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Review Summary
10/ 100/ 1000 Mbps, 2.5/ 5/ 10 Gbps ports: RJ-45
100 Mbps SFP ports
1 Gbps SFP ports
10 Gbps SFP+ ports
40 Gbps QSFP+ ports
100 Gbps QSFP28 ports
Out-of-band Ethernet management: 10/100/1000 Mbps RJ-45
Console management: USB type C (Type C plug) and RJ45
File Transfer: USB port, standard-A plugDRAM4 GB
4 GB
16 GB
12 MB on ICX7650-48ZP and 48F, 5 MB on ICX7650-48ZP
80000
4095
256
512
128 K (IPv4)
7 K (IPv6)
12,000 (Next Hop Addresses)
Maximum ports per trunk: 16
Maximum trunk groups: 256
9,216 bytes
10 for Unicast and Multicast traffic
8192 (Layer 2)
8192 (Layer 3)
50 instances
802.1s Multiple Spanning Tree
802.1x Authentication
Auto MDI/MDIX
BPDU Guard, Root Guard
Dual-Mode VLANs
MAC-based VLANs Dynamic MAC-based VLAN activation
Dynamic Voice VLAN Assignment
Dynamic VLAN Assignment
Fast Port Span
GVRP: GARP VLAN Registration Protocol
IGMP Snooping (v1/v2/v3)
IGMP Proxy for Static Groups
IGMP v2/v3 Fast Leave
Inter-Packet Gap (IPG) adjustment
Link Fault Signaling (LFS)
MAC Address Filtering
MAC Learning Disable
MLD Snooping (v1/v2)
Multi-device Authentication
Per-VLAN Spanning Tree (PVST/PVST+/PVRST)
Mirroring - Port-based, ACL-based, MAC Filter-based, and VLAN-based
PIM-SM v2 Snooping
Port Loop Detection
Private VLAN
Remote Fault Notification (RFN)
Single-instance Spanning Tree
Trunk Groups (static, LACP)
Uni-Directional Link Detection (UDLD)
Metro-Ring Protocol (MRP) (v1, v2)
Virtual Switch Redundancy Protocol (VSRP)
Q-in-Q and selective Q-in-Q
Topology Groups
IPv4 and IPv6 static routes
RIP
ECMP
Port-based Access Control Lists
Layer 3/Layer 4 ACLs
Host routes
Virtual Interfaces
Routed Interfaces
Route-only Support
Routing Between Directly Connected Subnets
IPv4 and IPv6 dynamic routes
OSPF v2 OSPF v3 (IPv6)
PIM-SM PIM-SSM PIM-DM PIM passive (IPv4/IPv6 multicast routing functionality)
PBR
Virtual Route Redundancy Protocol VRRP v3 (IPv6)
VRRP-E (IPv4, IPv6)
BGP4, BGP4+ (IPv6)
GRE
IPv6 over IPv4 tunnels
VRF-lite (IPv4 and IPv6)
MSDP
RIP v1/v2, RIPng(with software license)
ACL Mapping and Marking of ToS/DSCP (CoS)
ACL Mapping and Marking of 802.1p
ACL Mapping to Priority Queue
Classifying and Limiting Flows Based on TCP Flags
Diff Serv Support
Honoring DSCP and 802.1p (CoS)
MAC Address Mapping to Priority Queue
Priority Queue Management using Weighted Round Robin (WRR) Strict Priority (SP) and a combination of WRR and SP
Priority Flow Control
ACL-based inbound rate limiting and traffic policies
Broadcast, multicast, and unknown unicast rate limiting
Inbound rate limiting per port
Outbound rate limiting per port and per queue
MACsec 802.1X authentication
MAC authentication
Flexible authentication
Web authentication
DHCP snooping
Dynamic ARP inspection
Neighbor Discovery (ND) Inspection
Tri-level Access Mode (EXEC, Privileged EXEC and Global Configuration)
EAP pass-through support
EEE 802.1X username export in sFlow
Protection against Denial of Service (DoS) attacks Authentication, Authorization, and Accounting (AAA)
MAC Address Locking MAC Port Security
Advanced Encryption Standard (AES) with SSHv2
RADIUS/TACACS/TACACS+
Secure Copy (SCP)
Secure Shell (SSHv2)
Local Username/Password
Change of Authorization (CoA) RFC 5176
Trusted Platform Module
Protected ports
RADSEC (RFC 6614)
Encrypted Syslog (RFC 5425)
OpenFlow v1.0 and v1.3
OpenFlow with hybrid port mode
Operates with OpenDaylight SDN Controllers and the applications running on the controller
802.1AB LLDP
802.1D MAC Bridging
802.1p Mapping to Priority Queue
802.1s Multiple Spanning Tree (MST)
802.1w Rapid Reconfiguration of Spanning Tree
802.1x Port-based Network Access Control (PNAC)
802.3 Carrier Sense Multiple Access/Collision Detection (CSMA/CD)
