Extreme Networks Data Sheet Summit X480 Series The Summit X480 series switch is a versatile, high-end Summit® X480 Series—the scalable and versatile gigabit and 10 Gigabit Ethernet switch. Ethernet switch for data center, enterprise aggregation, and Carrier Ethernet deployments. Summit X480 helps optimize application performance for a variety of network High-Performance Switching and Routing deployments with its rich features and high scalability. • 48-port Gigabit Ethernet or 24-port gigabit and 2-port 10 Summit X480 provides high density for Gigabit Ethernet Gigabit Ethernet connectivity in a 1RU form factor in a small 1RU form factor for up to 48 ports in one • Optional 4-port 10 Gigabit Ethernet (GbE) to provide system and 384 ports in a stacked system using back- 40 Gbps uplinks ward compatible SummitStack™, high-speed • Optional 40 Gbps stacking for up to eight switches in a SummitStack128 running at 128 gigabits per second, or stack to provide up to 384 Gigabit Ethernet connections SummitStack-V, which utilizes 10 GbE ports as stacking in one logically integrated unit ports, enabling the use of standard cabling and optics technologies used for 10 GbE. Summit X480 also offers • Optional 128 Gbps stacking for up to eight switches in a 10 Gigabit Ethernet connectivity for up to six ports in stack to provide high-speed stacking one system and 16 ports in a stacked system with the • Optional stacking via 10 GbE ports (SummitStack-V), or industry-standard XFP interface. optional SummitStack-V80 80 Gbps stacking For emerging demands from voice/data convergence • Supports Layer 2 and Layer 3 switching, as well as and storage, Summit X480 provides highly scalable MPLS/H-VPLS Layer 2/3 switching and MPLS/H-VPLS by supporting up to 512K Layer 2 MAC addresses or 512K IPv4 Longest High Scalability in a 1RU Compact Switch Prefix Match routing tables. Summit X480 enables data center, enterprise and Carrier Ethernet aggregation and • Up to 512K MAC address support for scalable Layer 2 core backbone deployment in AC-powered and networks DC-powered environments. • Up to 512K IPv4 routes for scalable Layer 3 networks • Up to 60K Access Control Lists (ACLs) for secure Summit X480 simplifies network operation with the networks ExtremeXOS modular OS, available across a wide range of Extreme Networks® Ethernet switches. The ExtremeXOS operating system provides high availability High Availability and simplicity with one OS everywhere in the network. • ExtremeXOS® modular OS for highly available network operation Target Applications • Top-of-rack switch for servers in enterprise • Carrier-grade redundant networking protocol including data centers Ethernet Automatic Protection Switching (EAPS) • High-performance core switch for a small network • Internal redundant AC/DC power supply and field replaceable/hot swappable fan tray • High-performance gigabit aggregation switch in a traditional three-tiered network • Carrier Ethernet network switch that can aggregate connectivity for first mile access concentrators such as DSLAM and CMTS Make Your Network Mobile Extreme Networks Data Sheet: Summit X480 Series High-Performance and Highly Scalable Switching and Routing Summit X480 offers core-class intelligent switching and routing with exceptional port density and high-performance stacking technology powered by the ExtremeXOS modular OS. With its high performance switching and routing, Summit X480 helps enhance the data center, Carrier Ethernet and enterprise aggregation network. High-Performance Switching and SummitStack – High-Performance Routing Stacking Summit X480 is available in three different port configuration Summit X480 supports SummitStack, which provides 40 Gbps options: 24-port Gigabit Ethernet and 2-port 10 Gigabit (VIM2-SummitStack), 80 Gbps (VIM2-SummitStack-V80) or Ethernet (Summit X480-24x), 48-port copper Gigabit Ethernet 128 Gbps (VIM2-SummitStack128) of stacking bandwidth. (Summit X480-48t), or 48-port fiber Gigabit Ethernet High-speed 128 Gbps stacking is ideal for demanding applica- (Summit X480-48x). All front panel ports run at non-blocking, tions where a high volume of traffic traverses through the wire-speed performance and can carry wire-rate traffic towards stacking links, yet bandwidth is not compromised through the Versatile Interface Module-2 (VIM2) slot. Summit X480 stacking. High-speed stacking is very useful in applications offers flexible configuration by using optional VIM2 modules such as top of rack when stacked with Summit X480 and which are: 4-port 10 Gigabit Ethernet Module (VIM2-10G4X), Summit X650 (requires optional conversion cable) and gigabit 2-port SummitStack Module (VIM2-SummitStack), 2-port aggregation in large enterprise or data center networks. With SummitStack128 Module (VIM2-SummitStack128) or 2-port the longer stacking cables such as 5-meters, stacking can be SummitStack-V80 Module (VIM2-SummitStack-V80) (see configured through different racks horizontally in a row (see Figure 1: Port configuration options for Summit X480 switches). Figure 3) as opposed to typical stacking system installed vertically in a rack. Flexible Port Configuration SummitStack-V – Flexible Stacking Summit X480 offers flexible port configurations from standard Over 10 Gigabit Ethernet configuration to optional VIM2 modules. For Summit X480-24x, half of the Gigabit Ethernet ports can handle dual personality— SummitStack-V capability utilizes 10 GbE ports as stacking select from either 10/100/1000BASE-T copper Gigabit Ethernet ports, enabling the use of standard cabling and optics tech- or 100/1000BASE-X fiber Gigabit Ethernet connectivity. In the nologies used for 10 GbE such as XFP, SFP+, 10GBASE-T and case of Summit X480-48t, the last four Gigabit Ethernet ports XENPAK. SummitStack-V provides long-distance stacking are configured as dual personality ports to provide flexibility connectivity of up to 40 km while reducing the cable complexity between copper and fiber Gigabit Ethernet. of implementing a stacking solution. SummitStack-V enabled 10 GbE ports must be physically direct-connected. Through the VIM2 slot, Summit X480 can add an additional SummitStack-V is compatible with Summit X450e, X450a, four 10 Gigabit Ethernet or SummitStack stacking ports. For X460, X480, X650, X670 and X670V switches running the stacking, depending upon the needs for bandwidth across the same version of ExtremeXOS. units in a stack, Summit X480 supports 40 Gbps SummitStack, 80 Gbps SummitStack-V80 or 128Gbps SummitStack128 through VIM2 option modules (See Figure 2: Summit X480-24x flexible port configuration). A third option, SummitStack-V, utilizes 10 GbE ports as stacking ports. Summit X480 supports flexible 10 gigabit optical transceivers such as 10GBASE-SR, LR, ER and ZR as well as tunable DWDM. Tunable DWDM (Dense Wavelength Division Multiplexing) support allows service providers and others to tune XFP 10 Gigabit Ethernet optics to a specific frequency, reducing the need for additional fiber runs and XFP sparing. Digital Diagnostics Monitoring Interface support allows service provid- ers to monitor and diagnose pluggable optics in real-time. 2 Extreme Networks Data Sheet: Summit X480 Series High-Performance and Highly Scalable Switching and Routing VIM Options None (default option) VIM2-10G4X VIM2-SummitStack VIM2-SummitStack-V80 VIM2-SummitStack128 Summit X480-24x • 24 x 100/1000BASE-X • 24 x 100/1000BASE-X • 24 x 100/1000BASE-X • 24 x 100/1000BASE-X • 24 x 100/1000BASE-X (SFP) (SFP) (SFP) (SFP) (SFP) • 12 x 10/100/1000BASE-T • 12 x 10/100/1000BASE-T • 12 x 10/100/1000BASE-T • 12 x 10/100/1000BASE-T • 12 x 10/100/1000BASE-T (shared with the last 12 (shared with the last 12 (shared with the last 12 (shared with the last 12 (shared with the last 12 SFP ports) SFP ports) SFP ports) SFP ports) SFP ports) • 2 x 10GBASE-X (XFP) • 6 x 10GBASE-X (XFP) • 2 x 10GBASE-X (XFP) • 2 x 10GBASE-X (XFP) • 2 x 10GBASE-X (XFP) • 2 x SummitStack • 2 x SummitStack-V80 • 2 x SummitStack128 Summit X480-48t • 48 x 10/100/1000BASE-T • 48 x 10/100/1000BASE-T • 48 x 10/100/1000BASE-T • 48 x 10/100/1000BASE-T • 48 x 10/100/1000BASE-T • 4 x 100/1000BASE-X • 4 x 100/1000BASE-X • 4 x 100/1000BASE-X • 4 x 100/1000BASE-X • 4 x 100/1000BASE-X SFP (shared with the last SFP (shared with the last SFP (shared with the last SFP (shared with the last SFP (shared with the last 4 10/100/1000BASE-T 4 10/100/1000BASE-T 4 10/100/1000BASE-T 4 10/100/1000BASE-T 4 10/100/1000BASE-T ports) ports) ports) ports) ports) • 4 x 10GBASE-X (XFP) • 2 x SummitStack • 2 x SummitStack-V80 • 2 x SummitStack128 Summit X480-48x • 48 x 100/1000BASE-X • 48 x 100/1000BASE-X • 48 x 100/1000BASE-X • 48 x 100/1000BASE-X • 48 x 100/1000BASE-X SFP SFP SFP SFP SFP • 4 x 10GBASE-X (XFP) • 2 x SummitStack • 2 x SummitStack-V80 • 2 x SummitStack128 Figure 1: Port Configuration Options for Summit X480 Switches 12 x 100/1000BASE-X 12 x 100/1000BASE-X or 2-port 10GBSE-X XFP 12 x 10/100/1000BASE-T Figure 2: Summit X480-24x Flexible Port Configuration Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Rack Server Save Power, Cost and Space ® Summit X480 provides virtualized end-of-row switches by physically installing top-of-rack switches with a 128G stacking module. 5391-03 Figure 3: SummitStack Across Racks in a Row 3 Extreme Networks Data Sheet: Summit X480 Series High-Performance and Highly Scalable Switching and Routing High Scalability in 1RU Compact Switch Summit X480 supports highly scalable Layer 2 or Layer 3 support up to 512K MAC addresses. Similarly for larger Layer 3 networks, as well as highly secure networks. Summit X480 has routing environments, Summit X480 can support core routing expansion memory called TCAM built inside which can be class scalability for up to 512K IPv4 routing LPM entries in partitioned by application types or by deployment scenarios. hardware (See Figure 4: Summit X480 scalability). For larger Layer 2 network deployments, Summit X480 can Type L2 MAC L3 Host L3 LPM Route ACL (IPv4/v6) (IPv4/v6) (Ingress/Egress) Lower Power Mode 32K 16K/8K 16K/8K 8K/1K Default (Layer 2+Layer 3) 256K 16K/8K 256K/8K 8K/1K Large Layer 2 Network Configuration 512K 16K/8K 16K/8K 8K/1K Large Layer 3 Network Configuration 32K 16K/8K 512K/8K 8K/1K Security Configuration 32K 16K/8K 16K/8K 60K/1K Figure 4: Summit X480 Scalability Supports Virtualized Data Centers Summit X480 switches also support Direct Attach™, which support XNV™ (ExtremeXOS Network Virtualization), a set of eliminates the virtual switch layer, simplifying the network and software modules for the ExtremeXOS based switching improving performance. Direct Attach enables data center product portfolio, and available via the Data Center Feature simplification by reducing network tiers from 4 or 5 tiers to just Pack for Extreme Networks Ridgeline™, a network and service 3 or 2 tiers, depending on the size of the data center. To further management application. XNV brings insight, control and enhance data center operations, Summit X480 switches automation for highly virtualized data centers to the network. 4 Extreme Networks Data Sheet: Summit X480 Series High-Performance and Highly Scalable Switching and Routing Intelligent Switching and MPLS/ H-VPLS Support Summit X480 supports sophisticated and intelligent Layer 2 supports MPLS LSP based Layer 3 forwarding and Hierarchical switching, as well as Layer 3 IPv4/IPv6 routing including VPLS (H-VPLS) for transparent LAN services. With H-VPLS, policy-based switching/routing, Provider Bridges, bidirectional transparent Layer 3 networks can be extended throughout the ingress and egress Access Control Lists, and bandwidth control Layer 3 network cloud by using a VPLS tunnel between the by 8 Kbps granularity both for ingress and egress. To provide regional transparent LAN services typically built by Provider scalable network architectures used mainly for Carrier Ethernet Bridges (IEEE 802.1ad) technology (see Figure 5: Summit X480 network deployment, through a feature pack Summit X480 in a Carrier Ethernet application). Content and Subscriber Access Metro WAN Core Service Providers Residential Fixed Video IPTV • DSL Metro Core • TDM Metro Aggregation • CMTS 96-port 10/100/1000BASE-T, MPU21 Voice VOD • PON Summit X480 • FTTX Core Router Business Metro Mobile Mobile Data Aggregation 1 GbE 10 GbE Summit X480 96-port 10/100/1000BASE-T, MPU21 Private Data Mobile Video Wireless Metro Aggregation • Mobile Core Router Public IP E-LAN • LTE ® Summit X480 ® BlackDiamond • WiMAX 8810 with 8900-xl Mobile Series Modules E-Line Roaming IP Services Metro Ethernet Transport MPLS IP Services 5392-03 Figure 5: Summit X480 in a Carrier Ethernet Application 5 Extreme Networks Data Sheet: Summit X480 Series High Availability Powered by the ExtremeXOS OS, Summit X480 supports process recovery and application upgrades without the need for a system reboot. Summit X480 provides the high network availability required for mission-critical servers and applications through its advanced modular OS, highly available hardware architecture and carrier-grade network redundancy protocols. Software-Enhanced Availability Modular Operating System for Software-enhanced availability allows users to remain con- Continuous Operation nected to the network even if part of the network infrastructure Preemptive Multitasking and Protected is down. Summit X480 continuously checks for problems in the Memory uplink connections using advanced Layer 3 protocols such as Summit X480 series switches allow each of many applica- OSPF, VRRP and Extreme Standby Router Protocol™ (ESRP, tions—such as Open Shortest Path First (OSPF) and Spanning supported in Layer 2 or Layer 3), and dynamically routes traffic Tree Protocol (STP)—to run as separate OS processes that are around the problem. protected from each other. This drives increased system Equal Cost Multipath integrity and inherently protects against DoS attacks. Equal Cost Multipath (ECMP) routing allows uplinks to be load Process Monitoring and Restart balanced for performance and cost savings while also support- ExtremeXOS increases network availability using process ing redundant failover. If an uplink fails, traffic is automatically monitoring and restart. Each independent OS process is routed to the remaining uplinks and connectivity is maintained. monitored in real time. If a process becomes unresponsive or stops running, it can be automatically restarted. Link Aggregation (802.3ad) Link aggregation (LAG) allows trunking of up to eight links on a Loadable Software Modules single logical connection. A maximum of 128 link aggregation The modular design of ExtremeXOS OS allows the upgrading of groups can be created. individual software modules, should this be necessary, leading to higher availability in the network (See Figure 7: ExtremeXOS Multi-Switch LAG (M-LAG) modular design). M-LAG can address bandwidth limitations and improve network resiliency, in part by routing network traffic around bottlenecks, reducing