Check that absolute value of difference between successive samples of discrete signal is less than upper bound
The Check Discrete Gradient block checks each signal element at its input to determine whether the absolute value of the difference between successive samples of the element is less than an upper bound. Use the block parameter dialog box to specify the value of the upper bound (1 by default). If the verification condition is true, the block does nothing. Otherwise, the block halts the simulation, by default, and displays an error in the Diagnostic Viewer.
The Model Verification block enabling setting in the Configuration Parameters dialog box lets you enable or disable all model verification blocks, including Check Discrete Gradient blocks, in a model.
The Check Discrete Gradient block and its companion blocks in the Model Verification library are intended to facilitate creation of self-validating models. For example, you can use model verification blocks to test that signals do not exceed specified limits during simulation. When you are satisfied that a model is correct, you can turn error checking off by disabling the verification blocks. You do not have to physically remove them from the model. If you need to modify a model, you can temporarily turn the verification blocks back on to ensure that your changes do not break the model.
For information about how Simulink® Coder™ generated code handles Model Verification blocks, see Debug (Simulink Coder).
The Check Discrete Gradient block accepts
int32 input signals of any dimensions. This
block also supports fixed-point data types.
For more information, see Data Types Supported by Simulink in the Simulink documentation.
Specify the upper bound on the gradient of the discrete input signal.
Clearing this check box disables the Check Discrete Gradient block, that is, causes the model to behave as if the block did not exist. The Model Verification block enabling setting in the Configuration Parameters dialog box allows you to enable or disable all model verification blocks in a model, including Check Discrete Gradient blocks, regardless of the setting of this option.
Specify a MATLAB® expression to evaluate when the assertion fails. Because the expression is evaluated in the MATLAB workspace, define all variables used in the expression in that workspace.
Selecting this check box causes the Check Discrete Gradient block to halt the simulation when the block's output is zero and the Simulink software displays an error. Otherwise, the Simulink software displays a warning and continues the simulation.
Selecting this check box causes the Check Discrete Gradient block to output a Boolean signal
that is true (
1) at each time step if the assertion
succeeds and false (
0) if the assertion fails. The data
type of the output signal is
Boolean if you have selected
the Implement logic signals as Boolean data check box
on the Configuration Parameters dialog box. Otherwise the data type of the
output signal is
Specify the type of icon used to display this block in a block
graphic option displays a graphical representation
of the assertion condition on the icon. The
displays a mathematical expression that represents the assertion condition.
If the icon is too small to display the expression, the text icon
displays an exclamation point. To see the expression, enlarge the
Double | Single | Base Integer | Fixed-Point
Inherited from driving block