Rack mount servers are essentially systems that are in a modern server and are used to mount different sizes and kinds of electronic modules. Rack mount servers would be ideal for individuals who need to set or probably pack a couple of personal computers to a smaller space.

This kind of server is commonly employed in many areas and countries globally for a lot of purposes and reasons. Rack mount servers are used wherever an application of computers has to be used for a wider and larger application, which could star t from video editing suites to computer animations to the other kinds of three-dimensional tasks.

These rack mount servers are also utilized for the installation of different Internet service providers or ISPs in the field of telecommunications as well as in the other types of communication and for different database houses. They are created and are designed to be able to fit in an open PC or probably in a closed cabinet. One advantage for the use and implementation of a rack mount server would be that they could really prove to be very functional and useful if someone needs or wants to save some space. The space-saving design of rack mount servers allows the user to maximize the space he or she has.

The role of these servers is crucial, as proper and adequate setting and support of hardware to a well-built storage space would ensure that they are would be well-protected from any external elements and other factors.

Looking for a way to attract more attention to your website? Offer a fresh face and new content on a regular basis and you'll find people will check back to see what's new and you'll have a tool to measure what attracts and what doesn't. Here's how to do it.

Your website homepage is your front door through which online browsers come to visit your business. Static, never-changing content is no more interesting to a returning visitor than a book they have already read. To keep your audience captivated and coming back you need to make your home on the web inviting and interesting.

Present a Dynamic Home Page

One way that you can present changing home page content is to design ten to twelve unique pages with different content and then rotate them every month. Take a couple of weeks to design different ideas and images. Create page promotions that include a message that is timeless or that has a seasonal or timely announcement such as "Holiday Specials." When you consider different features for your home page and when it should be placed you're forced to look closely at at your marketing strategy over a one year period. This will save you a lot of time since you then won't have to think about your content through the year. It also allows you to plan your offers and gather the necessary content.

A web developer can put your home pages on a rotating script or use an automatic timer. You can then rotate your home pages to highlight a new tip every month or to promote a featured product. The home page of your website is much like the front cover of a magazine. People want to see a home page that has different photos and content at least every month, preferably every week. You won't want all of the content of your website to be featured on the page as this will overwhelm your website visitors. So choose one or two features to highlight each month. The rest of your website content should be well organized within the rest of the pages of your site. When you're ready to update your home page you simply grab content from your internal pages. This way you're not having to create new content. You're just reorganizing your existing content so that it feels new to your visitors.

Don't Change Your Home Page Too Often:

Even though you want your website to be new and dynamic you also don't want to change it too often. People take comfort from their favorite websites and want them to be familiar. If you change your home page too often or too much you may create confusion or give people the feel that someone else has taken over your site. You could also compromise your positioning in search engines. So maintain some consistency.

When you make changes to graphics or content it shouldn't make a major change to the way your website looks and feels. Regular visitors should be able to find the same information that they've always found on your home page and in the same place. As a rule, the headers and navigation tools on your page shouldn't ever change without a complete redesign and announcing that to your visitors. Change content and images with other content and images while maintaining the sites original functionality. Home pages that are consistent lend a feeling of comfort to users. If your customers learn to expect consistency they'll also learn to rely on your quality customer service. If you're a small online business, gaining your customer's trust is your most important step to success.

The Benefits of a Flexible Home Page

A flexible home page lets you test your off line marketing efforts. Before you spend money on a magazine or newspaper ad you can test it out on your website. You'll be able to see how people react to the ad. It will let you determine which featured products attract the most interest. You can also determine which graphics generate the most attraction. Web analytics software (Google Analytics is great and free to use) can provide you with this type of information. It will help you obtain marketing data that is detailed and precise. You can see which graphics people have clicked on as well as what web page they were on just before they left your website.

Once you've mastered the technique of updating your home page, while at the same time keeping the core content the same, you'll be well on your way to recognizing the benefits of a flexible home page.

Introduction

Semantic web as defined by the creator of the web Tim Berners-Lee is "a web of data, in some ways like a global database" (Berners-Lee, 1998). To elaborate further Mr. Berners-Lee explains in an interview held by IDG Now, data is expressed on computers as associated files with applications that deal specifically with information, an example would be, data in calendars, bank systems, spreadsheets, and database application. Looking at a web page, data is not clearly defined and not associated with any of the applications usually on computers. Semantic web will allow data to interact and connect together; it will bring on a common data format for all applications, for databases and web pages alike (Moon, 1999). Semantic web is not to build an artificial intelligence system which allows computers to understand what humans write on web pages; on the contrary, it is an attempt to make web pages more understandable and well-defined to support automatic extraction of data from within web content (Berners-Lee, 1998).

