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Verilog-Mode FAQ

Contents

This is the Frequently Asked Questions (FAQ) for Verilog Mode. This FAQ is Copyright 2006-2021 by Michael McNamara and Wilson Snyder. You may redistribute this document in its entirety only.

The official released version of this document is the Verilog-Mode FAQ: from http://www.veripool.org/verilog-mode/faq.

Verilog-mode is a standard part of GNU Emacs as of 22.2.

You may wish to still upgrade to the most recent Verilog-Mode, especially as the GNU Emacs version lags by months to years and as the SystemVerilog features are under continual improvement. The most recent version is always available from Verilog Mode.

See Installing Verilog Mode.

Sun Yijiang had vlog-mode.el, but the last updates were in 2006.

Yes. Verilog-Mode is released under the GNU General Public License. See the license for the full legal details, but fundamentally distributing it stand-alone with a commercial tool is no problem, you merely need to insure verilog-mode.el remains available to everyone. If you didn't make any changes, you're all set, else you'll need to post your version on a public website, or better, feed the changes back to the authors for inclusion in the base version.

You can run the autos from a VIM macro, see for example:

verilog_emacsauto.vim : verilog filetype plugin to enable emacs verilog-mode autos

You need to tell Viper that it is ok with you for files in verilog to come up in Verilog-Mode and Viper.

To do that, type

M-x customize RET viper-misc

Then scroll down and find the item Vi State Mode List left-click on the triangle to open this up. Scroll down through the blizzard of listed modes to the bottom. You should see:

[INS] [DEL] Symbol: csh-mode
[INS] [DEL] Symbol: gnus-article-mode
[INS] [DEL] Symbol: mh-show-mode
[INS]
   [State]: this option has been set and saved.
Major modes that require Vi command state

Middle-click on the bare INS; you should get:

[INS] [DEL] Symbol: mh-show-mode
[INS] [DEL] Symbol: nil
[INS]
   [State]

Then left-click on nil, and replace the string nil with verilog-mode. You should get:

[INS] [DEL] Symbol: mh-show-mode
[INS] [DEL] Symbol: verilog-mode
[INS]
   [State]

Now middle-click on [State] and a pop up menu appears; select Set for Current Session and then also middle click again and select Save for Future Sessions.

Or, the similar messages:

File mode specification error:  (void-function define-skeleton)
File mode specification error: (file-error "Cannot open load file" "overlay")

You need skeleton.el, part of the base package for the first, or overlay.el, part of the fsf-compatibility package for the second, which are both XEmacs lisp packages, which you somehow have not installed, or have not updated.

Go to Tools -> Packages -> Add download site and pick a site (xemacs.org).

Then select Tools -> Packages -> List and Install

Go to the bottom, and click on the line that says xemacs-base. to get the skeleton.el file. You will see something like:

                 Latest Installed
  Package name   Vers.  Vers.   Description
============================================================
  Sun             1.13   1.13   Support for Sparcworks.
     ...
  w3              1.18   1.18   A Web browser.
* xemacs-base     1.53   1.51   Fundamental XEmacs support.
- xemacs-devel    1.33   -----  Emacs Lisp developer support.
- xslt-process    1.03   -----  XSLT processing support.
  zenirc          1.09   1.09   ZENIRC IRC Client.
============================================================

For the overlay package, click on the line that says fsf-compat. to get the overlay.el file. In this case you will see something like:

                 Latest Installed
  Package name   Vers.  Vers.   Description
============================================================
  Sun             1.13   1.13   Support for Sparcworks.
     ...
  w3              1.18   1.18   A Web browser.
* fsf-compat      1.12   ----   FSF EMacs compatibility files
  zenirc          1.09   1.09   ZENIRC IRC Client.
============================================================
When you click on it, the * changes to a

Then type x, which will install the package.

Then restart XEmacs and things should then work just fine.

Typing TAB on every line can get old.

Use C-M-\ or M-x indent-region to indent a region (selected by setting the point at one end, and having the cursor at the other end, as usual). Perhaps a future version of the emacs mode will include functions that mimic some of C's extra bindings.

You can repair the indentation of a Verilog file from the command line with the following command:

emacs --batch {filenames...} -f verilog-batch-indent

This will load the file, reindent, and save the file.

