asimut - Online in the Cloud

PROGRAM:

NAME

asimut - A simulation tool for hardware descriptions

SYNOPSIS

asimut [options] [root_file] [pattern_file] [result_file]

DESCRIPTION

asimut is a logical simulation tool for hardware descriptions. It compiles and loads a
complete hardware description written in VHDL (Very high speed integrated circuits
Hardware Description Language). The hardware description may be structural (a hierarchy of
instances) or behavioural. Only a subset of VHDL is supported. Descriptions that do not
match this subset cause a syntax error during compilation. See vhdl(5) for detailed
information about the supported subset of VHDL.

Once a hardware description is loaded, asimut looks for a simulation pattern description
file. This file is to be written in pat format. The file is compiled, loaded and linked
with the hardware description. Then, the simulation is started. When patterns are
processed, a result file in pat format is produced.

If a save action has been requested in the pattern description file (see pat (5)), asimut
creates also a save file representing the state of the description at the end of the
simulation of the last pattern. The save file is named root_file.sav, where root_file is
the name of the description.

The save file can be used in a later simulation sequence to initialize the state of the
(same) hardware description before the simulation begins. Using this mechanism, a large
sequence of patterns can be breaked onto several small sequences, each one initializing
the hardware description with the save file resulted from the previous sequence.

asimut reads several parameters from the environment variables :

MBK_CATA_LIB list of directories containing description and pattern files (using
$PATH syntax). The default path is the current directory (see mbk(1)).

MBK_WORK_LIB specifies the current working directory. The working directory
idicates the place where all output files are written.

MBK_CATAL_NAME Indicates the file where the behavioral description files are listed.
This file is used to leaf cells of a structural description.(see
mbk(1))

MBK_IN_LO file extension for structural entity. (see mbk(1))

VH_BEHSFX list of file extensions for behavioural entities (using $PATH syntax).
The default file extension is vbe.

VH_PATSFX list of file extensions for pattern description entities (using $PATH
syntax). The default file extension is pat.

VH_DLYSFX list of file extensions for delays description entities (using $PATH
syntax). The default file extension is dly.

VH_MAXERR maximum number of errors allowed during simulation phase. If the
number of errors occured during simulation reaches VH_MAXERR, asimut
stops the simulation at the end of processing the current pattern.
Patterns following the current pattern remain unprocessed and are
reproduced in the result file. The default value of VH_MAXERR is 10.

root_file is the name of the description.

By default asimut looks for a structural description. It uses the MBK_IN_LO environment
variables to identify both the format and the extension of structural description files.
To load structural VHDL files MBK_IN_LO must be set to vst.

To load a pure behavioural description -b option must be specified. In such a case asimut
loads a data flow VHDL description file. The VH_BEHSFX environment variable gives the
extensions to be used.

pattern_file is the entity name of the pattern description. The file containing this
entity must be named pattern_file.ext , where ext is one of the extension specified in
VH_PATSFX.

result_file is the result file produced by asimut. The result file is a pattern
description file with the extension specified by VH_PATSFX.

OPTIONS

-b consider the root_file description as a behavioural description

-backdelay [min, max, typ] delay_file
use file delay_file.ext for delays backannotation, where ext is one of
the extension specified in VH_DLYSFX.

-bdd use BDDs (Binary Decision Diagram) to represent expressions. Using
this option makes the simulation be two times faster but increases
memory requirement

-c run only the compilation stage

-core core_file at the first error encountered, dump the state of the circuit in both
an ascii file (suffixed .cor) and a binary save file (suffixed .sav)
which can be used as initialization file in a further session. If the
-nores option is specified a pattern file is also produced.

-dbg[sbpldc] call the debugger (developper usage)

-defaultdelay (-dd) only null delays (no after clause in the VHDL file) are changed if
backannotated delays or fixed delays are specified.

-fixeddelay value (-fd value)
all delays of the description are fixed to value.

-h display this help file

-i value initialize all signals of the description with value. Value can be 0
or 1

-i save_file read a save file and use it to initialize the state of the description
before processing the first pattern (the file name cannot be 1 nor 0)

-inspect instance_name
produce a pattern file corresponding to the interface of the instance
identified by instance-name

-l n print at most n characters for pattern labels. The default value for n
is 15.

-nores do not generate result file

-p n load at most n patterns from input pattern file each time. Using this
feature reduces memory allocation when a great number of patterns are
to be simulated. In addition after the n patterns have been processed,
the simulation result is printed in the result pattern file. The
default value for n is 0 which makes the whole pattern file be loaded.

-t trace signals when making BDDs (developper usage).

-transport use transport delay model (default is inertial).

-zerodelay (-zd) all the delays of the VHDL description are supposed to be null delays.

EXAMPLE

asimut -b -i init_add adder_32 adder_patterns res_add

simulates a behavioural description held in the file named 'adder_32.vbe using the pattern
file `adder_patterns.pat'. The simulation results is written into 'res_add.pat' and the
description is initialized with the values contained in 'init_add.sav'.

DIAGNOSTICS

Register initializations in the pattern file allows changing the value of a register into
a known value. However, using this feature to initialize a register before executing the
first pattern is not recommended. Registers value (defined by the initialization
statement) may be overwritten since description has not a coherent state before the first
pattern.

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