vmult.v
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/*
*************************************************************************
* *
* 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* unpublished proprietary information of Silicon Graphics, Inc., and *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: vmult.v,v 1.1 2002/03/28 00:26:14 berndt Exp $
module vmult(
vum_mplcnd_mu,
vum_mplr_mu,
vum_sgnmplcnd_mu,
vum_sgnmplr_mu,
vum_shiftleft1_mu,
vum_carryupper_mu,
vum_carrylower_mu,
vum_sumupper_mu,
vum_sumlower_mu,
vum_coh_cla_acc,
vum_col_cla_acc,
clk
);
input [15:0] vum_mplcnd_mu; // multiplicand
input [15:0] vum_mplr_mu; // multiplier
input vum_sgnmplcnd_mu; // multiplicand is signed
input vum_sgnmplr_mu; // multiplier is signed
input vum_shiftleft1_mu; // left shift by 1 of carry and sum
input clk; // clk
output [15:0] vum_carryupper_mu; // carry upper
output [15:0] vum_carrylower_mu; // carry lower
output [15:0] vum_sumupper_mu; // sum upper
output [15:0] vum_sumlower_mu; // sum lower
output vum_coh_cla_acc; // Carry LookAhead off bit 31
output vum_col_cla_acc; // Carry LookAhead off bit 15
wire [5:0] mp;
// a[15:0] multiplicand
// b[15:0] multiplier
// as : a is signed
// bs : b is signed
wire [15:0] a = vum_mplcnd_mu;
wire [15:0] b = vum_mplr_mu;
wire as = vum_sgnmplcnd_mu;
wire bs = vum_sgnmplr_mu;
wire shiftl1 = vum_shiftleft1_mu;
wire sea = as & a[15]; //SignExtend A
wire tc = bs & b[15];
//wire seap,sea;
//wire tcp,tc;
//an02d2 useap(.z(seap),.a1(as), .a2(a[15]));
//in01d5 usea(.zn(sea),.i(seap));
//an02d2 utcp(.z(tcp),.a1(bs), .a2(b[15]));
//in01d5 utc(.zn(tc),.i(tcp));
wire [16:0] p0 = {sea,a} & {17{b[0] }};
wire [16:0] p1 = {sea,a} & {17{b[1] }};
wire [16:0] p2 = {sea,a} & {17{b[2] }};
wire [16:0] p3 = {sea,a} & {17{b[3] }};
wire [16:0] p4 = {sea,a} & {17{b[4] }};
wire [16:0] p5 = {sea,a} & {17{b[5] }};
wire [16:0] p6 = {sea,a} & {17{b[6] }};
wire [16:0] p7 = {sea,a} & {17{b[7] }};
wire [16:0] p8 = {sea,a} & {17{b[8] }};
wire [16:0] p9 = {sea,a} & {17{b[9] }};
wire [16:0] p10 = {sea,a} & {17{b[10]}};
wire [16:0] p11 = {sea,a} & {17{b[11]}};
wire [16:0] p12 = {sea,a} & {17{b[12]}};
wire [16:0] p13 = {sea,a} & {17{b[13]}};
wire [16:0] p14 = {sea,a} & {17{b[14]}};
wire [16:0] p15 = {sea,a} & {17{b[15]}};
wire [16:0] tc15 = p15 ^ {17{tc}};
/**************************************************/
wire [17:0] sb, cb;
wire [17:0] sa, ca;
assign mp[0] = p0[0];
assign mp[1] = sa[0];
vmult_csa18 csa_a(
.co(ca[17:0]),
.s (sa[17:0]),
//
.ci({p0[16],p0[16],p0[16:1]}),
.b ({p1[16],p1[16:0]}),
.a ({p2[16:0],1'b0})
);
vmult_csa18 csa_b(
.co(cb[17:0]),
.s (sb[17:0]),
//
.ci({sa[17],sa[17:1]}),
.b (ca[17:0]),
.a ({p3[16:0],1'b0})
);
/**************************************************/
wire [18:0] sc;
wire [17:0] cc;
