// Module instances modified by /home/rws/workarea/rf/sw/bbplayer/tools/necprimfix 
//
//    234 instances of ad01d1h changed to j_ad01.
//    18 instances of mx21d1 changed to j_mx21.
//    15 instances of mx21d1h changed to j_mx21.
//    3 instances of ni01d3 changed to j_ni01.
//

/**************************************************************************
 *                                                                        *
 *               Copyright (C) 1994, Silicon Graphics, Inc.               *
 *                                                                        *
 *  These coded instructions, statements, and computer programs  contain  *
 *  unpublished  proprietary  information of Silicon Graphics, Inc., and  *
 *  are protected by Federal copyright  law.  They  may not be disclosed  *
 *  to  third  parties  or copied or duplicated in any form, in whole or  *
 *  in part, without the prior written consent of Silicon Graphics, Inc.  *
 *                                                                        *
 *************************************************************************/

// $Id: tc_div.v,v 1.4 2003/01/04 01:48:28 berndt Exp $

////////////////////////////////////////////////////////////////////////
//
// Project Reality
//
// module:      tc_div
// description: Texture Coordinate Unit Perspective Divide 
//
// designers:   Matthew Rohm, Tony DeLaurier
// date:        7/25/94
//
////////////////////////////////////////////////////////////////////////

module tc_div (w, s, t, dis, clk, start_gclk, sw_out, tw_out);

  input   [15:0] w;
  input   [15:0] s, t;
  input   dis;

  input  clk, start_gclk;

  output  [18:0] sw_out, tw_out;

  wire [9:0] w_frac;
  wire [3:0] w_shft;
  wire [14:0] tlu_pt;
  wire [9:0] tlu_sl;

  wire [14:0] tlu_rcp;
  wire [29:0] sw_mul;
  wire [29:0] tw_mul;
  reg [14:0] cmask;

  reg [9:0] norm1;
  reg [9:0] tlu_sl1;
  reg [14:0] tlu_pt1;
  reg [3:0] shft1;
  reg dis1;

  reg [3:0] shft2;
  reg [14:0] rcp2;

  reg [29:0] sw_mul3;
  reg [29:0] tw_mul3;
  reg [3:0] shft3;
  reg [14:0] cmask3;

  reg w_under;
  reg w_under_1d;
  reg w_under_2d;

  // detect w underflow
  always @ (posedge clk) begin
   if (start_gclk) begin
    w_under <= !dis && (w[15] || (w[14:0] == 15'b0));
    w_under_1d <= w_under;
    w_under_2d <= w_under_1d;
   end
  end

  // normalizer with tlu
  tc_div_nrmtlu nrmtlu (.in(w[14:0]), .norm(w_frac), .shft(w_shft),
		        .pt(tlu_pt), .slope(tlu_sl));

  // first pipeline regs
  always @ (posedge clk) begin
   if (start_gclk) begin
    norm1   <= w_frac;
    tlu_sl1 <= tlu_sl;
    tlu_pt1 <= tlu_pt;
    shft1 <= w_shft;
    dis1 <= dis;
   end
  end

  // recip mult/add
  tc_div_mul1 mul1  (.mc({1'b1, tlu_sl1}), .mp(norm1), .pt(tlu_pt1), .out(tlu_rcp));

  // second pipeline regs
  always @ (posedge clk) begin
   if (start_gclk) begin
    rcp2 <= dis1 ? 15'h2000 : tlu_rcp;
    shft2 <= dis1 ? 4'h0 : shft1;
   end
  end

  // s multiply
  tc_div_mul2 mul_s (.mc(s), .mp(rcp2), .out(sw_mul));

  // t multiply
  tc_div_mul2 mul_t (.mc(t), .mp(rcp2), .out(tw_mul));

  // clamp mask decoder
  always @ (shft2) begin
  casez (shft2)
    4'h0 : cmask = 15'h4000;
    4'h1 : cmask = 15'h6000;
    4'h2 : cmask = 15'h7000;
    4'h3 : cmask = 15'h7800;
    4'h4 : cmask = 15'h7C00;
    4'h5 : cmask = 15'h7E00;
    4'h6 : cmask = 15'h7F00;
    4'h7 : cmask = 15'h7F80;
    4'h8 : cmask = 15'h7FC0;
    4'h9 : cmask = 15'h7FE0;
    4'hA : cmask = 15'h7FF0;
    4'hB : cmask = 15'h7FF8;
    4'hC : cmask = 15'h7FFC;
    4'hD : cmask = 15'h7FFE;
    4'hE : cmask = 15'h7FFF;
    4'hF : cmask = 15'h7FFF;
    default : cmask = 15'bx;
  endcase
  end // always

  // third pipeline regs
  always @ (posedge clk) begin
   if (start_gclk) begin
    sw_mul3 <= sw_mul;
    tw_mul3 <= tw_mul;
    shft3 <= shft2;
    cmask3 <= cmask;
   end
  end

  // s denormalize
  tc_div_dnrmclmp denorm_s (.in(sw_mul3), .shft(shft3), .cmask(cmask3), 
			    .w_under(w_under_2d), .out(sw_out));

  // t denormalize
  tc_div_dnrmclmp denorm_t (.in(tw_mul3), .shft(shft3), .cmask(cmask3), 
			    .w_under(w_under_2d), .out(tw_out));

endmodule // tc_div


// divider normalizer with tlu
module tc_div_nrmtlu (in, norm, shft, pt, slope);

  input   [14:0] in;

  output  [14:0] pt;
  output  [9:0] slope;
  output  [9:0] norm;
  output  [3:0] shft;

  reg [13:0] nrm_out;
  reg [3:0] shft;
  reg [14:0] shfta, shftb;
  reg [15:0] tmp_pt;
  reg [11:0] tmp_slope;


  always @(in) begin

    // priority encode
    if      (in[14]) shft = 4'b0000;
    else if (in[13]) shft = 4'b0001;
    else if (in[12]) shft = 4'b0010;
    else if (in[11]) shft = 4'b0011;
    else if (in[10]) shft = 4'b0100;
    else if (in[9])  shft = 4'b0101;
    else if (in[8])  shft = 4'b0110;
    else if (in[7])  shft = 4'b0111;
    else if (in[6])  shft = 4'b1000;
    else if (in[5])  shft = 4'b1001;
    else if (in[4])  shft = 4'b1010;
    else if (in[3])  shft = 4'b1011;
    else if (in[2])  shft = 4'b1100;
    else if (in[1])  shft = 4'b1101;
    else             shft = 4'b1110;

