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Table of Contents OmniStack LS 6200 _______________________________________________________________ 2 Hardware Overview ___________________________________________________________________ 3 OmniStack LS 6212 & 6212P ____________________________________________________________________ 5 OmniStack LS 6224 & 6224P ____________________________________________________________________ 5 OmniStack LS 6224U __________________________________________________________________________ 6 OmniStack LS 6248 & 6248P ______
OmniStack LS 6200 The OmniStack LS 6200 switches currently available are: • OS-LS-6212, Chassis that is a Fast Ethernet L2+ stackable, fixed configuration chassis in a 1U form factor consisting of 12 ports 10/100 RJ-45 ports, two 10/100/1000 RJ-45 ports and two combo ports. Combo ports consist of two additional 10/100/1000 RJ-45 and two mini-GBIC ports. MiniGBIC ports support Gigabit or Fast Ethernet MiniGBIC (SFP) optical transceivers, which can be ordered separately.
Hardware Overview 10/100 Networking To stay competitive, 21st century businesses must take advantage of new networking technologies that deliver quick and secure access to vital information from any location. Customers expect and demand that customizable user-centric services be securely provided over an always available environment, and they want to be able to access it from anywhere such as over the Internet.
The OS-LS-6200 family complements the existing portfolio of Alcatel.Lucent enterprise fixed-configuration workgroup switches which includes: • • OmniSwitch 6602 family of switches: stackable layer-3 10/100 with Gig uplinks OmniSwitch 6800 and 6850 families of switches: stackable layer-3 10/100/1000 capable of 10Gig uplinks. Alcatel.Lucent OmniVista Network Management System supports OS LS 6200. Alcatel.Lucent’s fixed configuration switches are part of the larger Alcatel.
OmniStack LS 6212 & 6212P • • OS-LS-6212, Chassis that is a Fast Ethernet L2+ stackable, fixed configuration chassis in a 1U form factor consisting of 12 ports 10/100 RJ-45 ports, two 10/100/1000 RJ-45 ports and two combo ports. Combo ports consist of two additional 10/100/1000 RJ-45 and two mini-GBIC ports. MiniGBIC ports support Gigabit or Fast Ethernet MiniGBIC (SFP) optical transceivers, which can be ordered separately.
OmniStack LS 6224U • OS-LS-6224U, Chassis which is a Fast Ethernet L2+ stackable fixed configuration chassis in a 1U form factor consisting of 24 ports 100Base-X SFP, two 10/100/1000 RJ-45 ports and two combo ports. Combo ports consist of two additional 10/100/1000 RJ-45 and two mini-GBIC ports. The 24 SFP ports accepts industry standard 100Base-X optical transceivers which are sold separately.
Front & Rear Panels OS-LS-6200 models include 12-, 24- and 48- port versions with PoE derivatives and a 24- port 100Base-X SFP version, a space saving design, innovative and cost effective 1:1 backup chassis and PoE power, and a feature set that is capable of supporting converged applications and emerging security solutions. Power Supply Receptacles There are two power receptacles on the rear panel of the switch. The standard power receptacle is for the AC power cord.
Combo ports The OS-LS-6200 is equipped with two Gigabit Ethernet SFP (mini-GBIC) plus two 10/100/1000 RJ-45 combo ports. They are located on the front panel. Users determine whether the mini-GBIC or 10/100/1000 ports will operate. The miniGBIC ports support full duplex mode only. The Small Form Factor Pluggable (SFP) transceiver slots are shared with two of the RJ-45 ports (Ports 25~26/49~50).
/100/1000BASE-T Ports There are two types of RJ-45 ports, Ethernet ports that operate at 10 Mbps, 100 Mbps or 1000 Mbps, half or full duplex, and Fiber ports that operate at 1000 Mbps, full duplex. Because all ports on this switch support automatic MDI/MDI-X operation, you can use straight-through cables for all network connections to PCs or servers, or to other switches or hubs.
OmniStack LS 6200 Chassis Technical Specifications OmniStack LS 6200 Dimensions & Weight Connectors/cabling Number of power supplies Power Supply Requirements The Main Power Supply options Power supply status is communicated through the physical LED, CLI, WEB UI and SNMP agent OmniStack LS 6200 family supports one internal AC power supply for chassis power and an external connector on rear of chassis for use with the backup power supply solution Alcatel-Lucent OS-LS6200 Series OS-LS-6212/6212P/6224/622
The Backup Power Supply Options • OS-LS-62BP (126 Watt) • OS-LS-62BP-DC (100 Watt) • OS-LS-62BP-P (510 Watt) Backup Power Supply Cable Length The internal AC-to-DC Main Power Supply PoE Parameters Maximum Power Consumptions Power plug type Electrical Requirements Alcatel-Lucent OS-LS6200 Series The main P/S fail-over to the backup P/S is transparent to the users and without a reboot of the switch. The fail-over time is negligible. The OmniStack LS 6200 switch supports an external backup power system.
