bionic (5) ctl.5.gz

Provided by: alliance_5.1.1-1.1build1_amd64 bug

NAME

       ctl - Control Temporal Logic file format.

DESCRIPTION

       This  document  describes the CTL file format used by moka(1) for model checking of finite states machine
       description.

       This CTL file format subset is defined to enable classical CTL formulae description.
       A CTL file is made of two parts: a declaration part and a formulae statement part.

       The declaration part described types, constants, macros and all variables used in CTL formulae.  It  also
       describes  assumption  conditions  and  initial  conditions that have to be applied by moka(1) during the
       model checking.

       The formulae statement part described all the CTL formulae that have to be verified.

       All boolean and relational VHDL operators are supported (see vbe(5)) and also the 8 CTL operators AF, AG,
       AX,  AU,  EF,  EG,  EX  and  EU. The CTL file format support also the imply boolean operator '->' and the
       equivalence operator '<=>'.

EXAMPLE

       --  user type definition

          TYPE A_ETAT_TYPE IS (A_E0, A_E1);
          TYPE B_ETAT_TYPE IS (B_E0, B_E1);

       --  variables definition

          VARIABLE A_NS, A_CS : A_ETAT_TYPE;
          VARIABLE B_NS, B_CS : B_ETAT_TYPE;

          VARIABLE    ck       : BIT;
          VARIABLE    data_in  : BIT;
          VARIABLE    data_out : BIT;
          VARIABLE    reset    : BIT;
          VARIABLE    ack      : BIT;
          VARIABLE    req      : BIT;

       -- example of a macros definition

          DEFINE      def1     : BOOLEAN := ack='1';

       -- the assigned value can be a constant

          DEFINE      c1       : BIT  := '1';

       -- the assumption condition

          ASSUME   ass1  := (reset='0');

       -- the initial reset condition
       -- be careful, the assumption condition is not applied
       -- to the initial conditions.

          RESET_COND init1 := (reset='1');

       -- It is also possible to describe the first state
       -- with the INITIAL keywork, as follows:
       --
       -- INITIAL init1 := ((A_CS=A_E0) AND (B_CS=B_E0));
       --

       -- formulae description statement part

       begin

          prop1 : EX( ack='1' );
          prop2 : AG( req -> AF( ack ) );
          prop4 : AU( req='1', ack='1');

       end;

SEE ALSO

       moka(1)