CreditQualifyingClassMargin20.java
package org.drip.sample.simmcrq;
import java.util.HashMap;
import java.util.Map;
import org.drip.analytics.support.CaseInsensitiveHashMap;
import org.drip.numerical.common.FormatUtil;
import org.drip.service.env.EnvManager;
import org.drip.simm.foundation.MarginEstimationSettings;
import org.drip.simm.margin.RiskClassAggregateCR;
import org.drip.simm.margin.RiskMeasureAggregateCR;
import org.drip.simm.parameters.RiskClassSensitivitySettingsCR;
import org.drip.simm.product.BucketSensitivityCR;
import org.drip.simm.product.RiskClassSensitivityCR;
import org.drip.simm.product.RiskFactorTenorSensitivity;
import org.drip.simm.product.RiskMeasureSensitivityCR;
/*
* -*- mode: java; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*/
/*!
* Copyright (C) 2018 Lakshmi Krishnamurthy
*
* This file is part of DRIP, a free-software/open-source library for buy/side financial/trading model
* libraries targeting analysts and developers
* https://lakshmidrip.github.io/DRIP/
*
* DRIP is composed of four main libraries:
*
* - DRIP Fixed Income - https://lakshmidrip.github.io/DRIP-Fixed-Income/
* - DRIP Asset Allocation - https://lakshmidrip.github.io/DRIP-Asset-Allocation/
* - DRIP Numerical Optimizer - https://lakshmidrip.github.io/DRIP-Numerical-Optimizer/
* - DRIP Statistical Learning - https://lakshmidrip.github.io/DRIP-Statistical-Learning/
*
* - DRIP Fixed Income: Library for Instrument/Trading Conventions, Treasury Futures/Options,
* Funding/Forward/Overnight Curves, Multi-Curve Construction/Valuation, Collateral Valuation and XVA
* Metric Generation, Calibration and Hedge Attributions, Statistical Curve Construction, Bond RV
* Metrics, Stochastic Evolution and Option Pricing, Interest Rate Dynamics and Option Pricing, LMM
* Extensions/Calibrations/Greeks, Algorithmic Differentiation, and Asset Backed Models and Analytics.
*
* - DRIP Asset Allocation: Library for model libraries for MPT framework, Black Litterman Strategy
* Incorporator, Holdings Constraint, and Transaction Costs.
*
* - DRIP Numerical Optimizer: Library for Numerical Optimization and Spline Functionality.
*
* - DRIP Statistical Learning: Library for Statistical Evaluation and Machine Learning.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
*
* You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
*
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* CreditQualifyingClassMargin20 illustrates the Computation of the SIMM 2.0 CR Class Margin for a Bucket's
* Credit Exposure Sensitivities. The References are:
*
* - Andersen, L. B. G., M. Pykhtin, and A. Sokol (2017): Credit Exposure in the Presence of Initial Margin,
* https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2806156, eSSRN.
*
* - Albanese, C., S. Caenazzo, and O. Frankel (2017): Regression Sensitivities for Initial Margin
* Calculations, https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2763488, eSSRN.
*
* - Anfuso, F., D. Aziz, P. Giltinan, and K. Loukopoulus (2017): A Sound Modeling and Back-testing
* Framework for Forecasting Initial Margin Requirements,
* https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2716279, eSSRN.
*
* - Caspers, P., P. Giltinan, R. Lichters, and N. Nowaczyk (2017): Forecasting Initial Margin Requirements
* - A Model Evaluation https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2911167, eSSRN.
*
* - International Swaps and Derivatives Association (2017): SIMM v2.0 Methodology,
* https://www.isda.org/a/oFiDE/isda-simm-v2.pdf.
