VPR_HET/SRC/CheckArch.c - third_party/vtr-verilog-to-routing - Git at Google

 #include <assert.h>
 #include "util.h"
 #include "vpr_types.h"
 #include "globals.h"
 #include "OptionTokens.h"
 #include "ReadOptions.h"
 #include "xml_arch.h"
 #include "SetupVPR.h"

 /******** Function Prototypes ********/
 static void CheckSwitches(IN t_arch Arch,
 			  IN boolean TimingEnabled);

 static void CheckSegments(IN t_arch Arch);

 /******** Function Implementations ********/

 void
 CheckArch(IN t_arch Arch,
 	  IN boolean TimingEnabled)
 {
 	CheckSwitches(Arch, TimingEnabled);
 	CheckSegments(Arch);
 }

 static void
 CheckSwitches(IN t_arch Arch,
 	      IN boolean TimingEnabled)
 {
     struct s_switch_inf *CurSwitch;
     int i;

     /* Check transistors in switches won't be less than minimum size */
     CurSwitch = Arch.Switches;
     for(i = 0; i < Arch.num_switches; i++)
 	{
 		/* This assumes all segments have the same directionality */
 		if(CurSwitch->buffered && Arch.Segments[0].directionality == BI_DIRECTIONAL)
 		{
 		    /* Largest resistance tri-state buffer would have a minimum
 		     * width transistor in the buffer pull-down and a min-width
 		     * pass transistoron the output.
 		     * Hence largest R = 2 * largest_transistor_R. */
 		    if(CurSwitch->R > 2 * Arch.R_minW_nmos)
 			{
 			    printf(ERRTAG
 				   "Switch %s R value (%g) is greater than "
 				   "2 * R_minW_nmos (%g).\n", CurSwitch->name,
 				   CurSwitch->R, (2 * Arch.R_minW_nmos));
 			    exit(1);
 			}
 		}
 	    else
 		{		/* Pass transistor switch */
 		    if(CurSwitch->R > Arch.R_minW_nmos)
 			{
 			    printf(ERRTAG
 				   "Switch %s R value (%g) is greater than "
 				   "R_minW_nmos (%g).\n", CurSwitch->name,
 				   CurSwitch->R, Arch.R_minW_nmos);
 			    exit(1);
 			}
 		}
 	}
 }

 static void CheckSegments(IN t_arch Arch) {
 	t_segment_inf *CurSeg;
     int i;

     CurSeg = Arch.Segments;
     for(i = 0; i < Arch.num_segments; i++)
 	{
 		if(CurSeg[i].directionality == UNI_DIRECTIONAL && CurSeg[i].longline == TRUE) {
 			printf("Long lines not supported for unidirectional architectures\n");
 			exit(1);
 		}
 	}
 }
	#include <assert.h>
	#include "util.h"
	#include "vpr_types.h"
	#include "globals.h"
	#include "OptionTokens.h"
	#include "ReadOptions.h"
	#include "xml_arch.h"
	#include "SetupVPR.h"

	/****** Function Prototypes ******/
	static void CheckSwitches(IN t_arch Arch,
	IN boolean TimingEnabled);

	static void CheckSegments(IN t_arch Arch);

	/****** Function Implementations ******/

	void
	CheckArch(IN t_arch Arch,
	IN boolean TimingEnabled)
	{
	CheckSwitches(Arch, TimingEnabled);
	CheckSegments(Arch);
	}

	static void
	CheckSwitches(IN t_arch Arch,
	IN boolean TimingEnabled)
	{
	struct s_switch_inf *CurSwitch;
	int i;

	/* Check transistors in switches won't be less than minimum size */
	CurSwitch = Arch.Switches;
	for(i = 0; i < Arch.num_switches; i++)
	{
	/* This assumes all segments have the same directionality */
	if(CurSwitch->buffered && Arch.Segments[0].directionality == BI_DIRECTIONAL)
	{
	/* Largest resistance tri-state buffer would have a minimum
	* width transistor in the buffer pull-down and a min-width
	* pass transistoron the output.
	* Hence largest R = 2 * largest_transistor_R. */
	if(CurSwitch->R > 2 * Arch.R_minW_nmos)
	{
	printf(ERRTAG
	"Switch %s R value (%g) is greater than "
	"2 * R_minW_nmos (%g).\n", CurSwitch->name,
	CurSwitch->R, (2 * Arch.R_minW_nmos));
	exit(1);
	}
	}
	else
	{ /* Pass transistor switch */
	if(CurSwitch->R > Arch.R_minW_nmos)
	{
	printf(ERRTAG
	"Switch %s R value (%g) is greater than "
	"R_minW_nmos (%g).\n", CurSwitch->name,
	CurSwitch->R, Arch.R_minW_nmos);
	exit(1);
	}
	}
	}
	}

	static void CheckSegments(IN t_arch Arch) {
	t_segment_inf *CurSeg;
	int i;

	CurSeg = Arch.Segments;
	for(i = 0; i < Arch.num_segments; i++)
	{
	if(CurSeg[i].directionality == UNI_DIRECTIONAL && CurSeg[i].longline == TRUE) {
	printf("Long lines not supported for unidirectional architectures\n");
	exit(1);
	}
	}
	}