A4H124-24FX P0973JN

From: | Author:kongjiangauto | Time :2019-04-28 | 1270 Browse: | Share:

High availability design assures reliable network operations
Granular QoS capabilities support converged multimedia networks
Power over Ethernet (PoE) supports a variety of
network devices
Investment protection via Limited Lifetime Warranty
140.8Gbps capacity and 104.8Mpps

Enterasys’ leadership position in the switching market is further enhanced by the Enterasys® SecureStack™ A2 stackable enterprise switch. The SecureStack A2 is a high-performance Fast Ethernet edge switch that provides scalable, wire-rate performance in support of the bandwidth-intensive and delay-sensitive requirements of today’s demanding applications. With support for 8,000 MAC addresses, the A2 is an excellent choice for environments that require complete multilayer switching capabilities and support for high density (10/100Base-T, 100Base-FX) Ethernet ports. The A2 is well suited for 100Mb networks that may also require Gigabit Ethernet uplink connections. In addition to its complete multilayer switching capabilities, the A2 also provides multilayer packet classification and priority queuing for differentiated services. Along with a switch capacity of 17.6Gbps, the A2 provides up to 48 10/100Base-T or 24 100Base-FX Ethernet ports as well as 2 10/100/1000 Ethernet ports, which can be used as uplink or stacking connections. As many as 8 A2s can be interconnected in a single stack to create a virtual switch that provides 140.8Gbps of capacity and up to 384 10/100Base-T or 192 100Base-FX Ethernet ports as well as 32 10/100/1000 Ethernet ports for uplink or stacking connections.
Robust quality of service (QoS) features enable strong support for integrated multimedia networks, including Voice over IP, video, as well as all types of data-intensive applications. The A2 provides 8 hardware-based priority queues for each Ethernet port to support a suite of differentiated services with as many as 8 distinct priority levels. In conjunction with its non-blocking L2 switching architecture, the A2’s intelligent queuing mechanisms ensure that mission-critical applications receive prioritized access to network resources.
The A2 provides a secure network by utilizing its authentication and security features, which can be applied at the port level or at the user level. The A2 supports a single user/device per port, which can be authenticated via IEEE 802.1X or MAC address.
The SecureStack product line provides high port density in a 1u footprint and is environmentally friendly by design. By maximizing port density within a given amount of rack space, the A2 minimizes its cooling requirements. The A2’s overall electrical requirement is further reduced by a low current draw and an extreme tolerance for high environmental temperatures. A highly scalable architecture and a Limited Lifetime Warranty ensures that an A2 network investment will sustain a secure, feature rich and cost-effective network well into the future.
Reliability and Availability
The A2 design incorporates redundancy and failure protection mechanisms complete with automatic failover and recovery capabilities to provide a reliable network. An integral power supply is the primary source of power for the A2 and complete power redundancy is provided by an optional external power supply. In addition to the standard version of the A2, there is also a redundant Power over Ethernet (PoE) version of the A2 which supports network devices that require external power such as wireless access points, VoIP phones and network cameras. A virtual switch can be created by interconnecting as many as 8 A2s in a single stack, which can be managed via a single IP address with redundant management connections. The A2’s closed-loop stacking (CLS) capability utilizes bidirectional switch interconnects to maintain connectivity within the virtual switch despite any physical switch-level failure. Up to 4 Ethernet ports can be grouped together to create a multi-link aggregation group (LAG). A LAG’s Ethernet ports can be collocated on a single A2 or they can be distributed across multiple A2s within a stack to prevent a switch-level failure from disrupting data communications.
Advanced Quality of Service
Robust quality of service (QoS) features enable strong support for integrated multimedia networks, including Voice over IP, video, as well as all types of data-intensive applications. The A2 provides 8 hardware-based priority queues for each Ethernet port in order to support a suite of differentiated services with as many as 8 distinct priority levels. The strict and weighted round robin queuing algorithms ensure that mission-critical applications receive prioritized access to network resources.
Security
