HP GbE2c HP GbE2c Layer 2/3 Ethernet Blade Switch for c-Class BladeSystem User - Page 10
Supported technologies
UPC - 808736802215
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Redundant paths to server bays In a dual switch configuration, redundant Ethernet signals from each blade server are routed through the enclosure backplane to separate switches within the enclosure. This configuration provides redundant paths to each server bay. Redundant Ethernet signals from each blade server are routed through the enclosure backplane to separate switches within the enclosure. However, specific switch port to server mapping varies depending on which type of server blade is installed. On a heavily used system, using a single uplink port for 32 Ethernet signals causes a traffic bottleneck. For optimum performance, HP recommends using at least one uplink port per switch. Supported technologies Layer 2 switching The switch uses Gigabit Layer 2 switching technology. Layer 2 refers to the Data Link layer of the OSI model, which is concerned with moving data packets across a network by enforcing CSMA/CD. This layer performs: • Ethernet packet framing • MAC addressing • Physical medium transmission error detection • Medium allocation (collision avoidance) • Contention resolution (collision handling) Layer 2 switching technology allows the switch to look into data packets and redirect them based on the destination MAC address. This reduces traffic congestion on the network because packets, instead of being transmitted to all ports, are transmitted to the destination port only. Layer 3 switching In addition to Layer 2 features, the switch also supports Layer 3 switching. Layer 3 switching features include: • IP forwarding • Static routing • Dynamic routing based on RIP V1/V2 or OSPF protocols • High availability VRRP Layer 3 switching provides more power, flexibility, and security capabilities to network administrators. Network traffic is managed much more efficiently and broadcast traffic between servers remains within the enclosure. Security features provide added protection for switch configuration data, while packet filtering helps secure and segment sensitive traffic or network access. IEEE 802.1 Q-based VLAN The switch provides support for a total of 255 IEEE 802.1Q VLANs for server grouping and isolation. A VLAN is a network segment configured according to a logical scheme rather than a physical layout. VLANs are used to combine any collection of LAN segments into an autonomous user group that appears as a single LAN. Introduction 10