Heat Dissipation Safety Electrostatic Discharge (ESD) Electromagnetic Compatibility / EMC Environmental Environment compliancy Acoustic Noise Warranty, Service & Support Chassis and power supplies are protected with a limited lifetime hardware warranty. Warranty is limited to the original owner, and will be provided for up to five years after the product’s End-of-Sales announcement. Faulty parts will be replaced via a five-business day AVR (Advance Replacement) RMA.
OmniStack LS 6200 Series – Features Overview The OmniStack LS 6200 provides wire rate layer-2 forwarding and advanced layer 2-4 services. The OS-LS-6200 supports advanced quality of service and security for outstanding voice and video quality in a secure environment with its advanced user and traffic classification capabilities. On the hardware side the OS-LS-6200 supports 12, 24 and 48-port configurations of Fast Ethernet ports (with or without PoE).
speed is 10/100Mbps. When operating in 1000Mbps only full duplex mode is supported The 10/100/1000BASE-T ports support auto-sensing, and auto-negotiation.
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Availability Features Key High Availability Features Supported Power Supplies 1:1 backup power Fans Stacking Topology & Redundancy Management & Fabric Redundancy Source learning and Spanning Tree Protocol (STP) 802.1d Spanning tree is a standard Layer 2 switch requirement that allows bridges to automatically prevent and resolve L2 forwarding loops. Switches exchange configuration messages using specifically formatted frames and selectively enable and disable forwarding on ports.
Link Aggregation Up to eight Aggregated Links may be defined, each with up to eight member ports, to form a single Link Aggregated Group (LAG). This enables: • Fault tolerance protection from physical link disruption • Higher bandwidth connections • Improved bandwidth granularity High bandwidth server connectivity LAG is composed of ports with the same speed, operating at full duplex.
Serial port to support CLI Out-of-band serial port delivers CLI management interface for local configuration of switch Security Key Security Features Supported Local authentication Advanced port-based and user-based authentication Access Control Lists (ACLs) L2/L3/L4 ACLs User can setup ACLs based upon L2/3/4 information that can allow/deny based upon the packet header content. Alcatel-Lucent OS-LS6200 Series Advanced Security • 802.1x port based user authentication with multiple host mode • 802.
IP ACL Classification Secure Shell (SSHv2) /(SSHv2/Secure Telnet) 4.1.2 Secure Socket Layer (SSL) with encryption (SSL/HTTPS) MAC-Based Port Security (Locked Port) Port Security increases network security by limiting access on a specific port only to users with specific MAC addresses. These addresses are either manually defined or learned on that port. When a frame is seen on a locked port, and the frame source MAC address is not tied to that port, the protection mechanism is invoked.
802.1x - MAC Authentication 802.1x – Enhanced Features 802.1x, incl. unauthenticated VLAN & single/multiple host • Standard 802.1x is supported, using external RADIUS server as authenticator. • Unauthenticated VLAN and single/multiple host are supported, using controlled learning. • Guest VLAN is supported. Alcatel-Lucent OS-LS6200 Series What it is 802.1x port can not allow access for printers or IP phones that do not have the 802.
802.1x – Multiple Sessions support Transparent 802.1x BPDU forwarding DHCP Snooping Solution: The administrator would be able to define VLANs that authorization is not required for them. Those VLANs would be always available to users, even if the port were unauthorized. These VLANs are defined as “Unauthenticated” VLANs. What it is • 802.
DHCP Option 82 IP Source (Address) Guard Alcatel-Lucent OS-LS6200 Series • The administrator identifies trusted ports • The administrator can determine if to forward or filter DHCP packets, received from untrusted interfaces that the source MAC address and the DHCP client hardware address do not match.
IP source guard can be enabled with source IP address filtering or with source IP and MAC address filtering. Functional Description IP source guard is a security feature that restricts IP traffic on non-routed, Layer 2 interfaces by filtering traffic based on the DHCP snooping binding database and on manually configured IP source bindings. IP source guard can be used to prevent traffic attacks caused when a host tries to use the IP address of its neighbor.
in ARP header vs. Source MAC filed in Ethernet header, destination MAC filed will also be checked in ARP reply messages) The user can configure the minimal interval between Syslog messages (Including sending Syslog messages immediately and not to send at all) . Range (in seconds): 0-86400. Default – 5 seconds. (0 – immediate) The user can disable Syslog messaging. Each Syslog message contains: • The receiving VLAN. • The port number.