the risks of a single point of failure, and High Availability Network Protocols allowing load balancing across multiple switches. Ethernet Automatic Protection Switching (EAPS) Voice-Grade Stacking with SummitStack EAPS allows the IP network to provide the level of resiliency All SummitStack stacking architecture is designed to support and uptime that users expect from their traditional voice mission-critical applications by its highly available, rapid network. EAPS is more adaptable than Spanning Tree or Rapid failover capability with n-1 master redundancy, distributed Spanning Tree Protocols and offers sub-second (less than 50 Layer 2 and Layer 3 switching, link aggregation across the milliseconds) recovery that delivers consistent failover regard- stack, and distributed uplinks. SummitStack supports up to less of the number of VLANs, network nodes or network eight units in a stack, including any mix of Summit X650, X480, topology. Since EAPS allows the network to recover almost X460, X450a, X450e and X250e running the same version of transparently, Voice-over-IP (VoIP) calls will not drop and ExtremeXOS and provides 50 milliseconds failover for path digital video feeds will not freeze or pixelize in most situations. failure and hitless master/backup failover along with hitless protocol support such as OSPF graceful restart and Network Spanning Tree/Rapid Spanning Tree Login user authentication. Protocols Summit X480 supports Spanning Tree (802.1D), Per VLAN Spanning Tree (PVST+), Rapid Spanning Tree (802.1w) and Multiple Instances of Spanning Tree (802.1s) protocols for Layer 2 resiliency. 6 Extreme Networks Data Sheet: Summit X480 Series High Availability Alternatively, you may choose high-speed 80 Gbps stacking, Summit X480 provides chassis-like management and availability which is ideal for demanding applications where a high volume with its SummitStack stacking technology (See Figure 8: of traffic traverses through the stacking links, yet bandwidth is SummitStack stacking architecture). not compromised through stacking. SummitStack-V80 also Hardware Redundancy breaks the distance limitation for stacking technology by using QSFP+ technology. SummitStack-V80 can support passive Summit X480 supports a dual redundant AC/DC power supply copper cable (up to 5m), active multi-mode fiber cable (up to to provide high availability. The power supply can be hot- 100m), and QSFP+ optical transceivers which will be the swapped and replaced should it fail. Summit X480 supports a standard technology for 40 GbE. With SummitStack-V80, the hot-swappable, field replaceable fan. Summit X460 provides a flexible stacking solution inside the data center or central office to create a virtualized switching infrastructure across rows of racks. SummitStack-V80 is compatible with Summit X460, X480 and X670V switches running the same version of ExtremeXOS. Removable Fan Redundant Hot-Swappable VIM2 Slot (Hot-Swappable with Summit X480) AC/DC PSU 4-port 10G XFP SummitStack128G SummitStack-V80 SummitStack 40G Figure 6: Summit X480 High Availability Design 1 3 • Processes are monitored • Single management point for up to eight units Memory protected Designed to allow and can be restarted or • High-speed 40G–128G stacking processes under application other action taken if real-time modules to be necessary • Rapid Failover for converged applications SSH-2 scheduling that upgraded during V1.3.2 cannot impact runtime • Can mix Summit X650, X480, X460, X450e, X450a, and • Hitless failover each other nor infrastructure for dual X250e series switches for SummitStack™ 40 Gbps stacking kernel management systems and stacking 2 Application Third modules can be SSH-2 Party BGP OSPF added during V1.3.1 Application runtime ExtremeXOS Kernel Loadable Kernel Module 5027-04 5389-05 Figure 7: ExtremeXOS Modular Design Figure 8: SummitStack Stacking Architecture 7 Extreme Networks Data Sheet: Summit X480 Series Comprehensive Security Management Implementing a secure network means providing protection at the network perimeter as well as the core. Summit X480 uses advanced security functions in protecting your network from known or potential threats. communicate with other ports in the same VLAN over Layer 2 Robust IP and MAC or Layer 3. Private VLAN ports can only communicate with a Security Framework designated “uplink” port. In addition, a Private VLAN provides separation of broadcast domains within the same VLAN. NetLogin Network Login provides three types of authentication—Web- based, MAC-based, and 802.1x—to properly authenticate Threat Detection and Response network users against RADIUS servers. When combined with CLEAR-Flow Security Rules Engine Extreme Networks Universal Port Manager (UPM), IT adminis- CLEAR-Flow provides first order threat detection and mitiga- trators can dynamically provision policies to associated tion, and mirrors traffic to appliances for further analysis of network users based on roles or UPM profiles. suspicious traffic in the network. Media Access Control (MAC) Security MAC security allows the lockdown of a port to a given MAC Protocol Anomaly Detection address and limiting the number of MAC addresses on a port. The Extreme Networks chipsets contain built-in hardware This can be used to dedicate ports to specific hosts or devices protocol checkers that support port security features for and avoid abuse of the port. In addition, an aging timer can security applications, such as stateless DoS protection. The be configured for the MAC lockdown, protecting the network protocol checkers allow users to drop the packets based on from the effects of attacks using (often rapidly) changing conditions, which are checked for ingress packets prior to the MAC addresses. Layer 2/Layer 3 entry table. IP Security sFlow ExtremeXOS IP security framework protects the network sFlow® is a sampling technology that provides the ability to infrastructure, network services and host computers from sample application-level traffic flows on all interfaces rogue access, spoofing and man-in-the-middle attacks. It also simultaneously. protects the network from statically configured and/or spoofed IP addresses and builds an external trusted database of IPFIX MAC/IP/port bindings providing the traffic’s source from a IPFIX (Internet Protocol Flow Information eXport) defines an specific address for immediate defense. Internet standards-track protocol for a follow-on protocol to the proprietary Netflow. The technology is a complementary Identity Manager protocol to sFlow. IPFIX gathers information about network Identity Manager allows network managers to track users who flows through the switch and sends the information to an access their network. User identity is captured based on external collector. Summit X480 includes hardware support to NetLogin authentication, LLDP discovery and Kerberos keep track of the flow records. snooping. ExtremeXOS uses the information to then report on the MAC, VLAN, computer hostname, and port location of the Port Mirroring user. Further, Identity Manager can create both roles and Summit X480 supports many-to-one and one-to-many port policies, and then bind them together to create role-based mirroring. This allows the mirroring of traffic to an external profiles based on organizational structure or other logical network appliance such as an intrusion detection device for groupings, and apply them across multiple users to allow trend analysis or for utilization by a network