コード例 #1
0
ファイル: PiSDFTest_5.cpp プロジェクト: hewumars/Spider
PiSDFGraph* test5(Archi* archi, Stack* stack){
	PiSDFGraph* graph = CREATE(stack, PiSDFGraph)(
			/*Edges*/ 	3,
			/*Params*/	0,
			/*InIf*/	0,
			/*OutIf*/	0,
			/*Config*/	0,
			/*Normal*/	4,
			archi,
			stack);

	// Parameters.

	// Configure vertices

	// Other vertices
	PiSDFVertex *vxA = graph->addBodyVertex(
			"A", /*Fct*/ 19,
			/*In*/ 0, /*Out*/ 1,
			/*Par*/ 0);
	PiSDFVertex *vxB = graph->addBodyVertex(
			"B", /*Fct*/ 20,
			/*In*/ 1, /*Out*/ 1,
			/*Par*/ 0);
	PiSDFVertex *vxCheck = graph->addBodyVertex(
			"Check", /*Fct*/ 22,
			/*In*/ 1, /*Out*/ 0,
			/*Par*/ 0);
	PiSDFVertex *vxH = graph->addHierVertex(
			"H_top",
			/*SubGraph*/ test5_sub(archi, stack),
			/*In*/ 1, /*Out*/ 1,
			/*Par*/ 0);

	// Edges.
	graph->connect(
			/*Src*/ vxA, /*SrcPrt*/ 0, /*Prod*/ "1",
			/*Snk*/ vxH, /*SnkPrt*/ 0, /*Cons*/ "2",
			/*Delay*/ "0", 0);

	graph->connect(
			/*Src*/ vxH, /*SrcPrt*/ 0, /*Prod*/ "2",
			/*Snk*/ vxB, /*SnkPrt*/ 0, /*Cons*/ "1",
			/*Delay*/ "0", 0);

	graph->connect(
			/*Src*/ vxB, /*SrcPrt*/ 0, /*Prod*/ "1",
			/*Snk*/ vxCheck, /*SnkPrt*/ 0, /*Cons*/ "2",
			/*Delay*/ "0", 0);

	// Timings
	vxA->isExecutableOnAllPE();
	vxA->setTimingOnType(0, "10", stack);
	vxB->isExecutableOnAllPE();
	vxB->setTimingOnType(0, "10", stack);
	vxCheck->isExecutableOnPE(0);
	vxCheck->setTimingOnType(0, "10", stack);

	return graph;
}
コード例 #2
0
ファイル: PiSDFTest_6.cpp プロジェクト: louisbob/Spider
PiSDFGraph* initPisdf_test6(Archi* archi, Stack* stack){
	PiSDFGraph* top = CREATE(stack, PiSDFGraph)(
			0,0,0,0,0,1, archi, stack);

	top->addHierVertex(
			"top", test6(archi, stack),
			0, 0, 0);

	return top;
}
コード例 #3
0
ファイル: pi_daq_fft.cpp プロジェクト: preesm/spider
/**
 * This is the method you need to call to build a complete PiSDF graph.
 */
PiSDFGraph* init_daq_fft(Archi* archi, Stack* stack) {
    PiSDFGraph* top = CREATE(stack, PiSDFGraph)(
                          /*Edges*/    0,
                          /*Params*/   0,
                          /*InputIf*/  0,
                          /*OutputIf*/ 0,
                          /*Config*/   0,
                          /*Body*/     1,
                          /*Archi*/    archi,
                          /*Stack*/    stack);

    top->addHierVertex(
        /*Name*/     "top",
        /*Graph*/    daq_fft(archi, stack),
        /*InputIf*/  0,
        /*OutputIf*/ 0,
        /*Params*/   0);

    return top;
}
コード例 #4
0
ファイル: pi_stereo.cpp プロジェクト: preesm/spider
// Method building PiSDFGraphstereo
PiSDFGraph* stereo(Archi* archi, Stack* stack) {
    PiSDFGraph* graph = CREATE(stack, PiSDFGraph)(
                            /*Edges*/    16,
                            /*Params*/   11,
                            /*InputIf*/  0,
                            /*OutputIf*/ 0,
                            /*Config*/   1,
                            /*Body*/     12,
                            /*Archi*/    archi,
                            /*Stack*/    stack);

    /* Parameters */
    PiSDFParam *param_nSlice = graph->addDynamicParam("nSlice");
    PiSDFParam *param_truncValue = graph->addDynamicParam("truncValue");
    PiSDFParam *param_scale = graph->addDynamicParam("scale");
    PiSDFParam *param_nIter = graph->addDynamicParam("nIter");
    PiSDFParam *param_sizeFilter = graph->addDynamicParam("sizeFilter");
    PiSDFParam *param_minDisp = graph->addDynamicParam("minDisp");
    PiSDFParam *param_maxDisp = graph->addDynamicParam("maxDisp");
    PiSDFParam *param_height = graph->addDynamicParam("height");
    PiSDFParam *param_width = graph->addDynamicParam("width");
    PiSDFParam *param_size = graph->addDependentParam("size", "width*height");
    PiSDFParam *param_sliceHeight = graph->addDependentParam("sliceHeight", "height/nSlice+2*sizeFilter");