wire [19:0] sd;
wire [17:0] cd;
assign sc[0] = p4[0];
assign sd[0] = sc[0];
assign sd[1] = sc[1];
vmult_csa18 csa_c(
.co(cc[17:0]),
.s (sc[18:1]),
//
.a ({p4[16],p4[16],p4[16:1]}),
.b ({p5[16],p5[16:0]}),
.ci({p6[16:0],1'b0})
);
vmult_csa18 csa_d(
.co(cd[17:0]),
.s (sd[19:2]),
//
.ci({sc[18],sc[18:2]}),
.b (cc[17:0]),
.a ({p7[16:0],1'b0})
);
/**************************************************/
wire [18:0] se;
wire [17:0] ce;
wire [19:0] sf;
wire [17:0] cf;
assign se[0] = p8[0];
assign sf[0] = se[0];
assign sf[1] = se[1];
vmult_csa18 csa_e(
.co(ce[17:0]),
.s (se[18:1]),
//
.ci({p8[16],p8[16],p8[16:1]}),
.b ({p9[16],p9[16:0]}),
.a ({p10[16:0],1'b0})
);
vmult_csa18 csa_f(
.co(cf[17:0]),
.s (sf[19:2]),
//
.ci({se[18],se[18:2]}),
.b (ce[17:0]),
.a ({p11[16:0],1'b0})
);
/**************************************************/
wire [18:0] sg;
wire [17:0] cg;
wire [19:0] sh;
wire [18:0] ch; //ch[18] falls off the edge
assign sg[0] = p12[0];
assign sh[0] = sg[0];
vmult_csa18 csa_g(
.co(cg[17:0]),
.s (sg[18:1]),
//
.ci({p12[16],p12[16],p12[16:1]}),
.b ({p13[16],p13[16:0]}),
.a ({p14[16:0],tc})
);
vmult_csa19 csa_h(
.co(ch[18:0]),
.s (sh[19:1]),
//
.ci({sg[18],sg[18:1]}),
.b ({cg[17:0],1'b0}),
.a ({tc15[16:0],tc,tc})
);
/**************************************************/
/**************************************************/
wire [21:0] si;
wire [21:0] ci;
wire [21:0] sj;
wire [21:0] cj;
assign mp[2] = sb[0];
assign mp[3] = si[0];
vmult_ha ha_i3(.co(ci[3]),.s(si[3]),.a(sb[4]),.b(cb[3]));
vmult_ha ha_i2(.co(ci[2]),.s(si[2]),.a(sb[3]),.b(cb[2]));
vmult_ha ha_i1(.co(ci[1]),.s(si[1]),.a(sb[2]),.b(cb[1]));
vmult_ha ha_i0(.co(ci[0]),.s(si[0]),.a(sb[1]),.b(cb[0]));
vmult_csa18 csa_i(
.co(ci[21:4]),
.s (si[21:4]),
//
.a ({{5{sb[17]}},sb[17:5]}),
.b ({{4{cb[17]}},cb[17:4]}),
.ci(cd[17:0])
);
vmult_csa22 csa_j(
.co(cj[21:0]),
.s (sj[21:0]),
//
.ci({si[21],si[21:1]}),
.b (ci[21:0]),
.a ({sd[19],sd[19],sd[19:0]})
);
/**************************************************/
wire [23:0] sk;
wire [20:0] ck; //ck[20] falls off the edge
wire [23:0] sl;
wire [19:0] cl; //cl[19] falls off the edge
assign sk[2:0] = sf[2:0];
assign sl[3:0] = sk[3:0];
vmult_ha ha_k2(.co(ck[2]),.s(sk[5]),.a(sf[5]),.b(cf[2]));
vmult_ha ha_k1(.co(ck[1]),.s(sk[4]),.a(sf[4]),.b(cf[1]));
vmult_ha ha_k0(.co(ck[0]),.s(sk[3]),.a(sf[3]),.b(cf[0]));
vmult_csa18 csa_k(
.co(ck[20:3]),
.s (sk[23:6]),
//
.ci({{4{sf[19]}},sf[19:6]}),
.b ({{3{cf[17]}},cf[17:3]}),
.a (ch[17:0])
);
vmult_csa20 csa_l(
.co(cl[19:0]),
.s (sl[23:4]),
//
.ci(sk[23:4]),
.b (ck[19:0]),
.a (sh[19:0])
);
/**************************************************/
wire [26:0] sm;
wire [26:0] cm; //cm[26] falls off the edge
wire [25:0] sn;
wire [25:0] cn; //cn[25] falls off the edge
assign mp[4] = sj[0];
assign mp[5] = sm[0];