    // shift mux A  (x0, x2, x4, x6)
    casez ({shft[2], shft[1]})
      2'b00 : shfta =  in[14:0];
      2'b01 : shfta = {in[12:0], 2'b0};
      2'b10 : shfta = {in[10:0], 4'b0};
      2'b11 : shfta = {in[8:0], 6'b0};
      default : shfta = 15'bx;
    endcase

    // shift mux B  (x8, x10, x12, x14)
    casez ({shft[2], shft[1]})
      2'b00 : shftb = {in[6:0], 8'b0};
      2'b01 : shftb = {in[4:0], 10'b0};
      2'b10 : shftb = {in[2:0], 12'b0};
      2'b11 : shftb = {in[0], 14'b0};
      default : shftb = 15'bx;
    endcase

    // shift mux C  (Ax0, Ax1, Bx0, Bx1)
    casez ({shft[3], shft[0]})
      2'b00 : nrm_out = shfta[13:0];
      2'b01 : nrm_out = {shfta[12:0], 1'b0};
      2'b10 : nrm_out = shftb[13:0];
      2'b11 : nrm_out = {shftb[12:0], 1'b0};
      default : nrm_out = 14'bx;
    endcase

  end // always

  always @(nrm_out[13:8]) begin
    // point lookup
    case (nrm_out[13:8])
      6'd00:  tmp_pt = 16'h4000;
      6'd01:  tmp_pt = 16'h3f04;
      6'd02:  tmp_pt = 16'h3e10;
      6'd03:  tmp_pt = 16'h3d22;
      6'd04:  tmp_pt = 16'h3c3c;
      6'd05:  tmp_pt = 16'h3b5d;
      6'd06:  tmp_pt = 16'h3a83;
      6'd07:  tmp_pt = 16'h39b1;
      6'd08:  tmp_pt = 16'h38e4;
      6'd09:  tmp_pt = 16'h381c;
      6'd10:  tmp_pt = 16'h375a;
      6'd11:  tmp_pt = 16'h369d;
      6'd12:  tmp_pt = 16'h35e5;
      6'd13:  tmp_pt = 16'h3532;
      6'd14:  tmp_pt = 16'h3483;
      6'd15:  tmp_pt = 16'h33d9;
      6'd16:  tmp_pt = 16'h3333;
      6'd17:  tmp_pt = 16'h3291;
      6'd18:  tmp_pt = 16'h31f4;
      6'd19:  tmp_pt = 16'h3159;
      6'd20:  tmp_pt = 16'h30c3;
      6'd21:  tmp_pt = 16'h3030;
      6'd22:  tmp_pt = 16'h2fa1;
      6'd23:  tmp_pt = 16'h2f15;
      6'd24:  tmp_pt = 16'h2e8c;
      6'd25:  tmp_pt = 16'h2e06;
      6'd26:  tmp_pt = 16'h2d83;
      6'd27:  tmp_pt = 16'h2d03;
      6'd28:  tmp_pt = 16'h2c86;
      6'd29:  tmp_pt = 16'h2c0b;
      6'd30:  tmp_pt = 16'h2b93;
      6'd31:  tmp_pt = 16'h2b1e;
      6'd32:  tmp_pt = 16'h2aab;
      6'd33:  tmp_pt = 16'h2a3a;
      6'd34:  tmp_pt = 16'h29cc;
      6'd35:  tmp_pt = 16'h2960;
      6'd36:  tmp_pt = 16'h28f6;
      6'd37:  tmp_pt = 16'h288e;
      6'd38:  tmp_pt = 16'h2828;
      6'd39:  tmp_pt = 16'h27c4;
      6'd40:  tmp_pt = 16'h2762;
      6'd41:  tmp_pt = 16'h2702;
      6'd42:  tmp_pt = 16'h26a4;
      6'd43:  tmp_pt = 16'h2648;
      6'd44:  tmp_pt = 16'h25ed;
      6'd45:  tmp_pt = 16'h2594;
      6'd46:  tmp_pt = 16'h253d;
      6'd47:  tmp_pt = 16'h24e7;
      6'd48:  tmp_pt = 16'h2492;
      6'd49:  tmp_pt = 16'h243f;
      6'd50:  tmp_pt = 16'h23ee;
      6'd51:  tmp_pt = 16'h239e;
      6'd52:  tmp_pt = 16'h234f;
      6'd53:  tmp_pt = 16'h2302;
      6'd54:  tmp_pt = 16'h22b6;
      6'd55:  tmp_pt = 16'h226c;
      6'd56:  tmp_pt = 16'h2222;
      6'd57:  tmp_pt = 16'h21da;
      6'd58:  tmp_pt = 16'h2193;
      6'd59:  tmp_pt = 16'h214d;
      6'd60:  tmp_pt = 16'h2108;
      6'd61:  tmp_pt = 16'h20c5;
      6'd62:  tmp_pt = 16'h2082;
      6'd63:  tmp_pt = 16'h2041;
    endcase