802.3ab 1000BASE-T
802.1 AX-2008 Link Aggregation
802.3ae 10 Gigabit Ethernet
802.3af Power over Ethernet
802.3at Power over Ethernet Plus
802.3bt 4-Pair Power over Ethernet (IEEE ratification pending)
802.3u 100Base-TX
802.3x Full duplex and Flow Control
802.3z 1000Base-SX/LX
802.3 MAU MIB (RFC 2239)
802.3ba 40 and 100 Gbps Ethernet
802.1AE-MACsec (with license)
802.3az Energy Efficient Ethernet
802.1Q VLAN Tagging
802.1BR Bridge Port Extension
Operating temperature: 0 Degree C to 45 Degree C/32 Degree F to 113 Degree F at sea level
Storage temperature: -40 Degree C to 70 Degree C/-40 Degree F to 158 Degree F
Operating relative humidity: 10% to 90% at 50 Degree C, non-condensing
Non-operating relative humidity: 5% to 95% at 70 Degree C, non-condensing
Operating altitude: 10,000 ft. (3,000 m) maximum
Storage altitude: 39,000 ft. (12,000 m) maximum
17.3 x 13.0 x 1.7" (440 x 332 x 44mm)
14.5 lbs (6.6Kg)
High Performance Multigigabit Access And Aggregation Switches With 100Gbe Support
Enterprise networks are no longer confined to providing simple VoIP phone connectivity and access to email and the internet. Today, seamless mobility, Bring Your Own Device (BYOD), social media, web based video conferencing, cloud based SaaS applications and Big Data analytics are all contributing to an environment that demands greater performance and flexibility from the wired and wireless network.
Furthermore, with the rapid adoption of 802.11ac Wave 2 Wi-Fi access points, as well as emerging new Wi-Fi standards, can generate multiple gigabits per second of wireless traffic. As mobile devices usage grows exponentially, they push an everincreasing volume of traffic through the wired edge and new high-performance access points draw more PoE power from edge switches. The wired edge is gradually morphing into a wireless traffic aggregation layer requiring higher performance, availability, and more advanced features.
The RuckusICX 7650 Switch is designed to meet the new challenges of the multigigabit wireless era. It delivers non-blocking performance, high availability, and scalability with Multigigabit Ethernet access, high PoE output as well as 10 Gigabit Ethernet Aggregation and 40G/100G uplink options.
Gigabit And Multigigabit Access Switches
The Ruckus ICX 7650 stackable access switches come in Gigabit and Multigigabit versions. Both come standard with 40G and 100G ports for stacking. The Gigabit model offers 48x 10/100/1000 Mbps ports with 40G uplinks, the Multigigabit model offers 24x 10/100/1000 Mbps ports and 24x 100/1000 Mbps/2.5/5/10 Gbps with 40G/100G uplinks for future ready next generation wireless deployment. Both switches deliver non-blocking performance and offers PoE+, 802.3btwith up to 1500W of PoE budget with two hot-swappable load-sharing power supplies. The switches are targeted at demanding enterprise customers who need a high performance, highly reliable access switch at the edge of a campus network or as top of the rack switch in the data center
1G/10G Aggregation Switch
The stackable ICX 7650 aggregation switch comes standard with 40G and 100G ports for stacking and/or uplinks and dual hot-swap power supplies for maximum reliability. The switch offers 24x 1/10GbE SFP+ ports with legacy OM1/OM2 fiber support and MACsec 128-bit or 256-bit encryption, and 24x GbE SFP ports. It is targeted at customer looking for a cost effective 10GbE aggregation solution for small to midsize campus or data center networks that delivers enterprise features with L2/L3 capabilities, high availability and non-blocking performance and combines chassis-level capability with the "pay as you grow" scalability of a stackable solution.