If your verilog-mode.el is not installed in a site-wide location, or you suspect you are getting the wrong version, try specifing the exact path to Verilog-Mode by adding -l {path}/verilog-mode.el after --batch.

emacs --batch -l {path}/verilog-mode.el {filenames...} -f verilog-batch-indent

Additional information is in Emacs under M-x describe-function verilog-batch-indent.

This is a general problem sharing files between people. It also occurs between people using the same editor, as many editors allow one to set the tab width. The general solution is for you to add a write file hook that expands tabs to spaces. Add the following to your .emacs file:

(add-hook 'verilog-mode-hook '(lambda ()
    (add-hook 'local-write-file-hooks (lambda()
       (untabify (point-min) (point-max))))))

This arranges so that any file in verilog mode (the add-hook verilog-mode-hook part) gets added to it's local-write-file-hooks a call to the function untabify with arguments that are the first and last character in the buffer. Untabify converts all tabs in the region to multiple spaces.

This is because tab is a electric key that causes reindentation. See another FAQ for how to disable this.

If you want to manually space something out, in general, in Emacs you can escape the special meaning of any key by first typing C-q, which quotes the next key.

Set the verilog-tab-always-indent variable to nil. If your goal is minimal intrusion of magic keys, you'll probably also want to set verilog-auto-newline to nil. Add to your .emacs file:

(add-hook 'verilog-mode-hook
          '(lambda ()
             (setq verilog-auto-newline nil)
             (setq verilog-tab-always-indent nil)
          )))

Set verilog-auto-endcomments to nil:

(setq verilog-auto-endcomments nil)

To debug the problem, type:

M-x eval-expression RET
(setq debug-on-quit t)

Then load the file. After 10 seconds or whatever hit Ctrl-G to stop Emacs. It will show in the debugger what it's doing.

If you're using a older flavor of Emacs, most of the time it will stop somewhere in fontification. Simply disable fontification (coloring) of larger files. Put into your .emacs:

(setq font-lock-maximum-size 100000)

This is sort of the opposite of the last FAQ; any file exceeding the default size of 256,000 characters will not get font-locked. To override this, put into your .emacs:

(setq font-lock-maximum-size 2000000)

Alternatively, load the lazy-lock package. This will only highlight the region on the screen. To find it, use M-x find-library RET lazy-lock.

Use C-c C-d or M-x verilog-goto-defun.

Use C-c C-s, or M-x verilog-auto-save-compile. This looks at the verilog-tool setting and chooses your linter, coverage, simulator or compiler. The verilog-linter is the default.

So, in your .emacs set reasonable defaults for all of them:

(setq verilog-tool 'verilog-linter)
(setq verilog-linter "vlint ...")
(setq verilog-coverage "coverage ...)
(setq verilog-simulator "verilator ... ")
(setq verilog-compiler "verilator ... "

Then, if a file needs a special setting, override it at the bottom of each Verilog file:

// Local Variables:
// verilog-linter:"vlint --local_options __FILE__"
// End:

After using M-x compile, or C-c C-s or M-x verilog-auto-save-compile, you'll get the *compile* buffer. If errors are printed there, you can jump to the line number the message mentions with C-x ` or M-x next-error. Or, place the cursor over the error message and press return.

If this does not work with your tool, the tool probably does not produce errors in a standard way. You'll need to tweak the verilog-error-regexp variable. This contains a regular expression which matches a error message and returns the file and line number.

Your code is Verilog 2001 (or earlier) code; they're keywords in SystemVerilog. You need to rename your signals.

Emacs has a gnu rule which seems to override several simulator specific error regexps. The solution is to disable the gnu rule.

If you're using a recent version of Emacs and M-x describe-variable compilation-error-regexp-alist RET gives a simple list of words, then use this:

(add-hook 'verilog-mode-hook
         '(lambda ()
            (setq compilation-error-regexp-alist
                  (delete 'gnu compilation-error-regexp-alist))))

Otherwise a more brute force solution is to only use Verilog's errors:

(setq-default compilation-error-regexp-alist
  (mapcar 'cdr verilog-error-regexp-emacs-alist))

There are two easy ways to get started. The first is to convert an existing file, and the second is covered in the next FAQ.

To convert an existing file to use the autos, use C-c C-z or M-x verilog-inject-auto. Then, expand them with C-c C-s or M-x verilog-auto.

