Dell PS6000 Configuration Guide - Page 32
Ethernet Switches and Infrastructure, Support for Rapid Spanning Tree protocol IEEE 802.1w - throughput
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4.3 Ethernet Switches and Infrastructure An EqualLogic SAN consists of one or more hosts connected to one or more PS Series arrays through a switched Ethernet network. To support a high performance Dell EqualLogic SAN, switches must meet the following general requirements: Low latency Switches with relatively high latency may cause SAN throughput performance to degrade, and under high load conditions they could increase the risk of dropped connections. Non-blocking backplane design SAN Switches should be able to provide the same amount of backplane bandwidth to support full duplex communication on ALL ports simultaneously. Adequate buffer space per switch port In addition to supporting data transfers between the hosts and the SAN, Dell EqualLogic arrays also use the SAN to support inter-array communication and data load balancing. For this reason, the more buffer space per port that a switch can provide the better. Due to the multitude of buffer implementations used by switch vendors, Dell cannot provide definitive guidelines as to how much is enough, but as a general guideline switches should have at least 256KB per port. Port buffers should be designed such that data is not lost when traffic reaches extreme levels. Support for IEEE 802.3x flow control (passive and/or active) on ALL ports. Switches and network interface controllers used in an EqualLogic SAN must be able to passively respond to any ―pause‖ frames received. If possible, you should use switches that have the ability to transmit ―pause‖ frames to external devices in the event that the device cannot adequately forward traffic in a timely fashion. Support for Jumbo Frames This is not a requirement. But, the use of jumbo frames may yield desirable results. Most iSCSI SAN implementations should benefit from using jumbo frames. The actual impact on SAN throughput when using jumbo frames will depend on your workload's I/O characteristics. Support for Rapid Spanning Tree protocol (IEEE 802.1w), or Cisco "portfast" functionality if the SAN infrastructure will consist of more than two switches For SAN infrastructures consisting of more than 2 non-stacking switches, R-STP must be enabled on all ports used for inter-switch trunks. All non-inter-switch trunk ports should be marked as ―edge‖ ports or set to ―portfast‖. Support for unicast storm control iSCSI in general, and Dell EqualLogic SANs in particular can send packets in a very ―bursty‖ profile that many switches could misdiagnose as a virally induced packet storm. Since the SAN should be isolated from general Ethernet traffic, the possibility of actual viral packet storms occurring is non-existent. In an EqualLogic SAN, the switches must always pass Ethernet packets regardless of traffic patterns. Support for Inter-Switch Trunking (IST) or Stacking IST support is required to link all switches in SAN infrastructure together. For stacking capable switches, the use of stacking ports for IST is assumed. A good rule of thumb for stacking link bandwidth would be a minimum 20 Gbps full-duplex. Support for vLAN functionality if SAN traffic is to share the same physical switch resources with other (non-iSCSI SAN) network traffic. Dell EqualLogic Configuration Guide v11.3 27