cores-swerv-el2/tools/unrollforverilator

#!/usr/bin/perl
#use strict;
#use warnings;

my $RV_ROOT = $ENV{RV_ROOT};

my $TOTAL_INT=$ARGV[0];
print "// argv=".$ARGV[0]."\n";
my $NUM_LEVELS;
if($TOTAL_INT==2){$NUM_LEVELS=1;}
elsif ($TOTAL_INT==4){$NUM_LEVELS=2;}
elsif ($TOTAL_INT==8){$NUM_LEVELS=3;}
elsif ($TOTAL_INT==16){$NUM_LEVELS=4;}
elsif ($TOTAL_INT==32){$NUM_LEVELS=5;}
elsif ($TOTAL_INT==64){$NUM_LEVELS=6;}
elsif ($TOTAL_INT==128){$NUM_LEVELS=7;}
elsif ($TOTAL_INT==256){$NUM_LEVELS=8;}
elsif ($TOTAL_INT==512){$NUM_LEVELS=9;}
elsif ($TOTAL_INT==1024){$NUM_LEVELS=10;}
else {$NUM_LEVELS=int(log($TOTAL_INT)/log(2))+1;}
print ("// TOTAL_INT=".$TOTAL_INT." NUM_LEVELS=".$NUM_LEVELS."\n");
$next_level = 1;
print ("`ifdef RV_PIC_2CYCLE\n");
if($TOTAL_INT > 2){
print ("// LEVEL0\n");
print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");
print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");
print ("    for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE0\n");
print ("       if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");
print ("            assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");
print ("            assign level_intpend_id_".$next_level."[m+1]         = '0 ;\n");
print ("       end\n");
print ("       cmp_and_mux  #(\n");
print ("                      .ID_BITS(ID_BITS),\n");
print ("                      .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");
print ("                      .a_id(level_intpend_id[0][2*m]),\n");
print ("                      .a_priority(level_intpend_w_prior_en[0][2*m]),\n");
print ("                      .b_id(level_intpend_id[0][2*m+1]),\n");
print ("                      .b_priority(level_intpend_w_prior_en[0][2*m+1]),\n");
print ("                      .out_id(level_intpend_id_".$next_level."[m]),\n");
print ("                      .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");
print ("        \n");
print (" end\n\n");
for (my $l=1; $l<int($NUM_LEVELS/2) ; $l++) {
$next_level = $l+1;
print ("// LEVEL".$l."\n");
print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");
print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");
print ("    for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$l\n");
print ("       if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");
print ("            assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");
print ("            assign level_intpend_id_".$next_level."[m+1]         = '0 ;\n");
print ("       end\n");
print ("       cmp_and_mux  #(\n");
print ("                      .ID_BITS(ID_BITS),\n");
print ("                      .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");
print ("                      .a_id(level_intpend_id_".$l."[2*m]),\n");
print ("                      .a_priority(level_intpend_w_prior_en_".$l."[2*m]),\n");
print ("                      .b_id(level_intpend_id_".$l."[2*m+1]),\n");
print ("                      .b_priority(level_intpend_w_prior_en_".$l."[2*m+1]),\n");
print ("                      .out_id(level_intpend_id_".$next_level."[m]),\n");
print ("                      .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");
print ("        \n");
print (" end\n\n");
}
### ADD FLOP STAGE
print ("for (i=0; i<=TOTAL_INT/2**(NUM_LEVELS/2) ; i++) begin : MIDDLE_FLOPS\n");
print ("  rvdff #(INTPRIORITY_BITS) level2_intpend_prior_reg  (.*, .din (level_intpend_w_prior_en_".$next_level."[i]), .dout(l2_intpend_w_prior_en_ff[i]),  .clk(active_clk));\n");
print ("  rvdff #(ID_BITS)          level2_intpend_id_reg     (.*, .din (level_intpend_id_".$next_level."[i]),         .dout(l2_intpend_id_ff[i]),          .clk(active_clk));\n");
print ("end\n");
}else{
print ("for (i=0; i<=TOTAL_INT/2**(NUM_LEVELS/2) ; i++) begin : MIDDLE_FLOPS\n");
print ("  rvdff #(INTPRIORITY_BITS) level2_intpend_prior_reg  (.*, .din (level_intpend_w_prior_en[0][i]), .dout(l2_intpend_w_prior_en_ff[i]),  .clk(active_clk));\n");
