public virtual void test_recovery_black_fixedRho() { SabrIborCapletFloorletVolatilityBootstrapDefinition definition = SabrIborCapletFloorletVolatilityBootstrapDefinition.ofFixedRho(IborCapletFloorletVolatilitiesName.of("test"), USD_LIBOR_3M, ACT_ACT_ISDA, 0.0, CurveInterpolators.STEP_UPPER, CurveExtrapolators.FLAT, CurveExtrapolators.FLAT, SabrHaganVolatilityFunctionProvider.DEFAULT); DoubleMatrix volData = createFullBlackDataMatrix(); double errorValue = 1.0e-3; DoubleMatrix error = DoubleMatrix.filled(volData.rowCount(), volData.columnCount(), errorValue); RawOptionData data = RawOptionData.of(createBlackMaturities(), createBlackStrikes(), ValueType.STRIKE, volData, error, ValueType.BLACK_VOLATILITY); IborCapletFloorletVolatilityCalibrationResult res = CALIBRATOR.calibrate(definition, CALIBRATION_TIME, data, RATES_PROVIDER); SabrParametersIborCapletFloorletVolatilities resVols = (SabrParametersIborCapletFloorletVolatilities)res.Volatilities; double expSq = 0d; for (int i = 0; i < NUM_BLACK_STRIKES; ++i) { Pair <IList <ResolvedIborCapFloorLeg>, IList <double> > capsAndVols = getCapsBlackVols(i); IList <ResolvedIborCapFloorLeg> caps = capsAndVols.First; IList <double> vols = capsAndVols.Second; int nCaps = caps.Count; for (int j = 0; j < nCaps; ++j) { ConstantSurface volSurface = ConstantSurface.of(Surfaces.blackVolatilityByExpiryStrike("test", ACT_ACT_ISDA), vols[j]); BlackIborCapletFloorletExpiryStrikeVolatilities constVol = BlackIborCapletFloorletExpiryStrikeVolatilities.of(USD_LIBOR_3M, CALIBRATION_TIME, volSurface); double priceOrg = LEG_PRICER_BLACK.presentValue(caps[j], RATES_PROVIDER, constVol).Amount; double priceCalib = LEG_PRICER_SABR.presentValue(caps[j], RATES_PROVIDER, resVols).Amount; expSq += Math.Pow((priceOrg - priceCalib) / priceOrg / errorValue, 2); assertEquals(priceOrg, priceCalib, Math.Max(priceOrg, 1d) * TOL * 3d); } } assertEquals(res.ChiSquare, expSq, expSq * 1.0e-14); assertEquals(resVols.Index, USD_LIBOR_3M); assertEquals(resVols.Name, definition.Name); assertEquals(resVols.ValuationDateTime, CALIBRATION_TIME); assertEquals(resVols.Parameters.ShiftCurve, definition.ShiftCurve); assertEquals(resVols.Parameters.RhoCurve, definition.RhoCurve.get()); }
public virtual void test_recovery_normal_fixedRho() { SabrIborCapletFloorletVolatilityBootstrapDefinition definition = SabrIborCapletFloorletVolatilityBootstrapDefinition.ofFixedRho(IborCapletFloorletVolatilitiesName.of("test"), USD_LIBOR_3M, ACT_ACT_ISDA, 0.0, CurveInterpolators.LINEAR, CurveExtrapolators.FLAT, CurveExtrapolators.FLAT, SabrHaganVolatilityFunctionProvider.DEFAULT); RawOptionData data = RawOptionData.of(createNormalEquivMaturities(), createNormalEquivStrikes(), ValueType.STRIKE, createFullNormalEquivDataMatrix(), ValueType.NORMAL_VOLATILITY); IborCapletFloorletVolatilityCalibrationResult res = CALIBRATOR.calibrate(definition, CALIBRATION_TIME, data, RATES_PROVIDER); SabrParametersIborCapletFloorletVolatilities resVols = (SabrParametersIborCapletFloorletVolatilities)res.Volatilities; for (int i = 1; i < NUM_BLACK_STRIKES; ++i) { Pair <IList <ResolvedIborCapFloorLeg>, IList <double> > capsAndVols = getCapsNormalEquivVols(i); IList <ResolvedIborCapFloorLeg> caps = capsAndVols.First; IList <double> vols = capsAndVols.Second; int nCaps = caps.Count; for (int j = 0; j < nCaps; ++j) { ConstantSurface volSurface = ConstantSurface.of(Surfaces.normalVolatilityByExpiryStrike("test", ACT_ACT_ISDA), vols[j]); NormalIborCapletFloorletExpiryStrikeVolatilities constVol = NormalIborCapletFloorletExpiryStrikeVolatilities.of(USD_LIBOR_3M, CALIBRATION_TIME, volSurface); double priceOrg = LEG_PRICER_NORMAL.presentValue(caps[j], RATES_PROVIDER, constVol).Amount; double priceCalib = LEG_PRICER_SABR.presentValue(caps[j], RATES_PROVIDER, resVols).Amount; assertEquals(priceOrg, priceCalib, Math.Max(priceOrg, 1d) * TOL * 3d); } } assertTrue(res.ChiSquare > 0d); assertEquals(resVols.Index, USD_LIBOR_3M); assertEquals(resVols.Name, definition.Name); assertEquals(resVols.ValuationDateTime, CALIBRATION_TIME); }
