Huawei CloudEngine S16700-8 Series Switches

Eugene
Eugene
expert on network solutions
Description
Specifications

CloudEngine S16700 series switches are flagship core switches with record-high performance designed for high-quality 10 Gbps campus networks. This series stands out for ultra-fast forwarding capability of 14.4 Tbit/s per slot, unmatched data switching, and massive terminal access. CloudEngine S16700 is the first to apply Multichassis Link Aggregation Group (M-LAG) technology on campus networks, achieving 99.9999% high reliability. Other compelling features include Virtual Extensible Local Area Network (VXLAN), free mobility, Quality of Service (QoS), Packet Conservation Algorithm for Internet (iPCA), one-click service deployment, and minute-level fault locating. With these traits, CloudEngine S16700 is an ideal choice for global customers to usher in the 400 Gbit/s era of campus networks.

Features

Super large capacity

1 device for 100,000 terminals, 30% larger capacity, ready for evolution in the next 10 years

Superfast forwarding

Backplane-free orthogonal architecture, 14.4 Tbit/s bandwidth per slot, 4x the industry average

Ultra-high reliability

M-LAG for uninterrupted service upgrades, fault isolation for minimized impact

Warranty

The equipment and software are purchased through the manufacturer's authorized channel

All purchased IT solutions are covered by the official manufacturer's warranty

All products are eligible for service support and maintenance in accordance with the manufacturer's corporate policies

Shipping

The LWCOM office is located in Dubai, Tameem House Building, Floor 25, Barsha Heights (Tecom)

The company delivers products across the entire territory of the United Arab Emirates

Delivery is carried out at the expense of LWCOM

Forwarding Performance
35520 Mpps
Switching Capacity
57.6 Tbit/s
MPU Slots
2
Service Card Slots
8
SFU Slots
6(expanded to 9 in the future)
Fan Slots
3
iPCA
Collection of real-time statistics on the number of lost packets and packet loss ratio at network and device levels