Caveats for SAN

written by: Kematur Serr; article published: year 2008, month 11;



In: Categories » » Protocols » Caveats for SAN

The caveats for SAN are several. The main issues of complexity and cost center around the heterogeneous nature of the SAN itself. Because SANs are configured with several discrete components, the complexity of configuration and implementation becomes a challenge.

Cost becomes an issue as the SAN devices remain fairly new to storage infrastructure markets and therefore have not reached commodity-pricing status. It’s also important to note the rapid change due to the relative immaturity of the products, and the reliance on other areas of technologies such as Operating Systems, storage devices, and management software. The associated cost in terms of user knowledge and training in new technologies that make up the SAN—such as switches, fabrics, Fibre Channel, and HBAs—contribute to this caveat.

However, an often-overlooked challenge is the esoteric nature of the logical extensions of a server’s software that deals with storage. File systems, volume managers, and physical I/O operations all play necessary roles in performing storage operations. Within the SAN, these operations become more logical and have to coexist with other servers that share the fabric network and devices connected. I/O functions must extend into the fabric itself and operate through Fibre Channel software, storage software, and device micro-code, all being remote to the server. These new software functions encapsulated within the FC fabric (some of them user accessible and some micro-code enabled) drive the next logical caveat: management.

Management of the SAN remains problematic even though new products and solutions continue to appear. However, this scenario of rapid change, due to the newness of the technology, largely renders only management solutions, which in the end will be merely transient given that SANs will continue to outgrow their simple configurations, add significant new functions from software vendors, and become integrated with other network and server technologies.

On the other hand, SANs provides the next generation of scalable solutions for large-scale enterprise applications. The SAN architecture supports environments that require scalable solutions for large user populations that access datacentric (that is, database-driven) information that has read/write volatility. This has proven itself within the enterprise data centers where SANs are the solution of choice given their capability to handle large amounts of data, using applications such as OLTP and Data Warehousing. In addition, customers who are dealing with large volumes of unstructured data (such as audio, video, and static images) are migrating to SANs to support these applications.

legal disclaimer

1) Our website is not responsible for the information contained by this article as well for any and all copyright infringements by authors and writers. E-articles is a free information resource. If you suspect this article for any copyright infringements, please read the Terms of service and contact us to investigate the problem.
2) The E-articles directory team is not responsible for inaccuracies, falsehoods, or any other types of misinformation this tutorial may contain and will not be liable for any loss or damage suffered by a user through the user's reliance on the information gained here. Please read the Terms of service

Useful tools and features

Translate this article to...    Send this article to you or to a friend

Link to this article from your page   
If you like this article (tutorial), please link to it from your web page using the information above. Linking to this page, this is the only way to help us improve our service, the same time providing your visitors with a way to improve their online experience.

related articles

1. Detecting Unauthorized 802.11 Cards and Access Points
The first goal is detection. Can we tell when someone powers on a card within range of the local network? This can be done with off-the-shelf components and free software. The Cisco Aironet driver included with the more recent Linux kernels supports "RF Monitor" mode, which permits promiscuous monitoring of 802.11 packets - specifically, monitoring raw 802.11 frames to detect if there are any telltale frames broadcast by a rogue access point or card. As outlined in the original 802.11 specification, ther...

2. The HTTP Request and Response Codes
The HTTP protocol can be likened to a conversation based on a series of questions and answers, which we refer to respectively as HTTP requests and HTTP responses. The contents of HTTP requests and responses are easy to read and understand, being near to plain English in their syntax. This section examines the structure of these requests and responses, along with a few examples of the sorts of data they may contain. The HTTP Request After opening a connection to the intended serv...

3. INFRASTRUCTURE PROTOCOLS AND APPLICATIONS
H.323 H.323 defines packet standards for terminal equipment and services for multimedia communications over local and wide area  networks  communicating  with  systems  connected  to telephony networks such as ISDN. The initial version of this standard  came from the International Telecommunications Union (ITU) in June 1996. It  defines  communication over IP-based local area networks (LANs). A later version (v2), adopted in January 1998, extended it over wide are...

4. Wireless IN Services
The IN protocols and concepts can be used to implement enhanced wireless services rapidly and to have these services available across serving areas in an untethered wireless network. Some of these services are listed below: Voice-Based User Identification. This service employs a form of automatic speech recognition to validate the identity of the speaker. Access to services can then be restricted to the user whose voice (phrase) has been used to train the recognition device. Voice-Based Featur...

5. Wireless LAN and Personal Area Network
The Wireless Internet is not just wireless communications across town or the country. It is also local—sometimes in a home or office building. Wireless LANs are just becoming popular with economically  priced  wireless  Ethernet  equipment.  Standards such as IEEE 802.11, HiperLAN2, and Home RF are leading the way to untethered communications in-building or outside over small areas. Another important development is the Personal Area Network, also known as Bluetooth. Let’s take a look at each of th...

6. The Domain Concept
The solution to all of these problems is the network domain. In a domain, you only have a single name and password, which gets you into every shared PC and printer on the network. Everyone's account information resides on a central computer called a domain controllera computer so important, it's usually locked away in a closet or a data-center room. A domain controller keeps track of who is allowed to log on, who is logged on, and what each person is allowed to do on the network. When you log onto the domain with your PC,...

7. Duplexing Techniques in Wireless communication systems
Wireless communication systems have evolved through several stages of multiple-access control. The foremost controllable resource has always been the frequency spectrum. Other resources such as time, code, and space were initially manipulated in a very precarious and, therefore, ineffective manner. The early systems operated in the simplex mode in the forward link. Halfduplex systems soon appeared, in which forward link and reverse link shared the same channel. Access control was performed on a push-to-talk basis wit...