Here's a good template for a first file:

module Modname (/*AUTOARG*/);

   // Input/output
   //input signal;      // Comment on signal

   // Automatics
   /*AUTOWIRE*/
   /*AUTOREG*/

   // Body
   //statements, etc go here.

   // Linting
   wire _unused_ok = &{1'b0,
                       // Put list of unused signals here
                       1'b0};
endmodule

You'd then add cells using AUTOINST:

InstModule instName
  (/*AUTOINST*/);

(The newline before the open parenthesis is suggested for larger instantiations to make the lines look nicer.)

A stub is a module with the same input/output as another module, but it simply ignores all the inputs and drives zeros for outputs. This is often useful for replacing modules that aren't needed for a simulation.

By using several Autos, the entire stub can be created for you:

module ModnameStub (/*AUTOARG*/);
   /*AUTOINOUTPARAM("Modname")*/
   /*AUTOINOUTMODULE("Modname")*/

   /*AUTOWIRE*/
   /*AUTOREG*/

   /*AUTOTIEOFF*/

   wire _unused_ok = &{1'b0,
                       /*AUTOUNUSED*/
                       1'b0};
endmodule

This presumes Modname.v already exists and you want to copy the entire parameter and I/O list from it. Otherwise, remove the AUTOINOUTMODULE and add the I/O list yourself.

Note AUTOINOUTPARAM and AUTOINOUTMODULE also can take an optional regexp to specify only a subset of directions or signal names. Alternatively AUTOINOUTCOMP will create a complementary module; that is one where inputs and outputs are swapped compared to the original.

A testbench for the purposes of this question is a module which instantiates another module for the purpose of testing it.

By using several autos, most of the hookup for the testbench are created for you:

module ModnameTest;

   /*AUTOWIRE*/
   /*AUTOREGINPUT*/

   InstModule instName
     (/*AUTOINST*/);

   //==== Stimulus
   // You then put code here to set all of the inputs to the DUT.
   // The autos have created registers for all of the needed signals.

   //==== Stimulus
   // You then put code here to check all of the outputs from the DUT.
   // The autos have created wires for all of the needed signals.

endmodule

Many flops need reset, and it's a hassle to insure that you're resetting all your signals. AUTORESET solves this by assuming the first if statement in an always block is the reset term.

always @(posedge clk or negedge reset_l) begin
    if (!reset_l) begin
        c <= 1;
        /*AUTORESET*/
        a <= 3'b0;
        b <= 1'b0;
    end
    else begin
        a <= in_a;
        b <= in_b;
        c <= in_c;
    end
end
always @* begin
    if (!reset_l) begin
        /*AUTORESET*/
        a_combo = 3'b0;
    end
    else begin
        a_combo = in_a;
    end
end

Autoreset will automatically use <= or = based on the type of assignments in the always block. You can also specify which signals should be reset high by marking them active low with:

// Local Variables:
// verilog-active-low-regexp:("_l$")
// End:

You can use AUTORESET as described above to create your resets. Some people prefer to reset manually, but want to catch if they forgot to reset something and not have verilog-mode reset it for them. To do this, you can use AUTORESET in a way in which if it creates any resets it will result in a syntax error. This is as follows:

always @(posedge clk or negedge reset_l) begin
    if (!reset_l) begin
        a <= 3'b0;
    end
    // Syntax error below if I forgot to reset something
    /*AUTORESET*/
    else begin
        a <= in_a;
        b <= in_b;
    end
end

Sometimes the built-in AUTOs aren't enough and you'd like to have verilog-auto also call your own lisp function or script.

AUTOINSERTLISP will call the passed lisp code which can insert whatever it likes. If you wish, that lisp code can even insert text from an external program.

/*AUTOINSERTLISP(insert "//hello")*/
// Beginning of automatic insert lisp
//hello
// End of automatics"

/*AUTOINSERTLISP(insert (shell-command-to-string "echo //hello"))*/
// Beginning of automatic insert lisp
//hello
// End of automatics"

If you come up with some really cool extension using this that is also fairly general, please consider contributing it back to Verilog-Mode, so it can become a new AUTO for others to use and improve.

Use the following command:

emacs --batch {filenames...} -f verilog-batch-auto

This will load the file, update the automatics, and re-save the file. The filenames need to be provided in a bottom-up order. For a utility to determine the hierarchy of a design, see vhier in Verilog-Perl.

