High-throughput sequencing (HTS) technologies have revolutionized the field of genomics, enabling rapid and cost-effective genome analysis for various applications. However, the increasing volume of genomic data generated by HTS technologies presents significant challenges for computational techniques to effectively analyze genomes. To address these challenges, several algorithm-architecture co-design works have been proposed, targeting different steps of the genome analysis pipeline. These works explore emerging technologies to provide fast, accurate, and low-power genome analysis. This paper provides a brief review of the recent advancements in accelerating genome analysis, covering the opportunities and challenges associated with the acceleration of the key steps of the genome analysis pipeline. Our analysis highlights the importance of integrating multiple steps of genome analysis using suitable architectures to unlock significant performance improvements and reduce data movement and energy consumption. We conclude by emphasizing the need for novel strategies and techniques to address the growing demands of genomic data generation and analysis.

翻译：高通量测序技术已彻底改变了基因组学领域，使得快速且经济的基因组分析能够应用于各种场景。然而，高通量测序技术产生的基因组数据量日益增加，这给有效分析基因组的计算技术带来了重大挑战。为应对这些挑战，研究者提出了多项算法-架构协同设计工作，针对基因组分析流水线的不同步骤开展了探索。这些工作利用新兴技术，旨在实现快速、准确且低功耗的基因组分析。本文简要回顾了加速基因组分析的最新进展，涵盖了加速基因组分析流水线关键步骤所面临的机遇与挑战。我们的分析强调了利用合适的架构整合基因组分析的多个步骤的重要性，以释放显著的性能提升，并减少数据移动和能耗。最后，我们强调需要新的策略和技术来应对基因组数据生成与分析日益增长的需求。