HP GbE2c manual SSH and SCP, XModem, Igmp Snooping, Jumbo frames, Auto-MDI/MDIX

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Only standard ASCII inbound login authentication. PAP, CHAP, or ARAP login methods are not supported. One-time password authentication is also not supported.

Authorization privilege levels of only 0, 3, and 6. These map to management levels of user, oper, and admin, respectively.

The accounting attributes of protocol, start_time, stop_time, and elapsed_time. For BBI users, accounting stop records are only sent if the user presses the QUIT button.

SSH and SCP

SSH and SCP use secure tunnels to encrypt and secure messages between a remote administrator and the switch. Telnet does not provide this level of security. The Telnet method of managing a switch does not provide a secure connection.

SSH is a protocol that enables remote administrators to log securely into the switch over a network to execute management commands.

SCP is used to copy files securely from one machine to another. SCP uses SSH for encryption of data on the network. On a switch, SCP is used to download and upload the switch configuration via secure channels.

XModem

The switch supports XModem for transferring files during direct dial-up communications. XModem sends blocks of data in 128-byte blocks, and includes an error-detection system called a checksum. When the data is received, the error detection system ensures that the entire message reached its destination. If not, the receiving computer sends a request for retransmission of the data.

IGMP Snooping

The switch supports IGMP Snooping for multicasting. Both Version 1- and Version 2-based IGMP Snooping are supported. In addition, auto detection of the multicast router port and manual configuration of the multicast router port is supported. For efficient multicast traffic management, the IGMP Filtering option is supported.

Jumbo frames

By default, the switch supports jumbo frames up to 9216 bytes, which help reduce server CPU utilization and increase application throughput. No configuration is required. The switch does not fragment frames as they exit, or assemble packets into jumbo frames as they enter the switch.

Auto-MDI/MDIX

The switch Ethernet ports are MDI/MDI crossover capable. MDI/MDIX is a type of Ethernet port connection using twisted pair cabling. The MDI is the component of the MAU that provides the physical and electrical connection to the cabling medium. An MDIX is a version of MDI that enables connection between like devices. MDI ports connect to MDIX ports via straight-through twisted pair cabling whereas both MDI-to-MDI and MDIX-to-MDIX connections use crossover twisted pair cabling. The switch has the capability to automatically detect the cable selection/type, making the distinction between a straight- through cable and a crossover cable unimportant.

Auto-negotiation of duplex mode and speed

Auto-negotiation of duplex mode and speed are configured on the switch. Network adapters that support multiple data speeds, such as Fast Ethernet and Gigabit Ethernet, choose the speed at which they run

Introduction 13

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Contents May 2006 First Edition Part Number Audience assumptions Contents Replacing and upgrading the switch Acronyms and abbreviations Index Introduction FeaturesOverview Additional referencesIntroduction Configuration and management Switch redundancyDiagnostic tools Switch architecturePort Mapping Dual switches Redundant crosslinksSupported technologies Layer 2 switchingRedundant paths to server bays Ieee 802.1 Q-based VlanPort mirroring Store and forward switching schemePort trunking and load balancing Tftp supportNTP SSH and SCP Auto-negotiation of duplex mode and speedXModem Igmp SnoopingRedundant images in firmware External componentsRear panel Connectors Planning the switch configuration Installing the switchDefault settings User, operator, and administrator access rights Switch securityManually configuring a switch Installing the switchConfiguring multiple switches Preparing for installationInstalling the switch Accessing the switchLogging on and configuring the switch Supporting software and special considerations Cabling the switchReplacing an existing switch Replacing and upgrading the switchReplacing and upgrading the switch Class a equipment Regulatory compliance noticesModifications CablesBsmi notice Japanese class a notice European Union regulatory noticeKorean class a notice Laser compliance General specifications Technical specificationsGeneral default settings Runtime switching software default settingsSTP Page Mstp UFD Igmp Port names, VLANs, STP, trunking default settings Performance specifications Physical and environmental specificationsPage Performing a serial download Serial upgrade of boot code firmware image procedureIntroduction Performing a serial download Serial upgrade of operating system firmware procedure Performing a serial download Performing a serial download MIB overview Snmp MIBs supportSnmp Manager software Supported traps Supported MIBsSnmp MIBs support Preventing electrostatic discharge Electrostatic dischargeGrounding methods to prevent electrostatic discharge Standard RJ-45 receptacle/connector RJ-45 pin specificationConfigured on the switch TroubleshootingHealth LED on the switch is not on Action Action Cannot connect to the switch Snmp interface Vlans Cannot enable a port in multiple VLANs while configuringDownload fails after starting to download the firmware file Switch configuration is corruptAcronyms and abbreviations LAN OSI UDP Index Snmp MIBs, supported Snmp traps, supported
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GbE2c specifications

The HP GbE2c is a high-performance Ethernet Switch designed to meet the increasing demands of data center environments. As a critical component in Hewlett-Packard's networking lineup, the GbE2c provides a seamless blend of speed, reliability, and advanced networking capabilities, making it an essential tool for enterprises aiming to enhance their network infrastructure.

One of the standout features of the HP GbE2c is its support for Gigabit Ethernet, which allows for high-speed data transmission and reduced latency. This switch is designed to support the growing bandwidth needs of modern applications, ensuring that data is transmitted quickly and efficiently across the network. The GbE2c is particularly beneficial for organizations implementing virtualization technologies, as its Gigabit interfaces help in optimizing data flow between virtual machines.

The GbE2c also incorporates advanced Layer 2 and Layer 3 switching capabilities. This ensures that it can handle both basic and more complex networking tasks, such as routing traffic between different VLANs and enabling Internet Protocol (IP) addressing. The switch supports various protocols, enabling seamless integration into a wide range of network environments.

Additionally, the HP GbE2c is equipped with a robust management system that allows network administrators to easily configure and monitor network settings. With its user-friendly interface, administrators can gain insights into traffic patterns, performance metrics, and potential issues, helping to maintain optimal network performance.

Power efficiency is another key characteristic of the HP GbE2c. The switch is designed to minimize power consumption without sacrificing performance, making it a more sustainable choice for data centers aiming to reduce their carbon footprint. This energy-efficient design is crucial for enterprises looking to lower operational costs while maintaining a high level of service.

The HP GbE2c also boasts high availability features, including redundant power supplies and failover options, ensuring that the network remains operational even in the event of a component failure. This reliability is critical for businesses that require uninterrupted network access for their daily operations.

In summary, the HP GbE2c Ethernet Switch combines speed, versatility, and efficiency, making it an ideal choice for businesses seeking to enhance their networking capabilities. Its robust feature set, advanced management options, and focus on energy efficiency position it as a top-tier solution in the competitive networking landscape. Organizations can rely on the GbE2c to deliver high performance and reliability, thus meeting the demands of today's data-intensive environments.