If your verilog-mode.el is not installed in a site-wide location, or you suspect you are getting the wrong version, try specifing the exact path to Verilog-Mode by adding -l {path}/verilog-mode.el after --batch.

There are similar functions for deleting automatics using verilog-batch-delete-auto, injecting automatics with verilog-batch-inject-auto, and reindenting with verilog-batch-indent.

Additional information is in Emacs under M-x describe-function verilog-batch-auto, etc.

The cleanest way is to use standard Verilog-XL style flags at the bottom of your Verilog file:

// Local Variables:
// verilog-library-flags:("-y incdir1/ -y incdir2/")
// End:

You'll also often see files that do it in the way that old Verilog-Mode versions required:

// Local Variables:
// verilog-library-directories:("." "dir1" "dir2" ...)
// End:

If you find yourself adding the same flags to many files, you can create a file with all of your include directories in it, then point Emacs to it. All of your Verilog files would contain:

// Local Variables:
// verilog-library-flags:("-f ../../up_to_top/include/input.vc")
// End:

Then input.vc contains the list of flags:

-y incdir1
-y incdir2

Note reading a file of command flags with the -f argument is also supported by Verilog-XL, VCS, Verilator and most other Verilog related tools. Thus you can write a single input.vc with all of the directories specified and feed it to all of your tools.

Your input.vc can also use -f to reference other lists of flags. You might want to use -F (upper-case F versus lower-case f) in this case, as this makes the filenames relative to the including file, rather than relative to the path of your original module.

If many modules use the same Lisp functions you may want them in a library. One choice is to put them into your site-start file, however it's often better to locate them in a directory near the Verilog code's directory. An example is a my-module.el library with the following:

(defun my-function (x) "Documentation"

(provide `my-module)

Emacs only expands $'s when you ask it to do so by using substitute-in-file-name. So, if you want to substitute $ENV into a Local Variables in the bottom of your file, you need something like:

// Local Variables:
// eval:(setq verilog-library-directories (list (substitute-in-file-name "$W") ))
// End:

It first searches the current file, then searches for the module.v in each directory you provided in the order you provided. If the module isn't found, it searches any libraries specified.

Generally it's a really really bad idea to have files with the same name in different directories - But you probably know that. :)

First, you may not want to. If you're distributing IP you're much better off using Local Variables at the bottom of the file, and insuring all of your file paths are relative. That way your clients can modify the AUTOs without any tweaks.

That said, add the following to site-start.el in your global Emacs distribution:

(add-hook 'verilog-mode-hook '(lambda ()
                                (setq verilog-auto-newline nil
                                      verilog-tab-always-indent nil
                                      verilog-auto-endcomments nil
                                      verilog-compiler "verilator "
                                      ;; etc, etc...
                                      )))

Alternatively, add the above to a group-start.el file and have all users add a group-startup to their .emacs files:

(when (file-exists-p "/path/to/group/group-start.el")
          (load-file "/path/to/group/group-start.el"))

Extensive use of AUTO_LISP or Lisp AUTO_TEMPLATE lines will likely lead to desiring a common library of AUTO related Lisp functions. These functions can be added to a group-start file (see above), but instead it's often preferable to locate the library in a directory near the Verilog code so it can be part of the same version control repository, etc.

For example, if there's my-vm-library.el with the following in it:

my-vm-library.el.

(defun my-func (z) "Documentation: return z"
   z)
;; ...
(provide `my-vm-library)

You may ensure that this package is loaded before any AUTO expansion by adding to that module's file:

/*AUTO_LISP(require 'my-vm-library "path/to/my-vm-library.el")*/

my-func will then be available for AUTO_LISP or AUTO_TEMPLATES in that module.

Projects that began in pre-SystemVerilog times typically have include files with a large number of defines, e.g.:

`define BUSID_FOO 8'h1
`define BUSID_BAR 8'h2

In SystemVerilog, a better way to provide constants is with localparams (or enums, which can be done similarly):

package bus_pkg;
  localparam BUSID_FOO = 8'h1;
  localparam BUSID_BAR = 8'h2;
endpackage

So code that uses these defines would have to change from `BUSID_FOO to bus_pkg::BUSID_FOO. If this migration can't happen all at once, AUTOS can be used to convert the localparams into defines, so that the original code can still use `BUSID_FOO as follows:

package bus_pkg;
  localparam BUSID_FOO = 8'h1;
  localparam BUSID_BAR = 8'h2;