vmult_ha ha_m7(.co(cm[7]),.s(sm[7]),.a(sj[8]),.b(cj[7]));
vmult_ha ha_m6(.co(cm[6]),.s(sm[6]),.a(sj[7]),.b(cj[6]));
vmult_ha ha_m5(.co(cm[5]),.s(sm[5]),.a(sj[6]),.b(cj[5]));
vmult_ha ha_m4(.co(cm[4]),.s(sm[4]),.a(sj[5]),.b(cj[4]));
vmult_ha ha_m3(.co(cm[3]),.s(sm[3]),.a(sj[4]),.b(cj[3]));
vmult_ha ha_m2(.co(cm[2]),.s(sm[2]),.a(sj[3]),.b(cj[2]));
vmult_ha ha_m1(.co(cm[1]),.s(sm[1]),.a(sj[2]),.b(cj[1]));
vmult_ha ha_m0(.co(cm[0]),.s(sm[0]),.a(sj[1]),.b(cj[0]));
vmult_csa19 csa_m(
.co(cm[26:8]),
.s (sm[26:8]),
//
.ci({{6{sj[21]}},sj[21:9]}),
.b ({{5{cj[21]}},cj[21:8]}),
.a (cl[18:0])
);
vmult_ha ha_n1(.co(cn[1]),.s(sn[1]),.a(sm[2]),.b(cm[1]));
vmult_ha ha_n0(.co(cn[0]),.s(sn[0]),.a(sm[1]),.b(cm[0]));
vmult_csa24 csa_n(
.co(cn[25:2]),
.s (sn[25:2]),
//
.ci(sm[26:3]),
.b (cm[25:2]),
.a (sl[23:0])
);
/*****************************************/
// Final output stage
wire [31:0] sum = (shiftl1) ? {sn[24:0],mp[5:0],1'b0} : {sn[25:0],mp[5:0]};
wire [31:0] carry = (shiftl1) ? {cn[23:0],7'h0,1'b0} : {cn[24:0],7'h0};
vmult_cla cla(.a(sum[31:7]), .b(carry[31:7]), .clk(clk),
.coh(vum_coh_cla_acc), .col(vum_col_cla_acc));
assign vum_carryupper_mu = carry[31:16];
assign vum_carrylower_mu = carry[15:0];
assign vum_sumupper_mu = sum[31:16];
assign vum_sumlower_mu = sum[15:0];
endmodule
/*********************************************************
* vmult_csa and vmult_ha module definitions
********************************************************/
module vmult_csa18 (co, s, a, b, ci);
parameter width = 18;
input [width-1:0] a, b, ci;
output [width-1:0] co, s;
//assign s = a^b^ci;
//assign co = (a&b)|ci&(a|b);
ad01d1 u00(.s(s[ 0]), .co(co[ 0]), .a(a[ 0]), .b(b[ 0]), .ci(ci[ 0]));
ad01d1 u01(.s(s[ 1]), .co(co[ 1]), .a(a[ 1]), .b(b[ 1]), .ci(ci[ 1]));
ad01d1 u02(.s(s[ 2]), .co(co[ 2]), .a(a[ 2]), .b(b[ 2]), .ci(ci[ 2]));
ad01d1 u03(.s(s[ 3]), .co(co[ 3]), .a(a[ 3]), .b(b[ 3]), .ci(ci[ 3]));
ad01d1 u04(.s(s[ 4]), .co(co[ 4]), .a(a[ 4]), .b(b[ 4]), .ci(ci[ 4]));
ad01d1 u05(.s(s[ 5]), .co(co[ 5]), .a(a[ 5]), .b(b[ 5]), .ci(ci[ 5]));
ad01d1 u06(.s(s[ 6]), .co(co[ 6]), .a(a[ 6]), .b(b[ 6]), .ci(ci[ 6]));
ad01d1 u07(.s(s[ 7]), .co(co[ 7]), .a(a[ 7]), .b(b[ 7]), .ci(ci[ 7]));
ad01d1 u08(.s(s[ 8]), .co(co[ 8]), .a(a[ 8]), .b(b[ 8]), .ci(ci[ 8]));
ad01d1 u09(.s(s[ 9]), .co(co[ 9]), .a(a[ 9]), .b(b[ 9]), .ci(ci[ 9]));
ad01d1 u10(.s(s[10]), .co(co[10]), .a(a[10]), .b(b[10]), .ci(ci[10]));
ad01d1 u11(.s(s[11]), .co(co[11]), .a(a[11]), .b(b[11]), .ci(ci[11]));
ad01d1 u12(.s(s[12]), .co(co[12]), .a(a[12]), .b(b[12]), .ci(ci[12]));
ad01d1 u13(.s(s[13]), .co(co[13]), .a(a[13]), .b(b[13]), .ci(ci[13]));
ad01d1 u14(.s(s[14]), .co(co[14]), .a(a[14]), .b(b[14]), .ci(ci[14]));
ad01d1 u15(.s(s[15]), .co(co[15]), .a(a[15]), .b(b[15]), .ci(ci[15]));
