SPEC ACCEL Utility Programs

Last updated: $Date: 2017-02-07 11:36:33 -0500 (Tue, 07 Feb 2017) $ by $Author: BrianWhitney $

(To check for possible updates to this document, please see http://www.spec.org/accel/Docs/ )

Contents

Introduction

configpp

convert_to_development

dumpsrcalt

extract_config

extract_flags

extract_raw

flag_dump

go (Unix only)

index (UNSUPPORTED)

makesrcalt

ogo (Unix only)

port_progress

printkids.pl

printpath.pl

rawformat

Editing result description fields

About continuation fields

Fields allowed only in rawfiles

test_date

relocate (Unix only)

specdiff

specinvoke

specmake

specrxp

spectar

specxz

toolsver

Note: links to SPEC ACCEL documents on this web page assume that you are reading the page from a directory that also contains the other SPEC ACCEL documents. If by some chance you are reading this web page from a location where the links do not work, try accessing the referenced documents at one of the following locations:

Introduction

This document describes various useful utilities that ship with SPEC ACCEL. It is assumed that you have already read runspec.html and config.html.

On Windows Systems

Most of the examples in this document have been written in Unix syntax. That means you'll need to use your imagination just a bit as you read this document:

If you see:     Just pretend you saw:
cat type
cp copy
diff fc
grep findstr
ls dir
/ \
$SPEC %spec%

configpp

"configpp" is a short way to say:

   $ runspec --action configpp  

That switch is mentioned in runspec.html but you'll find much more about the config file preprocessor in config.html. The configuration file is specified using the --config switch, or -c for short, at the command line. For example, the following two command are equivalent:

   $ runspec --action configpp  -c try_utilities.cfg
   $ configpp -c try_utilities.cfg

There are a couple of points worth mentioning here:

  1. The preprocessed configuration file will be dumped to stdout. But the normal progress output from runspec also goes to stdout, so the config file output will be delimited by two lines of hyphens.
  2. There's no need to specify benchmarks to run.
  3. As always, if you don't explicitly specify a config file via '-c <filename>', then the file default.cfg will be used.

The configpp utility is a good way to check your configuration file for fatal errors, as the config file is completely parsed before it's output.

convert_to_development

The "convert_to_development" utility removes various safety checks that ensure that benchmark code, data, and tools haven't been modified. This utility is useful if you are pursuing experimental changes that you would like to try out while still continuing to use the SPEC tool harness. For example, you might want to add your own performance instrumentation code, add some debugging code, or try out a modified workload.

To use it, type:

     convert_to_development                  <--- Unix
     specperl bin\convert_to_development     <--- Windows

A development tree cannnot be used for reportable runs.

Benchmark binaries built in one type of tree (reportable or development) cannot be used in the other type unless you set check_md5=0. Note that even in a development tree, the default for check_md5 remains 1.

Warning 1: If you use this utility, you will permanently render the current SPEC directory tree incapable of doing reportable runs. If you are doing both development work and reportable runs, install the suite twice in two different directory trees (for example, on different disks).

Warning 2: Because benchmark binaries built in a reportable tree cannot be used in a development tree (unless you set check_md5=0), care should be taken to avoid accidental deletion and rebuilding of benchmark binaries. Consider the following scenario, where the user only wanted to try changing input files from the workload of 360.ilbdc:

Probably not what you meant:
  $ runspec --config myconfig --action build 360.ilbdc
  $ convert_to_development
     Modify the workload for 360.ilbdc to try out some idea, 
     changing files in 360.ilbdc/data/ref/input 
  $ runspec --config myconfig --action validate 360.ilbdc
  ...
  Building 360.ilbdc base 

Unless myconfig.cfg contains check_md5=0, the effect of the above command will be to immediately rebuild 360.ilbdc, which probably isn't your intent if you are only studying the effects of workload modifications for 360.ilbdc.

dumpsrcalt

SPEC distributes approved source changes in packages referred to as src.alts, which are applied using the config file src.alt option. In config.html, you will also find an example showing what happens when one is applied.

The dumpsrcalt tool allows you to find out what's in a src.alt without necessarily having to apply it.

dumpsrcalt takes a packaged src.alt, an installed src.alt, or just the src.alt description file (srcalt.pm) and outputs the source changes as a unified diff file, which shows "-" for lines that are removed and "+" for lines that are added.

A src.alt package may also contain whole new files. In fact, all will contain at least one, as the presence of a "README" file is enforced by makesrcalt. The new files will also be printed, if they are available.

dumpsrcalt's command-line options control which parts of the src.alt are output. By default all information known about a src.alt is printed. This includes a summary with the name of the src.alt, the benchmark to which it applies, the versions of ACCEL with which it may be used, and a count of new and changed files.

Here are the contents of the src.alt created in the example for makesrcalt:

$ dumpsrcalt 360.ilbdc.no_line.accel.v1.0.tar.xz
This is src.alt "no_line" for 360.ilbdc.
It is usable with version 1.0 of the benchmark.
It contains 1 new file and changes to 1 existing file.
------------------------------------------------------------------------------
Index: README
===================================================================
--- original/README     1970-01-01 01:00:00.000000000 +0100
+++ no_line/README      2011-07-20 16:40:47.000000000 +0100
@@ -0,0 +1,1 @@
+Remove some of those pesky #line directives.
Index: mod_relax.F90
===================================================================
--- original/mod_relax.F90  1970-01-01 01:00:00.000000000 +0100
+++ no_line/mod_relax.F90   2011-07-20 16:40:47.000000000 +0100
@@ -71,8 +71,6 @@
 #define        CLASS   321
 #define        ALIAS   322
 
-/* #line 34 "mod_relax.F90" */
-
 #include "config.h"
 #include "system.h"
 #include "tree.h"
@@ -102,10 +100,8 @@
 /* Rename the "yyparse" function so that we can override it elsewhere.  */
 #define yyparse yyparse_1
 
-/* #line 67 "mod_relax.F90" */
 typedef union {long itype; tree ttype; enum tree_code code;
  const char *filename; int lineno; } YYSTYPE;
-/* #line 200 "mod_relax.F90" */
 
 /* Number of statements (loosely speaking) and compound statements 
    seen so far.  */
$

Notice above that dumpsrcalt was applied to the packaged (.xz) src.alt. The dumpsrcalt utility can also be applied to an installed src.alt, producing the same output:

$ . ./shrc
$ specxz -dc 360.ilbdc.no_line.accel.v1.0.tar.xz | spectar -xvf -
README.360.ilbdc.src.alt.no_line.txt
benchspec/ACCEL/360.ilbdc/src/src.alt/no_line/srcalt.pm
benchspec/ACCEL/360.ilbdc/src/src.alt/no_line/README
$ dumpsrcalt 360.ilbdc no_line
This is src.alt "no_line" for 360.ilbdc.
It is usable with version 1.0 of the benchmark.
It contains 1 new file and changes to 1 existing file.
------------------------------------------------------------------------------
Index: README
===================================================================
--- original/README     1970-01-01 01:00:00.000000000 +0100
+++ no_line/README      2011-07-20 16:44:27.000000000 +0100
@@ -0,0 +1,1 @@
+Remove some of those pesky #line directives.
Index: c-parse.c
===================================================================
--- original/mod_relax.F90  1970-01-01 01:00:00.000000000 +0100
+++ no_line/mod_relax.F90   2011-07-20 16:44:27.000000000 +0100
@@ -71,8 +71,6 @@
 #define        CLASS   321
 #define        ALIAS   322
 
