HP 418800-B21 Redundancy in enterprise storage networks using dual domain SAS - Page 2

Abstract This technology brief explores the issue of single points of failure within storage networks and how pathway redundancy addresses this problem. Appendix B of this brief explains the technologies that enable redundant storage networks and why the implementation is dependent upon serial drive technology. The differences between Serial Attached SCSI (SAS) and Serial ATA (SATA) drives are explored as well. This brief also provides insight into how HP will implement redundant storage networks in various enterprise configurations. Introduction Using dual-domain and dual-path architectures creates redundant pathways from servers to storage devices. The redundant paths created by these configurations reduce or eliminate single points of failure within the storage network. The technologies discussed in this brief employ single and dualported serial hard drives and dual controllers, or dual-ported controllers, to provide dual-paths from the server. This provides increased levels of high availability with redundant paths from the controller to the drives. Dual-domain SAS implementations make it possible to tolerate host bus adapter (HBA) failure, external cable failure, expander failure, failure in a spanned disk (JBOD) environment, and failure in Redundant Array of Independent Disks (RAID) environments. Dual-path SATA implementations provide some lower cost solutions that cover cable failure, but not the full redundancy of a SAS dual-domain solution. The dual-path solution uses a single domain method of providing tolerance to cable failure. One of the key differences between dual-domain and dual-path architectures is the use of SAS or SATA drives. Dual-port SAS drives can provide the advantages of complete pathway redundancy in a dual-domain configuration. Customers seeking lower cost solutions can employ single port SATA drives in a dual-path configuration. Why dual-domain SAS is important The INCITS T10 Technical Committee defines a SCSI domain as "the interconnection of two or more SCSI devices and a service delivery subsystem."1 When any part of the pathway in this single domain fails, there is no secondary, or redundant, pathway to allow continued data transfer. Historically, the rates of failure are higher in connectors, cabling, and highest of all in hard drives. The higher failure rates are the result of the mechanical connection points and moving parts inherent in these components. Dual-domain SAS creates an additional domain to address this single domain pathway failure. The additional domain uses an open port on an HP Smart Array controller that is capable of supporting dual-domain SAS. The second port on the dual-domain capable Smart Array controller generates a unique identifier and can support its own domain. To take advantage of multiple domains, SCSI devices must be dual-ported and connected to pathways in both domains. SAS drives can meet that requirement. Dual-domain SAS solutions continue to offer higher reliability, performance, and data availability than SATA, while SATA provides higher capacities and a lower cost point. In addition the Enterprise class SAS drives, HP has broadened the hard drive offerings with a new Midline class of SATA and SAS drives. These Midline drives are high capacity, ranked in cost as lowest dollar per GB for their performance class, and designed with higher reliability and performance than entry level drives. These drives are appropriate for high-capacity environments such as external storage, backups, 1 INCITS T10 Technical Committee- http://t10.t10.org/ftp/t10/drafts/smc2/smc2r07.pdf 2