  /*AUTOINSERTLISP(localparams-to-defs "BUSID_.*")*/
  // Beginning of automatic insert lisp
  `define BUSID_FOO  bus_pkg::BUSID_FOO // AUTO
  `define BUSID_BAR  bus_pkg::BUSID_BAR // AUTO
  // End of automatic insert lisp
endpackage

This requires the following code at the bottom of the file, or the defun being in some site-wide emacs-lisp file:

/*
 Local Variables:
 eval:
   (defun localparams-to-defs (regexp)
    (let ((buf (current-buffer)) (ln "") (mod (verilog-read-module-name)))
      (save-excursion
       (goto-char (point-min))
       ;; No ":" in value as ##:## can't be a localparam; no "." as don't want floats
       (while (re-search-forward "^[ \t]*localparam[ \t]*\\([a-zA-Z_0-9]+\\)[ \t]+=" nil t)
         (let ((nm (match-string 1)))
            (when (string-match regexp nm)
               (setq ln (concat ln "  `define " nm "  " mod "::" nm " // AUTO\n"))))))
     (save-excursion (set-buffer buf) (insert ln))))
 */

Place AUTOINPUT/AUTOOUTPUT etc inside the module () parenthesis.

No. AUTOWIRE and AUTOREG all assume that somewhere in your design you've declared the signal. This is based on the belief that there should be at least one point where you've declared the signal, and hopefully documented it on the same line.

You need to put in your global .emacs

(setq enable-local-eval t)

When you compute autos, Verilog-Mode will find any SystemVerilog .* pins and expand them into the ports, so that you can debug your code more easily. By default it will then strip these inserted lines when saving the file. This allows downstream tools to see the original SystemVerilog syntax, and not require re-autoing when the submodules change.

If you want to save the expanded .* pins, add to the Local Variables at the bottom of your file.

// Local Variables:
// verilog-auto-star-save: t
// End:

Call it a misfeature. :-)

Take the case where you have

always @(/*AS*/)
   a = `b;

and b isn't defined. Is b a constant, or another signal? No way to tell, it's safest to put it in the always. Granted, b could simply be defined in the file. If so, you can tell Verilog-Mode to read defines in the current file, and any `includes using:

// Local Variables:
// eval:(verilog-read-defines)
// eval:(verilog-read-includes)
// End:

If you only use defines to represent constants, it's easier to just tell Verilog-Mode that fact, and it will exclude all of them:

// Local Variables:
// verilog-auto-sense-defines-constant: t
// End:

You need to tell Verilog-Mode how to recognize a type. All of your types should match some convention, a _t suffix is probably the most common. Then add to your files:

// Local Variables:
// verilog-typedef-regexp:"_t$"
// End:

Verilog-Mode simply pretends all `ifdefs don't exist. This is done because the permutations across multiple `ifdefs quickly results in code that's way too messy. The work around is all the AUTOs ignore declarations that already exist, or are done before the AUTO itself.

For example:

   module foo (
`ifdef something
        things,
`endif
        /*AUTOARG*/);

   subfile subcell (
`ifdef something
        .things,
`endif
        /*AUTOINST*/);

If your selecting modules, see the next FAQ.

If your ifdefing around signals for only debug, there's rarely a need to do so. Synthesis programs will remove irrelevant logic and ignore PLI calls.

An alternative technique to have a fake "mode" input wire, rather than a ifdef or parameter. This also prevents having to lint or run other translators in 2 different `define modes, thus reducing bugs. This also relies on your synthesis program's removal of irrelevant stuff. For example a unneeded input and output can always be present, and instead:

input         FPGA;
input         fpga_only_input;
output [31:0] fpga_only_output;

if (fpga_only_input && FPGA) ...
fpga_only_output = {32{FPGA}} & {value_for_output}.

Both will be stripped when FPGA==0, and present when FPGA==1.