    /* Vertices */
    PiSDFVertex* cf_Config = graph->addConfigVertex(
                                 /*Name*/    "Config",
                                 /*FctId*/   STEREO_CONFIG_FCT,
                                 /*SubType*/ PISDF_SUBTYPE_NORMAL,
                                 /*InData*/  0,
                                 /*OutData*/ 0,
                                 /*InParam*/ 0,
                                 /*OutParam*/9);
    cf_Config->addOutParam(0, param_scale);
    cf_Config->addOutParam(1, param_maxDisp);
    cf_Config->addOutParam(2, param_minDisp);
    cf_Config->addOutParam(3, param_nSlice);
    cf_Config->addOutParam(4, param_truncValue);
    cf_Config->addOutParam(5, param_height);
    cf_Config->addOutParam(6, param_width);
    cf_Config->addOutParam(7, param_sizeFilter);
    cf_Config->addOutParam(8, param_nIter);
    cf_Config->isExecutableOnPE(CORE_ARM0);
    cf_Config->setTimingOnType(CORE_TYPE_ARM, "940", stack);

    PiSDFVertex* bo_Camera = graph->addBodyVertex(
                                 /*Name*/    "Camera",
                                 /*FctId*/   STEREO_CAMERA_FCT,
                                 /*InData*/  0,
                                 /*OutData*/ 2,
                                 /*InParam*/ 2);
    bo_Camera->addInParam(0, param_width);
    bo_Camera->addInParam(1, param_height);
    bo_Camera->isExecutableOnPE(CORE_ARM0);
    bo_Camera->setTimingOnType(CORE_TYPE_ARM, "99175505", stack);

    PiSDFVertex* bo_Br_rgbL = graph->addSpecialVertex(
                                  /*Type*/    PISDF_SUBTYPE_BROADCAST,
                                  /*InData*/  1,
                                  /*OutData*/ 3,
                                  /*InParam*/ 1);
    bo_Br_rgbL->addInParam(0, param_size);

    PiSDFVertex* bo_RGB2Gray_L = graph->addBodyVertex(
                                     /*Name*/    "RGB2Gray_L",
                                     /*FctId*/   STEREO_RGB2GRAY_L_FCT,
                                     /*InData*/  1,
                                     /*OutData*/ 1,
                                     /*InParam*/ 1);
    bo_RGB2Gray_L->addInParam(0, param_size);
//	bo_RGB2Gray_L->isExecutableOnPE(CORE_ARM0);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP0);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP1);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP2);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP3);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP4);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP5);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP6);
    bo_RGB2Gray_L->isExecutableOnPE(CORE_DSP7);
    bo_RGB2Gray_L->setTimingOnType(CORE_TYPE_C6X, "39804751", stack);
    bo_RGB2Gray_L->setTimingOnType(CORE_TYPE_ARM, "216379565", stack);

    PiSDFVertex* bo_RGB2Gray_R = graph->addBodyVertex(
                                     /*Name*/    "RGB2Gray_R",
                                     /*FctId*/   STEREO_RGB2GRAY_R_FCT,
                                     /*InData*/  1,
                                     /*OutData*/ 1,
                                     /*InParam*/ 1);
    bo_RGB2Gray_R->addInParam(0, param_size);
//	bo_RGB2Gray_R->isExecutableOnPE(CORE_ARM0);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP0);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP1);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP2);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP3);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP4);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP5);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP6);
    bo_RGB2Gray_R->isExecutableOnPE(CORE_DSP7);
    bo_RGB2Gray_R->setTimingOnType(CORE_TYPE_C6X, "39804751", stack);
    bo_RGB2Gray_R->setTimingOnType(CORE_TYPE_ARM, "216379565", stack);

    PiSDFVertex* bo_Br_grayL = graph->addSpecialVertex(
                                   /*Type*/    PISDF_SUBTYPE_BROADCAST,
                                   /*InData*/  1,
                                   /*OutData*/ 2,
                                   /*InParam*/ 1);
    bo_Br_grayL->addInParam(0, param_size);

    PiSDFVertex* bo_Br_grayR = graph->addSpecialVertex(
                                   /*Type*/    PISDF_SUBTYPE_BROADCAST,
                                   /*InData*/  1,
                                   /*OutData*/ 2,
                                   /*InParam*/ 1);
    bo_Br_grayR->addInParam(0, param_size);

    PiSDFVertex* bo_Census_L = graph->addBodyVertex(
                                   /*Name*/    "Census_L",
                                   /*FctId*/   STEREO_CENSUS_L_FCT,
                                   /*InData*/  1,
                                   /*OutData*/ 1,
                                   /*InParam*/ 2);
    bo_Census_L->addInParam(0, param_width);
    bo_Census_L->addInParam(1, param_height);
//	bo_Census_L->isExecutableOnPE(CORE_ARM0);
    bo_Census_L->isExecutableOnPE(CORE_DSP0);
    bo_Census_L->isExecutableOnPE(CORE_DSP1);
    bo_Census_L->isExecutableOnPE(CORE_DSP2);
    bo_Census_L->isExecutableOnPE(CORE_DSP3);
    bo_Census_L->isExecutableOnPE(CORE_DSP4);
    bo_Census_L->isExecutableOnPE(CORE_DSP5);
    bo_Census_L->isExecutableOnPE(CORE_DSP6);
    bo_Census_L->isExecutableOnPE(CORE_DSP7);
    bo_Census_L->setTimingOnType(CORE_TYPE_C6X, "24216886", stack);
    bo_Census_L->setTimingOnType(CORE_TYPE_ARM, "237117295", stack);