ad01d1 u16(.s(s[16]), .co(co[16]), .a(a[16]), .b(b[16]), .ci(ci[16]));
ad01d1 u17(.s(s[17]), .co(co[17]), .a(a[17]), .b(b[17]), .ci(ci[17]));
endmodule
module vmult_csa19 (co, s, a, b, ci);
parameter width = 19;
input [width-1:0] a, b, ci;
output [width-1:0] co, s;
//assign s = a^b^ci;
//assign co = (a&b)|ci&(a|b);
ad01d1 u00(.s(s[ 0]), .co(co[ 0]), .a(a[ 0]), .b(b[ 0]), .ci(ci[ 0]));
ad01d1 u01(.s(s[ 1]), .co(co[ 1]), .a(a[ 1]), .b(b[ 1]), .ci(ci[ 1]));
ad01d1 u02(.s(s[ 2]), .co(co[ 2]), .a(a[ 2]), .b(b[ 2]), .ci(ci[ 2]));
ad01d1 u03(.s(s[ 3]), .co(co[ 3]), .a(a[ 3]), .b(b[ 3]), .ci(ci[ 3]));
ad01d1 u04(.s(s[ 4]), .co(co[ 4]), .a(a[ 4]), .b(b[ 4]), .ci(ci[ 4]));
ad01d1 u05(.s(s[ 5]), .co(co[ 5]), .a(a[ 5]), .b(b[ 5]), .ci(ci[ 5]));
ad01d1 u06(.s(s[ 6]), .co(co[ 6]), .a(a[ 6]), .b(b[ 6]), .ci(ci[ 6]));
ad01d1 u07(.s(s[ 7]), .co(co[ 7]), .a(a[ 7]), .b(b[ 7]), .ci(ci[ 7]));
ad01d1 u08(.s(s[ 8]), .co(co[ 8]), .a(a[ 8]), .b(b[ 8]), .ci(ci[ 8]));
ad01d1 u09(.s(s[ 9]), .co(co[ 9]), .a(a[ 9]), .b(b[ 9]), .ci(ci[ 9]));
ad01d1 u10(.s(s[10]), .co(co[10]), .a(a[10]), .b(b[10]), .ci(ci[10]));
ad01d1 u11(.s(s[11]), .co(co[11]), .a(a[11]), .b(b[11]), .ci(ci[11]));
ad01d1 u12(.s(s[12]), .co(co[12]), .a(a[12]), .b(b[12]), .ci(ci[12]));
ad01d1 u13(.s(s[13]), .co(co[13]), .a(a[13]), .b(b[13]), .ci(ci[13]));
ad01d1 u14(.s(s[14]), .co(co[14]), .a(a[14]), .b(b[14]), .ci(ci[14]));
ad01d1 u15(.s(s[15]), .co(co[15]), .a(a[15]), .b(b[15]), .ci(ci[15]));
ad01d1 u16(.s(s[16]), .co(co[16]), .a(a[16]), .b(b[16]), .ci(ci[16]));
ad01d1 u17(.s(s[17]), .co(co[17]), .a(a[17]), .b(b[17]), .ci(ci[17]));
ad01d1 u18(.s(s[18]), .co(co[18]), .a(a[18]), .b(b[18]), .ci(ci[18]));
endmodule
module vmult_csa20 (co, s, a, b, ci);
parameter width = 20;
input [width-1:0] a, b, ci;
output [width-1:0] co, s;
//assign s = a^b^ci;
//assign co = (a&b)|ci&(a|b);
ad01d1 u00(.s(s[ 0]), .co(co[ 0]), .a(a[ 0]), .b(b[ 0]), .ci(ci[ 0]));
ad01d1 u01(.s(s[ 1]), .co(co[ 1]), .a(a[ 1]), .b(b[ 1]), .ci(ci[ 1]));
ad01d1 u02(.s(s[ 2]), .co(co[ 2]), .a(a[ 2]), .b(b[ 2]), .ci(ci[ 2]));
ad01d1 u03(.s(s[ 3]), .co(co[ 3]), .a(a[ 3]), .b(b[ 3]), .ci(ci[ 3]));
ad01d1 u04(.s(s[ 4]), .co(co[ 4]), .a(a[ 4]), .b(b[ 4]), .ci(ci[ 4]));
ad01d1 u05(.s(s[ 5]), .co(co[ 5]), .a(a[ 5]), .b(b[ 5]), .ci(ci[ 5]));
ad01d1 u06(.s(s[ 6]), .co(co[ 6]), .a(a[ 6]), .b(b[ 6]), .ci(ci[ 6]));
ad01d1 u07(.s(s[ 7]), .co(co[ 7]), .a(a[ 7]), .b(b[ 7]), .ci(ci[ 7]));
ad01d1 u08(.s(s[ 8]), .co(co[ 8]), .a(a[ 8]), .b(b[ 8]), .ci(ci[ 8]));
ad01d1 u09(.s(s[ 9]), .co(co[ 9]), .a(a[ 9]), .b(b[ 9]), .ci(ci[ 9]));
ad01d1 u10(.s(s[10]), .co(co[10]), .a(a[10]), .b(b[10]), .ci(ci[10]));
ad01d1 u11(.s(s[11]), .co(co[11]), .a(a[11]), .b(b[11]), .ci(ci[11]));
ad01d1 u12(.s(s[12]), .co(co[12]), .a(a[12]), .b(b[12]), .ci(ci[12]));
