segment_stats.c

来自「VPR布局布线源码」· C语言 代码 · 共 116 行

#include <stdio.h>
#include "util.h"
#include "vpr_types.h"
#include "globals.h"
#include "segment_stats.h"


/*************** Variables and defines local to this module ****************/

#define LONGLINE 0



/******************* Subroutine definitions ********************************/


void
get_segment_usage_stats(int num_segment,
			t_segment_inf * segment_inf)
{

/* Computes statistics on the fractional utilization of segments by type    *
 * (index) and by length.  This routine needs a valid rr_graph, and a       *
 * completed routing.  Note that segments cut off by the end of the array   *
 * are counted as full-length segments (e.g. length 4 even if the last 2    *
 * units of wire were chopped off by the chip edge).                        */

    int inode, length, seg_type, max_segment_length, cost_index;
    int *seg_occ_by_length, *seg_cap_by_length;	/* [0..max_segment_length] */
    int *seg_occ_by_type, *seg_cap_by_type;	/* [0..num_segment-1]      */
    float utilization;


    max_segment_length = 0;
    for(seg_type = 0; seg_type < num_segment; seg_type++)
	{
	    if(segment_inf[seg_type].longline == FALSE)
		max_segment_length = max(max_segment_length,
					 segment_inf[seg_type].length);
	}

    seg_occ_by_length = (int *)my_calloc((max_segment_length + 1),
					 sizeof(int));
    seg_cap_by_length = (int *)my_calloc((max_segment_length + 1),
					 sizeof(int));

    seg_occ_by_type = (int *)my_calloc(num_segment, sizeof(int));
    seg_cap_by_type = (int *)my_calloc(num_segment, sizeof(int));


    for(inode = 0; inode < num_rr_nodes; inode++)
	{
	    if(rr_node[inode].type == CHANX || rr_node[inode].type == CHANY)
		{
		    cost_index = rr_node[inode].cost_index;
		    seg_type = rr_indexed_data[cost_index].seg_index;

		    if(!segment_inf[seg_type].longline)
			length = segment_inf[seg_type].length;
		    else
			length = LONGLINE;

		    seg_occ_by_length[length] += rr_node[inode].occ;
		    seg_cap_by_length[length] += rr_node[inode].capacity;
		    seg_occ_by_type[seg_type] += rr_node[inode].occ;
		    seg_cap_by_type[seg_type] += rr_node[inode].capacity;

		}
	}

    printf("\nSegment usage by type (index):\n");
    printf("Segment type       Fractional utilization\n");
    printf("------------       ----------------------\n");

    for(seg_type = 0; seg_type < num_segment; seg_type++)
	{
	    if(seg_cap_by_type[seg_type] != 0)
		{
		    utilization = (float)seg_occ_by_type[seg_type] /
			(float)seg_cap_by_type[seg_type];
		    printf("%8d                  %5.3g\n", seg_type,
			   utilization);
		}
	}


    printf("\nSegment usage by length:\n");
    printf("Segment length       Fractional utilization\n");
    printf("--------------       ----------------------\n");


    for(length = 1; length <= max_segment_length; length++)
	{
	    if(seg_cap_by_length[length] != 0)
		{
		    utilization = (float)seg_occ_by_length[length] /
			(float)seg_cap_by_length[length];
		    printf("%9d                   %5.3g\n", length,
			   utilization);
		}
	}

    if(seg_cap_by_length[LONGLINE] != 0)
	{
	    utilization = (float)seg_occ_by_length[LONGLINE] /
		(float)seg_cap_by_length[LONGLINE];
	    printf("   longline                 %5.3g\n", utilization);
	}


    free(seg_occ_by_length);
    free(seg_cap_by_length);
    free(seg_occ_by_type);
    free(seg_cap_by_type);
}