-/* #line 34 "mod_relax.F90" */
-
 #include "config.h"
 #include "system.h"
 #include "tree.h"
@@ -102,10 +100,8 @@
 /* Rename the "yyparse" function so that we can override it elsewhere.  */
 #define yyparse yyparse_1
 
-/* #line 67 "mod_relax.F90" */
 typedef union {long itype; tree ttype; enum tree_code code;
  const char *filename; int lineno; } YYSTYPE;
-/* #line 200 "mod_relax.F90" */
 
 /* Number of statements (loosely speaking) and compound statements 
    seen so far.  */
$

Finally, you can apply dumpsrcalt just to srcalt.pm. In that case, the README file is not displayed, since srcalt.pm contains only differences:

$ dumpsrcalt benchspec/ACCEL/360.ilbdc/src/src.alt/no_line/srcalt.pm
This is src.alt "no_line" for 360.ilbdc.
It is usable with version 1.2 of the benchmark.
It contains 1 new file and changes to 1 existing file.
------------------------------------------------------------------------------
New file "README" isn't present, and can't be dumped.
Index: mod_relax.F90
===================================================================
--- original/mod_relax.F90  1970-01-01 01:00:00.000000000 +0100
+++ no_line/mod_relax.F90   2011-07-20 16:46:43.000000000 +0100
@@ -71,8 +71,6 @@
 #define        CLASS   321
 #define        ALIAS   322
 
-/* #line 34 "mod_relax.F90" */
-
 #include "config.h"
 #include "system.h"
 #include "tree.h"
@@ -102,10 +100,8 @@
 /* Rename the "yyparse" function so that we can override it elsewhere.  */
 #define yyparse yyparse_1
 
-/* #line 67 "mod_release.F90" */
 typedef union {long itype; tree ttype; enum tree_code code;
  const char *filename; int lineno; } YYSTYPE;
-/* #line 200 "mod_release.F90" */
 
 /* Number of statements (loosely speaking) and compound statements 
    seen so far.  */
$

Notice that the output from dumpsrcalt is suitable for use as input to many patch (1) programs, available on Unix systems and in some add-on packages for Windows (e.g. Cygwin). If you try to apply the output of dumpsrcalt yourself, take care to notice how paths are handled by your patch program, especially if the src.alt is for a benchmark that has a complicated source tree. Many patch programs will pay attention to the filename but not the path listed on the "Index:" lines, so it may be best to apply them using the "-p1" option, to cause patch to ignore "Index:" lines and use the full paths of the files as listed in the diff.

dumpsrcalt's command-line options are intended to be self-explanatory:

$ dumpsrcalt --help
Usage: bin/dumpsrcalt [options] <benchmark> <srcaltname>
       bin/dumpsrcalt [options] <path to srcalt tarball>
       bin/dumpsrcalt [options] <path to srcalt.pm>
Options:
   --skip-changed         -- Do not output diffs of files that have changed
   --skip-new             -- Do not output diffs for new files
   --summarize            -- Do not output any diffs at all
   --no-summary           -- Do not output the summary for the src.alt

<benchmark> must be the full nnn.name form
<srcaltname> must match the name of the subdirectory in the benchmark's
  src.alt directory

extract_config

If you have a rawfile, you can extract the config file that was used with it. To do so, use the extract_config utility.

For example, starting with a freshly-installed SPEC ACCEL directory tree:

 % runspec --config=Example-simple --size=test --iterations=1 \
   --tuning=base --output_format=text,raw 350,md > /dev/null
 % cd result
 % ls
 ACCEL_ACC.001.test.rsf ACCEL_ACC.001.test.txt ACCEL.001.log       lock.ACCEL

Note that we have just the single result. Let's make a temporary directory and copy the rawfile there:

 % mkdir tmp
 % cd tmp
 % cp ../ACCEL_ACC.001.test.rsf .
 % ls
 ACCEL_ACC.001.test.rsf  

(On Windows, that ls command would be spelt dir. You'll find some more Windows notes in the introduction.)

Now, attempt to extract the config file:

 % extract_config --stdout ACCEL_ACC.001.test.rsf > tmp.cfg  

Does the extracted file match the original?

 % diff -u ../../config/try_utilities.cfg tmp.cfg
 --- ../../config/try_utilities.cfg      2006-05-22 14:41:42.000000000 -0700
 +++ tmp.cfg     2006-05-22 14:43:16.000000000 -0700
 @@ -1,3 +1,6 @@
 +# Invocation command line:
 +# /Volumes/storage/WorkRelated/SPEC/ACCEL/Kits/accel-kit91/bin/runspec 
     --config=try_utilities --size=test --iterations=1 --tuning=base 
     --output_format=text,raw 350.md
 +############################################################################
  # This is a sample config file. It was tested with:
  # 
  #      Compiler name/version:       Apple GCC v4.0.1 build 5245
 @@ -128,15 +131,8 @@
  sw_state         = Default
  sw_other         = None
  
 -__MD5__
 -350.md=base=try_utilities=default:
 -# Last updated Mon May 22 14:41:42 2006
 -optmd5=0666e60587f33e2aa13eb6ba0917aa60
 -baggage=
 -compile_options=\
 -@eNqNj00LgkAQhu/7K4a9b5duoUKuJpa6C+qlS9QmYqAjaYf+faMF2cfBYQ8Dsy/P80oV6xWUxoCg\
 -h4BtX2HTLRCEl2pfHqTOaU08380DoBFqCaI+35tjXRnRoGgrCpbwNVaHt6spHCZXIKXNicDHXblb\
 -pTObf+A4IwkibaJ1kNLtF82ZGsI6C+Nw79OX/xqcRWGyexaa4Wrh6VKYvnMm5m+rwTfyXu4z8WNE\
 -5UPBSbsHPPNh9Q==
 -exemd5=d828496b92983e96408f680b55393225
  
 %  

Yes. The only differences are:

The config file can also be extracted directly to a file:

 % extract_config --nostdout ACCEL_ACC.001.test.rsf
Wrote "ACCEL_ACC.001.test.cfg"

or

 % extract_config ACCEL_ACC.001.test.rsf
Wrote "ACCEL_ACC.001.test.cfg"

Lastly, you can choose the filename if you're piping files in via stdin:

 % extract_config --basename=SampleFilename < ACCEL_ACC.001.test.rsf
Wrote "SampleFilename.cfg"

On Windows systems

Instead of saying diff just above, you would say fc (and, as already mentioned, dir is the Windows spelling for what Unix calls ls.)

extract_flags

If you have a rawfile, you can extract the XML flags description file that the result uses. To do so, use extract_flags. Usage is similar to extract_raw, but unlike extract_raw, the extract_flags utility might not produce a flags description file identical to the original flags file. This is because EOLs (end-of-line) characters are normalized to Unix-style LF (line feed) only.

Note: If you have used a flags description file to format your result, the entire flags file is stored in the raw file (not just the part needed for result).

For example, continuing the example from extract_raw, you can extract the flags file using the following command:

$ extract_flags --stdout new.rsf > extracted.flags.xml
$ diff ../myflags.xml ./extracted.flags.xml 
$ 

We see no difference between the extracted flags description file and the original. Notice that the above command asked for the flags to be written to standard out; without that switch, they would have been written to whatever filename was suggested.

If you'd like for the filename of the extracted flags file to match the rawfile, use the --nofilename option. This will cause extract_flags to ignore the flag file's "suggested filename":

    % ls *rsf
    accel-20140201-00074.rsf  accel-20140204-00080.rsf
    accel-20140201-00075.rsf  accel-20140204-00081.rsf
    accel-20140203-00076.rsf  accel-20140204-00082.rsf
    accel-20140203-00077.rsf  accel-20140204-00083.rsf
    accel-20140204-00078.rsf  accel-20140204-00084.rsf
    accel-20140204-00079.rsf  accel-20140204-00085.rsf
    % extract_flags --nofilename accel-20140204-00085.rsf
    Reading "accel-20140204-00085.rsf"
    Wrote "accel-20140204-00085.xml"
    %

You can format a result with multiple flags files. If you used multiple flags files as input to runspec then you will get multiple flags files when running extract_flags.