ad01d1 u13(.s(s[13]), .co(co[13]), .a(a[13]), .b(b[13]), .ci(ci[13]));
ad01d1 u14(.s(s[14]), .co(co[14]), .a(a[14]), .b(b[14]), .ci(ci[14]));
ad01d1 u15(.s(s[15]), .co(co[15]), .a(a[15]), .b(b[15]), .ci(ci[15]));
ad01d1 u16(.s(s[16]), .co(co[16]), .a(a[16]), .b(b[16]), .ci(ci[16]));
ad01d1 u17(.s(s[17]), .co(co[17]), .a(a[17]), .b(b[17]), .ci(ci[17]));
ad01d1 u18(.s(s[18]), .co(co[18]), .a(a[18]), .b(b[18]), .ci(ci[18]));
ad01d1 u19(.s(s[19]), .co(co[19]), .a(a[19]), .b(b[19]), .ci(ci[19]));
endmodule
module vmult_csa22 (co, s, a, b, ci);
parameter width = 22;
input [width-1:0] a, b, ci;
output [width-1:0] co, s;
//assign s = a^b^ci;
//assign co = (a&b)|ci&(a|b);
ad01d1 u00(.s(s[ 0]), .co(co[ 0]), .a(a[ 0]), .b(b[ 0]), .ci(ci[ 0]));
ad01d1 u01(.s(s[ 1]), .co(co[ 1]), .a(a[ 1]), .b(b[ 1]), .ci(ci[ 1]));
ad01d1 u02(.s(s[ 2]), .co(co[ 2]), .a(a[ 2]), .b(b[ 2]), .ci(ci[ 2]));
ad01d1 u03(.s(s[ 3]), .co(co[ 3]), .a(a[ 3]), .b(b[ 3]), .ci(ci[ 3]));
ad01d1 u04(.s(s[ 4]), .co(co[ 4]), .a(a[ 4]), .b(b[ 4]), .ci(ci[ 4]));
ad01d1 u05(.s(s[ 5]), .co(co[ 5]), .a(a[ 5]), .b(b[ 5]), .ci(ci[ 5]));
ad01d1 u06(.s(s[ 6]), .co(co[ 6]), .a(a[ 6]), .b(b[ 6]), .ci(ci[ 6]));
ad01d1 u07(.s(s[ 7]), .co(co[ 7]), .a(a[ 7]), .b(b[ 7]), .ci(ci[ 7]));
ad01d1 u08(.s(s[ 8]), .co(co[ 8]), .a(a[ 8]), .b(b[ 8]), .ci(ci[ 8]));
ad01d1 u09(.s(s[ 9]), .co(co[ 9]), .a(a[ 9]), .b(b[ 9]), .ci(ci[ 9]));
ad01d1 u10(.s(s[10]), .co(co[10]), .a(a[10]), .b(b[10]), .ci(ci[10]));
ad01d1 u11(.s(s[11]), .co(co[11]), .a(a[11]), .b(b[11]), .ci(ci[11]));
ad01d1 u12(.s(s[12]), .co(co[12]), .a(a[12]), .b(b[12]), .ci(ci[12]));
ad01d1 u13(.s(s[13]), .co(co[13]), .a(a[13]), .b(b[13]), .ci(ci[13]));
ad01d1 u14(.s(s[14]), .co(co[14]), .a(a[14]), .b(b[14]), .ci(ci[14]));
ad01d1 u15(.s(s[15]), .co(co[15]), .a(a[15]), .b(b[15]), .ci(ci[15]));
ad01d1 u16(.s(s[16]), .co(co[16]), .a(a[16]), .b(b[16]), .ci(ci[16]));
ad01d1 u17(.s(s[17]), .co(co[17]), .a(a[17]), .b(b[17]), .ci(ci[17]));
ad01d1 u18(.s(s[18]), .co(co[18]), .a(a[18]), .b(b[18]), .ci(ci[18]));
ad01d1 u19(.s(s[19]), .co(co[19]), .a(a[19]), .b(b[19]), .ci(ci[19]));
ad01d1 u20(.s(s[20]), .co(co[20]), .a(a[20]), .b(b[20]), .ci(ci[20]));
ad01d1 u21(.s(s[21]), .co(co[21]), .a(a[21]), .b(b[21]), .ci(ci[21]));
endmodule
module vmult_csa24 (co, s, a, b, ci);
parameter width = 24;
input [width-1:0] a, b, ci;
output [width-1:0] co, s;
//assign s = a^b^ci;
//assign co = (a&b)|ci&(a|b);
ad01d1 u00(.s(s[ 0]), .co(co[ 0]), .a(a[ 0]), .b(b[ 0]), .ci(ci[ 0]));
ad01d1 u01(.s(s[ 1]), .co(co[ 1]), .a(a[ 1]), .b(b[ 1]), .ci(ci[ 1]));
ad01d1 u02(.s(s[ 2]), .co(co[ 2]), .a(a[ 2]), .b(b[ 2]), .ci(ci[ 2]));
ad01d1 u03(.s(s[ 3]), .co(co[ 3]), .a(a[ 3]), .b(b[ 3]), .ci(ci[ 3]));
ad01d1 u04(.s(s[ 4]), .co(co[ 4]), .a(a[ 4]), .b(b[ 4]), .ci(ci[ 4]));
ad01d1 u05(.s(s[ 5]), .co(co[ 5]), .a(a[ 5]), .b(b[ 5]), .ci(ci[ 5]));
