I have a problem with this SystemVerilog code. Here is the code:
module mult ( multiplicand, multiplier, Product, clk, clear, Startm, endm );
input [31:0] multiplicand;
input [31:0] multiplier ;
input clk;
input clear;
input Startm;
output logic [63:0] Product;
output logic endm;
enum logic [1:0] { inicio, multiplicar, nao_multiplicar, fim } estados;
logic [1:0] state;
logic [31:0] mplier;
logic [31:0] mplier_aux;
logic [31:0] mcand ;
logic [31:0] mcand_aux;
logic [63:0] Prod ;
logic [63:0] Prod_aux;
logic [5:0] cont;
logic [5:0] cont_aux;
initial begin
mplier = multiplier;
mplier_aux = multiplier;
mcand = multiplicand;
mcand_aux = multiplicand;
Prod = 0;
Prod_aux = 0;
state = inicio;
cont = 0;
cont_aux = 0;
end
always_ff @( posedge clk )
begin
if( clear )
begin
state <= inicio;
end
else if ( Startm )
begin
case( state )
inicio :
begin
if( mplier[0] == 0 )
begin
state <= nao_multiplicar;
end
else if( mplier[0] == 1 )
begin
state <= multiplicar;
end
end
multiplicar :
begin
if( cont == 32 )
state <= fim;
else if( mplier[0] == 0 )
begin
state <= nao_multiplicar;
end
else if( mplier[0] == 1 )
begin
state <= multiplicar;
end
end
nao_multiplicar:
begin
if( cont == 32 )
state <= fim;
else if( mplier[0] == 0 )
begin
state <= nao_multiplicar;
end
else if( mplier[0] == 1 )
begin
state <= multiplicar;
end
end
fim:
begin
state <= inicio;
end
endcase
end
end
always_comb
begin
case(state)
inicio:
begin
mplier = multiplier;
mcand = multiplicand;
Prod = 0;
cont_aux = cont + 1;
cont = cont_aux;
end
multiplicar:
begin
mcand_aux = mcand << 1;
mcand = mcand_aux ;
mplier_aux = mplier >> 1;
mplier = mplier_aux ;
Prod_aux = Prod + mcand;
Prod = Prod_aux;
cont_aux = cont + 1;
cont = cont_aux;
end
nao_multiplicar:
begin
cont_aux = cont + 1;
cont = cont_aux;
end
fim:
begin
Product = Prod;
endm = 1;
end
endcase
end
endmodule
I'm trying write a multiplicator with inputs of 32 bits and a product of 64 bits using the Booth's algorithm. This error occur:
always_comb construct does not infer purely combinational logic
Why does this happens?
When describing combinational logic in always blocks, you have to make sure that all your variables are assigned to a value in all paths in your code. Otherwise a latch will be inferred. It's easy to miss something like this in traditional always blocks, so the always_comb block was introduced in SystemVerilog to explicitly check for this.
In your case, you've a few buses which are not assigned values in each branch of the case statement, for example mcand hasn't a value assigned to it in branches nao_multiplicar and fim.
There are 2 solutions. First is to, well, assign to all your variables in all your code branches.
Another solution is to write 'default' values for all of the variables in the always_comb before the case statement. In this way, each variable will always be assigned to a value each time the always_comb block triggers, and there'll be no warnings. YOur case statement then only needs to deal with the variables that need to change:
always_comb
begin
// Defaults (I think I got them all)
mplier = multiplier;
mcand = multiplicand;
Prod_aux = 0;
Prod = 0;
cont_aux = 0;
cont = 0;
Product = 0;
endm = 0;
// Now override the defaults when appropriate
case(state)
inicio:
begin
mplier = multiplier;
mcand = multiplicand;
Prod = 0;
cont_aux = cont + 1;
cont = cont_aux;
end
multiplicar:
begin
mcand_aux = mcand << 1;
mcand = mcand_aux ;
mplier_aux = mplier >> 1;
mplier = mplier_aux ;
Prod_aux = Prod + mcand;
Prod = Prod_aux;
cont_aux = cont + 1;
cont = cont_aux;
end
nao_multiplicar:
begin
cont_aux = cont + 1;
cont = cont_aux;
end
fim:
begin
Product = Prod;
endm = 1;
end
endcase
end
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