 
# extract_flags ACCEL_ACC.001.ref.rsf
Reading "ACCEL_ACC.001.ref.rsf"
Wrote "platform-setup.xml"
Wrote "pathscale-flags.xml"
 
# extract_flags --nofilename ACCEL_ACC.001.ref.rsf
Reading "ACCEL_ACC.001.ref.rsf"
Wrote "ACCEL_ACC.001.ref.xml"
Wrote "ACCEL_ACC.001.ref-1.xml"

In the examples above, result 001 used two flags files. One has information about the platform (which might contain items such as BIOS settings), and the other describes the compiler.

Note: If a raw file has not been formatted with a flags description file, extract_flags does nothing.

extract_raw

If you have a PDF, HTML, or PostScript output file, you can extract the rawfile that was used to generate it. To do so, use extract_raw. For example:

$ cp -p ACCEL_OCL.267.ref.rsf new
$ ls -g new
-rw-rw-r--   1 ptg       186202 Feb 13 22:57 new
$ rawformat -o html,raw --flagsurl ./myflags.xml new 2>&1 > /dev/null
$ ls -g new.html new.rsf
-rw-rw-r--   1 ptg       109390 Feb 20 12:48 new.html
-rw-rw-r--   1 ptg       194193 Feb 20 12:48 new.rsf
$ mkdir AppleFrancisco
$ cd AppleFrancisco/
$ cp ../new.html .
$ ls -g
-rw-rw-r--   1 ptg       109390 Feb 20 12:51 new.html
$ extract_raw new.html 
new.html: Wrote "new.rsf"
$ ls -g
-rw-rw-r--   1 ptg       109390 Feb 20 12:51 new.html
-rw-rw-r--   1 ptg       194193 Feb 20 12:51 new.rsf
$ diff ../new.rsf new.rsf
$ 

In the above example, we begin by copying the original rawfile (always recommended anytime you use commands that create new rawfiles). The rawformat command takes new as input and produces as output both new.html and new.rsf. We copy only new.html to a newly created directory, where we demonstrate that extract_raw can create a copy of new.rsf that is identical to the copy in the parent directory.

On Windows systems

Note that the file you extract from can be PDF, PostScript, or HTML, just as on Unix systems, with one important exception: if you are using a browser that attempts to add value to the HTML when you save it, that browser may break the embedded rawfile. For example, with Internet Explorer Version 5.00.3103.1000, if you are viewing a SPEC ACCEL html file and you select File -> Save As, the default for "Save as type" is shown as

     "Web Page, complete (*.htm,*.html)"  

Do not accept that default if you want to be able to retrieve the rawfile later on. If you take the default, your saved file will be incomplete. To save the web page INCLUDING the embedded rawfile, you must change "Save as type" to

     "Web Page, HTML only (*.htm,*.html)"  

flag_dump

(You can also invoke this utility with the spelling: 'flags_dump')

If you have an XML flag description file, such as one extracted using extract_flags, or one downloaded from SPEC, flag_dump will create a more human-readable HTML version from it. The flag_dump utility will also handle more than one XML flag description at a time.

For example:

$ cd /tmp
$ mkdir myflags
$ cd myflags/
$ cp $SPEC/Docs/flags/*xml .
$ ls
example-medium-cfg-flags.xml    flags-advanced.xml              flags-simple.xml
$ cp flags-advanced.xml flags-for-willi.xml
$ flag_dump flags-advanced.xml flags-for-willi.xml flags-simple.xml 
Processing flags-advanced.xml...wrote flags-advanced.html
Processing flags-for-willi.xml...wrote flags-for-willi.html
Processing flags-simple.xml...wrote flags-simple.html
$ 

If you are writing a flags file, you should validate that the dump is valid HTML. If it isn't, you probably made a mistake in the HTML text that you have included inside your XML flags file. A handy HTML validator can be found at http://validator.w3.org/.

Note that flag_dump utility assumes that you are formatting flags files written by users. These files are not allowed to contain mandatory flags. If you attempt to use the flag_dump utility to format any of the suite-provided flag files such as flags_mandatory.xml or the benchmark flag files that reside in $SPEC/benchspec/ACCEL/*/Spec/ directory, the utility will exit with an error message such as the one below.

    % cd $SPEC/benchspec
    % flag_dump flags_mandatory.xml
    Processing flags_mandatory.xml...
    ERROR: The flag file at
           flags_mandatory.xml
         contains one or more flags in the class "mandatory", which is not
         allowed.
    % 

go (Unix only)

When you source the shrc, as described in runspec.html, the 'go' shell alias is created. go is a handy utility to navigate the directory structure of a SPEC source tree. Here are the various things it understands and the places they will take you:

If you say You'll end up in
go
go top
$SPEC
go bin $SPEC/bin (where the tools live)
go config $SPEC/config
go result
go results
$SPEC/result
go doc
go docs
$SPEC/Docs
go cpu $SPEC/benchspec/ACCEL
go benchmark The top level directory for the named benchmark, if it can be found. (Examples follow)
go 350 $SPEC/benchspec/ACCEL/350.md
go clv

$SPEC/benchspec/ACCEL/353.clvrleaf Notice that abbreviated names are accepted. But if the abbreviation is ambiguous, the command will pick the first match, so pay attention to the reply:

$ go c
/spec/accel/kit91/benchspec/ACCEL/101.tpacf
$ go ea
/spec/accel/kit91/benchspec/ACCEL/120.kmeans
$ 
go nada no change: there's no benchmark named nada*
go benchmark subdir

The named subdirectory of the directory tree for the referenced benchmark, for example "go swim run". You can also name more than one level of subdirectory: "go 363 data train".

go subdir

If you are already in a benchmark subtree, then you can move to a different branch of the same benchmark, by naming the branch and not mentioning a benchmark. For example:

$ pwd
/rahul/benchspec/ACCEL/120.kmeans/build/build_base_a3.0000
$ go exe
/rahul/benchspec/ACCEL/120.kmeans/exe
$ 

go also understands -h and --help, and will output a short usage message in response to either of those arguments.

Note: If you leave the shell where you sourced shrc, the alias is no longer available! So if you want to use this alias, do not start a sub-shell.

Note: 'go' does not know about your settings for output_root or expid, and will not be able to take you to your run, exe, or result directories if you use those features. See ogo for something that can help.

Users of shells compatible with csh

If you use a csh-like shell, please note that after you say source cshrc, there is a go alias that is set up for you, which implements the same features as described above.

Windows Users

Sorry, the go feature does not exist for Windows systems.

index (UNSUPPORTED)

As you are preparing sets of results, you might find it handy to use scripts.misc/index. This script is NOT supported - please do not submit bug reports for it. But you're welcome to try it out, like so:

$ ls
accel16rate.rsf          accel32rate.rsf
$ rawformat -o html *rsf > /dev/null
$ ls
accel16rate.flags.html   accel16rate.rsf          accel32rate.html
accel16rate.gif          accel32rate.flags.html   accel32rate.rsf
accel16rate.html         accel32rate.gif
$ $SPEC/bin/scripts.misc/index
$ ls
accel16rate.flags.html   accel16rate.rsf          accel32rate.gif
accel16rate.gif          index.html               accel32rate.html
accel16rate.html         accel32rate.flags.html   accel32rate.rsf
$ 

In the above example, we have a couple rawfiles in a directory, generate html reports for them, and then add an index.

makesrcalt

SPEC distributes approved source changes in packages referred to as src.alts, which are applied using the config file src.alt option. (The file config.html also has an example showing what happens when one is applied.)