ad01d1 u06(.s(s[ 6]), .co(co[ 6]), .a(a[ 6]), .b(b[ 6]), .ci(ci[ 6]));
ad01d1 u07(.s(s[ 7]), .co(co[ 7]), .a(a[ 7]), .b(b[ 7]), .ci(ci[ 7]));
ad01d1 u08(.s(s[ 8]), .co(co[ 8]), .a(a[ 8]), .b(b[ 8]), .ci(ci[ 8]));
ad01d1 u09(.s(s[ 9]), .co(co[ 9]), .a(a[ 9]), .b(b[ 9]), .ci(ci[ 9]));
ad01d1 u10(.s(s[10]), .co(co[10]), .a(a[10]), .b(b[10]), .ci(ci[10]));
ad01d1 u11(.s(s[11]), .co(co[11]), .a(a[11]), .b(b[11]), .ci(ci[11]));
ad01d1 u12(.s(s[12]), .co(co[12]), .a(a[12]), .b(b[12]), .ci(ci[12]));
ad01d1 u13(.s(s[13]), .co(co[13]), .a(a[13]), .b(b[13]), .ci(ci[13]));
ad01d1 u14(.s(s[14]), .co(co[14]), .a(a[14]), .b(b[14]), .ci(ci[14]));
ad01d1 u15(.s(s[15]), .co(co[15]), .a(a[15]), .b(b[15]), .ci(ci[15]));
ad01d1 u16(.s(s[16]), .co(co[16]), .a(a[16]), .b(b[16]), .ci(ci[16]));
ad01d1 u17(.s(s[17]), .co(co[17]), .a(a[17]), .b(b[17]), .ci(ci[17]));
ad01d1 u18(.s(s[18]), .co(co[18]), .a(a[18]), .b(b[18]), .ci(ci[18]));
ad01d1 u19(.s(s[19]), .co(co[19]), .a(a[19]), .b(b[19]), .ci(ci[19]));
ad01d1 u20(.s(s[20]), .co(co[20]), .a(a[20]), .b(b[20]), .ci(ci[20]));
ad01d1 u21(.s(s[21]), .co(co[21]), .a(a[21]), .b(b[21]), .ci(ci[21]));
ad01d1 u22(.s(s[22]), .co(co[22]), .a(a[22]), .b(b[22]), .ci(ci[22]));
ad01d1 u23(.s(s[23]), .co(co[23]), .a(a[23]), .b(b[23]), .ci(ci[23]));
endmodule
module vmult_ha(co, s, a, b);
input a,b;
output co, s;
//assign s = a^b;
//assign co = (a&b);
an02d1 u0(.z(co), .a1(a), .a2(b));
xo02d1 u1(.z(s), .a1(a), .a2(b));
endmodule
/*****************************
*
*****************************/
module vmult_cla (a, b, clk, coh,col);
input [24:0] a;
input [24:0] b;
input clk;
output coh,col;
wire co_l;
wire [30:6] c0b;
wire [30:7] c1b;
// conditional cells:
nd02d2 c06 (.a1(a[0]), .a2(b[0]), .zn(c0b[6]));
nd02d2 c07 (.a1(a[1]), .a2(b[1]), .zn(c0b[7]));
nr02d2 c17 (.a1(a[1]), .a2(b[1]), .zn(c1b[7]));
nd02d2 c08 (.a1(a[2]), .a2(b[2]), .zn(c0b[8]));
nr02d2 c18 (.a1(a[2]), .a2(b[2]), .zn(c1b[8]));
nd02d2 c09 (.a1(a[3]), .a2(b[3]), .zn(c0b[9]));
nr02d2 c19 (.a1(a[3]), .a2(b[3]), .zn(c1b[9]));
nd02d2 c010 (.a1(a[4]), .a2(b[4]), .zn(c0b[10]));
nr02d2 c110 (.a1(a[4]), .a2(b[4]), .zn(c1b[10]));
nd02d2 c011 (.a1(a[5]), .a2(b[5]), .zn(c0b[11]));
nr02d2 c111 (.a1(a[5]), .a2(b[5]), .zn(c1b[11]));
nd02d2 c012 (.a1(a[6]), .a2(b[6]), .zn(c0b[12]));
nr02d2 c112 (.a1(a[6]), .a2(b[6]), .zn(c1b[12]));
nd02d2 c013 (.a1(a[7]), .a2(b[7]), .zn(c0b[13]));
nr02d2 c113 (.a1(a[7]), .a2(b[7]), .zn(c1b[13]));
nd02d2 c014 (.a1(a[8]), .a2(b[8]), .zn(c0b[14]));
nr02d2 c114 (.a1(a[8]), .a2(b[8]), .zn(c1b[14]));
nd02d2 c015 (.a1(a[9]), .a2(b[9]), .zn(c0b[15]));
nr02d2 c115 (.a1(a[9]), .a2(b[9]), .zn(c1b[15]));
nd02d2 c016 (.a1(a[10]), .a2(b[10]), .zn(c0b[16]));
nr02d2 c116 (.a1(a[10]), .a2(b[10]), .zn(c1b[16]));