print ("  rvdff #(ID_BITS)          level2_intpend_id_reg     (.*, .din (level_intpend_id[0][i]),         .dout(l2_intpend_id_ff[i]),          .clk(active_clk));\n");
print ("end\n");
}
### END FLOP STAGE
$next_level = int($NUM_LEVELS/2) + 1;
my $tmp = int($NUM_LEVELS/2);
print ("// LEVEL".$tmp."\n");
print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] levelx_intpend_w_prior_en_".$next_level.";\n");
print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] levelx_intpend_id_".$next_level.";\n");
print ("    for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$tmp\n");
print ("       if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");
print ("            assign levelx_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");
print ("            assign levelx_intpend_id_".$next_level."[m+1]         = '0 ;\n");
print ("       end\n");
print ("       cmp_and_mux  #(\n");
print ("                      .ID_BITS(ID_BITS),\n");
print ("                      .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");
print ("                      .a_id(levelx_intpend_id[$tmp][2*m]),\n");
print ("                      .a_priority(levelx_intpend_w_prior_en[$tmp][2*m]),\n");
print ("                      .b_id(levelx_intpend_id[$tmp][2*m+1]),\n");
print ("                      .b_priority(levelx_intpend_w_prior_en[$tmp][2*m+1]),\n");
print ("                      .out_id(levelx_intpend_id_".$next_level."[m]),\n");
print ("                      .out_priority(levelx_intpend_w_prior_en_".$next_level."[m])) ;\n");
print ("        \n");
print (" end\n\n");
for (my $l=int($NUM_LEVELS/2)+1; $l<$NUM_LEVELS ; $l++) {
$next_level = $l+1;
print ("// LEVEL".$l."\n");
print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] levelx_intpend_w_prior_en_".$next_level.";\n");
print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] levelx_intpend_id_".$next_level.";\n");
print ("    for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$l\n");
print ("       if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");
print ("            assign levelx_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");
print ("            assign levelx_intpend_id_".$next_level."[m+1]         = '0 ;\n");
print ("       end\n");
print ("       cmp_and_mux  #(\n");
print ("                      .ID_BITS(ID_BITS),\n");
print ("                      .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");
print ("                      .a_id(levelx_intpend_id_".$l."[2*m]),\n");
print ("                      .a_priority(levelx_intpend_w_prior_en_".$l."[2*m]),\n");
print ("                      .b_id(levelx_intpend_id_".$l."[2*m+1]),\n");
print ("                      .b_priority(levelx_intpend_w_prior_en_".$l."[2*m+1]),\n");
print ("                      .out_id(levelx_intpend_id_".$next_level."[m]),\n");
print ("                      .out_priority(levelx_intpend_w_prior_en_".$next_level."[m])) ;\n");
print ("        \n");
print (" end\n\n");
}
print ("assign claimid_in[ID_BITS-1:0]                      =      levelx_intpend_id_".$next_level."[0] ;   // This is the last level output\n");
print ("assign selected_int_priority[INTPRIORITY_BITS-1:0]  =      levelx_intpend_w_prior_en_".$next_level."[0] ;\n");
print ("`else\n");
$next_level = 1;
print ("// LEVEL0\n");
print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");
print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");
print ("    for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE0\n");
print ("       if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");
print ("            assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");
print ("            assign level_intpend_id_".$next_level."[m+1]         = '0 ;\n");
print ("       end\n");
print ("       cmp_and_mux  #(\n");
print ("                      .ID_BITS(ID_BITS),\n");
print ("                      .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");