    // slope lookup
    case (nrm_out[13:8])
      6'd00: tmp_slope = 12'hf03;
      6'd01: tmp_slope = 12'hf0b;
      6'd02: tmp_slope = 12'hf11;
      6'd03: tmp_slope = 12'hf19;
      6'd04: tmp_slope = 12'hf20;
      6'd05: tmp_slope = 12'hf25;
      6'd06: tmp_slope = 12'hf2d;
      6'd07: tmp_slope = 12'hf32;
      6'd08: tmp_slope = 12'hf37;
      6'd09: tmp_slope = 12'hf3d;
      6'd10: tmp_slope = 12'hf42;
      6'd11: tmp_slope = 12'hf47;
      6'd12: tmp_slope = 12'hf4c;
      6'd13: tmp_slope = 12'hf50;
      6'd14: tmp_slope = 12'hf55;
      6'd15: tmp_slope = 12'hf59;
      6'd16: tmp_slope = 12'hf5d;
      6'd17: tmp_slope = 12'hf62;
      6'd18: tmp_slope = 12'hf64;
      6'd19: tmp_slope = 12'hf69;
      6'd20: tmp_slope = 12'hf6c;
      6'd21: tmp_slope = 12'hf70;
      6'd22: tmp_slope = 12'hf73;
      6'd23: tmp_slope = 12'hf76;
      6'd24: tmp_slope = 12'hf79;
      6'd25: tmp_slope = 12'hf7c;
      6'd26: tmp_slope = 12'hf7f;
      6'd27: tmp_slope = 12'hf82;
      6'd28: tmp_slope = 12'hf84;
      6'd29: tmp_slope = 12'hf87;
      6'd30: tmp_slope = 12'hf8a;
      6'd31: tmp_slope = 12'hf8c;
      6'd32: tmp_slope = 12'hf8e;
      6'd33: tmp_slope = 12'hf91;
      6'd34: tmp_slope = 12'hf93;
      6'd35: tmp_slope = 12'hf95;
      6'd36: tmp_slope = 12'hf97;
      6'd37: tmp_slope = 12'hf99;
      6'd38: tmp_slope = 12'hf9b;
      6'd39: tmp_slope = 12'hf9d;
      6'd40: tmp_slope = 12'hf9f;
      6'd41: tmp_slope = 12'hfa1;
      6'd42: tmp_slope = 12'hfa3;
      6'd43: tmp_slope = 12'hfa4;
      6'd44: tmp_slope = 12'hfa6;
      6'd45: tmp_slope = 12'hfa8;
      6'd46: tmp_slope = 12'hfa9;
      6'd47: tmp_slope = 12'hfaa;
      6'd48: tmp_slope = 12'hfac;
      6'd49: tmp_slope = 12'hfae;
      6'd50: tmp_slope = 12'hfaf;
      6'd51: tmp_slope = 12'hfb0;
      6'd52: tmp_slope = 12'hfb2;
      6'd53: tmp_slope = 12'hfb3;
      6'd54: tmp_slope = 12'hfb5;
      6'd55: tmp_slope = 12'hfb5;
      6'd56: tmp_slope = 12'hfb7;
      6'd57: tmp_slope = 12'hfb8;
      6'd58: tmp_slope = 12'hfb9;
      6'd59: tmp_slope = 12'hfba;
      6'd60: tmp_slope = 12'hfbc;
      6'd61: tmp_slope = 12'hfbc;
      6'd62: tmp_slope = 12'hfbe;
      6'd63: tmp_slope = 12'hfbe;
    endcase

  end // always

  // tlu outputs
  assign pt = tmp_pt[14:0];
  assign slope = tmp_slope[9:0];

  // normalizer outputs
  assign norm = {nrm_out[7:0], 2'b0};

endmodule // tc_div_nrmtlu


// denormalizer with clamp
module tc_div_dnrmclmp (in, shft, cmask, w_under, out);

  input   [29:0] in;
  input   [3:0] shft;
  input   [14:0] cmask;
  input   w_under;

  output  [18:0] out;

  wire [16:0] dn_out;
  wire pass;
  wire [18:0] out;
  wire [14:0] zeros_bus, ones_bus;

  // barrel shifter
  tc_div_16to1 shf16 (.in({in[29:15], 1'b0}), .shift(shft), .out(dn_out[16]));
  tc_div_16to1 shf15 (.in({in[28:14], 1'b0}), .shift(shft), .out(dn_out[15]));
  tc_div_16to1 shf14 (.in({in[27:13], 1'b0}), .shift(shft), .out(dn_out[14]));
  tc_div_16to1 shf13 (.in({in[26:12], 1'b0}), .shift(shft), .out(dn_out[13]));
  tc_div_16to1 shf12 (.in({in[25:11], 1'b0}), .shift(shft), .out(dn_out[12]));
  tc_div_16to1 shf11 (.in({in[24:10], 1'b0}), .shift(shft), .out(dn_out[11]));
  tc_div_16to1 shf10 (.in({in[23:9],  1'b0}), .shift(shft), .out(dn_out[10]));
  tc_div_16to1 shf9  (.in({in[22:8],  1'b0}), .shift(shft), .out(dn_out[9]));
  tc_div_16to1 shf8  (.in({in[21:7],  1'b0}), .shift(shft), .out(dn_out[8]));
  tc_div_16to1 shf7  (.in({in[20:6],  1'b0}), .shift(shft), .out(dn_out[7]));
  tc_div_16to1 shf6  (.in({in[19:5],  1'b0}), .shift(shft), .out(dn_out[6]));
  tc_div_16to1 shf5  (.in({in[18:4],  1'b0}), .shift(shft), .out(dn_out[5]));
  tc_div_16to1 shf4  (.in({in[17:3],  1'b0}), .shift(shft), .out(dn_out[4]));
  tc_div_16to1 shf3  (.in({in[16:2],  1'b0}), .shift(shft), .out(dn_out[3]));
  tc_div_16to1 shf2  (.in({in[15:1],  1'b0}), .shift(shft), .out(dn_out[2]));
  tc_div_16to1 shf1  (.in({in[14:0],  1'b0}), .shift(shft), .out(dn_out[1]));
  tc_div_16to1 shf0  (.in({in[13:0],  2'b0}), .shift(shft), .out(dn_out[0]));