nd02d2 c017 (.a1(a[11]), .a2(b[11]), .zn(c0b[17]));
nr02d2 c117 (.a1(a[11]), .a2(b[11]), .zn(c1b[17]));
nd02d2 c018 (.a1(a[12]), .a2(b[12]), .zn(c0b[18]));
nr02d2 c118 (.a1(a[12]), .a2(b[12]), .zn(c1b[18]));
nd02d2 c019 (.a1(a[13]), .a2(b[13]), .zn(c0b[19]));
nr02d2 c119 (.a1(a[13]), .a2(b[13]), .zn(c1b[19]));
nd02d2 c020 (.a1(a[14]), .a2(b[14]), .zn(c0b[20]));
nr02d2 c120 (.a1(a[14]), .a2(b[14]), .zn(c1b[20]));
nd02d2 c021 (.a1(a[15]), .a2(b[15]), .zn(c0b[21]));
nr02d2 c121 (.a1(a[15]), .a2(b[15]), .zn(c1b[21]));
nd02d2 c022 (.a1(a[16]), .a2(b[16]), .zn(c0b[22]));
nr02d2 c122 (.a1(a[16]), .a2(b[16]), .zn(c1b[22]));
nd02d2 c023 (.a1(a[17]), .a2(b[17]), .zn(c0b[23]));
nr02d2 c123 (.a1(a[17]), .a2(b[17]), .zn(c1b[23]));
nd02d2 c024 (.a1(a[18]), .a2(b[18]), .zn(c0b[24]));
nr02d2 c124 (.a1(a[18]), .a2(b[18]), .zn(c1b[24]));
nd02d2 c025 (.a1(a[19]), .a2(b[19]), .zn(c0b[25]));
nr02d2 c125 (.a1(a[19]), .a2(b[19]), .zn(c1b[25]));
nd02d2 c026 (.a1(a[20]), .a2(b[20]), .zn(c0b[26]));
nr02d2 c126 (.a1(a[20]), .a2(b[20]), .zn(c1b[26]));
nd02d2 c027 (.a1(a[21]), .a2(b[21]), .zn(c0b[27]));
nr02d2 c127 (.a1(a[21]), .a2(b[21]), .zn(c1b[27]));
nd02d2 c028 (.a1(a[22]), .a2(b[22]), .zn(c0b[28]));
nr02d2 c128 (.a1(a[22]), .a2(b[22]), .zn(c1b[28]));
nd02d2 c029 (.a1(a[23]), .a2(b[23]), .zn(c0b[29]));
nr02d2 c129 (.a1(a[23]), .a2(b[23]), .zn(c1b[29]));
nd02d2 c030 (.a1(a[24]), .a2(b[24]), .zn(c0b[30]));
nr02d2 c130 (.a1(a[24]), .a2(b[24]), .zn(c1b[30]));
// first rank of muxes (all muxes before register should be high performance):
mx21d1h mac08 (.s(c0b[7]), .i1(c0b[8]), .i0(c1b[8]), .z(mac0b8));
mx21d1h mac18 (.s(c1b[7]), .i1(c0b[8]), .i0(c1b[8]), .z(mac1b8));
mx21d1h mac010 (.s(c0b[9]), .i1(c0b[10]), .i0(c1b[10]), .z(mac0b10));
mx21d1h mac110 (.s(c1b[9]), .i1(c0b[10]), .i0(c1b[10]), .z(mac1b10));
mx21d1h mac012 (.s(c0b[11]), .i1(c0b[12]), .i0(c1b[12]), .z(mac0b12));
mx21d1h mac112 (.s(c1b[11]), .i1(c0b[12]), .i0(c1b[12]), .z(mac1b12));
mx21d1h mac014 (.s(c0b[13]), .i1(c0b[14]), .i0(c1b[14]), .z(mac0b14));
mx21d1h mac114 (.s(c1b[13]), .i1(c0b[14]), .i0(c1b[14]), .z(mac1b14));
mx21d1h mac016 (.s(c0b[15]), .i1(c0b[16]), .i0(c1b[16]), .z(mac0b16));
mx21d1h mac116 (.s(c1b[15]), .i1(c0b[16]), .i0(c1b[16]), .z(mac1b16));
mx21d1h mac018 (.s(c0b[17]), .i1(c0b[18]), .i0(c1b[18]), .z(mac0b18));
mx21d1h mac118 (.s(c1b[17]), .i1(c0b[18]), .i0(c1b[18]), .z(mac1b18));
mx21d1h mac020 (.s(c0b[19]), .i1(c0b[20]), .i0(c1b[20]), .z(mac0b20));
mx21d1h mac120 (.s(c1b[19]), .i1(c0b[20]), .i0(c1b[20]), .z(mac1b20));
mx21d1h mac022 (.s(c0b[21]), .i1(c0b[22]), .i0(c1b[22]), .z(mac0b22));
mx21d1h mac122 (.s(c1b[21]), .i1(c0b[22]), .i0(c1b[22]), .z(mac1b22));
mx21d1h mac024 (.s(c0b[23]), .i1(c0b[24]), .i0(c1b[24]), .z(mac0b24));
mx21d1h mac124 (.s(c1b[23]), .i1(c0b[24]), .i0(c1b[24]), .z(mac1b24));