administrator for appropriate access to network resources. diagnostic purposes. Port mirroring can also be enabled across switches in a stack. Private VLANs Private VLANs provide port-to-port security to prevent unauthorized communication of users within the same VLAN. Unlike normal VLANs, ports enabled for Private VLANs cannot 8 Extreme Networks Data Sheet: Summit X480 Series Comprehensive Security Management Extreme Networks has developed tools that simplify and help Line-Rate ACLs in efficiently managing your network. Ridgeline network and ACLs are one of the most powerful components used in service management provides fault, configuration, accounting, controlling network resource utilization as well as protecting performance and security functions, allowing more effective the network. ACLs are used for filtering the traffic, as well as management of Extreme Networks products, solutions and classifying the traffic flow to control bandwidth, priority, third-party devices, in a converged network. mirroring, and policy-based routing/switching. For carrier networks, Ridgeline enables the shift from reactive Denial of Service Protection circuit monitoring to proactive service management. The key Summit X480 effectively handles Denial of Service (DoS) features integrated into the Service Advisor Feature Pack unify attacks. If the switch detects an unusually large number of service fulfillment, service assurance and service engineering to packets in the CPU input queue, it assembles ACLs that enable carriers to more effectively manage next-generation automatically stop these packets from reaching the CPU. After residential triple play, business Ethernet and Ethernet mobile a period of time, these ACLs are removed, and reinstalled if the backhaul services. attack continues. Secure and Comprehensive Network Management Summit X480 supports comprehensive network management through Command Line Interface (CLI), SNMP v1, v2c, v3, and ExtremeXOS ScreenPlay™ embedded XML-based Web user interface. With a variety of management options and consis- tency across other Extreme Networks modular and stackable switches, Summit X480 series switches provide ease of management for demanding converged applications. 9 Extreme Networks Data Sheet: Summit X480 Series Target Applications Top-of-Rack Switch for Servers in the Enterprise Data Centers Campus Network In the enterprise data center, many servers and Core Layer storage systems are packed in racks, with all ® BlackDiamond BlackDiamond 8810 8810 systems needing high-speed connectivity. A Access Layer top-of-rack architecture is one way to simplify the Top of the Rack cabling infrastructure and minimize the space ® Summit X480 Summit X650 Summit X480 Summit X650 Summit X480 Summit X650 requirements in the enterprise data center. Summit X480 is optimized to support high-density Gigabit Ethernet connectivity for servers and other network-attached devices and provides Server Server Server Server Server Server high-speed 80 Gbps or 128 Gbps stacking Rack Rack Rack Rack Rack Rack 5390-03 connectivity with the Summit X650 10 Gigabit Ethernet switch to provide the hybrid deployment Figure 9: Top-of-Rack Architecture with Hybrid Deployment for both gigabit and 10 gigabit enabled servers in the data centers. High-Performance 10 Gigabit Core Switch for a Small Network and ® Summit X460 Summit X460 Aggregation Switch in a Traditional Three-Tiered Network Summit X480 offers enterprise core-class scalability for both Layer 2 and Layer 3 switching. Summit X480 Summit X480 Summit X480 can support up to 512,000 Layer 2 MAC addresses or 512,000 IPv4 longest prefix Summit X480 Summit X480 matching routes. The Summit X480 switch can 5393-03 also be used in the network aggregation layer in an enterprise network. With its versatile design, Figure 10: High-Performance 10G Core Switch Summit X480 can help simplify enterprise network deployment. Network Core ® Summit X480 Summit X480 Summit X460 Summit X450e Summit X460 Summit X450e 5394-03 Figure 11: Summit X480 as an Aggregation Switch in a Three-Tier Network 10 Extreme Networks Data Sheet: Summit X480 Series Target Applications Carrier Ethernet Network Switch Content and Subscriber Access Metro WAN Core Service Providers that can Aggregate Connectivity for First Mile Access Concentrators Residential Summit X480 is an ideal service delivery platform Fixed Video IPTV • DSL for Carrier Ethernet networks. The advanced Metro Core • TDM Metro Aggregation • CMTS traffic management, resiliency and scalability 96-port 10/100/1000BASE-T, MPU21 Voice VOD • PON Summit X480 • FTTX features give it the flexibility to be deployed at Core Router Business Metro Mobile Mobile Data Aggregation the Provider Edge or as an aggregation switch. 1 GbE 10 GbE Summit X480 96-port 10/100/1000BASE-T, MPU21 Private Data Mobile Video By supporting highly scalable Layer 2 and Wireless Metro Aggregation • Mobile Layer 3 features along with MPLS/H-VPLS in Core Router Public IP E-LAN • LTE ® Summit X480 ® BlackDiamond • WiMAX hardware, Summit X480 can help simplify the 8810 with 8900-xl Mobile Series Modules E-Line network deployment. Roaming IP Services Metro Ethernet Transport MPLS IP Services 5392-03 Figure 12: Summit X480 in a Carrier Ethernet Application 11 Extreme Networks Data Sheet: Summit X480 Series Technical Specifications • RFC 2021 RMON2 (probe configuration) • RPF (Unicast Reverse Path Forwarding) ExtremeXOS 12.5 • RFC 2613 SMON MIB Control via ACLs • RFC 2925 Ping/Traceroute MIB • Wire-speed ACLs Supported Protocols • RFC 2668 802.3 MAU MIB • Rate Limiting/Shaping by ACLs • draft-ietf-hubmib-mau-mib-v3-02.txt • IP Broadcast Forwarding Control Switching • RFC 1643 Ethernet MIB • ICMP and IP-Option Response Control • Switching (EAPS) and EAPSv2 • RFC 1493 Bridge MIB • SYN attack protection • IEEE 802.1D – 1998 Spanning Tree Protocol • RFC 2096 IPv4 Forwarding Table MIB • CPU DoS Protection with traffic rate-limiting (STP) • RFC 2737 Entity MIB v2 to management CPU • IEEE 802.1D – 2004 Spanning Tree Protocol • RFC 2233 Interface MIB • Robust against common network attacks: (STP and RSTP) • RFC 3621 PoE-MIB (PoE switches only) – CERT (http://www.cert.org) • IEEE 802.1w – 2001 Rapid Reconfiguration • IEEE 802.1ag MIB – CA-2003-04: “SQL Slammer” for STP, RSTP • Secure Shell (SSH-2) client and server – CA-2002-36: “SSHredder” • IEEE 802.1Q – 2003 (formerly IEEE 802.1s) • Secure Copy (SCP-2) client and server – CA-2002-03: SNMP vulnerabilities Multiple Instances of STP, MSTP • Secure FTP (SFTP) server – CA-98-13: tcp-denial-of-service • EMISTP, Extreme Multiple Instances of • sFlow version 5 – CA-98.01: smurf Spanning Tree Protocol • RFC 3917 IPFIX – CA-97.28: Teardrop_Land -Teardrop and • PVST+, Per VLAN STP (802.1Q interoperable) • Configuration logging “LAND“ attack • Draft-ietf-bridge-rstpmib-03.txt – Definitions • Multiple Images, Multiple Configs – CA-96.26: ping of Managed Objects for Bridges with Rapid • RFC 3164 BSD Syslog Protocol with Multiple – CA-96.21: tcp_syn_flooding Spanning Tree Protocol Syslog Servers – CA-96.01: UDP_service_denial • Extreme Standby Router Protocol (ESRP) – 999 Local Messages (criticals stored – CA-95.01: IP_Spoofing_Attacks_and_ • IEEE 802.1Q – 1998 Virtual Bridged Local across reboots) Hijacked_ Terminal_Connections Area Networks • Extreme Networks vendor MIBs (includes – IP Options Attack • IEEE 802.3ad Static load sharing configura- FDB, PoE, CPU, Memory MIBs) • Host Attack Protection tion and LACP