  // create two copies of input bus for comparison
  assign zeros_bus = (in[29:15] &  cmask);
  assign ones_bus  = (in[29:15] | ~cmask);

  // determine over/underflow flags
  assign pass = ((zeros_bus == 15'h0000) || (ones_bus == 15'h7FFF));

  assign out[18] = (!pass && !in[29]) || w_under;
  assign out[17] = !pass && in[29];

  assign out[16:0] = dn_out[16:0];

endmodule // tc_div_dnrmclmp


// 10 X 10 multiplier
module tc_div_mul1 (mc, mp, pt, out);

  input [10:0] mc;
  input [9:0] mp;
  input [14:0] pt;
  output [14:0] out;

  wire [10:0] p0, p1, p2, p3, p4, p5, p6, p7, p8, p9;
  wire [11:0] s_a, co_a;
  wire [12:0] s_b, co_b;
  wire [12:0] s_c, co_c;
  wire [16:0] s_d, co_d;
  wire [14:0] s_e, co_e;
  wire [19:0] s_f, co_f;
  wire [14:0] s_g, co_g;
  wire [19:0] s_h, co_h;
  wire [24:0] s_i, co_i;
  wire [24:0] s_j, co_j;

  wire [3:0] s_m0, s_m1;
  wire [4:0] s_n0, s_n1;
  wire [5:0] s_q0, s_q1;

  wire [2:0] sel;
  wire [2:0] sel_d3;

  wire [19:0] sum;

  // calculate partial products
  assign p0 = mc & {11{mp[0]}};
  assign p1 = (mc & {11{mp[1]}}) ^ 11'h400;
  assign p2 = (mc & {11{mp[2]}}) ^ 11'h400;
  assign p3 = (mc & {11{mp[3]}}) ^ 11'h400;
  assign p4 = (mc & {11{mp[4]}}) ^ 11'h400;
  assign p5 = (mc & {11{mp[5]}}) ^ 11'h400;
  assign p6 = (mc & {11{mp[6]}}) ^ 11'h400;
  assign p7 = (mc & {11{mp[7]}}) ^ 11'h400;
  assign p8 = (mc & {11{mp[8]}}) ^ 11'h400;
  assign p9 = (mc & {11{mp[9]}}) ^ 11'h400;

  // carry-save adder tree
  // 1st level
  tc_div_csa12 csa_a (.a({p1, 1'b0}), .b({~p0[10], p0}), .ci({2'b0, mp}),
                      .s(s_a), .co(co_a));

  tc_div_csa13 csa_b (.a({p4, 2'b0}), .b({1'b0, p3, 1'b0}), .ci({2'b0, p2}),
                      .s(s_b), .co(co_b));

  tc_div_csa13 csa_c (.a({p7, 2'b0}), .b({1'b0, p6, 1'b0}), .ci({2'b0, p5}),
                      .s(s_c), .co(co_c));

  tc_div_csa17 csa_d (.a({pt, 2'b0}), .b({5'b11111, p9, 1'b0}), .ci({6'b0, p8}),
                      .s(s_d), .co(co_d));

  // 2nd level
  tc_div_csa15 csa_e (.a({co_b[11:1], 4'b0}), .b({2'b0, co_a, 1'b0}), .ci({3'b0, s_a}),
                      .s(s_e), .co(co_e));

  tc_div_csa20 csa_f (.a({co_d[15:1], 5'b0}), .b({7'b0, co_c[11:1], 2'b0}), .ci({7'b0, s_c}),
                      .s(s_f), .co(co_f));

  // 3rd level
  tc_div_csa15 csa_g (.a({s_b, 2'b0}), .b({1'b0, co_e[12:1], 2'b0}), .ci(s_e),
                      .s(s_g), .co(co_g));

  tc_div_csa20 csa_h (.a({s_d, 3'b0}), .b({6'b0, co_f[12:2], 3'b0}), .ci(s_f),
                      .s(s_h), .co(co_h));

  // 4th level
  tc_div_csa25 csa_i (.a({co_h[18:3], 9'b0}), .b({9'b0, co_g[14:2], 3'b0}), .ci({10'b0, s_g}),
                      .s(s_i), .co(co_i));

  // 5th level
  tc_div_csa25 csa_j (.a({s_h, 5'b0}), .b({8'b0, co_i[15:3], 4'b0}), .ci(s_i),
                      .s(s_j), .co(co_j));

  // carry select adder

  tc_div_radd2 radd_k  (.a(s_j[6:5]), .b(co_j[5:4]), .co(co_k));
  tc_div_radd3 radd_l0 (.a(s_j[9:7]), .b(co_j[8:6]), .ci(1'b0), .co(co_l0));
  tc_div_radd3 radd_l1 (.a(s_j[9:7]), .b(co_j[8:6]), .ci(1'b1), .co(co_l1));
  tc_div_radd4 radd_m0 (.a(s_j[13:10]), .b(co_j[12:9]), .ci(1'b0), .s(s_m0), .co(co_m0));
  tc_div_radd4 radd_m1 (.a(s_j[13:10]), .b(co_j[12:9]), .ci(1'b1), .s(s_m1), .co(co_m1));
  tc_div_radd5 radd_n0 (.a(s_j[18:14]), .b(co_j[17:13]), .ci(1'b0), .s(s_n0), .co(co_n0));
  tc_div_radd5 radd_n1 (.a(s_j[18:14]), .b(co_j[17:13]), .ci(1'b1), .s(s_n1), .co(co_n1));
  tc_div_radd6 radd_q0 (.a(s_j[24:19]), .b(co_j[23:18]), .ci(1'b0), .s(s_q0));
  tc_div_radd6 radd_q1 (.a(s_j[24:19]), .b(co_j[23:18]), .ci(1'b1), .s(s_q1));