This mid-market 1/10G aggregation switch is the first in its class to offer 100 GbE uplinks, enabling organizations to dramatically increase their network capacity to deploy high-performance wireless access and run next generation applications
Poe Power To Support Next-Generation Edge Devices
The Ruckus ICX 7650 can deliver both power and data across network connections, providing a single-cable solution for the latest edge devices. In addition to supporting the Power over Ethernet (PoE/PoE+) standards, the ICX 7650 supports the pending IEEE 802.3bt standard. This high-power standard delivers up to 90 watts per port through a standard Ethernet cable, simplifying the wiring of nextgeneration Ethernet-connected devices such as large HD displays, video surveillance equipment, and VDI thin terminals. These ports are also compatible with uPoE (60 watts).
The PoE/PoE+ and 802.3bt capabilities reduce the number of required power receptacles and power adapters while increasing reliability and wiring flexibility. With a 1,500-watt PoE budget per switch (with two power supplies), the Ruckus ICX 7650 PoE models can supply up to full Class 4 PoE+ power (30 watts) to all 48 port and 802.3bt power (90 watts) on eight ports on the ICX 7650-48ZP and the 24 Multigigabit ports on the ICX 7650-48ZP.
Multigigabit Ethernet Support
Designed to handle 802.11ac Wave 2 access points, next-generation 802.11ax standard and future wireless technology evolution, the Ruckus ICX 7650-48ZP switch offers 24x 100/1000 Mbps/2.5/5/10 ports to connect Multigigabit wireless access points. Moreover, the switch's non-blocking architecture offers up to 200 Gbps of uplink bandwidth, ensuring smooth end-to-end traffic flow from the wireless edge to the core.
Eee Power Savings
The Ruckus ICX 7650 Switch supports the IEEE 802.3az standard for Energy Efficient Ethernet (EEE), reducing power consumption during periods of low utilization. Ports are placed into a low power mode when no data is being transmitted.
Data Center Top-Of-Rack Switch
With class-leading 10 GbE and 40/100 GbE port count, the Ruckus ICX 7650 is a great solution as a Top-of-Rack (ToR) switch in a mixed 1GbE/10GbE server connectivity environment. It is designed to fit in server racks, consuming only one rack unit and offering dual integrated power supplies and fan assemblies with front-to-back or back-to-front airflow for flexible cooling options. In data center environments where servers have a mixed of 1 GbE and 10 GbE network interfaces, the 1RU switch provides a cost-effective 1 GbE/10 GbE ToR switch with 40/100 GbE uplinks to connect to the data center spine switches.
The Ruckus ICX switch family delivers the enterprise class features for flexibility, scalability and simplified management. Ruckus Campus Fabric technology delivers unmatched flexibility, scalability and simplified management for campus network deployments. Incorporating all of the ICX 7000 switch families with up to 1800 ports in a single logical domain, Campus Fabric allows customers the benefits of a traditional chassis, with the flexibility of stackable switches at a dramatically reduced Total Cost of Ownership (TCO).
Advanced stacking goes beyond traditional stacking with capabilities that take flexibility, ease of management and cost effectiveness to then next level, including:
Stacking on standard Ethernet ports
Long-distance stacking
No hardware module require for stacking
In Service Software Upgrade (ISSU) to minimize downtime
Superior scalability with the industry-leading number of switches per stack
Stacking at the access, aggregation and corelayers
Enterprise-Class Availability to improve resiliency and minimize downtime, including
Hitless stack failover
Hot-insertion/removal of stack members
Redundant power supplies
In Service Software Upgrades for switch stacks
On-boarding and security policies across ICX switches and wireless networks.
OpenFlow 1.3 protocol support in hybrid mode allows user to deploy traditional Layer 2/3 forwarding with OpenFlow on the same port for Software Defined Network (SDN) enabled programmatic control of the network
Open Standards based management, monitoring and authentication
sFlow-based network monitoring to help analyze traffic statistics and trends on every link and overcome unexpected network congestion
Open-standards management includes Command Line Interface (CLI), Secure Shell (SSHv2), Secure Copy (SCP), and SNMPv3
Support for Access Controller Access Control System (TACACS/TACACS+) and RADIUS authentication helps ensure secure operator access
LLDP and LLDP-MED protocol support for configuring, discovering, and managing network infrastructure such as QoS, security policies, VLAN assignments, PoE power levels, and service priorities