Dell PowerVault 132T LTO Performance Considerations for Tape Drives and Librar - Page 13

SAN Configurations Fibre Channel (FC) offers many advantages over SCSI. First, it overcomes the distance limitations of SCSI (12 meters for LVD SCSI versus 300 meters for a short-wave 2-Gb FC link) and allows for the transmission of data at higher speeds. As a serial network protocol rather than a bus-based architecture like SCSI, FC has also become the protocol of choice for the implementation of SANs, allowing for the consolidation of data storage resources. In addition, each FC connection is made up of a transmit link and a receive link, allowing for full-duplex operation. This means that data can be transmitted in two directions simultaneously. Therefore, during a backup operation across a single FC connection, data can be read from a source and written to tape without taking turns in communication, effectively doubling the bandwidth of a connection. See Figure 1-5. Figure 1-5. Fibre Channel Link Diagram HOST Transmit Receive 2 Gb = 200 MB/sec Receive Transmit 2 Gb = 200 MB/sec Fibre Channel Device When setting up tape libraries in a SAN, performance can still be affected by various factors. These factors include FC link speeds, data flow between the source and tape library, and performance limitations of external storage arrays. With an understanding of the overall setup and management of the solution, many of these factors can be avoided. Even with the high data bandwidth offered by the FC protocol in SANs, proper considerations must be made for tape drives in order to avoid a situation in which the FC link may limit performance. The data rate of a 2-gigabit (Gb) FC link is 200 MB/sec (that is, 200 MB/sec on the transmit link and 200 MB/sec on the receive link). Therefore, attempting to operate multiple tape drives across the same link can potentially exceed the full bandwidth of a link. If the host is operating with a legacy 1-Gb adapter, backing up data to two drives may be sufficient to reveal significant performance limitations. Therefore, when using three or more tape drives simultaneously on a 2-Gb link, you may need to distribute the backups across a number of connections, rather than relying on a single link. This is where understanding the SAN solution's topology is beneficial. Following the data path during a backup operation as it is read from the source and then written out to tape will help administrators recognize any potential bottlenecks. If any bottlenecks are identified, measures may be taken depending on the configuration. For example, if the backup solution requires multiple drives to be in operation at once, splitting the tape hardware across separate fabrics may improve performance by splitting the connections. See Figure 1-6. Performance Considerations for Tape Drives and Libraries 13