A src.alt is a specialized difference file, and can't be made by hand. When you need to package some source changes, makesrcalt is the tool you need.

If you are a developer and you believe that changes are needed to the SPEC source code, it will probably be convenient to work in a sandbox, temporarily abandoning the tools during your development phase. (Or, you can use convert_to_development to make the whole installation into one big sandbox.) Once you have a pretty good idea of the changes that you want:

  1. Create a subdirectory under the benchmark's src/ directory named "src.alt/".

  2. Decide on a name for your src.alt. The src.alt name may contain only letters, digits, and underscores. For convenience, it should be short. Create a subdirectory under src/src.alt/ using the name you have chosen.

  3. In that subdirectory, deposit any modified or new source files for the benchmark.

  4. You must also put a file named "README" in that subdirectory. Its contents are up to you; to see examples of the kind of information that is usually placed in README files, see www.spec.org/accel/src.alt. In your draft, kindly do NOT claim that it is approved; the release manager will do that at the last minute.

  5. Once the directory structure is set up, creation of the src.alt package is simple: just type makesrcalt followed by the name of the benchmark and the src.alt name.

  6. Contact SPEC to get the src.alt approved.

Example: We've made source changes to 360.ilbdc to remove preprocessor #line directives from the mod_relax.F90 source file. This src.alt will be called 'no_line':

$ makesrcalt 360.ilbdc no_line

Making 'no_line' src.alt for 360.ilbdc
This will be usable with version 1.0 of the suite.

Making differences and computing checksums...
Writing control file...
Gathering files...
Wrote /spec/accel/360.ilbdc.no_line.accel.v1.0.tar.xz

Finished making 'no_line' src.alt for 360.ilbdc.  Elapsed time: 0 seconds
$

If you use --help, you'll get an up-to-date list of options. Usually, you won't need any of these:

$ makesrcalt --help
Usage: bin/makesrcalt [options] <benchmark> <srcaltname>
Options:
   --usewith <min>:<max>  -- Set the versions of the suite that will accept
                             this src.alt (defaults to 1.1)
   --notarball            -- Skip packaging the src.alt as a tarball (created
                             by default)
   --context <lines>      -- Set lines of context for the diff.  This defaults
                             to 3 and should not be changed.
   --help                 -- Print this message

<benchmark> must be the full nnn.name form
<srcaltname> must match the name of the subdirectory in the benchmark's
  src.alt directory
$

(History: the makesrcalt utility was improved in, and was documented for the first time with, SPEC ACCEL V1.1.)

ogo (Unix only)

When you source shrc, as described in runspec.html, the 'ogo' shell alias is created. Its function is similar to the go alias with one important difference: if you use the output_root setting in your config file (also discussed in runspec.html) you can use ogo as a shorthand for moving around both the original installed benchmark tree and your output tree.

To do so, simply set the GO environment variable to the same value as your output_root. Then, 'ogo' will use the contents of that variable as the top level of the benchmark tree when looking for run directories and results.

For example, you could say something like this:

$ go config
/spec/config
$ grep output_root cds.cfg
output_root = /cds_stuff
$ GO=/cds_stuff
$ ogo run perl
Using value in GO for output_root: /cds_stuff
/cds_stuff/benchspec/ACCEL/363.swim/run
$ 

Note the helpful message that tells you which directory you have landed in. (If you define the environment variable OGO_NO_WARN the message will be shorter - the first line "Using value in GO..." will not be output.)

In this example, the benchmarks are installed in "/spec", and output_root is set to "/cds_stuff" in the config file. Any runs using that config file will write their results, executables, and run directories under "/cds_stuff". Continuing with other examples:

If you say You'll end up in
ogo
ogo top
/cds_stuff
Your own private output tree
ogo result /cds_stuff/result
Your own private result directory
ogo 363 run /cds_stuff/benchspec/ACCEL/363.swim/run
Your own private run directories
ogo ep exe /cds_stuff/benchspec/ACCEL/352.ep/exe
Your own private executables
ogo doc /spec/Docs
There's only one Docs directory, on the original installed $SPEC tree
ogo config /spec/config
The config directory is always on the original installed tree; set its protections as described in runspec.html
ogo 351 src /spec/benchspec/ACCEL/351.palm/src
Run directories are under output_root, but the benchmark src directory is still in the original installed $SPEC tree.

ogo also understands -h and --help, and will output a short usage message in response to either of those arguments.

Saying ogo top or just ogo takes you to $GO. It used to take you to $SPEC.

Note: It's not necessary to export the "GO" variable. Declaring this variable at the command-prompt is sufficient.

    $ GO=/tmp/cds
    $ echo $GO
    /tmp/cds

Users of shells compatible with csh

ogo has also been implemented for cshrc. There is one restriction: to get the full feature set above, you must set OGO to the actual directory, not to a symbolic link.

Windows Users

Sorry, the ogo feature does not exist for Windows systems.

port_progress

The port_progress utility analyzes log files and summarizes errors. It was primarily used during the benchmark porting phase for SPEC ACCEL, but can still come in handy, for example when trying the benchmarks with a new compiler. To use it:

  cd $SPEC/result  (or on Windows, cd %SPEC%\result)
  port_progress logfile...

Optionally, you can limit output by saying:

  -c config    only report logs that match the named config file

In the example below:

$ port_progress -c dec2  *.log
SPEC ACCEL mydir
Tester: john

               dec22a                
               Base      Peak
               Te Tr Ref Te Tr Ref
303.ostencil   S  S  S   S  S  S     
304.olbm       S  b? b?  b? b? b?
314.omriq      
350.md         S  S  S   S  S  S
351.palm       S  S  S   S  S  S
352.ep         VE VE VE  VE VE VE
353.clvrleaf   S  S  S   S  S  S
354.cg         
355.seismic    RE RE RE  RE RE RE
356.sp         S  S  S   S  S  S
357.csp        S  S  S   S  S  S
359.miniGhost  S  S  S   S  S  S
360.ilbdc      S  RE RE  S  RE RE
363.swim       S  S  S   S  S  S  
370.bt         S  RE RE  S  RE RE

You can remove reporting on base runs with --nobase or remove peak with --nopeak. This option may be convenient if, at a particular moment, you are only debugging one type of output.

printkids.pl

Some benchmark executables are invoked multiple times. If you'd like to know how much time was spent on each invocation, it may not be easy to tell. You could examine "speccmds.out", but that file is not easy to interpret:

$ runspec --config=try_utilities --size=test --iterations=1 \
     --tuning=base --output_format=ps  367
$ go 367 run
$ cd run_base_test_try_utilities.0000/
$
$ cat speccmds.out | fold -s
running commands in speccmds.cmd 1 times
runs started at 1334348742, 710969000, Fri Apr 13 13:25:42 2012
run 1 started at 1334348742, 711160000, Fri Apr 13 13:25:42 2012
child started: 0, 1334348742, 711176000, pid=22658, 
'../run_base_ref_12.3.0000/convert_base.12.3 input2.tga -shear 31 -resize 
12000x9000 -negate -edge 14 -implode 1.2 -flop -convolve 1,2,1,4,3,4,1,2,1 
-edge 100 -resize 800x600 output2.tga'
child finished: 0, 1334349014, 585308000, sec=271, nsec=874132000, pid=22658, 
rc=0
child started: 0, 1334349014, 585461000, pid=22660, 
'../run_base_ref_12.3.0000/convert_base.12.3 checks.tga -shear 31x14 -negate 
-edge 14 -resize 12288x12288 -implode 1.2 -flop -convolve 1,2,1,4,3,4,1,2,1 
-edge 100 -resize 900x900 output9.tga'
child finished: 0, 1334349274, 318772000, sec=259, nsec=733311000, pid=22660, 
rc=0
child started: 0, 1334349274, 318928000, pid=22662, 
'../run_base_ref_12.3.0000/convert_base.12.3 checks.tga -resize 12000x12000 
-morphology Convolve '5x5: 1.0,1.0,1.0,1.0,1.0 1.0,0.0,0.0,0.0,1.0 
1.0,0.0,0.0,0.0,1.0 1.0,0.0,0.0,0.0,1.0 1.0,1.0,1.0,1.0,1.0 ' -edge 60 
-morphology Convolve Log:0x2 -negate -morphology Convolve Laplacian:7 -sharpen 
10x0.2-32 -resize 600x600 output11.tga'
child finished: 0, 1334349512, 823929000, sec=238, nsec=505001000, pid=22662, 
rc=0
child started: 0, 1334349512, 824087000, pid=22665, 
'../run_base_ref_12.3.0000/ImageValidator_base.12.3 expected2.tga output2.tga'
child finished: 0, 1334349513, 354615000, sec=0, nsec=530528000, pid=22665, rc=0
child started: 0, 1334349513, 354650000, pid=22667, 
'../run_base_ref_12.3.0000/ImageValidator_base.12.3 expected9.tga output9.tga'
child finished: 0, 1334349513, 901268000, sec=0, nsec=546618000, pid=22667, rc=0
child started: 0, 1334349513, 901300000, pid=22669, 
'../run_base_ref_12.3.0000/ImageValidator_base.12.3 expected11.tga output11.tga'
child finished: 0, 1334349514, 261427000, sec=0, nsec=360127000, pid=22669, rc=0
run 1 finished at: 1334349514, 261432000, Fri Apr 13 13:38:34 2012
run 1 elapsed time: 771, 550272000, 771.550272000
runs finished at 1334349514, 261485000, Fri Apr 13 13:38:34 2012
runs elapsed time: 771, 550516000, 771.550516000
$

Fortunately, SPEC has provided a tool to interpret the above for you:

$ printkids.pl
  Seconds  Command
  Seconds  Command
   271.87 ref_12.3.0000/convert_base.12.3 input2.tga -shear 31 -resize 12000x90
   259.73 ref_12.3.0000/convert_base.12.3 checks.tga -shear 31x14 -negate -edge
   238.51 ref_12.3.0000/convert_base.12.3 checks.tga -resize 12000x12000 -morph
     0.53 ref_12.3.0000/ImageValidator_base.12.3 expected2.tga output2.tga
     0.55 ref_12.3.0000/ImageValidator_base.12.3 expected9.tga output9.tga
     0.36 ref_12.3.0000/ImageValidator_base.12.3 expected11.tga output11.tga
=========
   771.55 Total by adding children      
   771.55 Total according to speccmds.out
$  

Please note that none of the SPEC ACCEL benchmarks are invoked multiple times. The example above is taken from the SPEC OMP2012 benchmark.

printpath.pl

As a convenience for Windows users, you can use printpath.pl to print your path in an easier to read form. You can send the output to a file, which can then be easily edited.

In the example below, printpath.pl makes it easy to notice that cygwin (a Windows/Unix compatibility product) is in the path. SPEC recommends that your %PATH% should not include Windows/Unix compatibility products, because these have sometimes contributed to hard-to-diagnose errors.

C:\accel>echo %PATH%
C:\accel\bin\windows;C:\accel\bin;C:\Program Files\Microsoft Visual Studio 9
.0\Common7\IDE;C:\Program Files\Microsoft Visual Studio 9.0\VC\BIN;C:\Program Fi
les\Microsoft Visual Studio 9.0\Common7\Tools;C:\WINDOWS\Microsoft.NET\Framework
\v3.5;C:\WINDOWS\Microsoft.NET\Framework\v2.0.50727;C:\Program Files\Microsoft V
isual Studio 9.0\VC\VCPackages;C:\Program Files\Microsoft SDKs\Windows\v6.0A\bin
;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;c:\cygwin\bin;C:\WINDOW
S\system32\WindowsPowerShell\v1.0

C:\accel>specperl bin\printpath.pl

PATH=^
C:\accel\bin\windows;^
C:\accel\bin;^
C:\Program Files\Microsoft Visual Studio 9.0\Common7\IDE;^
C:\Program Files\Microsoft Visual Studio 9.0\VC\BIN;^
C:\Program Files\Microsoft Visual Studio 9.0\Common7\Tools;^
C:\WINDOWS\Microsoft.NET\Framework\v3.5;^
C:\WINDOWS\Microsoft.NET\Framework\v2.0.50727;^
C:\Program Files\Microsoft Visual Studio 9.0\VC\VCPackages;^
C:\Program Files\Microsoft SDKs\Windows\v6.0A\bin;^
C:\WINDOWS\system32;^
C:\WINDOWS;^
C:\WINDOWS\System32\Wbem;^
c:\cygwin\bin;^                           <-- not recommended
C:\WINDOWS\system32\WindowsPowerShell\v1.0

C:\accel>specperl bin\printpath.pl > my-easy-to-edit-pathset.bat
C:\accel>notepad my-easy-to-edit-pathset.bat

C:\accel>my-easy-to-edit-pathset.bat

In the example above, to remove cygwin, the user just uses notepad to remove the second last line of the file my-easy-to-edit-pathset.bat

rawformat

"rawformat" is the result formatter. It can be invoked directly, by typing rawformat, or equivalently by typing runspec --rawformat. These two commands achieve the same effect because, saying runspec --rawformat just causes runspec to exit, invoking rawformat in its stead, and passing the formatter whatever other options you mentioned on the command line.

The rawformat utility is also automatically invoked by runspec at the end of a run, to generate the reports from your run.

For convenience, most rawformat options are documented in runspec.html, which see for basic information on using this command. You can also say rawformat --help to get a list of switches that are used by the formatter.

Note that when runnng rawformat, you will always get format "Submission Check", which encourages consistent formatting for various result fields when preparing final (submittable) reports. In addition, you will get the formats that you mention on the command line, or, if none are mentioned there, then you will get the defaults documented under output_format.

A few additional points are worth mentioning, in the following sections.

Editing result description fields

A result rawfile may be edited to update reader fields, such as the system description. Rawfile syntax is similar to the syntax in config files, with a few exceptions:

These points are described in this section.

WARNING: Before you do anything, make a backup copy of the rawfile first!

Example: What do you do when Marketing decides to change the name from "SuperHero 4" to "SuperHero IV" just before you publish the results, or just before you're ready to submit them to SPEC? In your config file, you had

 hw_model = SuperHero 4

which has caused the rawfile to contain the line

spec.accel.hw_model: SuperHero 4

and you've just been told that the name is wrong. You don't have time to re-run your test. It's too late to change the config file.

SPEC does allow you to edit the rawfile to make corrections. Just make sure that you only edit the fields located before the "fence":

  # =============== do not edit below this point ===================
  

WARNING: Make a backup copy of the rawfile first!