print ("                      .a_id(level_intpend_id[0][2*m]),\n");
print ("                      .a_priority(level_intpend_w_prior_en[0][2*m]),\n");
print ("                      .b_id(level_intpend_id[0][2*m+1]),\n");
print ("                      .b_priority(level_intpend_w_prior_en[0][2*m+1]),\n");
print ("                      .out_id(level_intpend_id_".$next_level."[m]),\n");
print ("                      .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");
print ("        \n");
print (" end\n\n");
for (my $l=1; $l<$NUM_LEVELS ; $l++) {
$next_level = $l+1;
print ("// LEVEL".$l."\n");
print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");
print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");
print ("    for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$l\n");
print ("       if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");
print ("            assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");
print ("            assign level_intpend_id_".$next_level."[m+1]         = '0 ;\n");
print ("       end\n");
print ("       cmp_and_mux  #(\n");
print ("                      .ID_BITS(ID_BITS),\n");
print ("                      .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");
print ("                      .a_id(level_intpend_id_".$l."[2*m]),\n");
print ("                      .a_priority(level_intpend_w_prior_en_".$l."[2*m]),\n");
print ("                      .b_id(level_intpend_id_".$l."[2*m+1]),\n");
print ("                      .b_priority(level_intpend_w_prior_en_".$l."[2*m+1]),\n");
print ("                      .out_id(level_intpend_id_".$next_level."[m]),\n");
print ("                      .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");
print ("        \n");
print (" end\n\n");
}
print ("assign claimid_in[ID_BITS-1:0]                      =      level_intpend_id_".$next_level."[0] ;   // This is the last level output\n");
print ("assign selected_int_priority[INTPRIORITY_BITS-1:0]  =      level_intpend_w_prior_en_".$next_level."[0] ;\n");
print ("`endif\n");
Initial checkin. 2020-01-23 06:22:50 +08:00			`#!/usr/bin/perl`
			`#use strict;`
			`#use warnings;`

			`my $RV_ROOT = $ENV{RV_ROOT};`

			`my $TOTAL_INT=$ARGV[0];`
			`print "// argv=".$ARGV[0]."\n";`
			`my $NUM_LEVELS;`
			`if($TOTAL_INT==2){$NUM_LEVELS=1;}`
			`elsif ($TOTAL_INT==4){$NUM_LEVELS=2;}`
			`elsif ($TOTAL_INT==8){$NUM_LEVELS=3;}`
			`elsif ($TOTAL_INT==16){$NUM_LEVELS=4;}`
			`elsif ($TOTAL_INT==32){$NUM_LEVELS=5;}`
			`elsif ($TOTAL_INT==64){$NUM_LEVELS=6;}`
			`elsif ($TOTAL_INT==128){$NUM_LEVELS=7;}`
			`elsif ($TOTAL_INT==256){$NUM_LEVELS=8;}`
			`elsif ($TOTAL_INT==512){$NUM_LEVELS=9;}`
			`elsif ($TOTAL_INT==1024){$NUM_LEVELS=10;}`
			`else {$NUM_LEVELS=int(log($TOTAL_INT)/log(2))+1;}`
			`print ("// TOTAL_INT=".$TOTAL_INT." NUM_LEVELS=".$NUM_LEVELS."\n");`
			`$next_level = 1;`
			print ("`ifdef RV_PIC_2CYCLE\n");
			`if($TOTAL_INT > 2){`
			`print ("// LEVEL0\n");`
			`print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");`
			`print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");`
			`print (" for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE0\n");`
			`print (" if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");`
			`print (" assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");`
			`print (" assign level_intpend_id_".$next_level."[m+1] = '0 ;\n");`
			`print (" end\n");`
Branch 1.3 2020-11-18 02:25:18 +08:00			`print (" cmp_and_mux #(\n");`
Initial checkin. 2020-01-23 06:22:50 +08:00			`print (" .ID_BITS(ID_BITS),\n");`
			`print (" .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");`
			`print (" .a_id(level_intpend_id[0][2*m]),\n");`
			`print (" .a_priority(level_intpend_w_prior_en[0][2*m]),\n");`
			`print (" .b_id(level_intpend_id[0][2*m+1]),\n");`
			`print (" .b_priority(level_intpend_w_prior_en[0][2*m+1]),\n");`
			`print (" .out_id(level_intpend_id_".$next_level."[m]),\n");`
			`print (" .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");`