  j_mx21 mx0 (.z(sel[0]), .i0(co_l0), .i1(co_l1), .s(co_k));
  j_mx21 mx1 (.z(sel[1]), .i0(co_m0), .i1(co_m1), .s(sel[0]));
  j_mx21 mx2 (.z(sel[2]), .i0(co_n0), .i1(co_n1), .s(sel[1]));

  j_ni01 sel_buf0 (.z(sel_d3[0]), .i(sel[0]));
  j_ni01 sel_buf1 (.z(sel_d3[1]), .i(sel[1]));
  j_ni01 sel_buf2 (.z(sel_d3[2]), .i(sel[2]));

  j_mx21 mx3 (.z(sum[8]), .i0(s_m0[3]), .i1(s_m1[3]), .s(sel_d3[0]));
  j_mx21 mx4 (.z(sum[7]), .i0(s_m0[2]), .i1(s_m1[2]), .s(sel_d3[0]));
  j_mx21 mx5 (.z(sum[6]), .i0(s_m0[1]), .i1(s_m1[1]), .s(sel_d3[0]));
  j_mx21 mx6 (.z(sum[5]), .i0(s_m0[0]), .i1(s_m1[0]), .s(sel_d3[0]));

  j_mx21 mx7 (.z(sum[13]), .i0(s_n0[4]), .i1(s_n1[4]), .s(sel_d3[1]));
  j_mx21 mx8 (.z(sum[12]), .i0(s_n0[3]), .i1(s_n1[3]), .s(sel_d3[1]));
  j_mx21 mx9 (.z(sum[11]), .i0(s_n0[2]), .i1(s_n1[2]), .s(sel_d3[1]));
  j_mx21 mx10 (.z(sum[10]), .i0(s_n0[1]), .i1(s_n1[1]), .s(sel_d3[1]));
  j_mx21 mx11 (.z(sum[9]), .i0(s_n0[0]), .i1(s_n1[0]), .s(sel_d3[1]));

  j_mx21 mx12 (.z(sum[19]), .i0(s_q0[5]), .i1(s_q1[5]), .s(sel_d3[2]));
  j_mx21 mx13 (.z(sum[18]), .i0(s_q0[4]), .i1(s_q1[4]), .s(sel_d3[2]));
  j_mx21 mx14 (.z(sum[17]), .i0(s_q0[3]), .i1(s_q1[3]), .s(sel_d3[2]));
  j_mx21 mx15 (.z(sum[16]), .i0(s_q0[2]), .i1(s_q1[2]), .s(sel_d3[2]));
  j_mx21 mx16 (.z(sum[15]), .i0(s_q0[1]), .i1(s_q1[1]), .s(sel_d3[2]));
  j_mx21 mx17 (.z(sum[14]), .i0(s_q0[0]), .i1(s_q1[0]), .s(sel_d3[2]));

  assign out[14:0] = sum[19:5];

endmodule // tc_div_mul1


// 15 X S.15 multiplier
module tc_div_mul2 (mc, mp, out);

  input [15:0] mc;
  input [14:0] mp;
  output [29:0] out;

  wire [15:0] p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, p10, p11, p12, p13, p14;

  wire [17:0] s_a, co_a;
  wire [17:0] s_b, co_b;
  wire [17:0] s_c, co_c;
  wire [18:0] s_d, co_d;
  wire [18:0] s_e, co_e;
  wire [18:0] s_f, co_f;
  wire [17:0] s_g, co_g;
  wire [22:0] s_h, co_h;
  wire [21:0] s_i, co_i;
  wire [22:0] s_j, co_j;
  wire [21:0] s_k, co_k;
  wire [29:0] s_l, co_l;
  wire [29:0] s_m, co_m;

  // calculate partial products
  assign p0  =  mc & {16{mp[0]}};
  assign p1  = {~(mc[15] & mp[1]),  (mc[14:0] & {15{mp[1]}})};
  assign p2  = {~(mc[15] & mp[2]),  (mc[14:0] & {15{mp[2]}})};
  assign p3  = {~(mc[15] & mp[3]),  (mc[14:0] & {15{mp[3]}})};
  assign p4  = {~(mc[15] & mp[4]),  (mc[14:0] & {15{mp[4]}})};
  assign p5  = {~(mc[15] & mp[5]),  (mc[14:0] & {15{mp[5]}})};
  assign p6  = {~(mc[15] & mp[6]),  (mc[14:0] & {15{mp[6]}})};
  assign p7  = {~(mc[15] & mp[7]),  (mc[14:0] & {15{mp[7]}})};
  assign p8  = {~(mc[15] & mp[8]),  (mc[14:0] & {15{mp[8]}})};
  assign p9  = {~(mc[15] & mp[9]),  (mc[14:0] & {15{mp[9]}})};
  assign p10 = {~(mc[15] & mp[10]), (mc[14:0] & {15{mp[10]}})};
  assign p11 = {~(mc[15] & mp[11]), (mc[14:0] & {15{mp[11]}})};
  assign p12 = {~(mc[15] & mp[12]), (mc[14:0] & {15{mp[12]}})};
  assign p13 = {~(mc[15] & mp[13]), (mc[14:0] & {15{mp[13]}})};
  assign p14 = {~(mc[15] & mp[14]), (mc[14:0] & {15{mp[14]}})};


