0

I am using Dymola, but I am not sure about the difference between check a model and translate a model. So I did a test.

Here is the code of the connector and the model file

connector Port
  flow Real Q;
  Real P;
  Real T;
end Port;
model Inlet
  parameter Real Q = 1;
  parameter Real P = 2;
  parameter Real T = 3;
  Port a;
equation 
  a.Q = Q;
  a.P = P;
  a.T = T;
end Inlet;

If I check the model, Dymola would generate a .mof file:

model lab.Inlet
parameter Real Q = 1;
parameter Real P = 2;
parameter Real T = 3;

Real a.Q;
Real a.P;
Real a.T;

// Equations and algorithms

  // Component 
  // class lab.Inlet
  equation
    a.Q = Q;
    a.P = P;
    a.T = T;

end lab.Inlet;

If I translate the model, the .mof file is like the following:

model lab.Inlet
parameter Real Q = 1;
parameter Real P = 2;
parameter Real T = 3;

Real a.Q;
Real a.P;
Real a.T;

// Equations and algorithms

  // Component 
  // class lab.Inlet
  equation
    a.Q = Q;
    a.P = P;
    a.T = T;
    a.Q = 0.0;

end lab.Inlet;

I could see that in the .mof file generated by translation there is one more line: a.Q = 0.0;.

So, my question is what is the detailed difference between check and translation? Is there a detailed document for this topic?

2

Checking a model should just create a small intermediate model that can be checked for logical errors (#eqs == #unknowns, etc.) but is not used for symbolic manipulations afterwards.

Instantiating a model should create a flat model that can be used for symbolic manipulations.

Translating a model should first run instantiation and afterwards perform symbolic manipulations (BLT, etc.) and actually create simulation code.

OpenModelica kind of does it this way, i can't for sure tell what dymola does, but i guess this gives you an idea. I don't know if there is any further documented explanation for this.

2

Adding to the other answer.

TL:DR;

  • Check normally assumes the model will be a sub-component of a larger model.
  • Translates is intended for running the model, i.e. the model should be complete in itself.

Longer version:

For "Check" the component is normally checked assuming a generic connection to the connector a (in general generic connections to all connectors). That connection will add one equation, and thus there will be one equation too many in this model - but we don't know exactly which one. There are also some additional checks for instantiation, but normally missing modifiers (parameter values and redeclarations of partial models) is seen as a non-issue - since it is not a complete model.

For "Translate" it is assumed that you are translating a complete model, and non-causal connectors such as a will be default-connected, i.e. flows set to zero - which gives the specific error message you see. (And public top-level inputs would be read from dsu.txt.) Additionally the model is translated to C-code, which requires a bit more.

Normally "Check" stops before "Translate" by e.g., not solving systems of equations as indicated in the other answer.

However, in recent versions of Dymola if the model has "experiment" annotation a "Check" will also check that (it is assumed you are checking a complete model) - ignoring the normally above.

Recent versions of Dymola will also report issues for the connector Port:

The connector is not balanced, it has 1 flow variables and 2 non-causal non-flow variables (including possible over-determined ones).

For "Check" that will be a problem for some models, as Dymola has to add 1 or 2 equations per Port-connector.

  • For the "ignoring the normally above": there are actually three normally in the paragraphs before that. I assume it relates to the one right before it? – Markus A. Jan 20 at 9:06
  • @MarkusA I'll have to verify but it should be all of them. – Hans Olsson Jan 23 at 15:01

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.