Core Insights - Mavenir is restructuring to accelerate its vision of AI-native, cloud-native networks, following a recent capital reorganization [1][12] - The company aims to transition from AI-integrated networks to AI-native networks, embedding intelligence into core architecture for full automation and real-time optimization [2][12] Leadership Team - Mavenir has appointed several experienced leaders to key positions to support its new operational model [3] - Uli Dopfer has been appointed as CFO, bringing over 20 years of financial leadership experience [4] - Dejan Leskaroski is now the CRO, responsible for global revenue strategy and business growth [5] - Michael Cooper will oversee the packet core, security, and messaging business, expanding his previous role [6] - Santhosh Kumar will lead platform engineering and global product support, focusing on cloud transformation [7] - Sachin Karkala continues to drive AI-native evolution and next-generation solutions in his role [8] - Sandeep Singh will manage product marketing across Mavenir's portfolio while continuing to lead the digital enablement division [10] Leadership Transition - The company announced the upcoming departure of several executives at the end of January 2026, thanking them for their contributions [11] Innovation and Customer Value - Mavenir has delivered cloud-native products to over 300 operators, serving approximately 3.5 billion users [12] - The company is committed to accelerating innovation and creating sustainable value for stakeholders [12] Future Outlook - Mavenir is actively positioning itself to lead the industry transition from AI-integrated to AI-native networks, providing automation and agility for telecom operators [12][13]

Industry Overview - China has conducted 6G technology trials for four consecutive years, completing the first phase and forming over 300 key technology reserves [1] - Compared to 5G, 6G is expected to explore dynamic spectrum sharing and integrate non-terrestrial networks (NTN) with terrestrial networks for ubiquitous coverage [1] - 6G aims to create an AI-native network for automated network management and resource allocation, enhancing efficiency [1] - The architecture of 6G networks will be simplified to reduce complexity and improve operational efficiency, enabling new services and use cases such as Integrated Sensing and Communication (ISAC) and immersive communication [1] - With new network performance metrics like hundredfold speed and capacity, 6G will enhance large-scale antenna arrays from 64T64R to 256T256R, reshaping the base station supply chain [1] Company Developments - Shenglu Communication has achieved phased R&D results in the 6G technology field, including active phased array antennas for Ku/Ka bands, reconfigurable metasurface array antennas, and millimeter-wave radar [2] - Aisino Technology, a subsidiary of Aisino Security, is engaged in 6G-related business, focusing on 5G-A and 6G, and actively researching technologies such as AI RAN integrated sensing and intelligent reflective surfaces [2]

Core Viewpoint - The article discusses the development of the world's first "full-band" 6G chip by Chinese researchers, which utilizes photonic technology to achieve transmission speeds exceeding 100 Gbps, laying the foundation for AI-native wireless networks [3][5]. Group 1: Chip Development - The 6G chip integrates the entire frequency spectrum from 0.5 GHz to 115 GHz into a chip the size of a fingernail, which traditionally would require nine separate radio systems [5]. - The chip measures only 11 mm x 1.7 mm and seamlessly switches between millimeter-wave and terahertz communication with low-frequency microwave bands [6]. Group 2: Technical Innovations - Researchers employed photonic-electronic integration technology to overcome the limitations of traditional wireless hardware, which typically operates within a narrow range [7]. - The system achieved 6 GHz frequency tuning in 180 microseconds, significantly faster than the blink of an eye, with a single-channel data rate exceeding 100 Gbps [7]. Group 3: Applications and Future Prospects - The chip is designed for high-demand environments, such as concerts or sports venues, where thousands of devices connect simultaneously [8]. - It establishes a hardware foundation for AI-native networks, capable of dynamically adjusting communication parameters through built-in algorithms to adapt to complex electromagnetic environments [8]. - The goal is to create plug-and-play communication modules no larger than a USB stick, which can be embedded in smartphones, base stations, drones, and IoT devices, potentially accelerating the arrival of flexible and intelligent 6G networks [8].

Group 1 - The first adaptive, full-band, high-speed wireless communication chip based on optoelectronic integration technology has been developed by Chinese scholars, utilizing advanced thin-film lithium niobate photonic materials [1] - The innovative system based on this chip can achieve ultra-high wireless transmission rates exceeding 120 Gbps, breaking the traditional limitation of "one device per frequency band" [1] - This development meets the peak rate requirements for 6G communication and ensures consistent performance across all frequency bands, with no degradation observed in high-frequency performance [1] Group 2 - The full-band reconstruction solution is expected to foster more flexible and intelligent AI wireless networks, potentially reshaping the future wireless communication landscape [1] - This breakthrough lays the hardware foundation for a truly "AI-native network," capable of dynamically adjusting communication parameters through built-in algorithms to adapt to complex electromagnetic environments [1] - It serves as an ideal carrier for integrated communication and sensing systems, enabling future base stations and vehicular devices to accurately perceive their surroundings while transmitting data, achieving "communication equals perception" [1] Group 3 - From an industrial perspective, this breakthrough will significantly drive the upgrade of key components such as broadband antennas and optoelectronic integrated modules, leading to a comprehensive transformation across the entire supply chain from materials and devices to complete systems and networks [1] - Companies such as Feilu Co., Ltd. and Guangxun Technology are mentioned in relation to this development [1]