6

I am relatively new to FPGAs, and I am looking for some guidance for modern best practice regarding the declaration of modules in Verilog.

I have seen two ways of declaring a module in verilog. The first reminds me of Traditional C, such as the examples on wikipedia:

module toplevel(clock,reset);
    input clock;
    input reset;

    /* snip */
endmodule

Whereas the alternative syntax has the input/output specifier as part of the argument list, not too dissimilar to VHDL, as in this example:

module fadder(
    input a,         //data in a
    input b,         //data in b
    input cin,       //carry in
    output sum_out,  //sum output
    output c_out     //carry output
);

/* snip */
endmodule

For newly written verilog code, which syntax is preferred? "Preferred", in this instance, means something written in a standard or related material (either explicitly written, or implicitly by examples given in the standard), or written in a well-regarded style guide. The question isn't asking for a personal preference!

7

The second syntax form was indented to replace the first syntax form. If you look at the 1364-2001 Verlog LRM, as well as the current 1800-2012 SystemVerilog LRM, you will notice that all examples of module declarations use the second form. The first form is only there for legacy, but unfortunately, it has taken longer than expected for textbooks and course material to switch over.

The key benefit of this newer (or ANSI-style) syntax is that you only have to declare your port name in one place. With the older syntax, you had to declare a port name up to three times; once for the positional ordering, another time for the port direction, and if the port needed to be something other than a wire, a third time to declare its data type.

  • 2
    Accepting this because of the explained rationale. Thanks to both answers. – Damien Aug 24 '16 at 22:32
7

The second is preferred. This was introduced in Verilog 2001. This is often called "ANSI-style".

When I teach Verilog I teach both, but recommend ANSI-style for all new code. (And mention that I am only teaching the first style so that the students can understand legacy code.)

If you get on to System-Verilog, you will find that some things only work with ANSI-style anyway.

  • SystemVerilog does support Non-ANSI; refer to IEEE Std 1800-2012 § 23.2.2.1. ANSI is the preferred style – Greg Aug 24 '16 at 17:21
  • 2
    @Greg, What Matthew is conveying is that there are certain new SystemVerilog features that only work with ANSI-style ports. For example, you cannot define a generic interface port using non-ANSI style ports - because the LRM only created synthax for that feature using ANSI-style ports. – dave_59 Aug 24 '16 at 19:38
  • @dave_59, I think I miss read the last line when I first read it. I also missed the detail that non-ANSI doesn't support some features like generic interface. – Greg Aug 24 '16 at 20:49
  • (and @dave_59) - a bit pedantic, I know, but the phrase 'ANSI-style' is incorrect, and doesn't appear in the 2005 LRM in this context. It seems to have been made up by someone else (and "ANSI C" refers only to the temporary C89 anyway). New-style port lists are not C-style, because they allow comma-separated lists, and C doesn't. – EML May 13 at 16:37
  • @EML, IEEE 1800-2017 in section 23.2.1 Module header definition says There are two styles of module header definitions, the non-ANSI header and the ANSI header. The word style is not a formal definition anyway- it means "in the spirit of" – dave_59 May 13 at 17:44
2

The second mode is preferred but there is a case where you might want to use the first one. This is if you have lots of complex calculations to be done on parameters to get to the right port widths. Below is just a small artificial example. Yes, you can replace the localparam with their expressions but that may make your code unreadable.
I think it is one of the omission of (system) Verilog that you can't use local_param after a #(parameter.. definition.

module example 
#(parameter       
   L2DEPTH   =  8,
   OFFSET    =  2
)
(siga,sigb,sigc,sig_out);
localparam DEPTH = 1<<L2DEPTH;
localparan TOP   = DEPTH+OFFSET;
localparam BOT   = DEPTH-OFFSET;
localparam DBLDEPTH   = 2<<L2DEPTH;;
input  [  L2DEPT-1:0] siga;
input  [     TOP-1:0] sigb;
input  [     BOT-1:0] sigc;
output [DBLDEPTH-1:0] sig_out;

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