public virtual void recovery_test_black_fixedRho() { double rho = 0.15; SabrIborCapletFloorletVolatilityCalibrationDefinition definition = SabrIborCapletFloorletVolatilityCalibrationDefinition.ofFixedRho(NAME, USD_LIBOR_3M, ACT_ACT_ISDA, rho, ALPHA_KNOTS, BETA_RHO_KNOTS, NU_KNOTS, DOUBLE_QUADRATIC, FLAT, FLAT, HAGAN); ImmutableList <Period> maturities = createBlackMaturities(); DoubleArray strikes = createBlackStrikes(); DoubleMatrix volData = createFullBlackDataMatrix(); DoubleMatrix error = DoubleMatrix.filled(volData.rowCount(), volData.columnCount(), 1.0e-3); RawOptionData data = RawOptionData.of(maturities, strikes, ValueType.STRIKE, volData, error, ValueType.BLACK_VOLATILITY); IborCapletFloorletVolatilityCalibrationResult res = CALIBRATOR.calibrate(definition, CALIBRATION_TIME, data, RATES_PROVIDER); SabrParametersIborCapletFloorletVolatilities resVols = (SabrParametersIborCapletFloorletVolatilities)res.Volatilities; for (int i = 0; i < NUM_BLACK_STRIKES; ++i) { Pair <IList <ResolvedIborCapFloorLeg>, IList <double> > capsAndVols = getCapsBlackVols(i); IList <ResolvedIborCapFloorLeg> caps = capsAndVols.First; IList <double> vols = capsAndVols.Second; int nCaps = caps.Count; for (int j = 0; j < nCaps; ++j) { ConstantSurface volSurface = ConstantSurface.of(Surfaces.blackVolatilityByExpiryStrike("test", ACT_ACT_ISDA), vols[j]); BlackIborCapletFloorletExpiryStrikeVolatilities constVol = BlackIborCapletFloorletExpiryStrikeVolatilities.of(USD_LIBOR_3M, CALIBRATION_TIME, volSurface); double priceOrg = LEG_PRICER_BLACK.presentValue(caps[j], RATES_PROVIDER, constVol).Amount; double priceCalib = LEG_PRICER_SABR.presentValue(caps[j], RATES_PROVIDER, resVols).Amount; assertEquals(priceOrg, priceCalib, Math.Max(priceOrg, 1d) * TOL * 5d); } } assertEquals(resVols.Index, USD_LIBOR_3M); assertEquals(resVols.Name, definition.Name); assertEquals(resVols.ValuationDateTime, CALIBRATION_TIME); assertEquals(resVols.ParameterCount, ALPHA_KNOTS.size() + BETA_RHO_KNOTS.size() + NU_KNOTS.size() + 2); // beta, shift counted assertEquals(resVols.Parameters.ShiftCurve, definition.ShiftCurve); assertEquals(resVols.Parameters.RhoCurve, definition.RhoCurve.get()); }
public virtual void recovery_test_normal_shift_fixedRho() { double shift = 0.02; DoubleArray initial = DoubleArray.of(0.05, 0.35, 0.0, 0.9); SabrIborCapletFloorletVolatilityCalibrationDefinition definition = SabrIborCapletFloorletVolatilityCalibrationDefinition.ofFixedRho(NAME, USD_LIBOR_3M, ACT_ACT_ISDA, shift, ALPHA_KNOTS, BETA_RHO_KNOTS, NU_KNOTS, initial, DOUBLE_QUADRATIC, FLAT, FLAT, HAGAN); ImmutableList <Period> maturities = createNormalEquivMaturities(); DoubleArray strikes = createNormalEquivStrikes(); DoubleMatrix volData = createFullNormalEquivDataMatrix(); DoubleMatrix error = DoubleMatrix.filled(volData.rowCount(), volData.columnCount(), 1.0e-3); RawOptionData data = RawOptionData.of(maturities, strikes, ValueType.STRIKE, volData, error, ValueType.NORMAL_VOLATILITY); IborCapletFloorletVolatilityCalibrationResult res = CALIBRATOR.calibrate(definition, CALIBRATION_TIME, data, RATES_PROVIDER); SabrIborCapletFloorletVolatilities resVols = (SabrIborCapletFloorletVolatilities)res.Volatilities; for (int i = 0; i < strikes.size(); ++i) { Pair <IList <ResolvedIborCapFloorLeg>, IList <double> > capsAndVols = getCapsNormalEquivVols(i); IList <ResolvedIborCapFloorLeg> caps = capsAndVols.First; IList <double> vols = capsAndVols.Second; int nCaps = caps.Count; for (int j = 0; j < nCaps; ++j) { ConstantSurface volSurface = ConstantSurface.of(Surfaces.normalVolatilityByExpiryStrike("test", ACT_ACT_ISDA), vols[j]); NormalIborCapletFloorletExpiryStrikeVolatilities constVol = NormalIborCapletFloorletExpiryStrikeVolatilities.of(USD_LIBOR_3M, CALIBRATION_TIME, volSurface); double priceOrg = LEG_PRICER_NORMAL.presentValue(caps[j], RATES_PROVIDER, constVol).Amount; double priceCalib = LEG_PRICER_SABR.presentValue(caps[j], RATES_PROVIDER, resVols).Amount; assertEquals(priceOrg, priceCalib, Math.Max(priceOrg, 1d) * TOL * 5d); } } }
