1

I understand when using case syntax in systemverilog, we need to fully describe all combinations or add a default to avoid latches.

Here is my example code, no latches are generated:

 module test(
input logic[2:0] op,
output logic a,b,c
);

    always_comb
    begin

    case(op)

     0: {a,b,c} = {1'b1,1'b1,1'b0};
     1: {a,b,c} = {1'b1,1'b0,1'b0};
     2: {a,b,c} = {1'b0,1'b1,1'b0};
     default: {a,b,c} = {1'b0,1'b0,1'b0};
     endcase
     end
     endmodule

As I said in the beginning, if add a default, not latches are generated. Please look the second code, which is a ALU design:

module ALU(
output logic[31:0] Result,
output logic Zero, Overflow, Negative, Carryout,

input logic [5:0]ALUOp_i,
input logic [31:0] ALU_A_i, ALU_B_i,
input logic [4:0] Shamt
);

logic [31:0] adder_b;

always_comb
begin


  casez(ALUOp_i)

 /*Add_trap*/   0,1: {Carryout,Result} = {ALU_A_i[31],ALU_A_i} + {ALU_B_i[31],ALU_B_i};
 /*Add_notrap*/ 
 /*Subtrap*/    2,3: 
 /*Sub_notrap*/    begin
             adder_b = ALU_B_i ^ {32{1'b1}};
             {Carryout,Result} = {ALU_A_i[31],ALU_A_i} + {adder_b[31],adder_b} + 1;
           end

/*SLL*/         8: Result = ALU_B_i << Shamt;
/*SLLV*/        9: Result = ALU_B_i << ALU_A_i;
/*SRA*/         10: Result = ALU_B_i >>> Shamt;
/*SRAV*/        11: Result = ALU_B_i >>> ALU_A_i;
/*SRL*/         12: Result = ALU_B_i >> Shamt;
/*SRLV*/        13: Result = ALU_B_i >> ALU_A_i;
/*AND*/         14: Result = ALU_A_i && ALU_B_i;
/*OR*/          15: Result = ALU_A_i || ALU_B_i;
/*XOR*/         16: Result = ALU_A_i ^^ ALU_B_i;
                default:
          begin
               Result = 0;
               Carryout = 0;
               adder_b = 0;
          end        
  endcase
end
endmodule   

The code above will generated latches, here is the result given by Quartus II:

Warning (10240): Verilog HDL Always Construct warning at ALU.sv(16): inferring latch(es) for variable "Carryout", which holds its previous value in one or more paths through the always construct

Warning (10240): Verilog HDL Always Construct warning at ALU.sv(16): inferring latch(es) for variable "adder_b", which holds its previous value in one or more paths through the always construct

Error (10166): SystemVerilog RTL Coding error at ALU.sv(16): always_comb construct does not infer purely combinational logic.

I did added a default in the end of the case, can some one explain what is going on? Many thanks.

  • One code suggestion: Why not do a subtraction instead of manually trying to negate ALU_B_i? Your synthesis tool should be able to figure out how to do a subtract operation. – nguthrie Jun 22 '15 at 15:37
  • Yes, your correct. My first ALU design exercise used that code, and its worked fine, so I just copy and paste that code in every ALU I designed afterwards. – Shuaiyu Jiang Jun 22 '15 at 15:42
5

The clean and easy solution here is to assign a default value Carryout at the beginning of the always_comb block. The last assignment will win, so any branch that does not assign a value to Carryout will get the default value.

A simple example of how the last assignment wins is shown below:

always_comb begin
   Carryout = 1'b0;
   if(some_condition) begin
      Carryout = 1'b1;
   end
end

In the above code Carryout is assigned to 0, and then if some_condition is true it is reassigned to 1. If some_condition is false, then it just keeps the "default" value of 0. This all happens in the same time step, so there is not transient glitch on the output.

  • what you mean by "last assignment will win" ? – Shuaiyu Jiang Jun 22 '15 at 14:49
  • Added a bit more to my answer to clarify. I should also point out that I am aware that the code I wrote is a ridiculous way to do assign Carrout = some_condition; and is just meant to illustrate the concept. – nguthrie Jun 22 '15 at 14:58
  • So, with the default value we have in the very beginning, do we still need a "default" at the end of the case statement? – Shuaiyu Jiang Jun 22 '15 at 15:00
  • No, you could drop the default case and not get a latch inferred. – nguthrie Jun 22 '15 at 15:05
1

While you are correct about multiple paths through a case statement (and needing a default clause), latches are also generated if a signal isn't present in every branch. In this case, Carryout and adder_b are only present in some of the paths. As a result, your synthesis tool assumes you want the values to be stored, which generates a latch.

You'll need to assign some value to those signals in every branch of the case. For example:

/*SLL*/         8: begin
                      Result = ALU_B_i << Shamt;
                      ader_b = 0;
                      Carryout = 0;
                end

Repeat for the other branches.

  • If I add the default values at the very beginning of always_comb, then no latches are generated. Is that also a solution for not give fully assignments in all different branches? – Shuaiyu Jiang Jun 22 '15 at 14:53
  • yes - in each path through the always_comb, each signal gets assigned a value. That method will also work. – wilcroft Jun 22 '15 at 15:49

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.