Building multi-speed SANs with scalable HBA architecture.After much industry debate on 4Gb versus 10Gb speeds for next generation fabrics, the recent FCIA FCIA See: Foreign Credit Insurance Association vote has officially cleared the way for 4Gb in the SAN. Moving forward, 4Gb is now on the standard industry roadmap for implementation in external fabrics with the full support of the FCIA. JNI (Java Native Interface) A programming interface (API) in Sun's Java Virtual Machine used for calling native platform elements such as GUI routines. RNI (Raw Native Interface) is the JNI counterpart in Microsoft's Java Virtual Machine. JNI - Java Native Interface and QLogic were quick to lead the customer-centric approach to the market by supporting the 4Gb standard, while other HBA (Host Bus Adapter) See host adapter. companies originally suggested they would jump beyond most customers' needs to 10Gb. For interswitch links, 10Gb has clear cost and performance advantages. However, for HBAs a focus on 10Gb is limited because it does not address two key real-world customer issues: matching bandwidth to application needs and containing IT costs. The debate over 4Gb or 10Gb as the next server to storage speed target has been largely argued as an "either/or" case based on the assumption that every application has similar bandwidth requirements Bandwidth requirements (communications) The channel bandwidths needed to transmit various types of signals, using various processing schemes. Every signal observed in practice can be expressed as a sum (discrete or over a frequency continuum) of sinusoidal and is of equal value to an organization. However, this type of argument ignores the market reality that SAN users commonly operate with mixed-speed environments and will continue to do so in the future. Widely varying customer requirements will likely present a need for higher bandwidth with the maximum performance offered with 10Gb Fibre Channel (FC), while less performance-intensive applications will be adequately served by 4Gb products with the accompanying cost savings. The need for higher speed Fibre Channel is being driven largely by the same data-intensive applications that are the primary beneficiaries of SAN technology today, such as large-scale database and data mining applications, as well as high-definition digital video production and distribution. Ever-larger enterprise data sets will also require increased bandwidth for business continuity and disaster recovery solutions, including data replication and remote mirroring. To offer the best technology to meet both current and future market needs, it is important to look at how companies are deploying SANs today. A reader survey by a leading storage magazine showed virtually equal distribution among users currently operating with 1Gb, 2Gb and mixed 1- and 2Gb FC environments. When asked about future purchase plans, the leading choice was narrowly 2Gb, followed closely by 10Gb and 4Gb. In other words Adv. 1. in other words - otherwise stated; "in other words, we are broke" put differently , there's no dominant message coming from users that gives the advantage to 4Gb or 10Gb technology. A scalable 1-2-4-10Gb FC controller, like JNI's X8, offers OEMs a common driver environment from 110Gb. Rather than being forced to over-invest in HBA capacity, end users should have the option to decide on 1, 2, 4Gb or 10Gb HBA speeds and costs based on their business requirements. HBA companies without a 110GB scalable architecture had hoped to limit next-generation HBAs to 10Gb and bypass 4Gb as a convenient way to save on research and development expenditures and avoid being late to market with 4Gb controllers and HBAs. These companies are losing sight of what is important--understanding the realities of current IT environments and creating a customer-driven design. HBA customers have three key requirements when making buying decisions on which Fibre Channel fabric A Fibre Channel fabric (or Fibre Channel switched fabric, FC-SW) is a switched fabric of Fibre Channel devices enabled by a Fibre Channel switch. Fabrics are normally subdivided by Fibre Channel zoning. Each fabric has a name server and provides other services. speed to support: * Performance improvements and cost reductions for their installed 2Gb SANs * Flexibility to seamlessly move to a 4Gb fabric, should that market emerge * Support for 10Gb SAN fabrics for performance-critical applications Scalable HBA Model Delivers on all Requirements When it comes to IT budgets, a scalable HBA architecture is critical to investment protection, as the industry transitions to faster FC fabrics. Adopting the scalable HBA design also offers customers a seamless upgrade path to 4Gb by automatically negotiating between l, 2, and 4Gb speeds. Therefore, as 4Gb storage systems and switches begin to emerge, it is an attractive alternative to customers not yet using half of their 2Gb bandwidth. The