    PiSDFVertex* bo_Census_R = graph->addBodyVertex(
                                   /*Name*/    "Census_R",
                                   /*FctId*/   STEREO_CENSUS_R_FCT,
                                   /*InData*/  1,
                                   /*OutData*/ 1,
                                   /*InParam*/ 2);
    bo_Census_R->addInParam(0, param_width);
    bo_Census_R->addInParam(1, param_height);
//	bo_Census_R->isExecutableOnPE(CORE_ARM0);
    bo_Census_R->isExecutableOnPE(CORE_DSP0);
    bo_Census_R->isExecutableOnPE(CORE_DSP1);
    bo_Census_R->isExecutableOnPE(CORE_DSP2);
    bo_Census_R->isExecutableOnPE(CORE_DSP3);
    bo_Census_R->isExecutableOnPE(CORE_DSP4);
    bo_Census_R->isExecutableOnPE(CORE_DSP5);
    bo_Census_R->isExecutableOnPE(CORE_DSP6);
    bo_Census_R->isExecutableOnPE(CORE_DSP7);
    bo_Census_R->setTimingOnType(CORE_TYPE_C6X, "24216886", stack);
    bo_Census_R->setTimingOnType(CORE_TYPE_ARM, "237990935", stack);

    PiSDFVertex* bo_Split = graph->addBodyVertex(
                                /*Name*/    "Split",
                                /*FctId*/   STEREO_SPLIT_FCT,
                                /*InData*/  1,
                                /*OutData*/ 1,
                                /*InParam*/ 4);
    bo_Split->addInParam(0, param_width);
    bo_Split->addInParam(1, param_height);
    bo_Split->addInParam(2, param_nSlice);
    bo_Split->addInParam(3, param_sizeFilter);
//	bo_Split->isExecutableOnPE(CORE_ARM0);
    bo_Split->isExecutableOnPE(CORE_DSP0);
    bo_Split->isExecutableOnPE(CORE_DSP1);
    bo_Split->isExecutableOnPE(CORE_DSP2);
    bo_Split->isExecutableOnPE(CORE_DSP3);
    bo_Split->isExecutableOnPE(CORE_DSP4);
    bo_Split->isExecutableOnPE(CORE_DSP5);
    bo_Split->isExecutableOnPE(CORE_DSP6);
    bo_Split->isExecutableOnPE(CORE_DSP7);
    bo_Split->setTimingOnType(CORE_TYPE_C6X, "2711699", stack);
    bo_Split->setTimingOnType(CORE_TYPE_ARM, "6844795", stack);

    PiSDFVertex* bo_MedianFilter = graph->addBodyVertex(
                                       /*Name*/    "MedianFilter",
                                       /*FctId*/   STEREO_MEDIANFILTER_FCT,
                                       /*InData*/  1,
                                       /*OutData*/ 1,
                                       /*InParam*/ 3);
    bo_MedianFilter->addInParam(0, param_width);
    bo_MedianFilter->addInParam(1, param_sizeFilter);
    bo_MedianFilter->addInParam(2, param_sliceHeight);
//	bo_MedianFilter->isExecutableOnPE(CORE_ARM0);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP0);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP1);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP2);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP3);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP4);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP5);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP6);
    bo_MedianFilter->isExecutableOnPE(CORE_DSP7);
    bo_MedianFilter->setTimingOnType(CORE_TYPE_C6X, "62002973", stack);
    bo_MedianFilter->setTimingOnType(CORE_TYPE_ARM, "41294317", stack);

    PiSDFVertex* bo_Display = graph->addBodyVertex(
                                  /*Name*/    "Display",
                                  /*FctId*/   STEREO_DISPLAY_FCT,
                                  /*InData*/  2,
                                  /*OutData*/ 0,
                                  /*InParam*/ 2);
    bo_Display->addInParam(0, param_width);
    bo_Display->addInParam(1, param_height);
    bo_Display->isExecutableOnPE(CORE_ARM0);
    bo_Display->setTimingOnType(CORE_TYPE_ARM, "422069685", stack);

    PiSDFVertex* bo_costParallel = graph->addHierVertex(
                                       /*Name*/    "costParallel",
                                       /*Graph*/   costParallel(archi, stack),
                                       /*InData*/  5,
                                       /*OutData*/ 1,
                                       /*InParam*/ 7);
    bo_costParallel->addInParam(0, param_nIter);
    bo_costParallel->addInParam(1, param_height);
    bo_costParallel->addInParam(2, param_width);
    bo_costParallel->addInParam(3, param_maxDisp);
    bo_costParallel->addInParam(4, param_minDisp);
    bo_costParallel->addInParam(5, param_truncValue);
    bo_costParallel->addInParam(6, param_scale);