  // carry-save adder tree
  tc_div_csa18 csa_a (.a({p2, 2'b0}), .b({1'b0, p1, 1'b0}), .ci({1'b0, ~p0[15], p0}),
                      .s(s_a), .co(co_a));

  tc_div_csa18 csa_b (.a({p6, 2'b0}), .b({1'b0, p5, 1'b0}), .ci({2'b0, p4}),
                      .s(s_b), .co(co_b));

  tc_div_csa18 csa_c (.a({p10, 2'b0}), .b({1'b0, p9, 1'b0}), .ci({2'b0, p8}),
                      .s(s_c), .co(co_c));

  tc_div_csa19 csa_d (.a({p3, 3'b0}), .b({1'b0, co_a[16:1], 2'b0}), .ci({1'b0, s_a}),
                      .s(s_d), .co(co_d));

  tc_div_csa19 csa_e (.a({p7, 3'b0}), .b({1'b0, co_b[16:1], 2'b0}), .ci({1'b0, s_b}),
                      .s(s_e), .co(co_e));

  tc_div_csa19 csa_f (.a({p11, 3'b0}), .b({1'b0, co_c[16:1], 2'b0}), .ci({1'b0, s_c}),
                      .s(s_f), .co(co_f));

  tc_div_csa18 csa_g (.a({p14, 2'b0}), .b({1'b0, p13, 1'b0}), .ci({2'b0, p12}),
                      .s(s_g), .co(co_g));

  tc_div_csa23 csa_h (.a({co_e[17:2], 7'b0}), .b({4'b0, co_d[17:2], 3'b0}), .ci({4'b0, s_d}),
                      .s(s_h), .co(co_h));

  tc_div_csa22 csa_i (.a({co_g[16:1], 6'b0}), .b({3'b0, co_f[17:2], 3'b0}), .ci({3'b0, s_f}),
                      .s(s_i), .co(co_i));

  tc_div_csa23 csa_j (.a({s_e, 4'b0}), .b({3'b0, co_h[18:3], 4'b0}), .ci(s_h),
                      .s(s_j), .co(co_j));

  tc_div_csa22 csa_k (.a({s_g, 4'b0}), .b({2'b0, co_i[18:3], 4'b0}), .ci(s_i),
                      .s(s_k), .co(co_k));

  tc_div_csa30 csa_l (.a({co_k[20:4], 13'b0}), .b({6'b0, co_j[22:4], 5'b0}), .ci({7'b0, s_j}),
                      .s(s_l), .co(co_l));

  tc_div_csa30 csa_m (.a({s_k, 8'b0}), .b({5'b0, co_l[23:5], 6'b0}), .ci(s_l),
                      .s(s_m), .co(co_m));

  // carry-select adder
  assign out[6:0] = s_m[6:0];
  assign out[29:7] = s_m[29:7] + co_m[28:6]; //compass adder_arch carry_select_add

endmodule // tc_div_mul2


module tc_div_radd2 (a, b, s, co);

  input  [1:0] a;
  input  [1:0] b;
  output [1:0] s;
  output co;

  wire [1:0] c;

  j_ad01 rb0 (.a(a[0]), .b(b[0]), .ci(1'b0), .s(s[0]), .co(c[0]));
  j_ad01 rb1 (.a(a[1]), .b(b[1]), .ci(c[0]), .s(s[1]), .co(c[1]));

  assign co = c[1];

endmodule // tc_div_radd2


module tc_div_radd3 (a, b, ci, s, co);

  input  [2:0] a;
  input  [2:0] b;
  input  ci;
  output [2:0] s;
  output co;

  wire [2:0] c;

  j_ad01 rb0 (.a(a[0]), .b(b[0]), .ci(ci), .s(s[0]), .co(c[0]));
  j_ad01 rb1 (.a(a[1]), .b(b[1]), .ci(c[0]), .s(s[1]), .co(c[1]));
  j_ad01 rb2 (.a(a[2]), .b(b[2]), .ci(c[1]), .s(s[2]), .co(c[2]));

  assign co = c[2];

endmodule // tc_div_radd3


module tc_div_radd4 (a, b, ci, s, co);

  input  [3:0] a;
  input  [3:0] b;
  input  ci;
  output [3:0] s;
  output co;

  wire [3:0] c;

  j_ad01 rb0 (.a(a[0]), .b(b[0]), .ci(ci), .s(s[0]), .co(c[0]));
  j_ad01 rb1 (.a(a[1]), .b(b[1]), .ci(c[0]), .s(s[1]), .co(c[1]));
  j_ad01 rb2 (.a(a[2]), .b(b[2]), .ci(c[1]), .s(s[2]), .co(c[2]));
  j_ad01 rb3 (.a(a[3]), .b(b[3]), .ci(c[2]), .s(s[3]), .co(c[3]));

  assign co = c[3];

endmodule // tc_div_radd4


module tc_div_radd5 (a, b, ci, s, co);

  input  [4:0] a;
  input  [4:0] b;
  input  ci;
  output [4:0] s;
  output co;

  wire [4:0] c;

  j_ad01 rb0 (.a(a[0]), .b(b[0]), .ci(ci), .s(s[0]), .co(c[0]));
  j_ad01 rb1 (.a(a[1]), .b(b[1]), .ci(c[0]), .s(s[1]), .co(c[1]));
  j_ad01 rb2 (.a(a[2]), .b(b[2]), .ci(c[1]), .s(s[2]), .co(c[2]));
  j_ad01 rb3 (.a(a[3]), .b(b[3]), .ci(c[2]), .s(s[3]), .co(c[3]));
  j_ad01 rb4 (.a(a[4]), .b(b[4]), .ci(c[3]), .s(s[4]), .co(c[4]));

  assign co = c[4];

endmodule // tc_div_radd5


module tc_div_radd6 (a, b, ci, s, co);

  input  [5:0] a;
  input  [5:0] b;
  input  ci;
  output [5:0] s;
  output co;

  wire [5:0] c;

  j_ad01 rb0 (.a(a[0]), .b(b[0]), .ci(ci), .s(s[0]), .co(c[0]));
  j_ad01 rb1 (.a(a[1]), .b(b[1]), .ci(c[0]), .s(s[1]), .co(c[1]));
  j_ad01 rb2 (.a(a[2]), .b(b[2]), .ci(c[1]), .s(s[2]), .co(c[2]));
  j_ad01 rb3 (.a(a[3]), .b(b[3]), .ci(c[2]), .s(s[3]), .co(c[3]));
  j_ad01 rb4 (.a(a[4]), .b(b[4]), .ci(c[3]), .s(s[4]), .co(c[4]));
  j_ad01 rb5 (.a(a[5]), .b(b[5]), .ci(c[4]), .s(s[5]), .co(c[5]));