For example:

$ cd $SPEC/result
$ cp ACCEL_OCL.001.ref.rsf new.rsf
      edit new.rsf to make your changes 
$ diff ACCEL_OCL.001.ref.rsf new.rsf
9c9
< spec.accel.hw_model: SuperHero 4
---
> spec.accel.hw_model: SuperHero IV
$ 
$ rawformat -o ps new.rsf
rawformat v2174 - Copyright 1999-2014 Standard Performance Evaluation Corporation
Using 'linux-suse10-amd64' tools
Reading MANIFEST... 3185 files
Loading rawformat modules............
Locating benchmarks...found 37 benchmarks in 2 benchset.
Locating output formats: ASCII, config, CSV, flags, HTML, mail, PDF, PostScript, raw, Screen, Submission Check
Formatting new.rsf
This result was produced by a NON-RELEASE version of the ACCEL suite.
Parsing flags for 101.tpacf base: done
Parsing flags for 103.stencil base: done
Parsing flags for 104.lbm base: done
Parsing flags for 110.fft base: done
Parsing flags for 112.spmv base: done
Parsing flags for 114.mriq base: done
Parsing flags for 116.histo base: done
Parsing flags for 117.bfs base: done
Parsing flags for 118.cutcp base: done
Parsing flags for 120.kmeans base: done
Parsing flags for 121.lavamd base: done
Parsing flags for 122.cfd base: done
Parsing flags for 123.nw base: done
Parsing flags for 124.hotspot base: done
Parsing flags for 125.lud base: done
Parsing flags for 126.ge base: done
Parsing flags for 127.srad base: done
Parsing flags for 128.heartwall base: done
Parsing flags for 140.bplustree base: done
Doing flag reduction: done
        format: PostScript -> new.ps

rawformat finished at Tue Dec 24 08:22:10 2013; 3 total seconds elapsed
$

About continuation fields in rawfiles

Notice when editing fields that have more than one line that you need to construct the numbers with correct syntax. The syntax in the rawfile is a bit more picky than in config files (compare the following vs. the config.html section on "Field scoping and continuation". You cannot say something like this:

WRONG: spec.accel.sw_compiler: Intel C Compiler 9.1 for Windows XP
spec.accel.sw_compiler1: Visual Studio 2005 (for libraries)

because the tools are not prepared at this point for a mixture of numbered and un-numbered fields. If you need to have continued fields, say instead:

RIGHT: spec.accel.sw_compiler0: Intel C Compiler 9.1 for Windows XP
spec.accel.sw_compiler1: Visual Studio 2005 (for libraries)

Fields allowed only in rawfiles

One testbed description field is allowed in raw files that is not allowed in config files:

test_date

When the tests were run. This field is populated automatically based on the clock in the system under test. Setting this in the config file will generate a warning and the setting will be ignored. If your system clock is incorrect, then the value may be edited in the raw file. It's better to avoid the necessity to edit, by setting your system clock properly.

On Windows systems

You may find that --output_format will only accept one argument at a time. If so, first create the rawfile with --output_format raw, then use the new rawfile to create the other reports.

relocate (Unix only)

If you rearrange mount points or rename your SPEC root directory, you will probably find confusing problems like the one in the example that follows. We used to have a working SPEC tree under /accel/accel-kit91, but we're going to change that:

$ cd /accel
$ mv accel-kit91 jamesbond
$ cd jamesbond
$ . ./shrc
$ runspec -h
-bash: /accel/jamesbond/bin/runspec: /accel/accel-kit91/bin/specperl: 
  bad interpreter: No such file or directory

The problem is that the first line of runspec points to a path that no longer exists:

$ head -1 bin/runspec
#!/accel/accel-kit91/bin/specperl
$  

Fortunately, SPEC has provided a tool to relocate the tools in the new tree:

$ cd /accel/jamesbond
$ . ./shrc
$ relocate
Top of SPEC benchmark tree is '/accel/jamesbond'
$ runspec -h | head -3
runspec v2174 - Copyright 1999-2014 Standard Performance Evaluation Corporation
Using 'solaris10-sparc' tools
Reading MANIFEST... 13574 files

Limitations: There are some limitations to this tool. Most notably, it uses perl, so if the tree has been re-arranged in such a way that perl has an identity crisis and can't find itself, you'll be in trouble. Make sure that you have sourced shrc, as in the next example; if it still fails, you may need to reinstall the ACCEL kit.

$ cd /accel
$ mv jamesbond dr_evil
$ cd dr_evil
$ bin/relocate
Your $SPEC variable is not set correctly!
Top of SPEC benchmark tree is '/accel/dr_evil'
Can't locate strict.pm in @INC (@INC contains: /accel/jamesbond/bin 
    /accel/jamesbond/bin/lib .) at bin/relocate line 3.
BEGIN failed--compilation aborted at bin/relocate line 3.
$ . ./shrc
$ bin/relocate
Top of SPEC benchmark tree is '/accel/dr_evil'
$ runspec -h | head -3
runspec v1571 - Copyright 1999-2011 Standard Performance Evaluation Corporation
Using 'solaris10-sparc' tools
Reading MANIFEST... 13574 files
$  

Important: delete the old run and build directories. When setting up run directories, the tools read benchspec/ACCEL/nnn.benchmark/run/list to see what directories already exist. (A similar method is used for build directories.) If the list contains references to directories that are not underneath the current top, the intended behavior is that such directories should cause a warning, and should not be used. For example:

  Notice: Unusable path detected in run directory list file.
      /brian/liberator/accel/benchspec/ACCEL/350.md/run/list
  references one or more paths which will be ignored, because they are
  not subdirectories of this run directory.  This condition may be a
  result of having moved your SPEC benchmark tree.  If that's what happened,
  and if you don't need the old run directories, you can just remove
  them, along with the list file.  (Usually it's safe to delete old
  run directories, as they are automatically re-created when needed.)
  

Unfortunately, it is sometimes possible to confuse the tools when the list contains directories that are not underneath $SPEC. Although the above message is printed, the tools can actually end up using a mixture of old and new directory paths, and nothing good can come of such mixtures. To avoid the confusion, you should delete the old run directories right after the relocate. Old build directories should be deleted (perhaps after backing them up if you wish to save them for reference). For example:

  mkdir newdir
  mv $SPEC/* newdir
  cd newdir
  bin/relocate
  cd benchspec/ACCEL
  spectar cf - */build | specxz > ~/mybuilds.backup.tar.xz
  rm -Rf */run */build
  

specdiff

In order to decide whether your system got the correct answer for a benchmark, runspec writes a file called compare.cmd in the run directory, and then calls specinvoke, which calls specdiff. (The specinvoke utility is described below.)

Suppose that your results are flagged as incorrect, but you'd like to have more detail. You could ask for more than 10 lines of detail by changing the config file's default for difflines from 10 to something else, and re-running the experiment. But, you might save a lot of time and avoid the re-run of the experiment, by calling specdiff directly, with a different number of lines for its switch -l.

