ZTE releases ZXR10 M6000-2S15E hyper-converged edge router to facilitate 5G-A network connectivity and intelligent computing upgrade

• ZTE launches ZXR10 M6000-2S15E, a large-capacity full-scenario hyper-converged edge router, delivering enhanced performance across capacity, routing, security, and scenario adaptability
• With a massive 4Tbps access capacity, the device supports universal port types and multiple deployment scenarios, empowering telecom operators and enterprise customers to upgrade their network connectivity and intelligent computing power in the 5G-A era

Paris, France, October 14, 2025 - ZTE Corporation (0763.HK / 000063.SZ), a global leading provider of integrated information and communication technology solutions, officially launched the ZXR10 M6000-2S15E, a large-capacity, full-scenario hyper-converged edge router at the Network X exhibition in Paris on October 14-16, 2025. With multiple improvements in capacity, routing capability, security, and scenario adaptability, this device will offer powerful support for global telecom operators and enterprise customers in network construction, and help upgrade network connectivity and intelligent computing power in the 5G-A era.

With the rapid expansion of 5G-A networks and the advancing global digital transformation, core network equipment performance has emerged as a key driver of industry growth. As a hyper-converged edge router for full-scenario applications, ZTE ZXR10 M6000-2S15E has four major competitive advantages:

• Ultra-large capacity: Access capacity reaches 4Tbps,  supporting a wide range of port types from 400GE and 200GE down to GE, as well as STM-1 and E1. This flexibility accommodates bandwidth requirements across different tiers in the 5G-A era, efficiently supporting high-speed transport of massive data. In terms of hardware design, the device features a compact 6U height and ultra-shallow 300mm depth, equipped with 15 service slots. This design delivers both spatial adaptability and excellent scalability, enabling efficient data aggregation and intelligent forwarding. In terms of energy optimization, the ultra-high-density port design reduces power consumption by 30% compared to the previous generation, effectively improving resource utilization and helping customers maximize return on investment. This precisely addresses the stringent requirements for space, power consumption, and scalability at network aggregation nodes.

• Superior routing performance: IPv4 routing table capacity reaches 5 million entries, while IPv6 routing table capacity reaches 3 million entries – 50% higher than industry averages. This is fully aligned with IPv6 network evolution trends, comprehensively supports high-performance network scenarios, ensures high-speed and stable data transport, and reserves ample capacity for future network upgrades.

• Robust security: The router supports MACsec (Media Access Control Security), IPsec (Internet Protocol Security), and quantum-safe encryption technologies, with built-in AI-powered DDoS protection. This provides comprehensive protection for service operations and network security, safeguarding customer data security and ensuring stable service continuity.

• Universal scenario support: It integrates CGN (Carrier-Grade NAT), IPsec, and ultra-high-capacity AI computing power, enabling broad deployment across multiple scenarios including IP RAN, MAN and internet services, customer edge (CE) devices, IP backbone edge aggregation, and enterprise WANs. This provides flexible and efficient network solutions for customers across all industries.

Looking ahead, ZTE will continue to be driven by continuous innovation, deepening its expertise in information and communication technologies. Leveraging keen insights into market demands and robust R&D capabilities, ZTE will introduce more market-aligned, competitively differentiated products and solutions that deliver greater value to global customers, continuously advance the industry digital transformation and high-quality development, and help build more efficient and intelligent communication networks.