based dynamic configuration • XML APIs over Telnet/SSH and HTTP/HTTPS – Teardrop, boink, opentear, jolt2, newtear, • Software Redundant Ports • Web-based device management interface – nestea, syndrop, smurf, fraggle, papasmurf, • Multi-switch Link Aggregation Groups ExtremeXOS ScreenPlay™ synk4, raped, winfreeze, ping –f, ping of (M-LAG) • IP Route Compression death, pepsi5, Latierra, Winnuke, Simping, • IEEE 802.1AB – LLDP Link Layer • SFF-8472 DDMI (Digital Diagnostics Sping, Ascend, Stream, Land, Octopus Discovery Protocol Monitoring Interface) • LLDP Media Endpoint Discovery (LLDP-MED), Security, Router Protection • Stacking – SummitStack, SummitStack-V ANSI/TIA-1057, draft 08 and SummitStack128 • IP Security – DHCP enforcement via Disable • Extreme Discovery Protocol (EDP) ARP Learning • Extreme Loop Recovery Protocol (ELRP) Security, Switch and Network • IP Security – Gratuitous ARP Protection • Extreme Link State Monitoring (ELSM) • IP Security – DHCP Secured ARP/ARP Protection • IEEE 802.1ag L2 Ping and traceroute, Validation • Secure Shell (SSH-2), Secure Copy (SCP-2) Connectivity Fault Management • Routing protocol MD5 authentication and SFTP client/server with encryption/ • ITU-T Y.1731 Frame delay measurements authentication (requires export controlled Security Detection and encryption module) Management and Traffic Protection • SNMPv3 user based security, with Analysis encryption/authentication (see above) • CLEAR-Flow, threshold-based alerts and • RFC 2030 SNTP, Simple Network Time • RFC 1492 TACACS+ actions (in non-SummitStack configuration Protocol v4 • RFC 2138 RADIUS Authentication only) • RFC 854 Telnet client and server • RFC 2139 RADIUS Accounting • Identity Manager • RFC 783 TFTP Protocol (revision 2) • RFC 3579 RADIUS EAP support for 802.1x • RFC 951, 1542 BootP • RADIUS Per-command Authentication IPv4 Host Services • RFC 2131 BOOTP/DHCP relay agent and • Access Profiles on All Routing Protocols • RFC 1122 Host Requirements DHCP server • Access Policies for Telnet/SSH-2/SCP-2 • RFC 768 UDP • RFC 1591 DNS (client operation) • Network Login – 802.1x, Web and • RFC 791 IP • RFC 1155 Structure of Management MAC-based mechanisms • RFC 792 ICMP Information (SMIv1) • IEEE 802.1x – 2001 Port-Based Network • RFC 793 TCP • RFC 1157 SNMPv1 Access Control for Network Login • RFC 826 ARP • RFC 1212, RFC 1213, RFC 1215 MIB-II, • Multiple supplicants with multiple VLANs • RFC 894 IP over Ethernet Ethernet-Like MIB & TRAPs for Network Login (all modes) • RFC 1027 Proxy ARP • RFC 1573 Evolution of Interface • Fallback to local authentication database • RFC 2068 HTTP server • RFC 1650 Ethernet-Like MIB (update of (MAC and Web-based methods) • IGMP v1/v2/v3 Snooping with Configurable RFC 1213 for SNMPv2) • Guest VLAN for 802.1x Router Registration Forwarding • RFC 1901, 1905 – 1908 SNMPv2c, SMIv2 and • RFC 1866 HTML – Used for Web-based Net- • IGMP Filters Revised MIB-II work Login and ExtremeXOS ScreenPlay • PIM Snooping • RFC 2576 Coexistence between SNMP • SSL/TLS transport – used for Web-based • Static IGMP Membership Version 1, Version 2 and Version 3 Network Login and ExtremeXOS Screen- • Multicast VLAN Registration (MVR) • RFC 2578 – 2580 SMIv2 (update to Play (requires export controlled encryption RFC 1902 – 1903) module) IPv4 Router Services • RFC 3410 – 3415 SNMPv3, user based • MAC Security – Lockdown and Limit • RFC 1812 Requirements for IP Version 4 security, encryption and authentication • IP Security – RFC 3046 DHCP Option 82 Routers • RFC 3826 – The Advanced Encryption with port and VLAN ID • RFC 1519 CIDR Standard (AES) Cipher Algorithm in the • IP Security – Trusted DHCP Server • RFC 1256 IPv4 ICMP Router Discovery (IRDP) SNMP User-based Security Model • Layer 2/3/4 Access Control Lists (ACLs) • Static Unicast Routes • RFC 1757 RMON 4 groups: Stats, History, • RFC 2267 Network Ingress Filtering • Static Multicast Routes Alarms and Events 12 Extreme Networks Data Sheet: Summit X480 Series Technical Specifications • RFC 1058 RIP v1 • MAC-based VLANs Core Protocols for Layer 2, • Multiple STP domains per VLAN • RFC 2453 RIP v2 IPv4 and IPv6 • Upstream Forwarding Only/Disable Flooding • Static ECMP Requires Core License • RFC 5517 Private VLANs • RFC 1112 IGMP v1 • VLAN Translation • EAPSv2 Shared Ports – multiple • RFC 2236 IGMP v2 • IEEE 802.1ad Provider Bridge Network, interconnections between rings • RFC 3376 IGMP v3 virtual MANs (vMANs) • PIM-DM Draft IETF PIM Dense Mode • RFC 2933 IGMP MIB • vMAN Ethertype Translation/Secondary draft-ietf-idmr-pim-dm-05.txt, draft-ietf- • RFC 2096 IPv4 Forwarding Table MIB vMAN Ethertype pim-dm-new-v2-04.txt • RFC 1724 RIPv2 MIB • Multicast Support for PVLAN • RFC 3618 Multicast Source Discovery • RFC 3768 VRRPv2 • Multicast Support for VLAN Aggregation Protocol (MSDP) • RFC 2787 VRRP MIB • VLAN Aggregation • RFC 3446 Anycast RP using PIM and MSDP • RFC 2328 OSPF v2 (Edge-mode) • RFC 2740 OSPFv3, OSPF for IPv6 • OSPF ECMP • RFC 1771 Border Gateway Protocol 4 MPLS and VPN Services • OSPF MD5 Authentication • RFC 1965 Autonomous System Confedera- • RFC 1587 OSPF NSSA Option Multi-Protocol Label Switching (MPLS) tions for BGP • RFC 1765 OSPF Database Overflow • RFC 2796 BGP Route Reflection (supersedes Requires MPLS Feature Pack License • RFC 2370 OSPF Opaque LSA Option RFC 1966) • RFC 2961 RSVP Refresh Overhead • RFC 3623 OSPF Graceful Restart • RFC 1997 BGP Communities Attribute Reduction Extensions • RFC 1850 OSPFv2 MIB • RFC 1745 BGP4/IDRP for IP-OSPF Interaction • RFC 3031 Multiprotocol Label Switching • RFC 2362 PIM-SM (Edge-mode) • RFC 2385 TCP MD5 Authentication for BGPv4 Architecture • RFC 2934 PIM MIB • RFC 2439 BGP Route Flap Damping • RFC 3032 MPLS Label Stack Encoding • RFC 2918 Route Refresh Capability for BGP-4 • RFC 3569, draft-ietf-ssm-arch-06.txt • RFC 3036 Label Distribution Protocol (LDP) • RFC 3392 Capabilities Advertisement with PIM-SSM PIM Source Specific Multicast • RFC 3209 RSVP-TE: Extensions to RSVP for BGP-4 • draft-ietf-pim-mib-v2-o1.txt LSP Tunnels • RFC 4360 BGP Extended Communities • Mtrace, a “traceroute” facility for IP • RFC 3630 Traffic Engineering Extensions Attribute Multicast: draft-ietf-idmr-traceroute-ipm-07 to OSPFv2 • RFC 4486 Subcodes for BGP Cease • Mrinfo, the multicast router information tool • RFC 3811 Definitions of Textual Conventions Notification message (TCs) for Multiprotocol Label Switching based on Appendix-B of draft-ietf-idmr- • draft-ietf-idr-restart-10.txt Graceful Restart (MPLS) Management dvmrp-v3-11 Mechanism for BGP • RFC 3812 Multiprotocol Label Switching • RFC 4760 Multiprotocol extensions for BGP-4 (MPLS) Traffic Engineering (TE) Manage- IPv6 Host Services • RFC 1657 BGP-4 MIB ment Information Base (MIB) • RFC 3587, Global Unicast Address Format • RFC 4893 BGP Support for Four-Octet AS • RFC 3813 Multiprotocol Label Switching • Ping over IPv6 transport Number Space (MPLS) Label Switching Router (LSR) • Traceroute over IPv6 transport • Draft-ietf-idr-bgp4-mibv2-02.txt – Enhanced Management Information Base (MIB) • RFC 5095, Internet Protocol, Version 6 BGP-4 MIB • RFC 3815 Definitions of Managed Objects for (IPv6) Specification • RFC 1195 Use of OSI IS-IS for Routing in the Multiprotocol Label Switching (MPLS), • RFC 4861, Neighbor Discovery for IP TCP/IP and Dual Environments (TCP/IP Label Distribution Protocol (LDP) transport only) Version 6, (IPv6) • RFC 4090 Fast Re-route Extensions to • RFC 2763 Dynamic Hostname Exchange • RFC 2463, Internet Control