upgrade to 4Gb enables customers to affordably migrate to the next performance standard without replacing already installed 1Gb and 2Gb Fibre Channel equipment. As mentioned previously, mixed-speed environments are the norm for enterprise SANs. Customers would revolt REVOLT, crim. law. The act of congress of April 30, 1790, s. 8, 1 Story's L. U. S. 84, punishes with death any seaman who shall lay violent hands upon his commander, thereby to hinder or prevent his fighting in defence of his ship, or goods committed to his trust, or shall make a revolt if forced to replace their entire existing SAN infrastructure simply to achieve the performance benefits of 4Gb fabrics that are only required by a small percentage of current applications. The scalable HBA architecture not only encompasses investment protection with full backward compatibility See backward compatible. (jargon) backward compatibility - Able to share data or commands with older versions of itself, or sometimes other older systems, particularly systems it intends to supplant. with the installed base of 1Gb and 2Gb equipment, it offers forward compatibility (jargon) forward compatibility - The ability to accept input from later versions of itself. Forward compatibility is harder to achieve than backward compatibility, since, in the backward case, the input format is know whereas a forward compatible system needs to cope by providing a common platform for 4Gb and then 10Gb products by incorporating a 10Gb Fibre Channel Attachment Unit interface See AUI. (networking) Attachment Unit Interface - (AUI) The part of the IEEE Ethernet standard located between the MAC, and the MAU. The AUI is a transceiver cable that provides a path between a node's Ethernet interface and the MAU. (XAUI XAUI 10 Gigabit Attachment Unit Interface XAUI Extended Auxiliary Unit Interface XAUI XSBI Attachment Unit Interface (IEEE 802.3ae) XAUI Ten Gbps Attachment Unit Interface ). A truly scalable HBA platform needs to offer a future-proof design that supports not just higher-speed FC performance but higher throughput server connectivity as well. At a minimum, a scalable platform must be compliant with the PCI-X (PCI eXtended) An enhanced PCI bus technology originally developed by IBM, HP and Compaq that is backward compatible with existing PCI cards. PCI and 32-bit PCI-X slots are physically the same, and PCI cards can plug into PCI-X slots. 2.0 (266/533MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. ) bus with an upgrade path to support the PCI Express A high-speed peripheral interconnect from Intel introduced in 2002. Note that although sometimes abbreviated "PCX," PCI Express is not the same as "PCI-X" (see PCI-SIG and PCI-X for comparison). As a result of the confusion, "PCI-E" or "PCIe" is the accepted abbreviation. (8X) bus. With Fibre Channel customers deploying a wide range of 1Gb, 2Gb and soon 4Gb and 10Gb products, HBA and other infrastructure vendors are challenged with the complexity of selling and supporting a vast array of products. Similarly, end users face the task of deploying, managing and maintaining several distinct product lines of HBAs, increasing the complexity and raising the costs of managing the Fibre Channel infrastructure. Applying a single, common, scalable platform that can be leveraged to efficiently build 1, 2, 4 or 10Gb Fibre Channel HBAs can make a major contribution to simplifying the complexity of SAN management and lowering the TCO (1) (Total Cost of Ownership) The cost of using a computer. It includes the cost of the hardware, software and upgrades as well as the cost of the inhouse staff and/or consultants that provide training and technical support. See ROI. of a SAN deployment. The FCIA made the right choice in embracing 4Gb as the next performance standard for Fibre Channel fabrics. This move by the FCIA recognizes the budget restrictions faced by IT managers as well as the wide range of applications employed on SANs. There simply is "no one size fits all" solution that meets the cost and performance needs of every SAN customer. A scalable HBA architecture addresses all of the critical customer concerns: cost, performance, backward compatibility and future scalability. The flexibility of a scalable platform gives customers the freedom to precisely match cost and performance targets based on the business criticality and performance demands of individual applications, while minimizing the pain and complexity of upgrading to faster Fibre Channel fabrics, and simplifying the management of the entire Fibre Channel infrastructure. Phil Brotherton is vice president of marketing at JNI (San Diego San Diego (săn dēā`gō), city (1990 pop. 1,110,549), seat of San Diego co., S Calif., on San Diego Bay; inc. 1850. San Diego includes the unincorporated communities of La Jolla and Spring Valley. Coronado is across the bay. , CA) www.jni.com |
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