Often the purpose of an ifdef is to select between two alternate implementations of a module with identical pinouts; perhaps a fast RAM and a slow gate RAM. Your first attempt may be something similar to:

`ifdef SUB_IS_A_FOOBAR
   foobar subcell (/*AUTOINST*/);
`else
   foobiz subcell (/*AUTOINST*/);
`endif

However, Verilog-mode ignores ifdefs. Assuming the pinout is the same you can use the define to instead select which version:

`ifdef SUB_IS_A_FOOBAR
 `define SUB_CELL  foobar
`else
 `define SUB_CELL  foobiz
`endif
   `SUB_CELL subcell (/*AUTOINST*/);

for this to work, you need to read the defines with the below at the bottom of your file. Verilog-mode will use the last definition of SUB_CELL to determine which one to pickup the pinlist from.

// Local Variables:
// eval:(verilog-read-defines)
// End:

That is,

/*AUTORESET*/
foo <= #1 signal;

Do you really want to? You really shouldn't be using delays on your assignments, as they aren't necessary to prevent races, and slows down simulation. But if you must:

// Local Variables:
// verilog-assignment-delay: "#1 "
// End:

No. First of all, you'd be better off asking to wrap it `ifdef synthesis as that lets the tools pick which version of the code you want.

Second, there isn't one standard way that supports all tools.

Third, presuming you never use the value it generates at all (or only in $display's) there's no reason to disable translation, as the synthesis tool will rip it all out through its normal dead code optimization stage.

Maybe you shouldn't be using AUTOOUTPUT? Consider listing your outputs manually; this insures your module's interface is documented and remains constant, even if other lower modules change.

With that warning given, on to the solutions. You have four choices, the last probably being the most used:

First, just ifdef fake outputs. Verilog-mode will see them, but no other tool will care. This is cleanest for signals you can list one-by-one, and are using Verilog 2001 port lists or when you want those listed to still appear in a AUTOARG.

`ifdef NEVER
        output a_out;   // Fake out Verilog-mode
        output b_out;   // Fake out Verilog-mode
`endif

Second alternative, simply create a fake module listing them as inputs. Since Verilog-Mode will then see them as inputs to a submodule, it won't output them.

`ifdef NEVER
  fake fake (// Inputs
        .fake(a_out),
        .fake(b_out),
        );
`endif

Third alternative, you can add them to verilog-auto-output-ignore-regexp using Local Variables:

/*
   Local Variables:
   verilog-auto-output-ignore-regexp: ""
   eval:(setq verilog-auto-output-ignore-regexp (concat
   "^\\("
   "signal1_.*"
   "\\|signal2_.*"
   "\\)$"
   )))
   End:
*/

Finally, you can again use verilog-auto-output-ignore-regexp, but use a AUTO_LISP. This gets around a Emacs limitation of 3000 characters in a Local Variable statement.

/*AUTO_LISP(setq verilog-auto-output-ignore-regexp
            (verilog-regexp-words `(
               "q_single_reg_rddata_30"
               )))*/

Here we've used verilog-regexp-words to convert a simple list of signal names to a regular expression. If you prefer, you can just specify a regular expression directly, perhaps as shown in the Local Variables alternative above.

Note AUTO_LISPs are evaluated during AUTO expansion multiple times instead of only when the file is loaded into Emacs. Thus it's a bit slower, but unlikely to be noticeable.

This is part of normal Emacs lock prevention and isn't really part of Verilog-mode, but is annoying since the AUTOs may need to rewrite many files. You can disable this with the following:

(defvar vm-old-revert-without-query nil)

(add-hook 'verilog-before-auto-hook
          '(lambda ()
             (unless vm-old-revert-without-query
               (setq vm-old-revert-without-query revert-without-query))
             (setq revert-without-query (list ".*"))))

(add-hook 'verilog-after-auto-hook
          '(lambda ()
             (setq revert-without-query vm-old-revert-without-query)))

Let us know how this works for you and we will consider having an easier way to set it.

AUTOWIRE requires special comments in your instantiations to determine the direction of pins. Add // Input, // Output or // Inout comments inside each instantiation just before the relevant pins.

foo foo (// Outputs
         .bfm_output(bfm_output),
         /*AUTOINST*/
         ....)

You need to add [] to the name of the pin connection. This tells Verilog-Mode to put the bit vectors into the instantiation, where they can be read by AUTOWIRE.

/* InstModule AUTO_TEMPLATE (
    .signal   (signal[]),
   ); */

When there are multiple submodules that output the same signal, AUTOWIRE needs to merge those outputs into a single bus. For example, if one instantiation outputs a[1:0], and the second instantiation outputs a[3:2], then AUTOWIRE needs to declare wire a[3:0].