Message RSVP-TE for LSP (Detour Paths) Mechanism for IS-IS Protocol (ICMPv6) for the IPv6 Specification • RFC 4379 Detecting Multi-Protocol Label • RFC 2966 Domain-wide Prefix Distribution • RFC 2464, Transmission of IPv6 Packets Switched (MPLS) Data Plane Failures with Two-Level IS-IS over Ethernet Networks (LSP Ping) • RFC 2973 IS-IS Mesh Groups • RFC 2465, IPv6 MIB, General Group and • draft-ietf-bfd-base-09.txt Bidirectional • RFC 3373 Three-way Handshake for IS-IS Forwarding Detection Textual Conventions Point-to-Point Adjacencies • RFC 2466, MIB for ICMPv6 Layer 2 VPNs • Draft-ietf-isis-restart-02 Restart Signaling • RFC 2462, IPv6 Stateless Address Auto for IS-IS Requires MPLS Feature Pack License Configuration – Host Requirements • Draft-ietf-isis-ipv6-06 Routing IPv6 with IS-IS • RFC 4447 Pseudowire Setup and Maintenance • RFC 1981, Path MTU Discovery for IPv6, • Draft-ietf-isis-wg-multi-topology-11 Multi using the Label Distribution Protocol (LDP) August 1996 – Host Requirements Topology (MT) Routing in IS-IS • RFC 4448 Encapsulation Methods for • RFC 3513, Internet Protocol Version 6 (IPv6) Transport of Ethernet over MPLS Networks Addressing Architecture QoS and VLAN Services • RFC 4762 Virtual Private LAN Services • Telnet server over IPv6 transport Quality of Service and Policies (VPLS) using Label Distribution Protocol • SSH-2 server over IPv6 transport (LDP) Signaling • IEEE 802.1D – 1998 (802.1p) Packet Priority • RFC 5085 Pseudowire Virtual Circuit IPv6 Interworking and • RFC 2474 DiffServ Precedence, including Connectivity Verification (VCCV) 8 queues/port Migration • RFC 5542 Definitions of Textual Conventions • RFC 2598 DiffServ Expedited Forwarding (EF) • RFC 2893, Configured Tunnels for Pseudowire (PW) Management • RFC 2597 DiffServ Assured Forwarding (AF) • RFC 3056, 6to4 • RFC 5601 Pseudowire (PW) Management • RFC 2475 DiffServ Core and Edge Information Base (MIB) Router Functions IPv6 Router Services • RFC 5602 Pseudowire (PW) over MPLS PSN • RFC 2462, IPv6 Stateless Address Auto Traffic Engineering MIB Configuration – Router Requirements • RFC 3784 IS-IS Externs for Traffic Engineer- • RFC 5603 Ethernet Pseudowire (PW) MIB • RFC 1981, Path MTU Discovery for IPv6, ing (wide metrics only) • draft-ietf-l2vpn-vpls-mib-02.txt Virtual August 1996 – Router Requirements Private LAN Services (VPLS) MIB VLAN Services: VLANs, vMANs • RFC 2710, IPv6 Multicast Listener Discovery v1 (MLDv1) Protocol Data Center • IEEE 802.1Q VLAN Tagging • Static Unicast routes for IPv6 • IEEE 802.1v: VLAN classification by Protocol • Direct Attach (IEEE 802 VEPA) (Supported • RFC 2080, RIPng and Port in a feature pack) • Port-based VLANs • RFC 2740 OSPF v3 (edge mode) • XNV (ExtremeXOS Network Virtualization) • Protocol-based VLANs • Static ECMP 13 Extreme Networks Data Sheet: Summit X480 Series Technical Specifications • 48-port 100/1000BASE-X SFP, 1 open slot QoS, Rate Limiting Summit X480 for VIM2 modules (Summit X480-48x) • 8,192 ingress bandwidth meters/Front • 1-port RS-232c Serial (control port) panel ports and /VIM2-10G4X module General Specifications • 1 10/100/1000BASE-T out-of-band • Ingress and egress bandwidth policing/rate management port limiting per flow/ACL Performance • 8 QoS egress queues/port External Ports for VIM2 Modules • 176 Gbps switch fabric bandwidth • Egress bandwidth rate shaping per egress • 4-port 10GBASE-X XFP (VIM2-10G4X) • 224 Gbps, 448 Gbps (with VIM2-10G4X) queue and per port • 2-port 20G SummitStack (VIM2-Summit- aggregated switch bandwidth • Rate Limiting Granularity: 8 Kbps Stack) • 71.4 Mpps, 101.2 Mpps (with VIM2-Summit- • 2-port 64G SummitStack LED Indicators Stack), 166.7 Mpps (with VIM2-Summit- (VIM2-SummitStack128) Stack128), 130.9 Mpps (with VIM2-10G4X) • Per port status LED including power status frame forwarding rate • System Status LEDs: management, fan Option Slot • Less than 4 microsecond latency (64-byte) and power • Slot for Versatile Interface Module 2 (VIM2) • 9216 Byte maximum packet size (Jumbo available for Summit X480-24x, External Ports Frame) Summit X480-48t and Summit X480-48x • 12-port 100/1000BASE-X SFP, 12-port • 128 load sharing trunks, up to 8 members 100/1000BASE-X SFP and per trunk Power Supply Support 10/100/1000BASE-T Combo, 2-port • 4,094 VLANs (Port, Protocol, IEEE 802.1Q) • Summit X480 AC PSU and Summit X480 10GBASE-X XFP, 1 open slot for VIM2 • 8,192 ingress and 1,024 egress ACL rules/ DC PSU modules (Summit X480-24x) Front panel ports and /VIM2-10G4X module • 44-port 10/100/1000BASE-T, 4-port CPU, Memory 100/1000BASE-X SFP and • 64bit MIPS Processor Dual Core, 1GHz clock 10/100/1000BASE-T Combo, 1 open slot for • 1GB ECC DRAM VIM2 modules (Summit X480-48t) • 256MB Compact Flash • USB port for external USB flash Forwarding Tables and ACLs Summit X480 provides flexible configuration options for various deployments. Type L2 MAC L3 Host L3 LPM Route ACL (IPv4/v6) (IPv4/v6) (Ingress/Egress) Lower Power Mode 32K 16K/8K 16K/8K 8K/1K Default (Layer 2+Layer 3) 256K 16K/8K 256K/8K 8K/1K Large Layer 2 Network Configuration 512K 16K/8K 16K/8K 8K/1K Large Layer 3 Network Configuration 32K 16K/8K 512K/8K 8K/1K Security Configuration 32K 16K/8K 16K/8K 60K/1K Weight • Operating Altitude: 0-3,000 meters Physical Specifications (9,850 feet) • Summit X480-24x switch 20.9 lb (9.5 kg) Dimensions • Operational Shock (Half Sine): 30 m/s2 • Summit X480-48x switch 22.7 lb (10.3 kg) (3 g), 11ms, 60 Shocks • Summit X480-48t switch 21.2 lb (9.6 kg) Physical Dimensions • Operational Random Vibration: NOTE: Switch weights include installed fan • Summit X480-24x switch 3-500 MHz @ 1.5g rms module. They do not include installed VIM2 • Summit X480-48x switch modules or PSUs. Storage & Transportation Conditions • Summit X480-48t switch • VIM2-SummitStack module 2.03 lb (0.92 kg) (Packaged) Height: 1.73 inches (4.4 cm) • VIM2-10G4X module 2.76 lb (1.25 kg) Width: 17.4 inches (44.1 cm) • Transportation Temperature: -40° C to 70° C • VIM2-SummitStack128 module 2.05 lb Depth: 19.0 inches (48.3 cm) (-40° F to 158° F) (0.93 kg) • VIM2-SummitStack module • Storage and Transportation Humidity: • Summit X480 fan module 0.45 lb (0.99 kg) • VIM2-10G4X module 10% to 95% RH, non-condensing Fan Speed • VIM2-SummitStack128 module • Packaged Shock (Half Sine): 180 m/s2 (18 g), Height: 1.7 inches (4.3 cm) • Minimum speed 4500 RPM 6ms, 600 shocks Width: 5.2 inches (13.2 cm) • Maximum speed 18000 RPM • Packaged Sine Vibration: 5-62 Hz @ Velocity Depth: 9.9 inches (25.2 cm) 5mm/s, 62-500 Hz @ 0.2G • Summit X480 fan module Operating Specifications • Packaged Random Vibration: 5-20 Hz @ 1.0 Height: 1.7 inches (4.3 cm) ASD w/-3dB/oct. from 20-200 Hz • Operating Temperature Range: Width: 5.2 inches (13.2 cm) • 14 drops min on sides & corners @ 42” 0° C to 45° C (32° F to 113° F) Depth: 9.9 inches (25.2 cm) (<15 kg box) • Operating Humidity: 10% to 93% relative humidity, non-condensing 14 Extreme Networks Data Sheet: Summit X480 Series Technical Specifications Summit X480-24x with VIM2-10G4X Summit X480-48x with No Installed VIM Power Specifications Module (DC Power Supply) (DC Power Supply) • Nominal input ratings 48 V, 7.5 A • Nominal input ratings 48 V, 8.0 A Summit X480-24x • Input current 5.7 A @ 48 V (low-line) • Input current 3.3 A @ 48 V (low-line) 4.2 A @ 60 V (high-line) 2.6 A @ 60 V (high-line) Summit X480-24x with No Installed VIM • Heat dissipation, Watts, BTU 246 W, 839 • Heat dissipation, Watts, BTU 158 W, (AC Power Supply) BTU/hr 540 