  assign co = c[5];

endmodule // tc_div_radd6


module tc_div_csa12 (a, b, ci, s, co);

  input  [11:0] a;
  input  [11:0] b;
  input  [11:0] ci;
  output [11:0] s;
  output [11:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));

endmodule // tc_div_csa12


module tc_div_csa13 (a, b, ci, s, co);

  input  [12:0] a;
  input  [12:0] b;
  input  [12:0] ci;
  output [12:0] s;
  output [12:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));

endmodule // tc_div_csa13


module tc_div_csa15 (a, b, ci, s, co);

  input  [14:0] a;
  input  [14:0] b;
  input  [14:0] ci;
  output [14:0] s;
  output [14:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));

endmodule // tc_div_csa15


module tc_div_csa17 (a, b, ci, s, co);

  input  [16:0] a;
  input  [16:0] b;
  input  [16:0] ci;
  output [16:0] s;
  output [16:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));

endmodule // tc_div_csa17


module tc_div_csa20 (a, b, ci, s, co);

  input  [19:0] a;
  input  [19:0] b;
  input  [19:0] ci;
  output [19:0] s;
  output [19:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));
  j_ad01 csb18 (.a(a[18]), .b(b[18]), .ci(ci[18]), .s(s[18]), .co(co[18]));
  j_ad01 csb19 (.a(a[19]), .b(b[19]), .ci(ci[19]), .s(s[19]), .co(co[19]));

endmodule // tc_div_csa20


module tc_div_csa25 (a, b, ci, s, co);

  input  [24:0] a;
  input  [24:0] b;
  input  [24:0] ci;
  output [24:0] s;
  output [24:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));
  j_ad01 csb18 (.a(a[18]), .b(b[18]), .ci(ci[18]), .s(s[18]), .co(co[18]));
  j_ad01 csb19 (.a(a[19]), .b(b[19]), .ci(ci[19]), .s(s[19]), .co(co[19]));
  j_ad01 csb20 (.a(a[20]), .b(b[20]), .ci(ci[20]), .s(s[20]), .co(co[20]));
  j_ad01 csb21 (.a(a[21]), .b(b[21]), .ci(ci[21]), .s(s[21]), .co(co[21]));
  j_ad01 csb22 (.a(a[22]), .b(b[22]), .ci(ci[22]), .s(s[22]), .co(co[22]));
  j_ad01 csb23 (.a(a[23]), .b(b[23]), .ci(ci[23]), .s(s[23]), .co(co[23]));
  j_ad01 csb24 (.a(a[24]), .b(b[24]), .ci(ci[24]), .s(s[24]), .co(co[24]));

endmodule // tc_div_csa25


module tc_div_csa18 (a, b, ci, s, co);

  input  [17:0] a;
  input  [17:0] b;
  input  [17:0] ci;
  output [17:0] s;
  output [17:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));

endmodule // tc_div_csa18


module tc_div_csa19 (a, b, ci, s, co);

  input  [18:0] a;
  input  [18:0] b;
  input  [18:0] ci;
  output [18:0] s;
  output [18:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));
  j_ad01 csb18 (.a(a[18]), .b(b[18]), .ci(ci[18]), .s(s[18]), .co(co[18]));

endmodule // tc_div_csa19


module tc_div_csa23 (a, b, ci, s, co);

  input  [22:0] a;
  input  [22:0] b;
  input  [22:0] ci;
  output [22:0] s;
  output [22:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));
  j_ad01 csb18 (.a(a[18]), .b(b[18]), .ci(ci[18]), .s(s[18]), .co(co[18]));
  j_ad01 csb19 (.a(a[19]), .b(b[19]), .ci(ci[19]), .s(s[19]), .co(co[19]));
  j_ad01 csb20 (.a(a[20]), .b(b[20]), .ci(ci[20]), .s(s[20]), .co(co[20]));
  j_ad01 csb21 (.a(a[21]), .b(b[21]), .ci(ci[21]), .s(s[21]), .co(co[21]));
  j_ad01 csb22 (.a(a[22]), .b(b[22]), .ci(ci[22]), .s(s[22]), .co(co[22]));

endmodule // tc_div_csa23


module tc_div_csa22 (a, b, ci, s, co);

  input  [21:0] a;
  input  [21:0] b;
  input  [21:0] ci;
  output [21:0] s;
  output [21:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));
  j_ad01 csb18 (.a(a[18]), .b(b[18]), .ci(ci[18]), .s(s[18]), .co(co[18]));
  j_ad01 csb19 (.a(a[19]), .b(b[19]), .ci(ci[19]), .s(s[19]), .co(co[19]));
  j_ad01 csb20 (.a(a[20]), .b(b[20]), .ci(ci[20]), .s(s[20]), .co(co[20]));
  j_ad01 csb21 (.a(a[21]), .b(b[21]), .ci(ci[21]), .s(s[21]), .co(co[21]));

endmodule // tc_div_csa22


module tc_div_csa30 (a, b, ci, s, co);

  input  [29:0] a;
  input  [29:0] b;
  input  [29:0] ci;
  output [29:0] s;
  output [29:0] co;

