Core Viewpoint - The article highlights the advancements and strategic direction of Xin'ao Group in the field of hydrogen-boron fusion research, emphasizing its unique approach and commitment to commercializing fusion energy by 2035 [1][2]. Group 1: Research and Development - Xin'ao Group's hydrogen-boron fusion research is centered around the "Xuanlong-50U" spherical device, which utilizes AI algorithms for real-time plasma control and monitoring [1]. - The company has made significant progress since 2017, focusing on hydrogen-boron fusion as a viable path to overcome the challenges of traditional fusion methods [2]. - The "Xuanlong-50U" device has undergone upgrades, achieving notable milestones such as the first million-ampere hydrogen-boron plasma discharge in April 2025, marking a significant advancement in the field [4]. Group 2: Strategic Choices - The decision to pursue hydrogen-boron fusion was based on a thorough analysis of future energy demands, with a focus on clean, stable, and flexible energy solutions [2]. - Hydrogen-boron fusion offers advantages such as non-radioactive byproducts, abundant and low-cost fuel sources, and the potential for direct electricity generation, which enhances its commercial viability [2][3]. - The magnetic confinement spherical ring device was chosen for its ability to maximize the potential of hydrogen-boron fusion while minimizing space and cost barriers for commercialization [3]. Group 3: Collaborative Efforts and AI Integration - Xin'ao Group has established a collaborative network involving 75 leading institutions across 11 countries to enhance its research capabilities and integrate into the global fusion research ecosystem [5]. - The company has initiated an AI-driven approach to improve plasma control and fault monitoring, significantly increasing experimental efficiency and addressing challenges in fusion research [5]. - Xin'ao Group aims to achieve hydrogen-boron fusion reactions by 2026 and commercial fusion power generation by 2030, with a long-term goal of entering the demonstration phase by 2035 [6].