Cloud-Based Approach on Genetic Data Imputation Parameters Optimization

Author(s): Pavlo Horun, Christine Strauss
Abstract: The imputation process for genetic data is cost and time-intensive, primarily due to the high complexity of the methods involved, and the substantial volume of data processed. A thorough performance evaluation of the imputation algorithms such as Beagle, AlphaPlantImpute, LinkImputeR, MACH and others shows that while some algorithms are highly accurate, they are often computationally expensive. Being widely used, they have multiple input parameters which impact the quality and accuracy of the imputation. Traditional machine learning techniques for parameter optimization like grid search and randomized search become inefficient in high-dimensional parameter spaces, leading to prohibitive computational costs, especially in large-scale applications. Our study proposes the cloud-based approach for input parameters optimization by using Bayesian optimization with consecutive Domain Reduction Transformer (DRT). Described algorithm and developed library allow users to find the optimal input parameters for the data imputation in a more flexible way.
Organisation(s): Department of Marketing and International Business
External organisation(s): Lviv Polytechnic National University
Pages: 279 - 286
Publication date: 01-2025
Peer reviewed: Yes
Austrian Fields of Science 2012: 102004 Bioinformatics, 102038 Cloud computing, 101016 Optimisation
Portal url: https://ucrisportal.univie.ac.at/en/publications/a500f849-f2cd-42f9-8246-b53736aa82c8