*
* @author Lakshmi Krishnamurthy
*/
public class CreditQualifyingClassMargin20
{
private static final void AddTenorSensitivity (
final Map<String, Double> tenorSensitivityMap,
final double notional,
final String tenor)
throws Exception
{
if (tenorSensitivityMap.containsKey (tenor))
{
tenorSensitivityMap.put (
tenor,
tenorSensitivityMap.get (tenor) + notional * (Math.random() - 0.5)
);
}
else
{
tenorSensitivityMap.put (
tenor,
notional * (Math.random() - 0.5)
);
}
}
private static final RiskFactorTenorSensitivity CurveTenorSensitivityMap (
final double notional)
throws Exception
{
Map<String, Double> tenorSensitivityMap = new HashMap<String, Double>();
AddTenorSensitivity (
tenorSensitivityMap,
notional,
"1Y"
);
AddTenorSensitivity (
tenorSensitivityMap,
notional,
"2Y"
);
AddTenorSensitivity (
tenorSensitivityMap,
notional,
"3Y"
);
AddTenorSensitivity (
tenorSensitivityMap,
notional,
"5Y"
);
AddTenorSensitivity (
tenorSensitivityMap,
notional,
"10Y"
);
return new RiskFactorTenorSensitivity (tenorSensitivityMap);
}
private static final void DisplayComponentTenorSensitivity (
final String componentName,
final RiskFactorTenorSensitivity tenorSensitivityMap)
throws Exception
{
System.out.println();
System.out.println ("\t|--------------||");
System.out.println ("\t| " + componentName + " VEGA ||");
System.out.println ("\t|--------------||");
System.out.println ("\t| ||");
System.out.println ("\t| L -> R: ||");
System.out.println ("\t| - Tenor ||");
System.out.println ("\t| - Delta ||");
System.out.println ("\t|--------------||");
for (Map.Entry<String, Double> tenorSensitivityEntry :
tenorSensitivityMap.sensitivityMap().entrySet())
{
System.out.println (
"\t| " +
tenorSensitivityEntry.getKey() + " => " +
FormatUtil.FormatDouble (tenorSensitivityEntry.getValue(), 2, 2, 1.) + " ||"
);
}
System.out.println ("\t|--------------||");
System.out.println();
}
private static final void ComponentRiskFactorTenorSensitivity (
final Map<String, RiskFactorTenorSensitivity> tenorSensitivityMap,
final double notional,
final String componentName)
throws Exception
{
RiskFactorTenorSensitivity ustRiskFactorSensitivity = CurveTenorSensitivityMap (notional);
tenorSensitivityMap.put (
componentName,
ustRiskFactorSensitivity
);
DisplayComponentTenorSensitivity (
componentName,
ustRiskFactorSensitivity
);
}
public static final void main (
final String[] argumentArray)
throws Exception
{
EnvManager.InitEnv ("");
double notional = 100.;
int[] bucketIndexArray = {
1,
2,
3,
4,
5,
6,
7,
8,
9,
10,
11,
12,
};
String[][] bucketComponentGrid = {
{"01a", "01b", "01c", "01d", "01e", "01f"},
{"02a", "02b", "02c", "02d", "02e", "02f"},
{"03a", "03b", "03c", "03d", "03e", "03f"},
{"04a", "04b", "04c", "04d", "04e", "04f"},
{"05a", "05b", "05c", "05d", "05e", "05f"},
{"06a", "06b", "06c", "06d", "06e", "06f"},
{"07a", "07b", "07c", "07d", "07e", "07f"},
{"08a", "08b", "08c", "08d", "08e", "08f"},
{"09a", "09b", "09c", "09d", "09e", "09f"},
{"10a", "10b", "10c", "10d", "10e", "10f"},
{"11a", "11b", "11c", "11d", "11e", "11f"},
{"12a", "12b", "12c", "12d", "12e", "12f"},
};
Map<String, BucketSensitivityCR> bucketDeltaSensitivityMap =
new HashMap<String, BucketSensitivityCR>();
Map<String, BucketSensitivityCR> bucketVegaSensitivityMap =
new HashMap<String, BucketSensitivityCR>();
for (int bucketIndex : bucketIndexArray)
{
Map<String, RiskFactorTenorSensitivity> tenorDeltaSensitivityMap = new
CaseInsensitiveHashMap<RiskFactorTenorSensitivity>();
Map<String, RiskFactorTenorSensitivity> tenorVegaSensitivityMap = new
CaseInsensitiveHashMap<RiskFactorTenorSensitivity>();
for (String componentName : bucketComponentGrid[bucketIndex - 1])
{
ComponentRiskFactorTenorSensitivity (
tenorDeltaSensitivityMap,
notional,
componentName
);
ComponentRiskFactorTenorSensitivity (
tenorVegaSensitivityMap,
notional,
componentName
);
}
bucketDeltaSensitivityMap.put (
"" + bucketIndex,
new BucketSensitivityCR (tenorDeltaSensitivityMap)