BTU/hr • Nominal input ratings 100 to 240 V, • Power consumption, Watts, BTU 246 W, • Power consumption, Watts, BTU 158 W, 50/60 Hz, 3.5 A 839 BTU/hr 540 BTU/hr • Input current 2.0 A @ 100 V (low-line) Summit X480-24x with Summit X480-48x with 0.9 A @ 240 V (high-line) VIM2-SummitStack128 Module VIM2-SummitStack Module • Heat dissipation, Watts, BTU 195 W, 663 BTU/hr (DC Power Supply) (DC Power Supply) • Power consumption, Watts, BTU 195 W, • Nominal input ratings 48 V, 7.5 A • Nominal input ratings 48 V, 8.0 A 663 BTU/hr • Input current 3.5 A @ 48 V (low-line) • Input current 3.4 A @ 48 V (low-line) 2.8 A @ 60 V (high-line) 2.7 A @ 60 V (high-line) Summit X480-24x with • Heat dissipation, Watts, BTU 167 W, • Heat dissipation, Watts, BTU 163 W, VIM2-SummitStack Module 569 BTU/hr 556 BTU/hr (AC Power Supply) • Power consumption, Watts, BTU 167 W, • Power consumption, Watts, BTU 163 W, • Nominal input ratings 100 to 240 V, 569 BTU/hr 556 BTU/hr 50/60 Hz, 3.5 A Summit X480-48x with VIM2-10G4X • Input current 2.01 A @ 100 V (low-line) Summit X480-48x Module (DC Power Supply) 0.88 A @ 240 V (high-line) • Heat dissipation, Watts, BTU 200 W, 680 Summit X480-48x with No Installed VIM • Nominal input ratings 48 V , 8.0 A BTU/hr (AC Power Supply) • Input current 5.7 A @ 48 V (low-line) • Power consumption, Watts, BTU 200 W, 4.4 A @ 60 V (high-line) • Nominal input ratings 100 to 240 V, 680 BTU/hr • Heat dissipation, Watts, BTU 246 W, 50/60 Hz, 4.0 A 839 BTU/hr • Input current 2.0 A @ 100 V (low-line) Summit X480-24x with VIM2-10G4X • Power consumption, Watts, BTU 246 W, 0.9 A @ 240 V (high-line) Module (AC Power Supply) 839 BTU/hr • Heat dissipation, Watts, BTU 200 W, • Nominal input ratings 100 to 240 V, 675 BTU/hr Summit X480-48x with 50/60 Hz, 3.5 A • Power consumption, Watts, BTU 200 W, • Input current 2.4 A @ 100 V (low-line) VIM2-SummitStack128 Module 675 BTU/hr 1.1 A @ 240 V (high-line) (DC Power Supply) • Heat dissipation, Watts, BTU 241 W, 823 Summit X480-48x with • Nominal input ratings 48 V, 8.0 A BTU/hr VIM2-SummitStack Module • Input current 3.4 A @ 48 V (low-line) • Power consumption, Watts, BTU 241 W, 823 (AC Power Supply) 2.7 A @ 60 V (high-line) BTU/hr • Heat dissipation, Watts, BTU 165 W, • Nominal input ratings 100 to 240 V, 562 BTU/hr 50/60 Hz, 4.0 A Summit X480-24x with • Power consumption, Watts, BTU 165 W, • Input current 2.01 A @ 100 V (low-line) VIM2-SummitStack128 Module 562 BTU/hr 0.89 A @ 240 V (high-line) (AC Power Supply) • Heat dissipation, Watts, BTU 203 W, • Nominal input ratings 100 to 240 V , 50/60 Summit X480-48t 692 BTU/hr Hz, 3.5 A • Power consumption, Watts, BTU 203 W, • Input current 2.08 A @ 100 V (low-line) 0.91 Summit X480-48t with No Installed VIM 692 BTU/hr A @ 240 V (high-line) (AC Power Supply) • Heat dissipation, Watts, BTU 206 W, 704 Summit X480-48x with VIM2-10G4X • Nominal input ratings 100 to 240 V, BTU/hr Module (AC Power Supply) 50/60 Hz, 3.0 A • Power consumption, Watts, BTU 206 W, • Nominal input ratings 100 to 240 V, • Input current 1.9 A @ 100 V (low-line) 704 BTU/hr 50/60 Hz, 4.0 A 0.8 A @ 240 V (high-line) • Input current 2.3 A @ 100 V (low-line) • Heat dissipation, Watts, BTU 182 W, Summit X480-24x with No Installed VIM 1.0 A @ 240 V (high-line) 622 BTU/hr (DC Power Supply) • Heat dissipation, Watts, BTU 227 W, 774 • Power consumption, Watts, BTU 182 W, • Nominal input ratings 48 V, 7.5 A BTU/hr 622 BTU/hr • Input current 3.25 A @ 48 V (low-line) • Power consumption, Watts, BTU 227 W, 2.6 A @ 60 V (high-line) Summit X480-48t with 774 BTU/hr • Heat dissipation, Watts, BTU 156 W, VIM2-SummitStack Module 532 BTU/hr Summit X480-48x with (AC Power Supply) • Power consumption, Watts, BTU 156 W, VIM2-SummitStack128 Module • Nominal input ratings 100 to 240 V, 532 BTU/hr (AC Power Supply) 50/60 Hz, 3.0 A • Nominal input ratings 100 to 240 V, • Input current 1.89 A @ 100 V (low-line) Summit X480-24x with 50/60 Hz, 4.0 A 0.84 A @ 240 V (high-line) VIM2-SummitStack Module • Input current 2.04 A @ 100 V (low-line) • Heat dissipation, Watts, BTU 187 W, (DC Power Supply) 0.89 A @ 240 V (high-line) 639 BTU/hr • Nominal input ratings 48 V, 7.5 A • Heat dissipation, Watts, BTU 202 W, 688 • Power consumption, Watts, BTU 187 W, • Input current 3.4 A @ 48 V (low-line) BTU/hr 639 BTU/hr 2.7 A @ 60 V (high-line) • Power consumption, Watts, BTU 202 W, • Heat dissipation, Watts, BTU 161 W, 550 688 BTU/hr BTU/hr • Power consumption, Watts, BTU 161 W, 550 BTU/hr 15 Extreme Networks Data Sheet: Summit X480 Series Technical Specifications Summit X480-48t with VIM2-10G4X European Safety of ITE Power Supply Units Module (AC Power Supply) • EN60950-1:2006 • EN 60825-1+A2:2001 (Lasers Safety) • Nominal input ratings 100 to 240 V, Summit X480 AC PSU 50/60 Hz, 3.0 A • TUV-R GS Mark by German Notified Body For use with the Summit X480-24x, • 2006/95/EC Low Voltage Directive • Input current 2.34 A @ 100 V (low-line) Summit X480-48x, and 1.0 A @ 240 V (high-line) International Safety of ITE Summit X480-48t switches • Heat dissipation, Watts, BTU 232 W, • CB Report & Certificate per IEC 60950- 793 BTU/hr Physical Specifications 1:2006 + National Differences • Power consumption, Watts, BTU 232 W, • AS/NZS 60950-1 (Australia/New Zealand) • Height: 1.57 inches (4.0 cm) 793 BTU/hr • Width: 4.8 inches (12.3 cm) Summit X480-48t with EMI/EMC Standards • Depth: 13.31 Inches (33.8 cm) VIM2-SummitStack128 Module • Weight 3.64 lb (1.65 kg) North America EMC for ITE (AC Power Supply) Power Specifications • FCC CFR 47 part 15 Class A (U.S.) • Nominal input ratings 100 to 240 V, • Voltage input range 90 to 264 V • ICES-003 Class A (Canada) 50/60 Hz, 3.0 A • Nominal input ratings 100 to 240 V, • Input current 1.89 A @ 100 V (low-line) European EMC Standards 50 to 60 Hz, 8 A 0.84 A @ 240 V (high-line) • EN 55022:2006 Class A • Nominal input current at full loads • Heat dissipation, Watts, BTU 256 W, • EN 55024:A2-2003 Class A includes 12 A @ 90 V (low-line) 871 BTU/hr IEC 61000-4-2, 3, 4, 5, 6, 11 5 A @ 230 V (high-line) • Power consumption, Watts, BTU 256 W, • EN 61000-3-2,8-2006 (Harmonics) • Line frequency range 47 to 63 Hz 871 BTU/hr • EN 61000-3-3 1995+A2:2005 (Flicker) • Maximum inrush current 15 A Summit X480-48t with No Installed VIM • ETSI EN 300 386 v1.3.3, 2005-04 • Output 12 V, 37 A max, 450 Watts 3.3 V, (EMC Telecommunications) (DC Power Supply) 3 A max, 9.9 Watts • 2004/108/EC EMC Directive • Maximum continuous DC output shall not • Nominal input ratings 48 V, 7.0 A exceed 450 Watts • Input current 3.1 A @ 48 V (low-line) International EMC Certifications • Power supply input socket IEC 320 C14 2.4 A @ 60 V (high-line) • CISPR 22: 2006 Ed 5.2, Class A • Power cord input plug IEC 320 C13 • Heat dissipation, Watts, BTU 148 W, (International Emissions) • Power supply cord gauge 18 AWG (0.75 503 BTU/hr • CISPR 24:A2:2002 Class A mm2) up to 6 feet or 2 meters or 16 AWG • Power consumption, Watts, BTU 148 W, (International Immunity) (1.0 mm2) over 6 feet 503 BTU/hr • EC/EN 61000-4-2:2008 Electrostatic • Efficiency 84% typical at full load, high line Discharge, 8kV Contact, 15 kV Air, Criteria A Summit X480-48t with • EC/EN 61000-4-3:2008 Radiated Immunity VIM2-SummitStack Module Summit X480 DC PSU 10V/m, Criteria A (DC Power Supply) For use with the Summit X480-24x, X480-48x, • EC/EN 61000-4-4:2005 Transient Burst, 1 • Nominal input ratings 48 V, 7.0 A and X480-48t switches kV, Criteria A • Input current 3.24 A @ 48 V (low-line) • IEC/EN 61000-4-5:2005 Surge, 2 kV