QuantBench: Benchmarking AI Methods for Quantitative Investment

• URL: http://arxiv.org/abs/2504.18600v1
• Date: Thu, 24 Apr 2025 18:47:22 GMT
• Title: QuantBench: Benchmarking AI Methods for Quantitative Investment
• Authors: Saizhuo Wang, Hao Kong, Jiadong Guo, Fengrui Hua, Yiyan Qi, Wanyun Zhou, Jiahao Zheng, Xinyu Wang, Lionel M. Ni, Jian Guo,
• Abstract summary: The field of artificial intelligence in quantitative investment has seen significant advancements, yet it lacks a standardized benchmark aligned with industry practices.<n>We present QuantBench, an industrial-grade benchmark platform designed to address this critical need.<n> QuantBench offers three key strengths: (1) standardization that aligns with quantitative investment industry practices, (2) flexibility to integrate various AI algorithms, and (3) full-pipeline coverage of the entire quantitative investment process.
• Score: 14.679031329650508
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: The field of artificial intelligence (AI) in quantitative investment has seen significant advancements, yet it lacks a standardized benchmark aligned with industry practices. This gap hinders research progress and limits the practical application of academic innovations. We present QuantBench, an industrial-grade benchmark platform designed to address this critical need. QuantBench offers three key strengths: (1) standardization that aligns with quantitative investment industry practices, (2) flexibility to integrate various AI algorithms, and (3) full-pipeline coverage of the entire quantitative investment process. Our empirical studies using QuantBench reveal some critical research directions, including the need for continual learning to address distribution shifts, improved methods for modeling relational financial data, and more robust approaches to mitigate overfitting in low signal-to-noise environments. By providing a common ground for evaluation and fostering collaboration between researchers and practitioners, QuantBench aims to accelerate progress in AI for quantitative investment, similar to the impact of benchmark platforms in computer vision and natural language processing.

Related papers

• Bridging the Quantum Divide: Aligning Academic and Industry Goals in Software Engineering [7.856941186056147]
  This position paper examines the substantial divide between academia and industry within quantum software engineering.<n>This disconnect mainly arises due to academia's limited access to industry practices and the competitive nature of quantum development in commercial settings.<n>We propose collaborative efforts aimed at developing practical tools, methodologies, and best practices to bridge this divide.
  arXiv  Detail & Related papers  (2025-02-10T20:17:41Z)
• MR-Ben: A Meta-Reasoning Benchmark for Evaluating System-2 Thinking in LLMs [55.20845457594977]
  Large language models (LLMs) have shown increasing capability in problem-solving and decision-making. We present a process-based benchmark MR-Ben that demands a meta-reasoning skill. Our meta-reasoning paradigm is especially suited for system-2 slow thinking.
  arXiv  Detail & Related papers  (2024-06-20T03:50:23Z)
• A Data-to-Product Multimodal Conceptual Framework to Achieve Automated Software Evolution for Context-rich Intelligent Applications [0.0]
  This study proposes a conceptual framework for achieving automated software evolution. A Selective Sequential Scope Model (3S) model is developed based on the conceptual framework. Although the study is about intelligent applications, the framework and analysis methods may be adapted for other types of software as AI brings more intelligence into their life cycles.
  arXiv  Detail & Related papers  (2024-04-07T06:05:25Z)
• Quantum Computing Enhanced Service Ecosystem for Simulation in Manufacturing [56.61654656648898]
  We propose a framework for a quantum computing-enhanced service ecosystem for simulation in manufacturing. We analyse two high-value use cases with the aim of a quantitative evaluation of these new computing paradigms for industrially-relevant settings.
  arXiv  Detail & Related papers  (2024-01-19T11:04:14Z)
• Machine Learning Insides OptVerse AI Solver: Design Principles and Applications [74.67495900436728]
  We present a comprehensive study on the integration of machine learning (ML) techniques into Huawei Cloud's OptVerse AI solver. We showcase our methods for generating complex SAT and MILP instances utilizing generative models that mirror multifaceted structures of real-world problem. We detail the incorporation of state-of-the-art parameter tuning algorithms which markedly elevate solver performance.
  arXiv  Detail & Related papers  (2024-01-11T15:02:15Z)
• Multimodal Gen-AI for Fundamental Investment Research [2.559302299676632]
  This report outlines a transformative initiative in the financial investment industry, where the conventional decision-making process is being reimagined. We seek to evaluate the effectiveness of fine-tuning methods on a base model (Llama2) to achieve specific application-level goals. The project encompasses a diverse corpus dataset, including research reports, investment memos, market news, and extensive time-series market data.
  arXiv  Detail & Related papers  (2023-12-24T03:35:13Z)
• MQBench: Towards Reproducible and Deployable Model Quantization Benchmark [53.12623958951738]
  MQBench is a first attempt to evaluate, analyze, and benchmark the and deployability for model quantization algorithms. We choose multiple platforms for real-world deployments, including CPU, GPU, ASIC, DSP, and evaluate extensive state-of-the-art quantization algorithms. We conduct a comprehensive analysis and find considerable intuitive or counter-intuitive insights.
  arXiv  Detail & Related papers  (2021-11-05T23:38:44Z)
• MultiBench: Multiscale Benchmarks for Multimodal Representation Learning [87.23266008930045]
  MultiBench is a systematic and unified benchmark spanning 15 datasets, 10 modalities, 20 prediction tasks, and 6 research areas. It provides an automated end-to-end machine learning pipeline that simplifies and standardizes data loading, experimental setup, and model evaluation. It introduces impactful challenges for future research, including robustness to large-scale multimodal datasets and robustness to realistic imperfections.
  arXiv  Detail & Related papers  (2021-07-15T17:54:36Z)
• Qlib: An AI-oriented Quantitative Investment Platform [86.8580406876954]
  AI technologies have raised new challenges to the quantitative investment system. Qlib aims to realize the potential, empower the research, and create the value of AI technologies in quantitative investment.
  arXiv  Detail & Related papers  (2020-09-22T12:57:10Z)
• A Framework for Online Investment Algorithms [0.0]
  We present and report results for an integrated, and online framework for algorithmic portfolio management. This article provides a workflow that can in-turn be embedded into a process level learning framework. Our results confirm that we can use our framework in conjunction with resampling methods to outperform naive market capitalisation benchmarks.
  arXiv  Detail & Related papers  (2020-03-30T11:41:53Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.