    /* Edges */
    graph->connect(
        /*Src*/ bo_RGB2Gray_L, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_Br_grayL, /*SnkPrt*/ 0, /*Cons*/ "(size)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_RGB2Gray_R, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_Br_grayR, /*SnkPrt*/ 0, /*Cons*/ "(size)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Camera, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*3",
        /*Snk*/ bo_Br_rgbL, /*SnkPrt*/ 0, /*Cons*/ "(size)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_rgbL, /*SrcPrt*/ 0, /*Prod*/ "(size)*3",
        /*Snk*/ bo_RGB2Gray_L, /*SnkPrt*/ 0, /*Cons*/ "(size)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_rgbL, /*SrcPrt*/ 1, /*Prod*/ "(size)*3",
        /*Snk*/ bo_costParallel, /*SnkPrt*/ 4, /*Cons*/ "(width*height)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_rgbL, /*SrcPrt*/ 2, /*Prod*/ "(size)*3",
        /*Snk*/ bo_Display, /*SnkPrt*/ 1, /*Cons*/ "(width*height)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_costParallel, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ bo_Split, /*SnkPrt*/ 0, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Split, /*SrcPrt*/ 0, /*Prod*/ "(nSlice*(height*width/nSlice+2*sizeFilter*width))*1",
        /*Snk*/ bo_MedianFilter, /*SnkPrt*/ 0, /*Cons*/ "(sliceHeight*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_MedianFilter, /*SrcPrt*/ 0, /*Prod*/ "(sliceHeight*width-2*sizeFilter*width)*1",
        /*Snk*/ bo_Display, /*SnkPrt*/ 0, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_grayL, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_Census_L, /*SnkPrt*/ 0, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_grayR, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_Census_R, /*SnkPrt*/ 0, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_grayL, /*SrcPrt*/ 1, /*Prod*/ "(size)*1",
        /*Snk*/ bo_costParallel, /*SnkPrt*/ 2, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_grayR, /*SrcPrt*/ 1, /*Prod*/ "(size)*1",
        /*Snk*/ bo_costParallel, /*SnkPrt*/ 3, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Census_L, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ bo_costParallel, /*SnkPrt*/ 0, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Census_R, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ bo_costParallel, /*SnkPrt*/ 1, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Camera, /*SrcPrt*/ 1, /*Prod*/ "(height*width)*3",
        /*Snk*/ bo_RGB2Gray_R, /*SnkPrt*/ 0, /*Cons*/ "(size)*3",
        /*Delay*/ "0",0);

    return graph;
}
コード例 #5
0
ファイル: pi_stereo.cpp プロジェクト: preesm/spider
// Method building PiSDFGraphcostParallel
PiSDFGraph* costParallel(Archi* archi, Stack* stack) {
    PiSDFGraph* graph = CREATE(stack, PiSDFGraph)(
                            /*Edges*/    18,
                            /*Params*/   9,
                            /*InputIf*/  5,
                            /*OutputIf*/ 1,
                            /*Config*/   0,
                            /*Body*/     9,
                            /*Archi*/    archi,
                            /*Stack*/    stack);

    /* Parameters */
    PiSDFParam *param_nIter = graph->addHeritedParam("nIter", 0);
    PiSDFParam *param_height = graph->addHeritedParam("height", 1);
    PiSDFParam *param_width = graph->addHeritedParam("width", 2);
    PiSDFParam *param_maxDisp = graph->addHeritedParam("maxDisp", 3);
    PiSDFParam *param_minDisp = graph->addHeritedParam("minDisp", 4);
    PiSDFParam *param_truncValue = graph->addHeritedParam("truncValue", 5);
    PiSDFParam *param_scale = graph->addHeritedParam("scale", 6);
    PiSDFParam *param_size = graph->addDependentParam("size", "height*width");
    PiSDFParam *param_nDisp = graph->addDependentParam("nDisp", "maxDisp-minDisp+1");

    /* Vertices */
    PiSDFVertex* if_cenL = graph->addInputIf(
                               /*Name*/    "if_cenL",
                               /*InParam*/ 1);
    if_cenL->addInParam(0, param_size);

    PiSDFVertex* if_cenR = graph->addInputIf(
                               /*Name*/    "if_cenR",
                               /*InParam*/ 1);
    if_cenR->addInParam(0, param_size);

    PiSDFVertex* if_grayL = graph->addInputIf(
                                /*Name*/    "if_grayL",
                                /*InParam*/ 1);
    if_grayL->addInParam(0, param_size);

    PiSDFVertex* if_grayR = graph->addInputIf(
                                /*Name*/    "if_grayR",
                                /*InParam*/ 1);
    if_grayR->addInParam(0, param_size);

    PiSDFVertex* if_rgb = graph->addInputIf(
                              /*Name*/    "if_rgb",
                              /*InParam*/ 1);
    if_rgb->addInParam(0, param_size);

    PiSDFVertex* bo_Br_rgb = graph->addSpecialVertex(
                                 /*Type*/    PISDF_SUBTYPE_BROADCAST,
                                 /*InData*/  1,
                                 /*OutData*/ 2,
                                 /*InParam*/ 1);
    bo_Br_rgb->addInParam(0, param_size);

    PiSDFVertex* bo_GenIx = graph->addBodyVertex(
                                /*Name*/    "GenIx",
                                /*FctId*/   COSTPARALLEL_GENIX_FCT,
                                /*InData*/  0,
                                /*OutData*/ 1,
                                /*InParam*/ 1);
    bo_GenIx->addInParam(0, param_nIter);
    bo_GenIx->isExecutableOnPE(CORE_ARM0);
    bo_GenIx->setTimingOnType(CORE_TYPE_ARM, "3330", stack);

