Shenzhen XX Vision is a high-tech company specializing in cloud computing power leasing and cloud phone streaming services, dedicated to providing accelerated computing services for immersive digital applications. The company was listed among the 2023 global unicorn companies and ranked in the 2024 Fortune China Tech 50. By integrating heterogeneous computing architectures with 5G networks, XX Vision addresses the insufficient computing power of user terminals through a "cloud, network, edge" deep integration solution, offering high-quality services to leading global enterprises such as internet platforms, telecom operators, cloud service providers, and game developers.

XX Vision has long focused on cloud phone leasing and hosting services and sought to collaborate with Firefly to jointly develop a new generation of high-performance ARM servers to capture the domestic high-performance cloud phone market. Thanks to Firefly's self-developed BMC server software, aBMC has demonstrated excellent performance on ARM array servers, becoming a key opportunity for this collaboration.

Firefly has always adhered to the corporate philosophy of "service first," emphasizing customer needs and striving to provide high-quality service experiences. Based on this, Firefly and XX Vision explored the feasibility of adapting Qualcomm 865 chips to Firefly's CSR2 2U server platform and delved into the specific adaptation details of aBMC. To achieve the high-performance 2U Qualcomm 865 quasi-system server, Firefly actively collaborated with the client to complete hardware adjustments, aBMC software adaptation (including firmware upgrades, operational data monitoring, and anomaly alert functions), and optimization of thermal management solutions. Leveraging years of server design and manufacturing experience, Firefly provided the client with performance tuning, network optimization, and other recommendations, paying special attention to server quality and control throughout the process. Ultimately, the stable mass production of the "CSR2-N72-QCNCM865" was successfully achieved.