Performance Forwarding Modes User ports Stacking ports Stacking Support Combo ports Auto MDI/MDIX The device automatically detects whether the cable connected to an RJ-45 port is crossed or straight through, and adapts the internal wiring of the interface, so as to create a working connection. Standard wiring for end stations is Media-Dependent Interface (MDI) and the standard wiring for hubs and switches is known as Media-Dependent Interface with Crossover (MDIX).
Auto Negotiation Advertised Capabilities Duplex mode Broadcast Strom Control (BSC) MAC Address Support Static and dynamic MAC entries: Supports the ability to dynamically learn MAC addresses on inbound packets; the user can also enter Static MAC addresses. IP addresses Environmental Monitoring Fan Status VLANs IEEE 802.1D, IEEE 802.3ac; Switch supports 4096 range (4,094 VLAN tags) VLANs; support for packet tagging following IEEE 802.1Q 256 active VLANs Maximum number of VLANs per system: 256.
• • • • • Port-Based VLANs VLAN Tagging IEEE 802.1Q defines architecture for virtual bridged LANs, the services provided in VLANs, and the protocols and algorithms involved in the provision of these services. GVRP support for VLANs IEEE 802.1D; system supports group VLAN registration protocol for dynamic propagation of VLANs throughout the network GVRP VLAN Registration Protocol (GVRP) provides IEEE 802.1Q-compliant VLAN pruning and dynamic VLAN creation on 802.1Q trunk ports.
Protocol Based VLANs 802.1v; VLANs can be established based upon the protocol information within the packet header of the traffic flow IEEE802.
QoS Marking QoS Mapping Classification Basic and Advanced QoS mode overview In basic QoS mode, it is possible to activate a trust mode. In addition, a single access control list can be attached to one or more interfaces. Quality of Service Advanced Mode Advanced Quality of Service mode specifies flow classification and assigns rule actions that relate to bandwidth management. These rules are grouped into a policy, which can be applied to an interface. Class of Service 802.
QoS Advanced mode Advanced Quality of Service mode specifies flow classification and assigns rule actions that relate to bandwidth management. These rules are grouped into a policy, which can be applied to an interface. Alcatel-Lucent OS-LS6200 Series algorithm ensures that the lower priority packets are not entirely starved for bandwidth and are serviced without compromising the priority settings administered by the network manager.
Inner VLAN Classification MAC ACL – Inner VLAN Classification Rate Limiting (Ingress/Egress) Ingress rate limiting and egress shaping: • Ingress bandwidth rate limiting per port • Egress bandwidth rate limiting per port Alcatel-Lucent OS-LS6200 Series What it is Inner VLAN Classification is a new feature added to MAC ACL classification in addition to outer VLAN tag classification. It allows setting priority and rate limiting (ACL) based on the customer tag value.
Eventually user can police the ingress rate in the policy-map and then apply the map to an Ethernet interface or a port-channel interface Layer-2 Multicast Support Static Multicast Groups Supports static multicast groups; with up to 256 multicast groups. The user may define by explicit action multicast groups to be supported, per port. Each such group is defined in the context of a specific single VLAN.
IGMP Querier Alcatel-Lucent OS-LS6200 Series queries, Routing protocols packets, and multicast traffic. The switch CPU forwards a representative IGMP report as a Join request (or as a “still interested” response to a query) to the relevant multicast router ports, making sure that IGMP reports are not forwarded to other ports, for fear of squelching stations on that port from generating Join requests.
When working in querier version IGMPv3, the switch will automatically downgrade the version to IGMPv2 if it detects an IGMPv2 message from the hosts (in the case the hosts do not support IGMPv3) Similarly, configured IGMPv2 querier can be downgraded to IGMPv1, however, it cannot be automatically upgraded to IGMPv3 IGMPv3 Snooping Enhancement IGMP timers Packet Storm Control Alcatel-Lucent OS-LS6200 Series Guidelines Only one switch can be configured as the IGMP Querier of a VLAN, even if there are more
The triple play feature (Please refer to the Triple Play Section for configuration example) Multicast TV VLAN Spanning Tree • IEEE 802.1d • IEEE 802.1w • IEEE 802.1s • Fast Port • BPDU Filtering when STP is disabled • Spanning Tree Protocol (STP) Root Guard • Spanning Tree Protocol (STP) BPDU Alcatel-Lucent OS-LS6200 Series broadcast storms. The range is defined from 70 kbps to 285 mbps.