    PiSDFVertex* bo_GenDisp = graph->addBodyVertex(
                                  /*Name*/    "GenDisp",
                                  /*FctId*/   COSTPARALLEL_GENDISP_FCT,
                                  /*InData*/  0,
                                  /*OutData*/ 1,
                                  /*InParam*/ 2);
    bo_GenDisp->addInParam(0, param_minDisp);
    bo_GenDisp->addInParam(1, param_maxDisp);
    bo_GenDisp->isExecutableOnPE(CORE_ARM0);
    bo_GenDisp->setTimingOnType(CORE_TYPE_ARM, "4025", stack);

    PiSDFVertex* bo_VWeights = graph->addBodyVertex(
                                   /*Name*/    "VWeights",
                                   /*FctId*/   COSTPARALLEL_VWEIGHTS_FCT,
                                   /*InData*/  2,
                                   /*OutData*/ 1,
                                   /*InParam*/ 2);
    bo_VWeights->addInParam(0, param_height);
    bo_VWeights->addInParam(1, param_width);
//	bo_VWeights->isExecutableOnPE(CORE_ARM0);
    bo_VWeights->isExecutableOnPE(CORE_DSP0);
    bo_VWeights->isExecutableOnPE(CORE_DSP1);
    bo_VWeights->isExecutableOnPE(CORE_DSP2);
    bo_VWeights->isExecutableOnPE(CORE_DSP3);
    bo_VWeights->isExecutableOnPE(CORE_DSP4);
    bo_VWeights->isExecutableOnPE(CORE_DSP5);
    bo_VWeights->isExecutableOnPE(CORE_DSP6);
    bo_VWeights->isExecutableOnPE(CORE_DSP7);
    bo_VWeights->setTimingOnType(CORE_TYPE_C6X, "58039643", stack);
    bo_VWeights->setTimingOnType(CORE_TYPE_ARM, "219177142", stack);

    PiSDFVertex* bo_HWeight = graph->addBodyVertex(
                                  /*Name*/    "HWeight",
                                  /*FctId*/   COSTPARALLEL_HWEIGHT_FCT,
                                  /*InData*/  2,
                                  /*OutData*/ 1,
                                  /*InParam*/ 2);
    bo_HWeight->addInParam(0, param_height);
    bo_HWeight->addInParam(1, param_width);
//	bo_HWeight->isExecutableOnPE(CORE_ARM0);
    bo_HWeight->isExecutableOnPE(CORE_DSP0);
    bo_HWeight->isExecutableOnPE(CORE_DSP1);
    bo_HWeight->isExecutableOnPE(CORE_DSP2);
    bo_HWeight->isExecutableOnPE(CORE_DSP3);
    bo_HWeight->isExecutableOnPE(CORE_DSP4);
    bo_HWeight->isExecutableOnPE(CORE_DSP5);
    bo_HWeight->isExecutableOnPE(CORE_DSP6);
    bo_HWeight->isExecutableOnPE(CORE_DSP7);
    bo_HWeight->setTimingOnType(CORE_TYPE_C6X, "57467063", stack);
    bo_HWeight->setTimingOnType(CORE_TYPE_ARM, "217559830", stack);

    PiSDFVertex* bo_CostConstruction = graph->addBodyVertex(
                                           /*Name*/    "CostConstruction",
                                           /*FctId*/   COSTPARALLEL_COSTCONSTRUCTION_FCT,
                                           /*InData*/  5,
                                           /*OutData*/ 1,
                                           /*InParam*/ 3);
    bo_CostConstruction->addInParam(0, param_truncValue);
    bo_CostConstruction->addInParam(1, param_height);
    bo_CostConstruction->addInParam(2, param_width);
//	bo_CostConstruction->isExecutableOnPE(CORE_ARM0);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP0);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP1);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP2);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP3);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP4);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP5);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP6);
    bo_CostConstruction->isExecutableOnPE(CORE_DSP7);
    bo_CostConstruction->setTimingOnType(CORE_TYPE_C6X, "39526772", stack);
    bo_CostConstruction->setTimingOnType(CORE_TYPE_ARM, "237452231", stack);

    PiSDFVertex* if_rawDisparity = graph->addOutputIf(
                                       /*Name*/    "if_rawDisparity",
                                       /*InParam*/ 1);
    if_rawDisparity->addInParam(0, param_size);

    PiSDFVertex* bo_Br_Ix = graph->addSpecialVertex(
                                /*Type*/    PISDF_SUBTYPE_BROADCAST,
                                /*InData*/  1,
                                /*OutData*/ 3,
                                /*InParam*/ 1);
    bo_Br_Ix->addInParam(0, param_nIter);

    PiSDFVertex* bo_Br_Disp = graph->addSpecialVertex(
                                  /*Type*/    PISDF_SUBTYPE_BROADCAST,
                                  /*InData*/  1,
                                  /*OutData*/ 2,
                                  /*InParam*/ 1);
    bo_Br_Disp->addInParam(0, param_nDisp);

    PiSDFVertex* bo_DispComp = graph->addHierVertex(
                                   /*Name*/    "DispComp",
                                   /*Graph*/   DispComp(archi, stack),
                                   /*InData*/  5,
                                   /*OutData*/ 1,
                                   /*InParam*/ 6);
    bo_DispComp->addInParam(0, param_height);
    bo_DispComp->addInParam(1, param_width);
    bo_DispComp->addInParam(2, param_nIter);
    bo_DispComp->addInParam(3, param_scale);
    bo_DispComp->addInParam(4, param_minDisp);
    bo_DispComp->addInParam(5, param_maxDisp);


