The Cisco WS-X4612-SFP-E= is a high-performance, 12-port line card designed for integration into Cisco's Catalyst 4500E Series of switches. This plug-in module is particularly suited for data centres or networks that demand heightened flexibility and scalability. The module supports a wide range of media options, leveraging the use of Cisco's extensive portfolio of Small Form-Factor Pluggable (SFP) transceivers. These swappable SFPs allow adjustments based on your specific networking needs, including both single-mode and multimode fibre.
Key features of the WS-X4612-SFP-E= include 12 ports equipped for Gigabit Ethernet connectivity via SFP. Each port supports full-duplex communication, ensuring optimal bandwidth efficiency. The card operates on a maximum of 48 Gbps per slot, making it a powerful addition to scale your network without compromising speed. Additionally, the E-Series designation indicates enhanced performance and energy efficiency, as it meets green networking standards while ensuring that your network infrastructure uses power more effectively.
This unit is designed for hot-swappable installation, meaning it can be integrated into a live system without any impact on network performance or uptime. The WS-X4612-SFP-E= is compatible with Cisco IOS software, providing extensive management capabilities, including advanced quality of service (QoS), traffic management, and security features.
Offering a reliable and scalable solution, this module is ideal for organisations seeking flexible Gigabit Ethernet for uplinks or distribution layers. Furthermore, the Cisco WS-X4612-SFP-E= benefits from Cisco's commitment to high availability, ensuring minimal downtime with seamless expansion and integration into existing infrastructure.
EOL Technology Services specialises in providing support for the Cisco WS-X4612-SFP-E=. Our team offers professional services ranging from technical support to the supply of genuine replacement parts. If you're looking to replace or repair this part, we ensure quick and efficient delivery to minimise network disruptions.
