Module net.finmath.lib
Class InterestRateMonteCarloProductFactory.SwaptionPhysicalMonteCarlo
- java.lang.Object
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- net.finmath.montecarlo.AbstractMonteCarloProduct
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- net.finmath.montecarlo.interestrate.products.AbstractLIBORMonteCarloProduct
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- net.finmath.modelling.productfactory.InterestRateMonteCarloProductFactory.SwaptionPhysicalMonteCarlo
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- All Implemented Interfaces:
DescribedProduct<InterestRateSwaptionProductDescriptor>,Product,TermStructureMonteCarloProduct,MonteCarloProduct
- Enclosing class:
- InterestRateMonteCarloProductFactory
public static class InterestRateMonteCarloProductFactory.SwaptionPhysicalMonteCarlo extends AbstractLIBORMonteCarloProduct implements DescribedProduct<InterestRateSwaptionProductDescriptor>
Monte-Carlo method based implementation of a physically settled interest rate swaption from a product descriptor.- Author:
- Christian Fries, Roland Bachl
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Constructor Summary
Constructors Constructor Description SwaptionPhysicalMonteCarlo(InterestRateSwaptionProductDescriptor descriptor, LocalDate referenceDate)Create product from descriptor.
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description InterestRateSwaptionProductDescriptorgetDescriptor()Return a product descriptor representing this product.RandomVariablegetValue(double evaluationTime, LIBORModelMonteCarloSimulationModel model)This method returns the value random variable of the product within the specified model, evaluated at a given evalutationTime.-
Methods inherited from class net.finmath.montecarlo.interestrate.products.AbstractLIBORMonteCarloProduct
getFactorDrift, getValue, getValueForModifiedData, getValues
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Methods inherited from class net.finmath.montecarlo.AbstractMonteCarloProduct
getCurrency, getValue, getValue, getValues, getValues, getValues, getValuesForModifiedData, getValuesForModifiedData, getValuesForModifiedData, getValuesForModifiedData, toString
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Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait
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Methods inherited from interface net.finmath.montecarlo.MonteCarloProduct
getCurrency, getValue, getValue, getValues, getValues, getValues, getValuesForModifiedData, getValuesForModifiedData, getValuesForModifiedData, getValuesForModifiedData
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Constructor Detail
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SwaptionPhysicalMonteCarlo
public SwaptionPhysicalMonteCarlo(InterestRateSwaptionProductDescriptor descriptor, LocalDate referenceDate)
Create product from descriptor.- Parameters:
descriptor- The descriptor of the product.referenceDate- The reference date of the data for the valuation, used to convert absolute date to relative dates in double representation.
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Method Detail
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getDescriptor
public InterestRateSwaptionProductDescriptor getDescriptor()
Description copied from interface:DescribedProductReturn a product descriptor representing this product.- Specified by:
getDescriptorin interfaceDescribedProduct<InterestRateSwaptionProductDescriptor>- Returns:
- The product descriptor of this product.
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getValue
public RandomVariable getValue(double evaluationTime, LIBORModelMonteCarloSimulationModel model) throws CalculationException
Description copied from interface:TermStructureMonteCarloProductThis method returns the value random variable of the product within the specified model, evaluated at a given evalutationTime. Note: For a lattice this is often the value conditional to evalutationTime, for a Monte-Carlo simulation this is the (sum of) value discounted to evaluation time. Cashflows prior evaluationTime are not considered.- Specified by:
getValuein interfaceTermStructureMonteCarloProduct- Specified by:
getValuein classAbstractLIBORMonteCarloProduct- Parameters:
evaluationTime- The time on which this products value should be observed.model- The model used to price the product.- Returns:
- The random variable representing the value of the product discounted to evaluation time
- Throws:
CalculationException- Thrown if the valuation fails, specific cause may be available via thecause()method.
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