCommHelper}
        A library implementing the communication API defined in the {\hpcCommApi} deliverable.
        This library is dedicated to help the end-user to partition an application for HPC.
      \itemL{12}{21}{x}{\Supmc}{HPC API for Linux PC}{0:2.5:0}
        \setMacroInAuxFile{hpcCommLinux}
        The PC part of the HPC communication API that communicates with the FPGA-SOC, a
        library and a LINUX module.
%      \itemL{12}{21}{x}{\Supmc}{HPC API for MUTEKH OS}{0:2.5:0}
%        \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}
        \setMacroInAuxFile{hpcDnaDriver}
        The FPGA-SoC part of the communication API.
%        Port of the {\hpcMutekDriver} driver on the DNA OS.
%      \itemL{24}{33}{x}{\Supmc}{HPC API}{0:0:1}
%        Bug corrections and enhancements of communication middleware
%        (\novers{\hpcCommApi}, \novers{\hpcCommHelper}, \novers{\hpcCommLinux},
%        \novers{\hpcMutekDriver}, \novers{\hpcDnaDriver}).
    \end{livrable}

\subtask{SystemC model of the PCI/X}
    This \ST deals with the implementation of hardware and SystemC modules
    required by the neutral architectural template for using the PCI/X IP of \altera and \xilinx.
    \begin{livrable}
% FIXME: moved to task 3 (CSG)
%    \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}{\Supmc}{HPC hardware \altera}{1:2:0}
%        \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}

% \subtask 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{24}{36}{x}{\Supmc}{CSG support for \ganttlf reconfiguration}{0:0:2}
%         Modification of the CSG software to support statically reconfigurable tasks.
%     \itemL{18}{36}{x}{\Stima}{CSG module for \ganttlf dynamic reconfiguration}{0:4:12}
%               This livrable is a CSG module allowing to partition the task graph along
%               the dynamic partial reconfiguration regions. The resulting task-region assignement
%               is directly used for generation of bitstreams. The module also produces reconfiguration
%               management software to be run on the SoC-FPGA.
%     \itemL{18}{30}{x}{\Stima}{Dynamic reconfiguration \ganttlf for DNA drivers}{0:3:3}
%         \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 for  MUTEKH drivers}{0:0:1}
%         Port of the {\hpcDynconfDriver} drivers on the MUTEKH OS.
%     \itemL{24}{36}{x}{\Stima}{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).
%     \itemL{24}{36}{d}{\Sxilinx}{Optimisation for \xilinx \ganttlf dynamic reconfiguration}{0:0:2}
%         \xilinx will work with \tima in order to better take into account during
%         partitioning decisions specific constraints due to partial reconfiguration process.
%         The deliverable is a document describing the \xilinx specific constraints.
%     \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}