mx21d1h mac026 (.s(c0b[25]), .i1(c0b[26]), .i0(c1b[26]), .z(mac0b26));
mx21d1h mac126 (.s(c1b[25]), .i1(c0b[26]), .i0(c1b[26]), .z(mac1b26));
mx21d1h mac028 (.s(c0b[27]), .i1(c0b[28]), .i0(c1b[28]), .z(mac0b28));
mx21d1h mac128 (.s(c1b[27]), .i1(c0b[28]), .i0(c1b[28]), .z(mac1b28));
mx21d1h mac030 (.s(c0b[29]), .i1(c0b[30]), .i0(c1b[30]), .z(mac0b30));
mx21d1h mac130 (.s(c1b[29]), .i1(c0b[30]), .i0(c1b[30]), .z(mac1b30));
// second rank of muxes:
mx21d1h mbc010 (.s(mac0b8), .i1(mac0b10), .i0(mac1b10), .z(mbc0b10));
mx21d1h mbc110 (.s(mac1b8), .i1(mac0b10), .i0(mac1b10), .z(mbc1b10));
mx21d1h mbc014 (.s(mac0b12), .i1(mac0b14), .i0(mac1b14), .z(mbc0b14));
mx21d1h mbc114 (.s(mac1b12), .i1(mac0b14), .i0(mac1b14), .z(mbc1b14));
mx21d1h mbc018 (.s(mac0b16), .i1(mac0b18), .i0(mac1b18), .z(mbc0b18));
mx21d1h mbc118 (.s(mac1b16), .i1(mac0b18), .i0(mac1b18), .z(mbc1b18));
mx21d1h mbc022 (.s(mac0b20), .i1(mac0b22), .i0(mac1b22), .z(mbc0b22));
mx21d1h mbc122 (.s(mac1b20), .i1(mac0b22), .i0(mac1b22), .z(mbc1b22));
mx21d1h mbc026 (.s(mac0b24), .i1(mac0b26), .i0(mac1b26), .z(mbc0b26));
mx21d1h mbc126 (.s(mac1b24), .i1(mac0b26), .i0(mac1b26), .z(mbc1b26));
mx21d1h mbc030 (.s(mac0b28), .i1(mac0b30), .i0(mac1b30), .z(mbc0b30));
mx21d1h mbc130 (.s(mac1b28), .i1(mac0b30), .i0(mac1b30), .z(mbc1b30));
// third rank of muxes:
//mx21d1h mcc014 (.s(mbc0b10), .i1(mbc0b14), .i0(mbc1b14), .z(mcc0b14_p));
//mx21d1h mcc114 (.s(mbc1b10), .i1(mbc0b14), .i0(mbc1b14), .z(mcc1b14_p));
//
//mx21d1h mcc022 (.s(mbc0b18), .i1(mbc0b22), .i0(mbc1b22), .z(mcc0b22_p));
//mx21d1h mcc122 (.s(mbc1b18), .i1(mbc0b22), .i0(mbc1b22), .z(mcc1b22_p));
//
//mx21d1h mcc030 (.s(mbc0b26), .i1(mbc0b30), .i0(mbc1b30), .z(mcc0b30_p));
//mx21d1h mcc130 (.s(mbc1b26), .i1(mbc0b30), .i0(mbc1b30), .z(mcc1b30_p));
mfntnb dff_mcc014 (.sa(mbc0b10), .da(mbc0b14), .db(mbc1b14), .q(mcc0b14), .cp(clk));
mfntnb dff_mcc114 (.sa(mbc1b10), .da(mbc0b14), .db(mbc1b14), .q(mcc1b14), .cp(clk));
mfntnb dff_mcc022 (.sa(mbc0b18), .da(mbc0b22), .db(mbc1b22), .q(mcc0b22), .cp(clk));
mfntnb dff_mcc122 (.sa(mbc1b18), .da(mbc0b22), .db(mbc1b22), .q(mcc1b22), .cp(clk));
mfntnb dff_mcc030 (.sa(mbc0b26), .da(mbc0b30), .db(mbc1b30), .q(mcc0b30), .cp(clk));
mfntnb dff_mcc130 (.sa(mbc1b26), .da(mbc0b30), .db(mbc1b30), .q(mcc1b30), .cp(clk));
dfntnb dff_7(.q(c0b_d), .d(c0b[6]), .cp(clk));
// fourth rank of muxes:
mx21d1 mdc014 (.s(c0b_d), .i1(mcc0b14), .i0(mcc1b14), .z(mdc0b14));
mx21d1 mdc030 (.s(mcc0b22), .i1(mcc0b30), .i0(mcc1b30), .z(mdc0b30));
mx21d1 mdc130 (.s(mcc1b22), .i1(mcc0b30), .i0(mcc1b30), .z(mdc1b30));
// fifth rank of muxes:
mx21d1 mec030 (.s(mdc0b14), .i1(mdc0b30), .i0(mdc1b30), .z(co_l));
in01d2 inv_h(.zn(coh), .i(co_l));
in01d2 inv_l(.zn(col), .i(mdc0b14));
endmodule // vmult_cla