Ruckus ICX 7450

Fixed Form Factor Switch with Unmatched Modularity

The Ruckus ICX 7450 delivers unprecedented scale-out density with enterprise-class availability. With SDN support, a service module for IPsec VPN, and 40 GbE ports for uplinks all in a stackable design, these switches enable services to be added anywhere in the network.

The ICX 7450 is an ideal network solution for campus networks requiring 1 GbE access or small aggregation deployments with upgradeable 1GbE, 10 GbE or 40 GbE uplink modules. The switch also makes a suitable data center Top-of-Rack (ToR) solution, providing a ToR access-layer that can be upgraded to run on 10GbE/40GbE in the future with minimum costs and changes to cabling.

The modular design of the switch enables deployment of additional services such as high-performance IPsec encryption to meet increasing compliance and data security requirements.

Learn how Ruckus has partnered with Lennar Homes to create a truly Wi-Fi certified home with Ruckus ICX Switches. Read More.

Flexible Path to Ultimate Performance
Up to 3 uplink modules with 4 x 1 GbE, 4 x 10 GbE, or 1 x 40 GbE ports
40 GbE standards-based stacking links – no proprietary cables needed
PoE/PoE+/PoH (95W) to power video surveillance, VDI terminals, and HD displays
Expansion slots accept modules with different uplink speeds and services
Data Security Meets Compliance Requirements
Site-to-site IPsec VPN service module eliminates dedicated encryption devices
Programmable hardware technology, enabling more features to be added to IPsec VPN deployments
Suite B algorithms and support for 128-bit and 256-bit AES
10 Gbps throughput per service module
Stacking Scalability
Up to 12 switches per stack
Up to 10km between stacked switches
Stacking connectivity through open standard SFP+ or QSFP+ ports – no special cables needed
Stack level ISSU for continuous operations

Overview

  • Switching Capacity (Max)
    1.128 Tbps
  • Available Ports
    • Up to 48 1 GbE RJ-45 ports
    • Up to 24 1 GbE SFP ports
    • Up to 24 2.5/5/10 GbE RJ-45 ports
    • Up to 24 10 GbE SFP+ ports
    • Up to 2 40 GbE QSFP+ ports
    • Up to 2 100 GbE QSFP28 ports
  • Switches Per Stack (Max)
    12
  • Aggregated Stacking Bandwidth
    2.4 Tbps
  • PoE Technology
    PoE/PoE+/802.3bt** (90W)
  • Redundant Power Option
    Yes
  • sFlow
    Yes
  • OpenFlow (SDN)
    Yes
  • Campus Fabric Technology
    Yes*
  • L3 Capabilities
    RIP, OSPF, BGP VRRP, PIM, PBR, VRF
  • Hot-swappable PSUs and Fans
    Yes
  • Front-to-Back or Back-to-Front Airflow
    Yes
  • MCT
    Yes*
  • EEE
    Yes
  • VXLAN
    Yes*
  • MACsec
    Yes
  • *Available in a future software release

Multi-gigabit Technology

General Wireless Technologies

What it means:

Multi-gigabit technology and specifically the IEEE 802.3bz standard, formally introduced as 2.5GBASE-T and 5GBASE-T in 2016. IEEE 802.3bz is a standard for Ethernet over twisted pair copper wire at speeds of 2.5 Gbps and 5 Gbps.

Why you should care:

Gigabit connections have served us well for many years, delivering fast low-latency data to laptops, smartphones and other devices. However, the latest generation of APs can overwhelm a 1 GbE connection so that the wired network becomes a performance bottleneck. Multi-gigabit technology, which operate above 1 Gbps supports new data rates of 2.5 and 5 Gbps, while still leveraging commonly deployed Cat 5e (for 2.5 Gbps) or Cat 6 (for 5 Gbps) cabling. Thus, enterprises can maximize the performance of their Wi-Fi networks in the most cost-effective, least-disruptive manner. The Ruckus ICX Z-series switches and the Ruckus R720 access point support multi-gigabit technology / 802.3bz to help organizations maximize their Wi-Fi network performance.

Campus Fabric Technology

Performance Optimization

What it means:

Based on open standard IEEE 802.1BR Bridge Port Extension technology, Ruckus Campus Fabric integrates premium, mid-range, and entry-level switches by collapsing the network access, aggregation, and core layers into a single domain that shares services.

The control bridge and a port extender are the building blocks of a Campus Fabric. The traditional aggregation/core layer is replaced by switches that act as the control bridge which is the brain of the complete Campus Fabric technology. The access layer is replaced by switches that operate in port extender mode; these switches provide connectivity to PCs, laptops, IP phones, and other access devices. The control bridge communicates with the attached port extender devices using protocols defined in the IEEE 802.1BR standards.

Why you should care:

Traditional access networks are highly inefficient and rigid, requiring network teams to connect to each individual network devices to provision resources, apply configuration changes, and deploy network policies.

Unlike the traditional three-tier network design, Ruckus Campus Fabric collapses the network into a single logical device. This design centralizes control, simplifies deployment and management of services, and scales easily to handle growth. All the links between the switches are active at all times and traffic is load balanced. The results are:

  • Optimized performance
  • Increased resiliency
  • Faster network service deployment

Campus Fabric: 2-Minute Explainer

OpenFlow Hybrid Port Mode

Performance Optimization

What it means:

Ruckus OpenFlow hybrid port mode allows users to enable OpenFlow on any desired port on the Ruckus ICX switch while supporting other traditional switching features concurrently without increasing latency.

Why you should care:

Customers want to be able to create an OpenFlow overlay on top of existing production networks. The OpenFlow overlay would be used to support new premium services and SDN applications on top of the underlay network. With Ruckus hybrid port mode, a separate network is not needed to realize the benefits of SDN and OpenFlow.

sFlow

Location and Analytics

What it means:

sFlow is a standards-based packet sampling technology embedded into the Ruckus ICX Switches to provide network managers a scalable technique for measuring network traffic, collecting, storing, and analyzing traffic data. This enables tens of thousands of interfaces to be monitored from a single location.

Why you should care:

With increasing reliance on network services for business critical operations, any change in the network can impact the network performance and reliability. If sFlow is configured on various links, sFlow helps to:

  • Analyze traffic statistics and trends on those links
  • Overcome unexpected network congestion
  • Improve capacity planning