    /* Edges */
    graph->connect(
        /*Src*/ bo_DispComp, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ if_rawDisparity, /*SnkPrt*/ 0, /*Cons*/ "(size)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_CostConstruction, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ bo_DispComp, /*SnkPrt*/ 4, /*Cons*/ "(height*width*(maxDisp-minDisp+1))*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_VWeights, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ bo_DispComp, /*SnkPrt*/ 1, /*Cons*/ "(height*width*nIter)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_HWeight, /*SrcPrt*/ 0, /*Prod*/ "(height*width)*1",
        /*Snk*/ bo_DispComp, /*SnkPrt*/ 2, /*Cons*/ "(height*width*nIter)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ if_rgb, /*SrcPrt*/ 0, /*Prod*/ "(size)*3",
        /*Snk*/ bo_Br_rgb, /*SnkPrt*/ 0, /*Cons*/ "(size)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_GenIx, /*SrcPrt*/ 0, /*Prod*/ "(nIter)*1",
        /*Snk*/ bo_Br_Ix, /*SnkPrt*/ 0, /*Cons*/ "(nIter)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_GenDisp, /*SrcPrt*/ 0, /*Prod*/ "(maxDisp-minDisp+1)*1",
        /*Snk*/ bo_Br_Disp, /*SnkPrt*/ 0, /*Cons*/ "(nDisp)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_Disp, /*SrcPrt*/ 0, /*Prod*/ "(nDisp)*1",
        /*Snk*/ bo_CostConstruction, /*SnkPrt*/ 0, /*Cons*/ "(1)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_Disp, /*SrcPrt*/ 1, /*Prod*/ "(nDisp)*1",
        /*Snk*/ bo_DispComp, /*SnkPrt*/ 3, /*Cons*/ "(maxDisp-minDisp+1)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_Ix, /*SrcPrt*/ 0, /*Prod*/ "(nIter)*1",
        /*Snk*/ bo_DispComp, /*SnkPrt*/ 0, /*Cons*/ "(nIter)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_Ix, /*SrcPrt*/ 1, /*Prod*/ "(nIter)*1",
        /*Snk*/ bo_HWeight, /*SnkPrt*/ 0, /*Cons*/ "(1)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_Ix, /*SrcPrt*/ 2, /*Prod*/ "(nIter)*1",
        /*Snk*/ bo_VWeights, /*SnkPrt*/ 0, /*Cons*/ "(1)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_rgb, /*SrcPrt*/ 0, /*Prod*/ "(size)*3",
        /*Snk*/ bo_HWeight, /*SnkPrt*/ 1, /*Cons*/ "(height*width)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ bo_Br_rgb, /*SrcPrt*/ 1, /*Prod*/ "(size)*3",
        /*Snk*/ bo_VWeights, /*SnkPrt*/ 1, /*Cons*/ "(height*width)*3",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ if_cenL, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_CostConstruction, /*SnkPrt*/ 1, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ if_cenR, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_CostConstruction, /*SnkPrt*/ 2, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ if_grayL, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_CostConstruction, /*SnkPrt*/ 3, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    graph->connect(
        /*Src*/ if_grayR, /*SrcPrt*/ 0, /*Prod*/ "(size)*1",
        /*Snk*/ bo_CostConstruction, /*SnkPrt*/ 4, /*Cons*/ "(height*width)*1",
        /*Delay*/ "0",0);

    return graph;
}
コード例 #6
0
ファイル: pi_Radix2_fft.cpp プロジェクト: preesm/spider
// Method building PiSDFGraphRadix2_fft
PiSDFGraph* Radix2_fft(Archi* archi, Stack* stack){
	PiSDFGraph* graph = CREATE(stack, PiSDFGraph)(
		/*Edges*/    4,
		/*Params*/   6,
		/*InputIf*/  0,
		/*OutputIf*/ 0,
		/*Config*/   1,
		/*Body*/     5,
		/*Archi*/    archi,
		/*Stack*/    stack);

	/* Parameters */
	PiSDFParam *param_fftSize = graph->addDynamicParam("fftSize");
	PiSDFParam *param_P = graph->addDynamicParam("P");
	PiSDFParam *param_n1 = graph->addDynamicParam("n1");
	PiSDFParam *param_n2 = graph->addDynamicParam("n2");
	PiSDFParam *param_N1 = graph->addDependentParam("N1", "2^P");
	PiSDFParam *param_N2 = graph->addDependentParam("N2", "fftSize/2^P");

	/* Vertices */
	PiSDFVertex* bo_src = graph->addBodyVertex(
		/*Name*/    "src",
		/*FctId*/   RADIX2_FFT_SRC_FCT,
		/*InData*/  0,
		/*OutData*/ 1,
		/*InParam*/ 1);
	bo_src->addInParam(0, param_fftSize);
//	bo_src->isExecutableOnPE(CORE_ARM0);
//	bo_src->isExecutableOnPE(CORE_ARM1);
//	bo_src->isExecutableOnPE(CORE_ARM2);
//	bo_src->isExecutableOnPE(CORE_ARM3);
	bo_src->isExecutableOnPE(CORE_DSP0);
	bo_src->setTimingOnType(CORE_TYPE_C6X, "100", stack);
	bo_src->setTimingOnType(CORE_TYPE_ARM, "100", stack);