public virtual void recovery_test_flat() { DoubleArray initial = DoubleArray.of(0.4, 0.95, 0.5, 0.05); SabrIborCapletFloorletVolatilityCalibrationDefinition definition = SabrIborCapletFloorletVolatilityCalibrationDefinition.ofFixedBeta(NAME, USD_LIBOR_3M, ACT_ACT_ISDA, ALPHA_KNOTS, BETA_RHO_KNOTS, NU_KNOTS, initial, LINEAR, FLAT, FLAT, HAGAN); DoubleArray strikes = createBlackStrikes(); RawOptionData data = RawOptionData.of(createBlackMaturities(), strikes, ValueType.STRIKE, createFullFlatBlackDataMatrix(), ValueType.BLACK_VOLATILITY); IborCapletFloorletVolatilityCalibrationResult res = CALIBRATOR.calibrate(definition, CALIBRATION_TIME, data, RATES_PROVIDER); SabrIborCapletFloorletVolatilities resVol = (SabrIborCapletFloorletVolatilities)res.Volatilities; for (int i = 0; i < NUM_BLACK_STRIKES; ++i) { Pair <IList <ResolvedIborCapFloorLeg>, IList <double> > capsAndVols = getCapsFlatBlackVols(i); IList <ResolvedIborCapFloorLeg> caps = capsAndVols.First; IList <double> vols = capsAndVols.Second; int nCaps = caps.Count; for (int j = 0; j < nCaps; ++j) { ConstantSurface volSurface = ConstantSurface.of(Surfaces.blackVolatilityByExpiryStrike("test", ACT_ACT_ISDA), vols[j]); BlackIborCapletFloorletExpiryStrikeVolatilities constVol = BlackIborCapletFloorletExpiryStrikeVolatilities.of(USD_LIBOR_3M, CALIBRATION_TIME, volSurface); double priceOrg = LEG_PRICER_BLACK.presentValue(caps[j], RATES_PROVIDER, constVol).Amount; double priceCalib = LEG_PRICER_SABR.presentValue(caps[j], RATES_PROVIDER, resVol).Amount; assertEquals(priceOrg, priceCalib, Math.Max(priceOrg, 1d) * TOL); } } }
public virtual void test_recovery_flatVol() { double beta = 0.8; SabrIborCapletFloorletVolatilityBootstrapDefinition definition = SabrIborCapletFloorletVolatilityBootstrapDefinition.ofFixedBeta(IborCapletFloorletVolatilitiesName.of("test"), USD_LIBOR_3M, ACT_ACT_ISDA, beta, CurveInterpolators.STEP_UPPER, CurveExtrapolators.FLAT, CurveExtrapolators.FLAT, SabrHaganVolatilityFunctionProvider.DEFAULT); RawOptionData data = RawOptionData.of(createBlackMaturities(), createBlackStrikes(), ValueType.STRIKE, createFullFlatBlackDataMatrix(), ValueType.BLACK_VOLATILITY); IborCapletFloorletVolatilityCalibrationResult res = CALIBRATOR.calibrate(definition, CALIBRATION_TIME, data, RATES_PROVIDER); SabrParametersIborCapletFloorletVolatilities resVols = (SabrParametersIborCapletFloorletVolatilities)res.Volatilities; for (int i = 0; i < NUM_BLACK_STRIKES; ++i) { Pair <IList <ResolvedIborCapFloorLeg>, IList <double> > capsAndVols = getCapsFlatBlackVols(i); IList <ResolvedIborCapFloorLeg> caps = capsAndVols.First; IList <double> vols = capsAndVols.Second; int nCaps = caps.Count; for (int j = 0; j < nCaps; ++j) { ConstantSurface volSurface = ConstantSurface.of(Surfaces.blackVolatilityByExpiryStrike("test", ACT_ACT_ISDA), vols[j]); BlackIborCapletFloorletExpiryStrikeVolatilities constVol = BlackIborCapletFloorletExpiryStrikeVolatilities.of(USD_LIBOR_3M, CALIBRATION_TIME, volSurface); double priceOrg = LEG_PRICER_BLACK.presentValue(caps[j], RATES_PROVIDER, constVol).Amount; double priceCalib = LEG_PRICER_SABR.presentValue(caps[j], RATES_PROVIDER, resVols).Amount; assertEquals(priceOrg, priceCalib, Math.Max(priceOrg, 1d) * TOL); } } }