This error message means that it cannot determine how to declare that vector. Usually this is because you used parameters or something complicated in the instantiations. You'll need to declare that wire yourself.

Regexps can be used as port names. Furthermore they can be captured to be used in the connection name. \1 for the first captured regexp in \(...\), and \2 for the second regexp, etc. Templates also allow a short-hand whereby the first @ means matches-any-number and put in \1, that is, @ is short-hand for \([0-9]+\).

/* InstModule AUTO_TEMPLATE (
    .pin@_\(.*\) (wire\1of\2),
   ); */
InstModule mod (
 .pin1_foo    (wire1offoo)   // Templated
);

To tie off a single port:

/* InstModule AUTO_TEMPLATE (
    .\(.*\)_test ('0),
); */

If you don't want to use SystemVerilog's '0 you can use a Lisp format template, and the Lisp variable vl-width, which contains the width of the port:

/* InstModule AUTO_TEMPLATE (
    .\(.*\)_test ({@"vl-width"{1'b0}}),
); */

If you want verilog-mode to only tie off input signals, not output port names that match the port regular expression, then use a Lisp format template to match inputs:

/* InstModule AUTO_TEMPLATE (
    .\(.*\)_test (@"(if (equal vl-dir \\"input\\") \\"'0\\" \\"\\")"),
); */

Use a lisp expression, and the lisp function "downcase".

/* InstModule AUTO_TEMPLATE (
   .\(.*\) (@"(downcase vl-name)"[]),
*/

If you're trying the reverse, namely to upcase your signal names, did you consider lower case is more readable by 15% or so than all upper case?

Yet another lisp expression:

/* InstModule AUTO_TEMPLATE (
     .a(@"vl-cell-name"_in[]),
     .b(@"vl-cell-name"_out[]),
     );*/
InstModule u_a0 (/*AUTOINST*/
     // Inouts
     .a (u_a0_in[bitsa:0]),      // Templated
     .b (u_a0_out[bitsb:0]));    // Templated
InstModule u_a1 (/*AUTOINST*/
     // Inouts
     .a (u_a1_in[bitsa:0]),      // Templated
     .b (u_a1_out[bitsb:0]));    // Templated

Oh, but what if I didn't want the u_?

/* InstModule AUTO_TEMPLATE (
     .a(@"(substring vl-cell-name 2)"_in[]),
     .b(@"(substring vl-cell-name 2)"_out[])
     );*/
InstModule u_a0 (/*AUTOINST*/
   // Inouts
   .a   (a0_in[bitsa:0]),        // Templated
   .b   (a0_out[bitsb:0]));      // Templated

Substring is very useful in templates. All of your cell names need to be the same length however. Often you can simply pad the names by adding zeros, for example use `u_00 ... u_15, rather than u_0 ... u_15.

The standard @ sign in a template by default returns the first number in a instance name, so if you want a earlier number, you have three main choices.

If you only need the second digit, you can define the @ sign to come from the second digits in the module:

/* InstModule AUTO_TEMPLATE "\([0-9]+\)$" (
                             .a (in_@),
*/

Note this pattern works because it doesn't have to be at the beginning of the cell name; there's no ^ in the regexp to bind to the start of the string being matched.

Next easiest is to use @"(substring vl-cell-name ...) to extract the relevant digits. See the examples above.

The most flexible is to define your own function to do the relevant extraction, then call it. For example:

/* AUTO_LISP(defun getparam2 (strg)
    (string-match "[^0-9]*[0-9]+[^0-9]*\\([0-9]+\\)" strg)
    (match-string 1 strg)) */
/* InstModule AUTO_TEMPLATE (
    .in (@"(getparam2 vl-cell-name)"),
    );
    */

This is for when you want the first instance to get a[7:0], the second a[15:8], and so on.

Use a Lisp template and a little math.

/* InstModule AUTO_TEMPLATE (
     .a(@in[@"(+ (* 8 @) 7)":@"(* 8 @)"]),
     );*/

InstModule u_a0 (/*AUTOINST*/
     .a (in[7:0]));      // Templated
InstModule u_a1 (/*AUTOINST*/
     .a (in[15:8]));     // Templated
InstModule u_a2 (/*AUTOINST*/
     .a (in[23:16]));    // Templated
InstModule u_a3 (/*AUTOINST*/
     .a (in[31:24]));    // Templated

AUTOINSTPARAM is very similar to AUTOINST, but it pulls parameters up using Verilog-2001 (and later) syntax:

module InstModule;
   parameter PARAM1 = 1;
   parameter PARAM2 = 2;
endmodule

module ModnameTest;
   InstModule #(/*AUTOINSTPARAM*/
         // Parameters
         .PARAM1  (PARAM1),
         .PARAM2  (PARAM2))
     instName
       (/*AUTOINST*/
        ...);

See also the next FAQ.