	PiSDFVertex* bo_T = graph->addBodyVertex(
		/*Name*/    "T",
		/*FctId*/   RADIX2_FFT_T_FCT,
		/*InData*/  1,
		/*OutData*/ 1,
		/*InParam*/ 2);
	bo_T->addInParam(0, param_N1);
	bo_T->addInParam(1, param_N2);
//	bo_T->isExecutableOnPE(CORE_ARM0);
//	bo_T->isExecutableOnPE(CORE_ARM1);
//	bo_T->isExecutableOnPE(CORE_ARM2);
//	bo_T->isExecutableOnPE(CORE_ARM3);
	bo_T->isExecutableOnPE(CORE_DSP0);
//	bo_T->isExecutableOnPE(CORE_DSP1);
//	bo_T->isExecutableOnPE(CORE_DSP2);
//	bo_T->isExecutableOnPE(CORE_DSP3);
//	bo_T->isExecutableOnPE(CORE_DSP4);
//	bo_T->isExecutableOnPE(CORE_DSP5);
//	bo_T->isExecutableOnPE(CORE_DSP6);
//	bo_T->isExecutableOnPE(CORE_DSP7);
	bo_T->setTimingOnType(CORE_TYPE_C6X, "100", stack);
	bo_T->setTimingOnType(CORE_TYPE_ARM, "100", stack);

	PiSDFVertex* bo_DFT_N2 = graph->addBodyVertex(
		/*Name*/    "DFT_N2",
		/*FctId*/   RADIX2_FFT_DFT_N2_FCT,
		/*InData*/  1,
		/*OutData*/ 1,
		/*InParam*/ 2);
	bo_DFT_N2->addInParam(0, param_N2);
	bo_DFT_N2->addInParam(1, param_n2);
//	bo_DFT_N2->isExecutableOnPE(CORE_ARM0);
	bo_DFT_N2->isExecutableOnPE(CORE_ARM1);
	bo_DFT_N2->isExecutableOnPE(CORE_ARM2);
//	bo_DFT_N2->isExecutableOnPE(CORE_ARM3);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP0);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP1);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP2);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP3);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP4);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP5);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP6);
	bo_DFT_N2->isExecutableOnPE(CORE_DSP7);
	bo_DFT_N2->setTimingOnType(CORE_TYPE_C6X, "117445", stack);
	bo_DFT_N2->setTimingOnType(CORE_TYPE_ARM, "78130", stack);

	PiSDFVertex* bo_snk = graph->addBodyVertex(
		/*Name*/    "snk",
		/*FctId*/   RADIX2_FFT_SNK_FCT,
		/*InData*/  1,
		/*OutData*/ 0,
		/*InParam*/ 1);
	bo_snk->addInParam(0, param_fftSize);
//	bo_snk->isExecutableOnPE(CORE_ARM0);
//	bo_snk->isExecutableOnPE(CORE_ARM1);
//	bo_snk->isExecutableOnPE(CORE_ARM2);
//	bo_snk->isExecutableOnPE(CORE_ARM3);
	bo_snk->isExecutableOnPE(CORE_DSP0);
	bo_snk->setTimingOnType(CORE_TYPE_C6X, "100", stack);
	bo_snk->setTimingOnType(CORE_TYPE_ARM, "100", stack);

	PiSDFVertex* cf_cfgFFT = graph->addConfigVertex(
		/*Name*/    "cfgFFT",
		/*FctId*/   RADIX2_FFT_CFGFFT_FCT,
		/*SubType*/ PISDF_SUBTYPE_NORMAL,
		/*InData*/  0,
		/*OutData*/ 0,
		/*InParam*/ 0,
		/*OutParam*/4);
	cf_cfgFFT->addOutParam(0, param_fftSize);
	cf_cfgFFT->addOutParam(1, param_P);
	cf_cfgFFT->addOutParam(2, param_n1);
	cf_cfgFFT->addOutParam(3, param_n2);
	cf_cfgFFT->isExecutableOnPE(CORE_ARM0);
	cf_cfgFFT->setTimingOnType(CORE_TYPE_C6X, "100", stack);
	cf_cfgFFT->setTimingOnType(CORE_TYPE_ARM, "100", stack);

	PiSDFVertex* bo_DFT_Radix2 = graph->addHierVertex(
		/*Name*/    "DFT_Radix2",
		/*Graph*/   DFT_Radix2(archi, stack),
		/*InData*/  1,
		/*OutData*/ 1,
		/*InParam*/ 4);
	bo_DFT_Radix2->addInParam(0, param_N1);
	bo_DFT_Radix2->addInParam(1, param_N2);
	bo_DFT_Radix2->addInParam(2, param_n1);
	bo_DFT_Radix2->addInParam(3, param_P);