			`print (" \n");`
			`print (" end\n\n");`
			`for (my $l=1; $l<int($NUM_LEVELS/2) ; $l++) {`
			`$next_level = $l+1;`
			`print ("// LEVEL".$l."\n");`
			`print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");`
			`print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");`
			`print (" for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$l\n");`
			`print (" if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");`
			`print (" assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");`
			`print (" assign level_intpend_id_".$next_level."[m+1] = '0 ;\n");`
			`print (" end\n");`
Branch 1.3 2020-11-18 02:25:18 +08:00			`print (" cmp_and_mux #(\n");`
Initial checkin. 2020-01-23 06:22:50 +08:00			`print (" .ID_BITS(ID_BITS),\n");`
			`print (" .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");`
			`print (" .a_id(level_intpend_id_".$l."[2*m]),\n");`
			`print (" .a_priority(level_intpend_w_prior_en_".$l."[2*m]),\n");`
			`print (" .b_id(level_intpend_id_".$l."[2*m+1]),\n");`
			`print (" .b_priority(level_intpend_w_prior_en_".$l."[2*m+1]),\n");`
			`print (" .out_id(level_intpend_id_".$next_level."[m]),\n");`
			`print (" .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");`
			`print (" \n");`
			`print (" end\n\n");`
			`}`
			`### ADD FLOP STAGE`
			`print ("for (i=0; i<=TOTAL_INT/2**(NUM_LEVELS/2) ; i++) begin : MIDDLE_FLOPS\n");`
			`print (" rvdff #(INTPRIORITY_BITS) level2_intpend_prior_reg (.*, .din (level_intpend_w_prior_en_".$next_level."[i]), .dout(l2_intpend_w_prior_en_ff[i]), .clk(active_clk));\n");`
			`print (" rvdff #(ID_BITS) level2_intpend_id_reg (.*, .din (level_intpend_id_".$next_level."[i]), .dout(l2_intpend_id_ff[i]), .clk(active_clk));\n");`
			`print ("end\n");`
			`}else{`
			`print ("for (i=0; i<=TOTAL_INT/2**(NUM_LEVELS/2) ; i++) begin : MIDDLE_FLOPS\n");`
			`print (" rvdff #(INTPRIORITY_BITS) level2_intpend_prior_reg (.*, .din (level_intpend_w_prior_en[0][i]), .dout(l2_intpend_w_prior_en_ff[i]), .clk(active_clk));\n");`
			`print (" rvdff #(ID_BITS) level2_intpend_id_reg (.*, .din (level_intpend_id[0][i]), .dout(l2_intpend_id_ff[i]), .clk(active_clk));\n");`
			`print ("end\n");`
			`}`
			`### END FLOP STAGE`
			`$next_level = int($NUM_LEVELS/2) + 1;`
			`my $tmp = int($NUM_LEVELS/2);`
			`print ("// LEVEL".$tmp."\n");`
			`print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] levelx_intpend_w_prior_en_".$next_level.";\n");`
			`print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] levelx_intpend_id_".$next_level.";\n");`
			`print (" for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$tmp\n");`
			`print (" if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");`
			`print (" assign levelx_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");`
			`print (" assign levelx_intpend_id_".$next_level."[m+1] = '0 ;\n");`
			`print (" end\n");`
Branch 1.3 2020-11-18 02:25:18 +08:00			`print (" cmp_and_mux #(\n");`
Initial checkin. 2020-01-23 06:22:50 +08:00			`print (" .ID_BITS(ID_BITS),\n");`
			`print (" .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");`
			`print (" .a_id(levelx_intpend_id[$tmp][2*m]),\n");`
			`print (" .a_priority(levelx_intpend_w_prior_en[$tmp][2*m]),\n");`
			`print (" .b_id(levelx_intpend_id[$tmp][2*m+1]),\n");`
			`print (" .b_priority(levelx_intpend_w_prior_en[$tmp][2*m+1]),\n");`
			`print (" .out_id(levelx_intpend_id_".$next_level."[m]),\n");`
			`print (" .out_priority(levelx_intpend_w_prior_en_".$next_level."[m])) ;\n");`
			`print (" \n");`
			`print (" end\n\n");`
			`for (my $l=int($NUM_LEVELS/2)+1; $l<$NUM_LEVELS ; $l++) {`
			`$next_level = $l+1;`
			`print ("// LEVEL".$l."\n");`
			`print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] levelx_intpend_w_prior_en_".$next_level.";\n");`
			`print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] levelx_intpend_id_".$next_level.";\n");`
			`print (" for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$l\n");`