  j_ad01 csb0 (.a(a[0]), .b(b[0]), .ci(ci[0]), .s(s[0]), .co(co[0]));
  j_ad01 csb1 (.a(a[1]), .b(b[1]), .ci(ci[1]), .s(s[1]), .co(co[1]));
  j_ad01 csb2 (.a(a[2]), .b(b[2]), .ci(ci[2]), .s(s[2]), .co(co[2]));
  j_ad01 csb3 (.a(a[3]), .b(b[3]), .ci(ci[3]), .s(s[3]), .co(co[3]));
  j_ad01 csb4 (.a(a[4]), .b(b[4]), .ci(ci[4]), .s(s[4]), .co(co[4]));
  j_ad01 csb5 (.a(a[5]), .b(b[5]), .ci(ci[5]), .s(s[5]), .co(co[5]));
  j_ad01 csb6 (.a(a[6]), .b(b[6]), .ci(ci[6]), .s(s[6]), .co(co[6]));
  j_ad01 csb7 (.a(a[7]), .b(b[7]), .ci(ci[7]), .s(s[7]), .co(co[7]));
  j_ad01 csb8 (.a(a[8]), .b(b[8]), .ci(ci[8]), .s(s[8]), .co(co[8]));
  j_ad01 csb9 (.a(a[9]), .b(b[9]), .ci(ci[9]), .s(s[9]), .co(co[9]));
  j_ad01 csb10 (.a(a[10]), .b(b[10]), .ci(ci[10]), .s(s[10]), .co(co[10]));
  j_ad01 csb11 (.a(a[11]), .b(b[11]), .ci(ci[11]), .s(s[11]), .co(co[11]));
  j_ad01 csb12 (.a(a[12]), .b(b[12]), .ci(ci[12]), .s(s[12]), .co(co[12]));
  j_ad01 csb13 (.a(a[13]), .b(b[13]), .ci(ci[13]), .s(s[13]), .co(co[13]));
  j_ad01 csb14 (.a(a[14]), .b(b[14]), .ci(ci[14]), .s(s[14]), .co(co[14]));
  j_ad01 csb15 (.a(a[15]), .b(b[15]), .ci(ci[15]), .s(s[15]), .co(co[15]));
  j_ad01 csb16 (.a(a[16]), .b(b[16]), .ci(ci[16]), .s(s[16]), .co(co[16]));
  j_ad01 csb17 (.a(a[17]), .b(b[17]), .ci(ci[17]), .s(s[17]), .co(co[17]));
  j_ad01 csb18 (.a(a[18]), .b(b[18]), .ci(ci[18]), .s(s[18]), .co(co[18]));
  j_ad01 csb19 (.a(a[19]), .b(b[19]), .ci(ci[19]), .s(s[19]), .co(co[19]));
  j_ad01 csb20 (.a(a[20]), .b(b[20]), .ci(ci[20]), .s(s[20]), .co(co[20]));
  j_ad01 csb21 (.a(a[21]), .b(b[21]), .ci(ci[21]), .s(s[21]), .co(co[21]));
  j_ad01 csb22 (.a(a[22]), .b(b[22]), .ci(ci[22]), .s(s[22]), .co(co[22]));
  j_ad01 csb23 (.a(a[23]), .b(b[23]), .ci(ci[23]), .s(s[23]), .co(co[23]));
  j_ad01 csb24 (.a(a[24]), .b(b[24]), .ci(ci[24]), .s(s[24]), .co(co[24]));
  j_ad01 csb25 (.a(a[25]), .b(b[25]), .ci(ci[25]), .s(s[25]), .co(co[25]));
  j_ad01 csb26 (.a(a[26]), .b(b[26]), .ci(ci[26]), .s(s[26]), .co(co[26]));
  j_ad01 csb27 (.a(a[27]), .b(b[27]), .ci(ci[27]), .s(s[27]), .co(co[27]));
  j_ad01 csb28 (.a(a[28]), .b(b[28]), .ci(ci[28]), .s(s[28]), .co(co[28]));
  j_ad01 csb29 (.a(a[29]), .b(b[29]), .ci(ci[29]), .s(s[29]), .co(co[29]));

endmodule // tc_div_csa30


module tc_div_16to1 (in, shift, out);

  input  [15:0] in;
  input  [3:0] shift;
  output out;

  wire [7:0] stg0;
  wire [3:0] stg1;
  wire [1:0] stg2;

  j_mx21 mxa0 (.z(stg0[7]), .i0(in[15]), .i1(in[7]), .s(shift[3]));
  j_mx21 mxa1 (.z(stg0[6]), .i0(in[14]), .i1(in[6]), .s(shift[3]));
  j_mx21 mxa2 (.z(stg0[5]), .i0(in[13]), .i1(in[5]), .s(shift[3]));
  j_mx21 mxa3 (.z(stg0[4]), .i0(in[12]), .i1(in[4]), .s(shift[3]));
  j_mx21 mxa4 (.z(stg0[3]), .i0(in[11]), .i1(in[3]), .s(shift[3]));
  j_mx21 mxa5 (.z(stg0[2]), .i0(in[10]), .i1(in[2]), .s(shift[3]));
  j_mx21 mxa6 (.z(stg0[1]), .i0(in[9]),  .i1(in[1]), .s(shift[3]));
  j_mx21 mxa7 (.z(stg0[0]), .i0(in[8]),  .i1(in[0]), .s(shift[3]));


  j_mx21 mxb0 (.z(stg1[3]), .i0(stg0[7]), .i1(stg0[3]), .s(shift[2]));
  j_mx21 mxb1 (.z(stg1[2]), .i0(stg0[6]), .i1(stg0[2]), .s(shift[2]));
  j_mx21 mxb2 (.z(stg1[1]), .i0(stg0[5]), .i1(stg0[1]), .s(shift[2]));
  j_mx21 mxb3 (.z(stg1[0]), .i0(stg0[4]), .i1(stg0[0]), .s(shift[2]));

  j_mx21 mxc0 (.z(stg2[1]), .i0(stg1[3]), .i1(stg1[1]), .s(shift[1]));
  j_mx21 mxc1 (.z(stg2[0]), .i0(stg1[2]), .i1(stg1[0]), .s(shift[1]));

  j_mx21 mxd0 (.z(out), .i0(stg2[1]), .i1(stg2[0]), .s(shift[0]));

endmodule // tc_div_16to1