Name | Description |
---|---|
RegNonZeroPower | |
RegNonZeroPowerDerivative_2_Check | |
RegNonZeroPowerDerivativeCheck | |
SpliceFunction | |
SpliceFunctionDerivativeCheck |
model RegNonZeroPower Real y "Function value"; equation y=Buildings.Utilities.Math.regNonZeroPower(time, 0.3, 0.5); end RegNonZeroPower;
This example checks whether the function derivative is implemented correctly. If the derivative implementation is not correct, the model will stop with an assert statement.
Type | Name | Default | Description |
---|---|---|---|
Real | n | 0.33 | Exponent |
Real | delta | 0.1 | Abscissa value where transition occurs |
model RegNonZeroPowerDerivative_2_Check parameter Real n=0.33 "Exponent"; parameter Real delta = 0.1 "Abscissa value where transition occurs"; Real x; Real y; initial equation y=x; equation x=Buildings.Utilities.Math.BaseClasses.der_regNonZeroPower(time,n, delta, time); der(y)=der(x); assert(abs(x-y) < 1E-2, "Model has an error"); end RegNonZeroPowerDerivative_2_Check;
This example checks whether the function derivative is implemented correctly. If the derivative implementation is not correct, the model will stop with an assert statement.
Type | Name | Default | Description |
---|---|---|---|
Real | n | 0.33 | Exponent |
Real | delta | 0.1 | Abscissa value where transition occurs |
model RegNonZeroPowerDerivativeCheck parameter Real n=0.33 "Exponent"; parameter Real delta = 0.1 "Abscissa value where transition occurs"; Real x; Real y; initial equation y=x; equation x=Buildings.Utilities.Math.regNonZeroPower(time,n, delta); der(y)=der(x); assert(abs(x-y) < 1E-2, "Model has an error"); end RegNonZeroPowerDerivativeCheck;
model SpliceFunction Real y "Function value"; equation y=Buildings.Utilities.Math.spliceFunction(10, -10, time+0.1, 0.2); end SpliceFunction;
This example checks whether the function derivative is implemented correctly. If the derivative implementation is not correct, the model will stop with an assert statement.
model SpliceFunctionDerivativeCheck Real x; Real y; initial equation y=x; equation x=Buildings.Utilities.Math.spliceFunction(10, -10, time+0.1, 0.2); der(y)=der(x); assert(abs(x-y) < 1E-2, "Model has an error"); end SpliceFunctionDerivativeCheck;