If you set verilog-auto-inst-param-value, a AUTOINST cell that sets a Verilog-2001 style parameter will have that parameter's value substituted into the instantiation:

module InstModule;
   # (parameter WIDTH = 32)
   (output wire [WIDTH-1:0] out);
endmodule

module ModnameTest;
   InstModule #(.WIDTH(16))
     instName
       (/*AUTOINST*/
        // Outputs
        .out   (out[15:0]));
endmodule

// Local Variables:
// verilog-auto-inst-param-value:t
// End:

Contrast this with the default:

module ModnameTest;
   InstModule #(.WIDTH(16))
     instName
       (/*AUTOINST*/
        // Outputs
        .out   (out[WIDTH-1:0]));
endmodule

// Local Variables:
// verilog-auto-inst-param-value:nil
// End:

AUTOINST will hook interfaces up similar to how normal inputs and outputs connect.

interface svi;
   logic       enable;
   modport master (input enable);
endinterface

module InstModule
  (input      clk,
   svi.master svi_modport,
   svi        svi_nomodport);
endmodule

module top;
   InstModule instName
     (/*AUTOINST*/
      // Interfaces
      .svi_modport         (svi_modport.master),
      .svi_nomodport       (svi_nomodport),
      // Inputs
      .clk                 (clk));
endmodule

You can also use AUTOINOUTMODULE and AUTOINOUTCOMP with interfaced ports:

module autoinst_interface
  (/*AUTOINOUTMODULE("autoinst_interface_sub")*/
   // Beginning of automatic in/out/inouts (from specific module)
   input      clk,
   svi.master svi_modport,
   svi        svi_nomodport
   // End of automatics
   );
endmodule

Synplify documentation suggests placing attributes just before the final semicolon of instance names. Instead place the comment before the list of ports, which works just as well, and has the additional advantage of being close to the instantiated module name (instead of potentially pages lower if there's many pins.) Synplify has been notified of this issue, and is likely to change their documentation.

InstModule u_a0 /*synthesis syn_noprune=1*/
  (/*AUTOINST*/
     .a (a));

Configure your lint program to ignore signals with a certain naming, such as those with unused in the name, then use AUTO_TEMPLATE to make a unique name for each port.

/* InstModule AUTO_TEMPLATE (
   .out_signal   (unused__@"vl-cell-name"__@"vl-name"[]),   // [] is dropped for single-bit widths
   .out_bus      (unused__@"vl-cell-name"__@"vl-name"[]),   // [] expands to bus range
   .in_signal    ({@"vl-width"{1'b0}}),                     // tie off to zeros
   .in_bus       ({@"vl-width"{1'b1}}),                     // tie off to ones
   .in_bus_SV    ('0),                                      // tie off - if using SystemVerilog
); */
InstModule instname
  (/*AUTOINST*/
   // Outputs
   .out_signal   (unused__instname__out_signal),
   .out_bus      (unused__instname__out_bus[63:0]),
   // Inputs
   .in_signal    ({1{1'b0}}),
   .in_bus       ({64{1'b1}}),
   .in_bus_SV    ('0));

Solution one uses a local pin override to specify the signal the first module gets, then chains up the rest:

/* InstName AUTO_TEMPLATE (
 .a            (z@"(number-to-string(- @ 1))"),
 .z            (z@)); */

InstName sub0 (// Inputs
               .a (first),
               /*AUTOINST*/
               .z (z0));     // Templated

InstName sub1 (/*AUTOINST*/
               .a (z0),      // Templated
               .z (z1));     // Templated

Solution two does it all in a template, the .a(first) is no longer required, which is useful if a regular expression is to be used with the port name:

/* InstModule AUTO_TEMPLATE (
 .a            (@"(if (= @ 0)\"first\" (concat \"z\" (number-to-string(- @ 1))))"),
 .z            (z@));*/