			`print (" if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");`
			`print (" assign levelx_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");`
			`print (" assign levelx_intpend_id_".$next_level."[m+1] = '0 ;\n");`
			`print (" end\n");`
Branch 1.3 2020-11-18 02:25:18 +08:00			`print (" cmp_and_mux #(\n");`
Initial checkin. 2020-01-23 06:22:50 +08:00			`print (" .ID_BITS(ID_BITS),\n");`
			`print (" .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");`
			`print (" .a_id(levelx_intpend_id_".$l."[2*m]),\n");`
			`print (" .a_priority(levelx_intpend_w_prior_en_".$l."[2*m]),\n");`
			`print (" .b_id(levelx_intpend_id_".$l."[2*m+1]),\n");`
			`print (" .b_priority(levelx_intpend_w_prior_en_".$l."[2*m+1]),\n");`
			`print (" .out_id(levelx_intpend_id_".$next_level."[m]),\n");`
			`print (" .out_priority(levelx_intpend_w_prior_en_".$next_level."[m])) ;\n");`
			`print (" \n");`
			`print (" end\n\n");`
			`}`
			`print ("assign claimid_in[ID_BITS-1:0] = levelx_intpend_id_".$next_level."[0] ; // This is the last level output\n");`
			`print ("assign selected_int_priority[INTPRIORITY_BITS-1:0] = levelx_intpend_w_prior_en_".$next_level."[0] ;\n");`
			print ("`else\n");
			`$next_level = 1;`
			`print ("// LEVEL0\n");`
			`print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");`
			`print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");`
			`print (" for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE0\n");`
			`print (" if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");`
			`print (" assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");`
			`print (" assign level_intpend_id_".$next_level."[m+1] = '0 ;\n");`
			`print (" end\n");`
Branch 1.3 2020-11-18 02:25:18 +08:00			`print (" cmp_and_mux #(\n");`
Initial checkin. 2020-01-23 06:22:50 +08:00			`print (" .ID_BITS(ID_BITS),\n");`
			`print (" .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");`
			`print (" .a_id(level_intpend_id[0][2*m]),\n");`
			`print (" .a_priority(level_intpend_w_prior_en[0][2*m]),\n");`
			`print (" .b_id(level_intpend_id[0][2*m+1]),\n");`
			`print (" .b_priority(level_intpend_w_prior_en[0][2*m+1]),\n");`
			`print (" .out_id(level_intpend_id_".$next_level."[m]),\n");`
			`print (" .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");`
			`print (" \n");`
			`print (" end\n\n");`
			`for (my $l=1; $l<$NUM_LEVELS ; $l++) {`
			`$next_level = $l+1;`
			`print ("// LEVEL".$l."\n");`
			`print ("logic [TOTAL_INT+2:0] [INTPRIORITY_BITS-1:0] level_intpend_w_prior_en_".$next_level.";\n");`
			`print ("logic [TOTAL_INT+2:0] [ID_BITS-1:0] level_intpend_id_".$next_level.";\n");`
			`print (" for (m=0; m<=(TOTAL_INT)/(2**(".$next_level.")) ; m++) begin : COMPARE$l\n");`
			`print (" if ( m == (TOTAL_INT)/(2**(".$next_level."))) begin \n");`
			`print (" assign level_intpend_w_prior_en_".$next_level."[m+1] = '0 ;\n");`
			`print (" assign level_intpend_id_".$next_level."[m+1] = '0 ;\n");`
			`print (" end\n");`
Branch 1.3 2020-11-18 02:25:18 +08:00			`print (" cmp_and_mux #(\n");`
Initial checkin. 2020-01-23 06:22:50 +08:00			`print (" .ID_BITS(ID_BITS),\n");`
			`print (" .INTPRIORITY_BITS(INTPRIORITY_BITS)) cmp_l".$next_level." (\n");`
			`print (" .a_id(level_intpend_id_".$l."[2*m]),\n");`
			`print (" .a_priority(level_intpend_w_prior_en_".$l."[2*m]),\n");`
			`print (" .b_id(level_intpend_id_".$l."[2*m+1]),\n");`
			`print (" .b_priority(level_intpend_w_prior_en_".$l."[2*m+1]),\n");`
			`print (" .out_id(level_intpend_id_".$next_level."[m]),\n");`
			`print (" .out_priority(level_intpend_w_prior_en_".$next_level."[m])) ;\n");`
			`print (" \n");`
			`print (" end\n\n");`
			`}`
			`print ("assign claimid_in[ID_BITS-1:0] = level_intpend_id_".$next_level."[0] ; // This is the last level output\n");`
			`print ("assign selected_int_priority[INTPRIORITY_BITS-1:0] = level_intpend_w_prior_en_".$next_level."[0] ;\n");`
			print ("`endif\n");