For example, a file chock-full of wrong answers for 124.hotspot has been created by hand. First, let's see how specdiff would normally be run (line wraps added for readability):

$ go hotspot run
$ cd run_base_ref_nvidia.0000/
$ specinvoke -c 1 -f compare.cmd -n
# Use another -n on the command line to see chdir commands
# Starting run for copy #0
specperl /export/accel/bin/specdiff -m -l 10 --abstol 0.025 --reltol 0.025 \
/export/accel/benchspec/ACCEL/124.hotspot/data/ref/output/output.out output.out > output.out.cmp

The above says that normally we test for correct answers by comparing the file $SPEC/benchspec/ACCEL/124.hotspot/data/ref/output/output.out versus the file output.out in the current directory. Normally, 10 lines of detail are printed. Let's change that to 15 lines, and compare versus our intentionally wrong file instead:

$ specdiff -m -l 15 --reltol 0.025 --abstol 0.025 \
    /export/accel/benchspec/ACCEL/124.hotspot/data/ref/output/output.out wrong.out 
0002:  1        322.03
       1        422.03
              ^
0005:  4        322.031
       4        522.031
               ^
0011:  10       322.033
       10       382.033
                ^
0019:  18       322.038
       18       922.038
                ^
0022:  21       322.039
       21       522.039
                ^
0027:  26       322.044
       2        322.044
       ^
0035:  34       322.052
       34       382.052
                ^
0039:  38       322.057
       38       362.057
                ^
0060:  59       322.084
       59       392.084
                ^
0077:  76       322.109
       76       722.109
                ^
0099:  98       322.144
       98       102.144
                ^
0135:  134      322.202
       634      322.202
         ^
0140:  139      322.209
       839      322.209
         ^
0141:  140      322.212
       840      322.212
         ^
0142:  141      322.213
       841      322.213
         ^
specdiff run completed
$  

Here are the switches supported by specdiff:

$ specdiff -h
Usage: /spec/accel/bin/specdiff <options> file1 [file2]
      -l,--lines         # of lines of differences to print (-1 for all)
      -q,--quiet         don't print lines just set return code
      -a,--abstol        absolute tolerance (for floating point compares)
      -r,--reltol        relative tolerance (for floating point compares)
      -o,--obiwan        allow off-by-one errors
      -O,--OBIWAN        *don't* allow off-by-one errors
      -s,--skiptol       # of differences to ignore
         --skipabstol    # of abstol differences to ignore
         --skipreltol    # of reltol differences to ignore
         --skipobiwan    # of off-by-one differences to ignore
      -t,--calctol       calculate required tolerances
      -H,--histogram     show a histogram of differences
      -f,--floatcompare  Do comparison for floating-point values even if no
                         tolerances are specified.  (Normally this is
                         automatic.)
      -m,--mis           write file2.mis with miscompares
      -c,--cw            collapse whitespace (probably doesn't do what you
                         think it does)
      -C,--CW            *don't* collapse whitespace
      -b,--binary        Do byte-wise comparison for binary outputs
      -i,--ignorecase    Ignore case for string comparisons
      -d,--datadir       Compare against file(s) in data directory
         --os            Set the operating system type (this is unnecessary)
      -v,--verbose       Set the level of noisiness for the output
      -h,--help          Print this message
$  

specinvoke

In order to run a benchmark, runspec writes a series of commands in the run directory, in the file speccmds.cmd. These commands are then interpreted by specinvoke.

When something goes wrong, it is often useful to try the commands by hand. Ask specinvoke what it did, by using the "-n" switch:

$ go hotspot run
/export/accel/benchspec/ACCEL/124.hotspot/run
$ cd run_base_ref_nvidia.0000
$ ls
compare.cmd     hotspot.err               output.out.cmp  speccmds.stdout
compare.err     hotspot.out               power_2048      temp_2048
compare.out     hotspot_exe_base.nvidia.  speccmds.cmd
compare.stdout  hotspot_kernel.cl         speccmds.err
control         output.out                speccmds.out
$ specinvoke -n
# specinvoke r6392
#  Invoked as: specinvoke -n
# timer ticks over every 1000 ns
# Use another -n on the command line to see chdir commands and env dump
# Starting run for copy #0
../run_base_ref_nvidia.310/hotspot_exe_base.nvidia --platform nvidia --device 0
   2048 2 60000 temp_2048 power_2048 output.out > hotspot.out 2>> hotspot.err
$  

In the above example, we see how 124.hotspot is invoked (line wraps added for readability). If you wanted to try out your own variations on the above command by hand, you could do so.

Here are the switches supported by specinvoke:

$ specinvoke -h
Usage: specinvoke [options] [instructionfile]
           -i <n>          iterations
           -c <n>          concurrent processes (overrides -C in command file)
                              Do not attempt to use this flag for rate runs.
           -E              return non-zero exit code if child does
           -s shell        shell to invoke
           -f file         instruction file
           -o file         output file
           -e file         error file
           -d dir          change to dir first
           -n[n]           print a 'dry_run' of commands
           -A              return 0 error code
           -S msecs        sleep between spawning copies (in milliseconds)
           -r              don't do I/O redirection ($command already has it)
           -N              open null device when no input file is specified
           -Z              use zero-length file when no input file is specified
           -C              (default) close stdin when no input file is specified
           -D <n>          Turn on debugging at level <n>
           -q              Stop issuing commands as soon as one fails (default)
           -k              Continue issuing commands even if one fails
           -h              this message

The -q and -k switches may be useful if specinvoke is being used separately as part of a benchmark development or debug effort (see runspec-avoidance.html.)

specinvoke -nn prints (but does not set) the environment

The output of specinvoke -nn is expanded. It now includes information about environment variables that were set by the tools prior to the invocation, which may come in very handy if you want to run a benchmark outside the SPEC harness, for example, during a debugging or tuning effort.

Consider the following example, where ACC_DEVICE_TYPE is set prior to doing a (fake) invocation of runspec:

   $ cd $SPEC/config
   $ export ACC_DEVICE_TYPE=NVIDIA
   $ cp Example-linux64-amd64-gcc43+.cfg jeff.cfg
   $ runspec --config=jeff --fake --loose --size=test 350.md > /dev/null
   $

   $ go 350.md run
   /home/jeff/accel/benchspec/ACCEL/350.md/run
   $ cd run_base_test_gcc43-64bit.0000/
   $ grep DEVICE speccmds.cmd
   -E ACC_DEVICE_TYPE NVIDIA
   $ 

   $ specinvoke -nn | grep DEVICE
   ACC_DEVICE_TYPE=NVIDIA
   export ACC_DEVICE_TYPE PATH REPLYTO SHELL SPEC SPECDB_PWD SPECPERLLIB SSH_ASKPASS
   $ 

In the example above, an environment variable is set to request the NVIDIA device, and the setting is recorded in speccmds.cmd. When specinvoke -nn is used, the setting is printed, along with an export command that would put the setting into the environment (along with various other variables that the tools noticed in the original environment).

It is important to understand that specinvoke does not actually set any environment variables for you. Consider this simplified test case:

   $ cat tmp.cmd
   -E MY_IMPORTANT_ENV_SETTING enabled
   echo "important setting: '$MY_IMPORTANT_ENV_SETTING'"
   $ specinvoke tmp.cmd
   important setting: ''
   $ 

In the example above, the echo command prints nothing for the environment variable, despite the presence of -E MY_IMPORTANT_ENV_SETTING enabled in the command file. So, one might ask, what good is the feature? Well, it's very useful, if you just redirect the output of specinvoke -nn to a file, as is commonly done:

   $ specinvoke -nn tmp.cmd > doit.sh
   $ sh doit.sh
   important setting: 'enabled'
   $  

specmake

To build a benchmark, runspec uses specmake, which is simply GNU make under a unique name to avoid possible conflicts with other versions of make on your system.

If a benchmark build fails, one of the most massively useful things you can do is to ask specmake what it did, by using the "-n" switch, which means "dry run".

