How do I write equivalent verilog code for the below VHDL code? I show my verilog code behind the VHDL code. The verilog code does compile, but aux is invalid during the entire simulation.

VHDL: (classic_multiplier_parameters.vhd defines m = 8)

```
library ieee;
use ieee.std_logic_1164.all;
use ieee.std_logic_arith.all;
use ieee.std_logic_unsigned.all;
use work.classic_multiplier_parameters.all;
entity poly_multiplier is
port (
a, b: in std_logic_vector(M-1 downto 0);
d: out std_logic_vector(2*M-2 downto 0)
);
end poly_multiplier;
architecture simple of poly_multiplier is
type matrix_ands is array (0 to 2*M-2) of STD_LOGIC_VECTOR(2*M-2 downto 0);
signal a_by_b: matrix_ands;
signal c: std_logic_vector(2*M-2 downto 0);
begin
gen_ands: for k in 0 to M-1 generate
l1: for i in 0 to k generate
a_by_b(k)(i) <= A(i) and B(k-i);
end generate;
end generate;
gen_ands2: for k in M to 2*M-2 generate
l2: for i in k to 2*M-2 generate
a_by_b(k)(i) <= A(k-i+(M-1)) and B(i-(M-1));
end generate;
end generate;
d(0) <= a_by_b(0)(0);
gen_xors: for k in 1 to 2*M-2 generate
l3: process(a_by_b(k),c(k))
variable aux: std_logic;
begin
if (k < M) then
aux := a_by_b(k)(0);
for i in 1 to k loop aux := a_by_b(k)(i) xor aux; end loop;
else
aux := a_by_b(k)(k);
for i in k+1 to 2*M-2 loop aux := a_by_b(k)(i) xor aux; end loop;
end if;
d(k) <= aux;
end process;
end generate;
end simple;
```

Verilog:

```
module mul(
a, b,
d);
parameter M = 8;
input [M-1:0] a, b;
output [2*M-2:0] d;
wire [2*M-2:0] a_by_b [2*M-2:0];
wire aux;
//`UNPACK_ARRAY(2*M-2, 2*M-2, pack_a_by_b, a_by_b)
//the first and
genvar i, k;
generate
for(k=0; k<=M-1; k=k+1) begin: for1_outer
for(i=0; i<=k; i=i+1) begin: for1_inner
assign a_by_b[k][i] = a[i] & b[k-i];
end
end
endgenerate
//second and
generate
for(k=M; k<=2*M-2; k=k+1) begin: for2_outer
for(i=k; i<=2*M-2; i=i+1) begin: for2_inner
assign a_by_b[k][i] = a[k-i+(M-1)] & b[i-(M-1)];
end
end
endgenerate
assign d[0] = a_by_b[0][0];
// xors
generate
for(k=1; k<=2*M-2; k=k+1) begin: for3_outer
if(k < M) begin
assign aux = a_by_b[k][0];
for(i=1; i<=k; i=i+1) begin: for3_inner1
assign aux = a_by_b[k][i] ^ aux;
end
end
else begin
assign aux = a_by_b[k][k];
for(i=k+1; i<=2*M-2; i=i+1) begin: for3_inner2
assign aux = a_by_b[k][i] ^ aux;
end
end
assign d[k] = aux;
end
endgenerate
endmodule
```

Verilog: (aux as reg type)

```
module mul(
a, b,
d);
parameter M = 3;
input [M-1:0] a, b;
output [2*M-2:0] d;
wire [2*M-2:0] a_by_b [2*M-2:0];
reg aux = 1'b1;
//`UNPACK_ARRAY(2*M-2, 2*M-2, pack_a_by_b, a_by_b)
//the first and
genvar i, k;
generate
for(k=0; k<=M-1; k=k+1) begin: for1_outer
for(i=0; i<=k; i=i+1) begin: for1_inner
assign a_by_b[k][i] = a[i] & b[k-i];
end
end
endgenerate
//second and
generate
for(k=M; k<=2*M-2; k=k+1) begin: for2_outer
for(i=k; i<=2*M-2; i=i+1) begin: for2_inner
assign a_by_b[k][i] = a[k-i+(M-1)] & b[i-(M-1)];
end
end
endgenerate
assign d[0] = a_by_b[0][0];
// xors
generate
for(k=1; k<=2*M-2; k=k+1) begin: for3_outer
if(k < M) begin
always @(*) begin
aux = a_by_b[k][0];
end
for(i=1; i<=k; i=i+1) begin: for3_inner1
always @(*) begin
aux <= a_by_b[k][i] ^ aux;
end
end
end
else begin
always @(*) begin
aux <= a_by_b[k][k];
end
for(i=k+1; i<=2*M-2; i=i+1) begin: for3_inner2
always @(*) begin
aux <= a_by_b[k][i] ^ aux;
end
end
end
assign d[k] = aux;
end
endgenerate
endmodule
```