Analysis

The emergence of the web and the way HTML took off was driven by how society's needed to grew, from Internet chat to file transfer to high-end communities through blogs and wiki's. HTML was not limited to web content, knowledge base and help files adapted the language as a format to document software applications and provide training material. The revolution of technologies on the Internet allowed companies like Google to index pages; a thought that was very far away, says Tim Berners-Lee in his lecture at MIT. Web services have evolved to pave the road for distributed information and modular programming allowing interoperability among sites. Through XML, data in one site can be used by another using the common protocols and standards supported by both (Berners-Lee, 1998). XML defines schemas that deal with fields of data, what is required is a system that can tell the computer what sort of information (data) it can derive from within a page (Moon, 1999). With Web 3.0 a site will provide data that can be navigated through and extracted from multiple sites, this is a result of the fact that semantic web data model is closely related to a relational database where records of data share common fields that connect them together (Berners-Lee, 1998).

The solution provided to support semantic web is in the form of metadata that describes the data contained on web pages. Resource Description Framework (RDF) is a base to manage metadata; it is the ground that computers can use to exchange and interact with applications on the Web (W3C RFC, 1999). The applications for RDF include digital libraries, online catalogs, and indexing systems that are usually associated with content and content relationships models deployed in most web pages. With RDF data within business portals will be analyzed and identified as resources, properties, or statements transparent to the domain, further more, the specifications will merge with other documents to comprise a framework of classes. Classes organized as a hierarchy comprises a schema that can be reusable as metadata definitions along side multiple platforms. Resources created in this hierarchy can be identified using a resource identifier (URI), which enables a document given to a machine with this identification to be recognized by the system and triggers it to dig and find similar data (Berners-Lee, 1998).

Implications

Semantic web can be the solution to overpower the limitations of current information management systems in finding and extracting data from unorganized resources. RDF is meant to describe any data regardless of its character, location, source, or type, the concept of URI is richer to uniquely identify any object on the web (Berners-Lee, 1998). The pillars of Semantic web are standards and common protocols that are the bases for knowledge representation; HTML, RDF, the data language resource description web ontology language (OWL) that describes to the machine what is going on, in addition to RDF1 which is a query language to make inquiries among machines much easer, will all emerge and collaborate to bring in more to the web and more intelligent programs that will bring the Internet more closer (Cleave, 2004).

The current research and implementation of Abilene network and the Next Generation Internet (NGI) Internet 2 of high-performance backbone network linking major universities and research labs across the US, is a good foundation for what Semantic web can do, and represent the perfect platform for grid computing, digital libraries, virtual laboratories, and distance learning (Abilene, Internet2). Internet2 or I2 was developed by a group of universities in 1996 providing improved connectivity standards to reach 10gbps (gigabits per second). With more than 227 universities and libraries connected, network based applications and experimental programs can run on this network of high-bandwidth connection feeding on the latest technology of gigabit Ethernet and IP protocol version 6 (Reardon, 2004). Semantic web standards can be the base of material and data distributed on this network, providing the best test platform to explore the full potential and what can be achieved.

Conclusion

Tim Berners-Lee believes that with Web 3.0 we can succeed and fantastic things can happen, but the infrastructure need to be built, laws of privacy and security need to be revised and honored, further more, the web need to remain open for researchers to allow for continuous upgrade and development. Semantic web will kick off when individuals materialize the need to work on data processing, and think about collaborating their data, with company's information and that of the government (Moon, 1999).

References:

1. Berners-Lee, Tim. 1998. Semantic Web Road map.W3C team. (14 October 1998) http://www.w3.org/ DesignIssues/Semantic (accessed 16 Jul 2007)
2. Moon, Peter. 1999. The future of the Web as seen by its creator. IT World IDG Now (7 July 1999) http://www.itworld.com/Tech/4535/070709future/ (accessed 14 Jul 2007)
3. W3C RFC. 1999. Resource Description Framework (RDF) Model and Syntax Specification. W3 Consortium (5 January 1999) http:// www.w3.org/TR/PR-rdf-syntax/ (accessed 20 Jul 2007)
4. Cleave, Kenith Van. 2004. Regis University Database Practicum Experience. Regis University. (14 November 2004) http:// trackit.arn.regis.edu/dba/Thesis%2520Papers/

   kvancleave_2004Bfinalreport_20041118.pdf (accessed 16 Jul 2007)

5. Abilene, Internet2. http://abilene.internet2.edu/about/ (accessed 17 Jul 2007)
6. Reardon, Marguerite. 2004. Internet2: 2004 and beyond. CNET, News (24 August 2004) http:// news.com.com/2100-1034_3-5321053.html (accessed 19 Jul 2007)