);
bucketVegaSensitivityMap.put (
"" + bucketIndex,
new BucketSensitivityCR (tenorVegaSensitivityMap)
);
}
RiskClassSensitivityCR riskClassSensitivity = new RiskClassSensitivityCR (
new RiskMeasureSensitivityCR (bucketDeltaSensitivityMap),
new RiskMeasureSensitivityCR (bucketVegaSensitivityMap),
new RiskMeasureSensitivityCR (bucketVegaSensitivityMap)
);
MarginEstimationSettings marginEstimationSettings = MarginEstimationSettings.CornishFischer
(MarginEstimationSettings.POSITION_PRINCIPAL_COMPONENT_COVARIANCE_ESTIMATOR_ISDA);
RiskClassSensitivitySettingsCR riskClassSensitivitySettings =
RiskClassSensitivitySettingsCR.ISDA_CRQ_20();
RiskClassAggregateCR riskClassAggregate = riskClassSensitivity.aggregate (
riskClassSensitivitySettings,
marginEstimationSettings
);
RiskMeasureAggregateCR deltaRiskMeasureAggregate = riskClassAggregate.deltaMargin();
RiskMeasureAggregateCR vegaRiskMeasureAggregate = riskClassAggregate.vegaMargin();
RiskMeasureAggregateCR curvatureRiskMeasureAggregate = riskClassAggregate.curvatureMargin();
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t| SBA BASED DELTA MARGIN ||");
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t| ||");
System.out.println ("\t| L -> R: ||");
System.out.println ("\t| ||");
System.out.println ("\t| - Core Delta SBA Margin ||");
System.out.println ("\t| - Residual Delta SBA Margin ||");
System.out.println ("\t| - SBA Delta Margin ||");
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t| DELTA MARGIN COMPONENTS => " +
FormatUtil.FormatDouble (Math.sqrt (deltaRiskMeasureAggregate.coreSBAVariance()), 5, 0, 1.) +
" | " +
FormatUtil.FormatDouble (Math.sqrt (deltaRiskMeasureAggregate.residualSBAVariance()), 5, 0, 1.) +
" | " +
FormatUtil.FormatDouble (deltaRiskMeasureAggregate.sba(), 5, 0, 1.) + " ||"
);
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t| SBA BASED VEGA MARGIN ||");
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t| ||");
System.out.println ("\t| L -> R: ||");
System.out.println ("\t| ||");
System.out.println ("\t| - Core Vega SBA Margin ||");
System.out.println ("\t| - Residual Vega SBA Margin ||");
System.out.println ("\t| - SBA Vega Margin ||");
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t| VEGA MARGIN COMPONENTS => " +
FormatUtil.FormatDouble (Math.sqrt (vegaRiskMeasureAggregate.coreSBAVariance()), 5, 0, 1.) +
" | " +
FormatUtil.FormatDouble (Math.sqrt (vegaRiskMeasureAggregate.residualSBAVariance()), 5, 0, 1.) +
" | " +
FormatUtil.FormatDouble (vegaRiskMeasureAggregate.sba(), 5, 0, 1.) + " ||"
);
System.out.println ("\t|-----------------------------------------------------||");
System.out.println ("\t|---------------------------------------------------------||");
System.out.println ("\t| SBA BASED CURVATURE MARGIN ||");
System.out.println ("\t|---------------------------------------------------------||");
System.out.println ("\t| ||");
System.out.println ("\t| L -> R: ||");
System.out.println ("\t| ||");
System.out.println ("\t| - Core Curvature SBA Margin ||");
System.out.println ("\t| - Residual Curvature SBA Margin ||");
System.out.println ("\t| - SBA Curvature Margin ||");
System.out.println ("\t|---------------------------------------------------------||");
System.out.println ("\t| CURVATURE MARGIN COMPONENTS => " +
FormatUtil.FormatDouble (Math.sqrt (curvatureRiskMeasureAggregate.coreSBAVariance()), 5, 0, 1.) +
" | " +
FormatUtil.FormatDouble (Math.sqrt (curvatureRiskMeasureAggregate.residualSBAVariance()), 5, 0, 1.) +
" | " +
FormatUtil.FormatDouble (curvatureRiskMeasureAggregate.sba(), 5, 0, 1.) + " ||"
);
System.out.println ("\t|---------------------------------------------------------||");
System.out.println();
System.out.println ("\t|------------------------||");
System.out.println (
"\t| TOTAL MARGIN => " +
FormatUtil.FormatDouble (riskClassAggregate.margin(), 5, 0, 1.) + " ||");
System.out.println ("\t|------------------------||");
EnvManager.TerminateEnv();
}
}