On Deep Learning for computing the Dynamic Initial Margin and Margin Value Adjustment

arXiv - QuantFin - Risk Management Pub Date : 2024-07-23 DOI:arxiv-2407.16435

Joel P. Villarino, Álvaro Leitao

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Abstract

The present work addresses the challenge of training neural networks for Dynamic Initial Margin (DIM) computation in counterparty credit risk, a task traditionally burdened by the high costs associated with generating training datasets through nested Monte Carlo (MC) simulations. By condensing the initial market state variables into an input vector, determined through an interest rate model and a parsimonious parameterization of the current interest rate term structure, we construct a training dataset where labels are noisy but unbiased DIM samples derived from single MC paths. A multi-output neural network structure is employed to handle DIM as a time-dependent function, facilitating training across a mesh of monitoring times. The methodology offers significant advantages: it reduces the dataset generation cost to a single MC execution and parameterizes the neural network by initial market state variables, obviating the need for repeated training. Experimental results demonstrate the approach's convergence properties and robustness across different interest rate models (Vasicek and Hull-White) and portfolio complexities, validating its general applicability and efficiency in more realistic scenarios.

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关于计算动态初始保证金和保证金价值调整的深度学习

本研究解决了在交易对手信用风险中为动态初始保证金（DIM）计算训练神经网络所面临的挑战，传统上，通过嵌套蒙特卡罗（MC）模拟生成训练数据集的成本很高，给这项任务带来了沉重负担。通过将初始市场状态变量浓缩为一个输入向量（由利率模型和当前利率决定结构的简约参数化决定），我们构建了一个训练数据集，其中的标签是由单个 MC 路径得出的有噪声但无偏见的 DIM 样本。我们采用了多输出神经网络结构，将 DIM 作为随时间变化的函数来处理，从而方便了跨监测时间网格的训练。该方法具有显著优势：它将数据集生成成本降至单次 MC 执行，并通过初始市场状态变量对神经网络进行参数化，从而避免了重复训练。实验结果证明了该方法在不同利率模型（Vasicek 和 Hull-White）和投资组合复杂性中的收敛性和稳健性，验证了其在现实场景中的普遍适用性和效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - QuantFin - Risk Management

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