For example, let's create a config file that is unlikely to work:

$ go config
$ cat > tmp.cfg
ext = silly
FC  = f66
$  

and try it out:

$ runspec --config=tmp --tuning=base --action=build swim
runspec v2174 - Copyright 1999-2012 Standard Performance Evaluation Corporation
Using 'linux-suse10-amd64' tools
Reading MANIFEST... 13950 files
Loading runspec modules................
Locating benchmarks...found 37 benchmarks in 12 benchsets.
Reading config file '/export/bmk/accel/33.2/config/tmp.cfg'
Running "specperl /export/bmk/accel/33.2/Docs/sysinfo" to gather system information.
Benchmarks selected: 363.swim
Compiling Binaries
  Building 363.swim base silly default: (build_base_silly.0000) [Tue Dec 24 09:08:27 2013]
Error with make 'specmake build': check file '/export/accel/benchspec/ACCEL/363.swim/build/build_base_silly.0000/make.err'
  Command returned exit code 2
  Error with make!
*** Error building 363.swim base
If you wish to ignore this error, please use '-I' or ignore errors.

The log for this run is in /export/accel/result/ACCEL.015.log
The debug log for this run is in /export/accel/result/ACCEL.015.log.debug

*
* Temporary files were NOT deleted; keeping temporaries such as
* /export/bmk/accel/33.2/result/ACCEL.015.log.debug
* (These may be large!)
*
runspec finished at Tue Dec 24 09:08:27 2013; 2 total seconds elapsed
$  

Sure enough, it failed. Let's find the appropriate run directory where our silly build was attempted:

$ go swim build
/export/accel/benchspec/ACCEL/363.swim/build
$ ls
build_base_silly.0000 list
$ cd build_base_silly.0000

And ask specmake just exactly what it generated:

$ specmake -n
f66 -c -o swim.o  swim.f
f66             swim.o                     -o swim

OK, let's enter the command by hand:

$ f66 -c -o swim.o  swim.f
-bash: f66: command not found
$  

A great convenience of the ACCEL suite is the fact that you can now proceed to play with all the files in this run directory, to prototype different changes and try out ideas, without fear that you will break anything. As long as you confine your edits to (in this example) $SPEC/benchspec/ACCEL/363.swim/build/build_base_silly.0000, you are in a private sandbox and will not harm the original sources.

Here are the switches supported by specmake:

$ specmake -h
Usage: specmake [options] [target] ...
Options:
  -b, -m                      Ignored for compatibility.
  -B, --always-make           Unconditionally make all targets.
  -C DIRECTORY, --directory=DIRECTORY
                              Change to DIRECTORY before doing anything.
  -d                          Print lots of debugging information.
  --debug[=FLAGS]             Print various types of debugging information.
  -e, --environment-overrides
                              Environment variables override makefiles.
  -f FILE, --file=FILE, --makefile=FILE
                              Read FILE as a makefile.
  -h, --help                  Print this message and exit.
  -i, --ignore-errors         Ignore errors from commands.
  -I DIRECTORY, --include-dir=DIRECTORY
                              Search DIRECTORY for included makefiles.
  -j [N], --jobs[=N]          Allow N jobs at once; infinite jobs with no arg.
  -k, --keep-going            Keep going when some targets can't be made.
  -l [N], --load-average[=N], --max-load[=N]
                              Don't start multiple jobs unless load is below N.
  -n, --just-print, --dry-run, --recon
                              Don't actually run any commands; just print them.
  -o FILE, --old-file=FILE, --assume-old=FILE
                              Consider FILE to be very old and don't remake it.
  -p, --print-data-base       Print make's internal database.
  -q, --question              Run no commands; exit status says if up to date.
  -r, --no-builtin-rules      Disable the built-in implicit rules.
  -R, --no-builtin-variables  Disable the built-in variable settings.
  -s, --silent, --quiet       Don't echo commands.
  -S, --no-keep-going, --stop
                              Turns off -k.
  -t, --touch                 Touch targets instead of remaking them.
  -v, --version               Print the version number of make and exit.
  -w, --print-directory       Print the current directory.
  --no-print-directory        Turn off -w, even if it was turned on implicitly.
  -W FILE, --what-if=FILE, --new-file=FILE, --assume-new=FILE
                              Consider FILE to be infinitely new.
  --warn-undefined-variables  Warn when an undefined variable is referenced.

This program built for powerpc-apple-darwin6.8
Report bugs to <[email protected]>

specrxp

To check XML flags files, runspec uses specrxp, which is simply RXP under a unique name to ensure no possible conflicts with other versions of rxp on your system. RXP is a validating XML parser. If your flags file passes RXP's tests, that doesn't mean that the flags file makes sense, but it's a start.

You don't have to know anything abour specrxp, as it is called automatically. But if you want to, you can call it directly, for example:

specrxp -V -s myflags.xml

The -V switch requests validation, and -s requests that all output be suppressed except error messages.

A manpage for rxp is available.

Once you have your flags file passing specrxp validation, you should do a flag_dump, and validate that the dump is valid HTML.

If specrxp seems to hang:

If specrxp seems to hang when you run it, it may because this line in your flags file requires internet access, but your system is behind a firewall:

   SYSTEM "http://www.spec.org/dtd/cpuflags2.dtd"

To resolve the problem, copy the flags file to a system that does have access; or define proxy environment variable(s) to allow internet access for programs on your system; or *temporarily* change the line to point to a local copy, like so:

   SYSTEM "file:///Arques/Site/Lab/carol/accel/Docs/flags/cpuflags2.dtd" <-- temporary only!

Warning: Be sure to change it back to the correct location prior to attempting to submit a result to SPEC, because SPEC probably does not have access to /Arques/Site/Lab/, and the submission handler will probably bounce your submission.

If you get unexpected errors from specrxp:

If you get unexpected messages such as:

   Warning: Start tag for undeclared element

check that you have correctly set the dtd version.

spectar

The utility spectar is simply GNU tar, built under a known set of circumstances at the same time as other tools in the SPEC toolset, and renamed to avoid conflicts with any other versions of the program on your path. GNU tar, unlike some other archiving programs, correctly handles very long path names.

specxz

The utility specxz is XZ Utils, built under a known set of circumstances at the same time as other tools in the SPEC toolset, and renamed to avoid conflicts with any other versions of the program on your path.

Commonly-used switches work analogously to those in other compression utilities, such as -d to decompress. For details, say specxz --help

Warning: this idiom, commonly used on Unix systems, has been observed to fail on some tested Windows systems:

specxz -dc mumble.tar.xz | spectar -xf -  <-- may fail on Windows

If you see failures, break it into two commands.

specxz -d mumble.tar.xz                   <-- an alternative
spectar -xf mumble.tar 

toolsver

If you have a rawfile, you can get information about the binary toolset and the versions of all of the system-independent tools files. To do so, use the toolsver utility.

For example, starting with a freshly-installed SPEC ACCEL directory tree:

% runspec --config=try_utilities --size=test --iterations=1 \
  --tuning=base --output_format=ps opencl > /dev/null
% cd $SPEC/result
% ls
ACCEL_OCL.001.test.ps  ACCEL_OCL.001.test.rsf ACCEL.001.log       lock.ACCEL

Note that we have just the single result file. Now, attempt to extract the version information:

% toolsver ACCEL_OCL.001.test.rsf
ACCEL_OCL.001.test.rsf:
 Binary toolset used was 'linux-suse10-amd64'
 Versions of Perl-based tools:
    2174 runspec
    1164 CPUFlagsParser.pm
    2193 benchmark.pm
    2174 benchset.pm
    2363 benchset_common.pl
    1843 compare.pl
    2174 config.pl
    1198 config_common.pl
    1164 flagutils.pl
    2174 flagutils_common.pl
    1164 format.pm
    1843 listfile.pm
    1395 locate.pl
    1164 log.pl
    1198 log_common.pl
    1198 monitor.pl
    1164 os.pl
    1164 os_common.pl
    1843 output_raw.pl
    2193 parse.pl
    1198 setup.pl
    2174 util.pl
    2174 util_common.pl
    2366 vars_common.pl

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