The A2 provides a secure network by utilizing its authentication and security features, which can be applied at the port level or at the user level. The A2 supports a single user/device per port, which can be authenticated via IEEE 802.1X or MAC address.
Investment Protection
The A2 is a cost-effective, feature-rich, stackable switch that provides a broad set of features today and will continue to deliver benefits well into the future. Customers can grow and/or enhance their networks while protecting their investment by adding A2s into existing A2 networks and/or stacks. When multiple A2s are stacked together, each switch in the stack assumes the feature set that is common to all switches in the stack to ensure operational compatibility. All SecureStack products include a Limited Lifetime Warranty that continues for 5 years after the date of product discontinuation. For more information regarding warranty terms and conditions please go to
http://www.enterasys.com/support/warranty.aspx.
Performance & Scalability
The A2 provides scalable, wire-rate performance in support of the bandwidth-intensive and delay-sensitive requirements of today’s demanding applications. Along with a switch capacity of 17.6Gbps, the A2 provides up to 48 10/100Base-T or 24 100Base-FX Ethernet ports as well as 2 10/100/1000 Ethernet ports, which can be used as uplink or stacking connections. As many as 8 A2s can be interconnected in a single stack to create a virtual switch that provides 140.8Gbps of capacity and up to 384 10/100Base-T or 192 100Base-FX Ethernet ports as well as 32 10/100/1000 Ethernet ports for uplink or stacking connections.
MAC Address Table Size
8,000
VLANs
4,096 VLAN IDs
1,024 VLAN entries per stack
Embedded Services
Ingress Rate Limiting
IP TOS Rewrite
Layer 2/3/4 classification
Multilayer Packet Processing
Switching Services
IEEE 802.1D – MAC Bridges
IEEE 802.1s – Multiple Spanning Trees
IEEE 802.1t – 802.1D Maintenance
IEEE 802.1w – Rapid Spanning Tree Reconvergence
IEEE 802.3ab – GE over Twisted Pair
IEEE 802.3ad – Link Aggregation
IEEE 802.3af – PoE
IEEE 802.3i - 10Base-T
IEEE 802.3u - 100Base-T, 100Base-FX
IEEE 802.3z - GE over fiber
Full/half duplex auto-sense support on all ports
IGMP Snooping v1/v2/v3
Jumbo Frame support (9,216 bytes)
Loop Protection
One-to-One and Many-to-One Port Mirroring
Port Description
Protected Ports
Per-Port Broadcast Suppression
Spanning Tree Backup Root
STP Pass Thru
VLAN Support
Generic Attribute Registration Protocol (GARP)
Generic VLAN Registration Protocol (GVRP)
IEEE 802.1p – Traffic Management/ Mapping to 8 queues
IEEE 802.1q – VLAN tagging
IEEE 802.1v – Protocol-based VLANs
IEEE 802.3ac – VLAN tagging extensions
Port-based VLAN (private port / private VLAN)
Tagged-based VLAN
VLAN Marking of Mirror Traffic
Quality of Service
8 priority queues per port
802.3x Flow Control
IP DSCP – Differentiated Services Code Point
IP precedence
IP protocol
Queuing Control – Strict and Weighted Round Robin
Source/Destination IP address
Source/Destination MAC address
Security
IEEE 802.1x Port Authentication
MAC-Based Port Authentication
Password Protection (encryption)
RADIUS Client
Secured Shell (SSHv2)
Secured Socket Layer (SSL)
RFC and MIB Support
Enterasys Entity MIB
Enterasys VLAN Authorization MIB
IEEE 802.1X MIB – Port Access
IEEE 802.3ad MIB – LAG MIB
RFC 826 – ARP and ARP Redirect
RFC 951, RFC 1542 – DHCP/BOOTP relay
RFC 1213 – RFC 1213-MIB/MIB II
RFC 1493 – BRIDGE-MIB
RFC 1643 – Ethernet-like MIB
RFC 2131, RFC 3046 – DHCP client//relay
RFC 2233 – IF-MIB
RFC 2271 – SNMP Framework MIB
RFC 2618 – RADIUS Authentication Client MIB
RFC 2620 – RADIUS Accounting Client MIB
RFC 2668 – Managed Object Definitions for 802.3 MAUs
RFC 2674 – P-BRIDGE-MIB
RFC 2674 – QBRIDGE-MIB VLAN Bridge MIB
RFC 2737 – Entity MIB (physical branch only)
RFC 2819 – RMON-MIB
RFC 2863 – IF-MIB
RFC 2933 – IGMP MIB
RFC 3289 – DiffServ MIB
RFC 3413 – SNMP Applications MIB
RFC 3414 – SNMP User-based Security Module (USM) MIB
RFC 3415 – View-based Access Control Model for SNMP
RFC 3580 – IEEE 802.1X Remote Authentication Dial In User Service (RADIUS) Usage Guidelines
RFC 3584 – SNMP Community MIB
RFC 3621 – Power over Ethernet MIB
Management
Alias Port Naming
Command Line Interface
Configuration Upload/Download
Editable Configuration File
FTP/TFTP client
Multi configuration File Support
NetSight Automated Security Manager
NetSight Console
NetSight Inventory Manager
NetSight Policy Manager
Node/Alias Table
RFC 854 – Telnet
RFC 1157 – SNMP
RFC 1901 – Community-based SNMPv2
RFC 2271 – SNMP Framework MIB
RFC 3413 – SNMPv3 Applications
RFC 3414 – User-based Security Model for SNMPv3
RFC 3415 – View-based Access Control Model for SNMP
RMON (Stats, History, Alarms, Events)
Simple Network Time Protocol (SNTP)
SSH
Syslog
Telnet
Text-based Configuration Upload/Download
Web-based Management
Webview via SSL Interface

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