	/* Edges */
	graph->connect(
		/*Src*/ bo_src, /*SrcPrt*/ 0, /*Prod*/ "(fftSize)*4",
		/*Snk*/ bo_T, /*SnkPrt*/ 0, /*Cons*/ "(N1*N2)*4",
		/*Delay*/ "0",0);

	graph->connect(
		/*Src*/ bo_T, /*SrcPrt*/ 0, /*Prod*/ "(N1*N2)*4",
		/*Snk*/ bo_DFT_N2, /*SnkPrt*/ 0, /*Cons*/ "(n2*N2)*4",
		/*Delay*/ "0",0);

	graph->connect(
		/*Src*/ bo_DFT_N2, /*SrcPrt*/ 0, /*Prod*/ "(n2*N2)*4",
		/*Snk*/ bo_DFT_Radix2, /*SnkPrt*/ 0, /*Cons*/ "(N1*N2)*4",
		/*Delay*/ "0",0);

	graph->connect(
		/*Src*/ bo_DFT_Radix2, /*SrcPrt*/ 0, /*Prod*/ "(N1*N2)*4",
		/*Snk*/ bo_snk, /*SnkPrt*/ 0, /*Cons*/ "(fftSize)*4",
		/*Delay*/ "0",0);

	return graph;
}
コード例 #7
0
ファイル: pi_Radix2_fft.cpp プロジェクト: preesm/spider
// Method building PiSDFGraphDFT_Radix2
PiSDFGraph* DFT_Radix2(Archi* archi, Stack* stack){
	PiSDFGraph* graph = CREATE(stack, PiSDFGraph)(
		/*Edges*/    4,
		/*Params*/   5,
		/*InputIf*/  1,
		/*OutputIf*/ 1,
		/*Config*/   0,
		/*Body*/     3,
		/*Archi*/    archi,
		/*Stack*/    stack);

	/* Parameters */
	PiSDFParam *param_N1 = graph->addHeritedParam("N1", 0);
	PiSDFParam *param_N2 = graph->addHeritedParam("N2", 1);
	PiSDFParam *param_n1 = graph->addHeritedParam("n1", 2);
	PiSDFParam *param_P = graph->addHeritedParam("P", 3);
	PiSDFParam *param_size = graph->addDependentParam("size", "N1*N2");

	/* Vertices */
	PiSDFVertex* bo_Br = graph->addSpecialVertex(
		/*Type*/    PISDF_SUBTYPE_BROADCAST,
		/*InData*/  1,
		/*OutData*/ 2,
		/*InParam*/ 1);
	bo_Br->addInParam(0, param_size);

	PiSDFVertex* if_out = graph->addOutputIf(
		/*Name*/    "if_out",
		/*InParam*/ 1);
	if_out->addInParam(0, param_size);

	PiSDFVertex* if_in = graph->addInputIf(
		/*Name*/    "if_in",
		/*InParam*/ 1);
	if_in->addInParam(0, param_size);

	PiSDFVertex* bo_genIx = graph->addBodyVertex(
		/*Name*/    "genIx",
		/*FctId*/   DFT_RADIX2_GENIX_FCT,
		/*InData*/  0,
		/*OutData*/ 1,
		/*InParam*/ 1);
	bo_genIx->addInParam(0, param_P);
//	bo_genIx->isExecutableOnPE(CORE_ARM0);
//	bo_genIx->isExecutableOnPE(CORE_ARM1);
//	bo_genIx->isExecutableOnPE(CORE_ARM2);
//	bo_genIx->isExecutableOnPE(CORE_ARM3);
	bo_genIx->isExecutableOnPE(CORE_DSP0);
	bo_genIx->isExecutableOnPE(CORE_DSP1);
	bo_genIx->isExecutableOnPE(CORE_DSP2);
	bo_genIx->isExecutableOnPE(CORE_DSP3);
	bo_genIx->setTimingOnType(CORE_TYPE_C6X, "100", stack);
	bo_genIx->setTimingOnType(CORE_TYPE_ARM, "100", stack);

	PiSDFVertex* bo_Radix2_Stage = graph->addHierVertex(
		/*Name*/    "Radix2_Stage",
		/*Graph*/   Radix2_Stage(archi, stack),
		/*InData*/  2,
		/*OutData*/ 1,
		/*InParam*/ 3);
	bo_Radix2_Stage->addInParam(0, param_N1);
	bo_Radix2_Stage->addInParam(1, param_N2);
	bo_Radix2_Stage->addInParam(2, param_n1);


	/* Edges */
	graph->connect(
		/*Src*/ bo_genIx, /*SrcPrt*/ 0, /*Prod*/ "(P)*4",
		/*Snk*/ bo_Radix2_Stage, /*SnkPrt*/ 0, /*Cons*/ "(1)*4",
		/*Delay*/ "0",0);

	graph->connect(
		/*Src*/ bo_Radix2_Stage, /*SrcPrt*/ 0, /*Prod*/ "(N1*N2)*4",
		/*Snk*/ bo_Br, /*SnkPrt*/ 0, /*Cons*/ "(size)*4",
		/*Delay*/ "0",0);

	graph->connect(
		/*Src*/ bo_Br, /*SrcPrt*/ 0, /*Prod*/ "(size)*4",
		/*Snk*/ if_out, /*SnkPrt*/ 0, /*Cons*/ "(size)*4",
		/*Delay*/ "0",0);

	graph->connect(
		/*Src*/ bo_Br, /*SrcPrt*/ 1, /*Prod*/ "(size)*4",
		/*Snk*/ bo_Radix2_Stage, /*SnkPrt*/ 1, /*Cons*/ "(N1*N2)*4",
		/*Delay*/ "(size)*4",if_in);

	return graph;
}