The Huawei NE40E-M2K is a mid-range router designed for large-scale enterprise networks and service provider networks. It provides high performance, scalability, reliability, security, multicast support, IPv6 support, service agility, and energy efficiency, making it a versatile solution for diverse network environments.
PICS Telecom offers the largest inventory of new and used multi-vendor telecom network products and data equipment. Providing critical spares and services to over 2000 customers in over 100 countries. All equipment provided is thoroughly tested to ensure it is in excellent working condition and is backed by PICS’ comprehensive warranty.
Key Features:
- High performance: The NE40E-M2K is equipped with Huawei’s in-house developed Solar chipset, which provides high-speed data processing and forwarding capabilities. It can handle up to 800 Gbps of traffic throughput.
- Scalability: The router supports modular design, allowing users to add or remove modules as needed to scale their network. It can support up to 8 service slots and 2 main control slots.
- Reliability: The NE40E-M2K uses a distributed system architecture with redundancy mechanisms to ensure high network availability and fault tolerance.
- Security: The router provides comprehensive security features such as IPsec VPN, SSL VPN, NAT, firewall, and attack defense mechanisms to protect against various network threats.
- Multicast support: The NE40E-M2K supports various multicast protocols including PIM-SM, PIM-SSM, and IGMPv2/v3, making it suitable for multicast applications such as IPTV and video conferencing.
- IPv6 support: The router supports IPv6 and IPv4 dual-stack, providing seamless migration from IPv4 to IPv6.
- Service agility: The NE40E-M2K supports various service provisioning methods including MPLS, VPLS, L2VPN, L3VPN, and QoS, allowing users to quickly and easily deploy new services.
- Energy efficiency: The NE40E-M2K uses Huawei’s innovative iPCA (intelligent Power Consumption Adjustment) technology to dynamically adjust power consumption based on network traffic, improving energy efficiency and reducing operating costs.