L-L, 2 Physical Specifications 2.5 A @ 60 V (high-line) kV L-G, Level 3, Criteria A • Heat dissipation, Watts, BTU 153 W, • Height: 1.57 inches (4.0 cm) • IEC/EN 61000-4-6:2007 Conducted 520 BTU/hr • Width: 4.8 inches (12.3 cm) Immunity, 0.15-80 MHz, 10V/m unmod. RMS, • Power consumption, Watts, BTU 153 W, • Depth: 13.31 Inches (33.8 cm) Criteria A 520 BTU/hr • Weight 2.58 lb (1.17 kg) • EC/EN 61000-4-11:2004 Power Dips & Summit X480-48t with VIM2-10G4X Power Specifications Interruptions, >30%, 25 periods, Criteria C Module (DC Power Supply) • Nominal Input -48 to -60 VDC, 24 A Country Specific • Nominal input ratings 48 V, 7.0 A • DC Voltage Input Range -40 to -75 V • VCCI Class A (Japan Emissions) • Maximum Input Amperages • Input current 3.1 A @ 48 V (low-line) • ACMA (C-Tick) (Australia Emissions) 2.4 A @ 60 V (high-line) 13.5 A @ 40 V • CCC Mark 11.2 A @ 48 V • Heat dissipation, Watts, BTU 148 W, • KCC Mark EMC Approval (Korea) 503 BTU/hr 7.5 A @ 72 V • Inrush Current 10 A peak • Power consumption, Watts, BTU 148 W, Telecom Standards 503 BTU/hr • Inrush Energy 1.5 A2S • EN/ETSI 300 386:2005-04 • Minimum wire size 14 AWG (1.5 mm2) Summit X480-48t with (EMC Telecommunications) copper stranded VIM2-SummitStack128 Module • EN/ETSI 300 019 (Environmental • DC Output 12 V , 36.7 A/3.3 V, 3.0 A for Telecommunications) (DC Power Supply) • DC Output Power (W) 450 W • NEBS Level 3 compliant to portions of • Nominal input ratings 48 V, 7.0 A GR-1089 Issue 4 & GR-63 Issue 3 as defined in • Input current 3.2 A @ 48 V (low-line) SR3580 with exception to filter requirement 2.5 A @ 60 V (high-line) All Summit X480 Series • MEF 9 • Heat dissipation, Watts, BTU 153 W, Switches • MEF 14 522 BTU/hr • Power consumption, Watts, BTU 153 W, IEEE 802.3 Media Access 522 BTU/hr Regulatory/Safety Standards North American Safety of ITE • IEEE 802.3ab 1000BASE-T • UL 60950-1 1st Ed., Listed Device (U.S.) • IEEE 802.3z 1000BASE-X • CSA 22.2#60950-1-03 1st Ed. (Canada) • IEEE 802.3ae 10GBASE-X • Complies with FCC 21CFR 1040.10 (U.S. Laser Safety) • CDRH Letter of Approval (U.S. FDA Approval) 16 Extreme Networks Data Sheet: Summit X480 Series Technical Specifications Environmental Standards • EN/ETSI 300 019-2-1 v2.1.2 (2000-09) – Class 1.2 Storage • EN/ETSI 300 019-2-2 v2.1.2 (1999-09) – Class 2.3 Transportation • EN/ETSI 300 019-2-3 v2.1.2 (2003-04) – Class 3.1e Operational • EN/ETSI 300 753 (1997-10) – Acoustic Noise • ASTM D3580 Random Vibration Unpackaged 1.5G Warranty • Ltd. 1-year on Hardware • 90-days on Software • For warranty details, visit www.extremenetworks.com/go/warranty 17 Extreme Networks Data Sheet: Summit X480 Series Ordering Information Part Number Name Description 16301 Summit X480-48t 48 10/100/1000BASE-T, 4 100/1000BASE-X unpopulated SFP (shared), No PSU with two unpopulated PSU slots, one VIM2 slot, ExtremeXOS Advanced Edge license 16303 Summit X480-24x 24 100/1000BASE-X unpopulated SFP, 12 10/100/1000BASE-T (shared), 2 unpopulated XFP ports, No PSU with two unpopulated PSU slots, one VIM2 slot, ExtremeXOS Advanced Edge license 16304 Summit X480-48x 48 100/1000BASE-X unpopulated SFP, No PSU with two unpopulated PSU slots, one VIM2 slot, ExtremeXOS Advanced Edge license 16311 VIM2-SummitStack VIM2-SummitStack, 2 SummitStack stacking ports 16312 VIM2-10G4X VIM2-10G4X, 4 10GBASE-X XFP ports 16313 VIM2-SummitStack128 VIM2-SummitStack128, 2 x 64G stacking ports 16315 VIM2-SummitStack-V80 VIM2-SummitStack-V80, 2 x 40G stacking ports 16321 Summit X480 Core License ExtremeXOS Core License for Summit X480 series switches 16322 Summit X480 MPLS ExtremeXOS MPLS Feature Pack for Summit X480 series switches Feature Pack 11011 Direct Attach Feature Pack Direct Attach Feature Pack for Summit X450a/X460/X480, Summit X650 and BlackDiamond 8800 Series with ExtremXOS 12.5.1 or Greater 10916 Summit X480/X650 FAN FAN module for Summit X480 and Summit X650 series switches, spare Module 10917 Summit X480 AC PSU AC Power Supply module for Summit X480 series switches 10918 Summit X480 DC PSU DC Power Supply module for Summit X480 series switches 10121 10GBASE-SR XFP 10GBASE-SR XFP Transceiver, 850nm, up to 300m on Multimode Fiber, LC Connector 10122 10GBASE-LR XFP 10GBASE-LR XFP Transceiver, 1310nm, up to 10km on Single-mode Fiber, LC Connector 10124 10GBASE-ER XFP 10GBASE-ER XFP Transceiver, 1550nm up to 40km on Single-mode Fiber, LC Connector 10125 10GBASE-ZR XFP 10GBASE-ZR XFP Transceiver, 1550nm, up to 80km on Single-mode Fiber, LC Connector 10200 Tunable DWDM XFP 10 Gigabit Ethernet XFP Tunable DWDM module, C-band, SMF 80km, LC connector 10051 1000BASE-SX SFP 1000BASE-SX SFP, LC Connector 10052 1000BASE-LX SFP 1000BASE-LX SFP, LC Connector 10053 1000BASE-ZX SFP 1000BASE-ZX SFP, Extra Long Distance SMF 70 km/21 dB Budget, LC Connector 10056 1000BASE-BX-D SFP 1000BASE-BX-D SFP, SMF (1490nm TX/1310nm RX Wavelength) 10057 1000BASE-BX-U SFP 1000BASE-BX-U SFP, SMF (1310nm TX/1490nm RX Wavelength) 1 10060 100FX/1000LX SFP 100FX/1000LX SFP, SMF, LC Connector (Requires MCP and 6dB Attenuator for 100FX-MMF Operation) 1 10063 100FX SFP 100FX SFP, MMF, LC Connector 10064 1000BASE-LX100 SFP 1000BASE-LX100 SFP, Extra Long Distance SMF 100 km/30dB Budget, LC Connector 1 10/100/1000BASE-T, SFP, CAT 5 cable 100m, RJ-45 Connector 10065 10/100/1000BASE-T SFP 10067 100BASE-FX SFP 100M SFP, 100FX MMF, (1310nm, 2km multimode transmission) LC connector 10066 100BASE-LX10 SFP 100M SFP, 100LX10 SMF, (1310nm 10km singlemode transmission) LC connector 10058 100BASE-BX-D SFP 100M SFP, 100BASE-BX-D, SMF (1550nm TX/1310nm RX wavelength), 100 Mbps bidirectional 10059 100BASE-BX-U SFP 100M SFP, 100BASE-BX-U, SMF (1310nm TX/1550nm RX wavelength), 100 Mbps bidirectional 1 Not supported on Combo ports 18 Extreme Networks Data Sheet: Summit X480 Series Ordering Information Part Number Name Description 10312 QSFP+ passive copper QSFP+ passive copper cable, 1.0M cable, 1.0M 10315 QSFP+ active fiber cable, QSFP+ active fiber cable, 10M 10M 10318 QSFP+ active fiber cable, QSFP+ active fiber cable, 100M 100M 16106 Stacking Cable, 0.5M SummitStack/UniStack™ Stacking Cable, 0.5M 16107 Stacking Cable, 1.5M SummitStack/UniStack Stacking Cable, 1.5M 16108 Stacking Cable, 3.0M SummitStack/UniStack Stacking Cable, 3.0M 2 16105 Stacking Cable, 5.0M SummitStack Stacking Cable, 5.0M 17030 Stacking Cable 64G, 1.0M SummitStack128 Stacking Cable, 1.0M 17026 Stacking Cable 128G to Conversion cable for SummitStack256 and SummitStack128, 1.0M 64G, 1.0M 17034 Stacking Cable 128G to Conversion cable for SummitStack256 and SummitStack, 1.0M 20G, 1.0M 17038 Stacking Cable 64G to Conversion cable for SummitStack128 and SummitStack, 1.0M 20G, 1.0M 2 Not supported when using with Summit X650 and UniStack Corporate Europe, Middle East, Africa Asia Pacific Japan and North America and South America Phone +65 6836 5437 Phone +81 3 5842 4011 Extreme Networks, Inc. Phone +31 30 800 5100 3585 Monroe Street Make Your Network Mobile Santa Clara, CA 95051 USA Phone +1 408 579 2800 extremenetworks.com © 2011 Extreme Networks, Inc. All rights reserved. Extreme Networks, the Extreme Networks logo, BlackDiamond, Direct Attach, Extreme Standby Router Protocol, ExtremeXOS, Ex- tremeXOS ScreenPlay, Ridgeline, Summit, SummitStack, UniStack and XNV are either registered trademarks or trademarks of Extreme Networks, Inc. in the United States and/or other countries. sFlow is the property of InMon Corporation. Specifications are subject to change without notice. 1625_09 05/11