[26] | 1 | \begin{taskinfo} |
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| 2 | \let\UBS\leader |
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| 3 | \let\UPMC\enable |
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| 4 | \let\TIMA\enable |
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| 5 | \end{taskinfo} |
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| 6 | % |
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| 7 | \begin{objectif} |
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[40] | 8 | The objectives of this task are to provide the 2 HAS back-ends of the COACH project and |
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| 9 | a tool that adapt the coprocessor frequency to the FPGA-SoC frequency as given |
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[26] | 10 | by the processors and the BUS. |
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[40] | 11 | %pourquoi en majuscule? |
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[26] | 12 | \\ |
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[40] | 13 | The HAS back-ends as shown in figure~\ref{archi-hls} reads \xcoach data and provides |
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| 14 | \xcoachplus data, i.e. \xcoach data annotated with hardware information such as |
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| 15 | variables bindings to registers, operations bindings to cells and a schedule. The \xcoach format |
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[36] | 16 | being generated by {\specXcoachToC} deliverable and \xcoachplus being treated by |
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| 17 | \novers{\specXcoachToSystemC} and \novers{\specXcoachToVhdl} deliverables, |
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[40] | 18 | this task is very dependen on task~1. |
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[26] | 19 | \par |
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| 20 | For the two HAS front-end, this task is based on the already existing HLS tools GAUT and |
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[40] | 21 | UGH. These tools are complementary and not in competition because they cover respectively |
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| 22 | data and control dominated designs. |
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[26] | 23 | The organization of the task is firstly to integrate quickly the existing HLS to the COACH |
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| 24 | framework. Secondly these tools will be improved to allows to treat data dominated application |
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[40] | 25 | with a few control for GAUT and control dominated application with a few data processing |
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[26] | 26 | for UGH. This will enlarge the domain the HLS can cover. |
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| 27 | \end{objectif} |
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| 28 | % |
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| 29 | \begin{workpackage}{D4} |
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| 30 | \item The goal of this \ST is to integrate the UGH HLS tool to the COACH framework. It |
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| 31 | consists of suppressing the C commpiler and the SystemC and VHDL drivers and replacing |
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| 32 | them by \xcoach and \xcoachplus drivers. |
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| 33 | \begin{livrable} |
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[36] | 34 | \item{V1}{6}{12}{x}{\Stima}{UGH integration} The UGH software that is able to read |
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[26] | 35 | \xcoach format. |
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[36] | 36 | \item{V2}{12}{18}{x}{\Supmc}{UGH integration} The UGH software that is able to read |
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[26] | 37 | \xcoach format and to write \xcoachplus format. |
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[36] | 38 | \item{VF}{18}{33}{x}{\Supmc}{UGH integration} Maintenance work of the UGH software. |
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[26] | 39 | \end{livrable} |
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| 40 | \item The goal of this \ST is to integrate the GAUT HLS tool to the COACH framework. It |
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| 41 | consists of suppressing the C commpiler and the SystemC and VHDL drivers and replacing |
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| 42 | them by \xcoach and \xcoachplus drivers. |
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| 43 | \begin{livrable} |
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[36] | 44 | \item{V1}{6}{12}{x}{\Stima}{GAUT integration} The GAUT software that is able to read |
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[26] | 45 | \xcoach format. |
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[36] | 46 | \item{VF}{12}{18}{x}{\Stima}{GAUT integration} The GAUT software that is able to read |
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[26] | 47 | \xcoach format and to write \xcoachplus format. |
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| 48 | \end{livrable} |
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| 49 | \item The goal of this \ST is to improve the UGH and GAUT HLS tools. |
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| 50 | UGH and GAUT experimentations have shown respectively 2 and \mustbecompleted{FIXME:2} |
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| 51 | usefull enhancements |
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| 52 | \begin{livrable} |
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[36] | 53 | \item{}{18}{24}{x}{\Stima}{UGH enhancement 1} The UGH software whith support for treating |
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[26] | 54 | automatically data dominated sections included into a control dominated application. |
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[36] | 55 | \item{}{21}{27}{x}{\Stima}{UGH enhancement 2} The UGH software that is able to |
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[40] | 56 | generate a micro-architecture without the variable binding currently done by the |
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[26] | 57 | designer. |
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[36] | 58 | \item{}{18}{24}{x}{\Subs}{GAUT enhancement 1} A GAUT excutable that is able to |
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[26] | 59 | \mustbecompleted{FIXME:UBS: ........}. |
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[36] | 60 | \item{}{21}{27}{x}{\Subs}{GAUT enhancement 2} A GAUT excutable that is able to |
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[26] | 61 | \mustbecompleted{FIXME:UBS: ........}. |
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[36] | 62 | \item{}{21}{27}{x}{\Subs}{GAUT enhancement 2} A GAUT excutable that is able to |
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[26] | 63 | \mustbecompleted{FIXME:UBS: ........}. |
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| 64 | \end{livrable} |
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| 65 | \item In FPGA-SoC, the frequency is given by the processors and the BUS. The coprocessors |
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| 66 | generated by HLS synthesis must respect this frequency. However, the HLS tools can not |
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[40] | 67 | guarantee that the micro-architectures they generate accurately respect this |
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[26] | 68 | frequency. This is especially the case when the target is a FPGA device, because the |
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| 69 | delays are really known only after the RTL synthesis and that estimated delays used |
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[40] | 70 | by the HLS are very imprecize. The goal of this \ST is to provide a tool to adapt |
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[26] | 71 | the coprocessors frequency to the FPGA-SoC frequency after the coprocessor RTL |
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| 72 | synthesis. |
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| 73 | \begin{livrable} |
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[35] | 74 | \item{V1}{0}{6}{d}{\Supmc}{frequency calibration} A document describing the set up of |
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[26] | 75 | the coprocessor frequency calibration. |
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[35] | 76 | \item{V2}{6}{12}{x}{\Supmc}{frequency calibration} A VHDL description of hardware |
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[26] | 77 | added to the coprocessor to enable the calibration. |
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[36] | 78 | \item{VF}{12}{24}{x}{\Supmc}{frequency calibration} The frequency calibration software |
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[26] | 79 | consists of a driver in the FPGA-SoC operating system and of a control software on |
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| 80 | a PC. |
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| 81 | \end{livrable} |
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| 82 | \end{workpackage} |
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