Guard Spanning Tree Fast Link option Rapid Spanning Tree (IEEE802.1w) Multiple Spanning Tree- MSTP (IEEE802.1s) Spanning Tree Protocol (STP) Root Guard If root guard is enabled on a port, it is never selected as the STP root port. The roles it can be assigned are: Designated, Alternate, Backup or Blocked. Root guard functionality enables detection and resolution of misconfiguration, while preventing loops or loss of connectivity.
STP BPDU Guard BPDU filtering (when STP is disabled) The user can: • Enable (when STP is disabled) / disable filtering • Flood BPDU packets when spanning tree is disabled on an interface • Filter BPDU packets when spanning tree is disabled on an interface System IP Address Management BootP and DHCP Clients for IP Address Assignments Alcatel-Lucent OS-LS6200 Series Note: In the case of Multiple Spanning Tree, each MST instance has a root.
This is useful, as it allows settings and parameters to be stored and managed centrally, as opposed to having to manage and manipulate them separately on each device. Functional Description The system incorporates BootP and DHCP clients that will solicit an IP address to use as the system IP address on each interface. The BootP client is operational on system startup if and only if no IP interface is defined, and if the startup configuration file is empty, and DHCP client is not configured to work.
• Alcatel.Lucent’s OmniVista Management Suite The OmniStack LS 6200 Intuitive Web-based Management (WBM) Element Manager With web-based management, the system can be managed from any web browser. The system contains an Embedded Web Server (EWS), which serves HTML pages, through which the system can be monitored and configured. The system internally converts web-based input into configuration commands, MIB variable settings and other management-related settings.
SNMPv1/v2c/v3 Simple Network Management Protocol (SNMP) over the UDP/IP protocol controls access to the switch. A list of community entries is defined, each of which consists of a community string and its access privileges. There are 3 levels of SNMP security, they are read-only, read-write and super user. Only a super user can access the community table.
current and historical MAC-layer statistics and control objects, allowing real-time information to be captured across the entire network. Build-in web-server Unified Network Mgmt Port Mirroring Support for mirroring many-to-one; user controls include the ability to mirror RX, TX or both.
TACACS+ provides centralized security for validation of users accessing the device. TACACS+ provides a centralized user management system, while still retaining consistency with RADIUS and other authentication processes. Command Line Interface (CLI) The system may be wholly configured and managed by its Command Line Interface (CLI). Moreover, the system can display its current configuration to the user in the form of a collection of CLI commands, which may be stored and manipulated as text files.
• Audio and video remote monitoring Management Security Mgmt access control - privilege levels: User can define multiple user levels and user's access privilege capabilities (e.g.
SNMP Alarms and Trap Logs IP address filtering for SNMP Multi-Session TELNET BOOTP BootP and DHCP Clients BootP enables initial setup parameters to be received from a network server upon system startup. DHCP service is an on-going process. DHCP is an extension to BootP. Dynamic assignment of IP addresses (DHCP/BootP) TFTP The device supports boot image, software and configuration upload/download via TFTP. 4.1.
RMON groups (e.g., 1, 2, 3 & 9) (RFC 2819) Statistics group History group Alarm group Event group RMON II Probe Configuration Group (RFC 2021, partial implementation) SNMP framework MIB (RFC 2571) SNMP-MPD MIB (RFC 2572) SNMP Target MIB, SNMP Notification MIB (RFC 2573) SNMP User-Based SM MIB (RFC 2574) SNMP View Based ACM MIB (RFC 2575) SNMP Community MIB (RFC 2576) TACACS+ Authentication Client MIB TCP MIB (RFC 2013) Trap (RFC 1215) UDP MIB (RFC 2012) Bridge MIB Extension (IEEE 802.
RFC 2453, RFC 2474, RFC 2475 RFC 2571, RFC 2572, RFC 2573, RFC 2574, RFC 2575, RFC 2576 RFC 2618, RFC 2621, RFC 2665, RFC 2668, RFC 2674 RFC 2737, RFC 2742, RFC 2787 (Future) RFC 2818, RFC 2819, RFC 2863, RFC 2865, RFC 2866, RFC 2867, RFC 2868, RFC 2869 RFC 2933 RFC 3164 RFC 3410, RFC 3411, RFC 3412, RFC 3413, RFC 3414, RFC 3415 RFC 3621 Alcatel-Lucent OS-LS6200 Series Page 46