Choosing the Right SDLC For Your Project

Choosing the right SDLC (Software Development Lifecycle) methodology for your project is as important to the success of the project as the implementation of any project management best practices. Choose the wrong software methodology and you will add time to the development cycle. Adding extra time to the development cycle will increase your budget and very likely prevent you from delivering the project on time.

Choosing the wrong methodology can also hamper your effective management of the project and may also interfere with the delivery of some of the project’s goals and objectives. Software development methodologies are another tool in the development shop’s tool inventory, much like your project management best practices are tools in your project manager’s tool kit. You wouldn’t choose a chainsaw to finish the edges on your kitchen cabinet doors because you know you wouldn’t get the results you want. Choose your software methodology carefully to avoid spoiling your project results.

I realize that not every project manager can choose the software methodology they will use on every project. Your organization may have invested heavily in the software methodology and supporting tools used to develop their software. There’s not much you can do in this case. Your organization won’t look favorably on a request to cast aside a methodology and tools they’ve spent thousands of dollars on because you recommend a different methodology for your project. We’ll give you some tips on how to tailor some of the methodologies to better fit with your project requirements later in this article. In the meantime, before your organization invests in software development methodologies you, or your PMO, ought to be consulted so that at least a majority of projects are benefited from a good fit.

This article won’t cover every SDLC out there but we will attempt to cover the most popular ones.

Scrum

Scrum is a name rather than an acronym (which is why I haven’t capitalized the letters), although some users have created acronyms, and is commonly used together with agile software development. Scrum is typically chosen because of its iterative nature and its ability to deliver working software quickly. It is chosen to develop new products for those reasons. There is typically no role for a project manager in this methodology, the 3 key roles are: the scrum master (replacing the project manager), the product owner, and the team who design and build the system. There is only one role that you would be asked to play if your organization is committed to using this methodology, scrum master. If you should determine that this would actually be the best methodology for your project, you’ll have to re-examine your role as project manager. You can either identify a suitable scrum master and return to the bench, or fill the role of scrum master.

Scrum suits software development projects where its important for the project to deliver working software quickly. Scrum is an iterative methodology and uses cycles called sprints, to build a working system. Requirements are captured in a “backlog” and a set of requirements is chosen with the help of the product manager. Requirements are chosen based on 2 criteria: the requirement takes priority over others left in the backlog and the set of requirements chosen will build a functioning system.

During the sprint, which can last from 2 to 4 weeks maximum, no changes can be made to the requirements in the sprint. This is one of the reasons that a project manager isn’t necessary for this methodology. There is no need for requirements management because no changes are allowed to the requirements under development. All changes must occur in the requirements set in the backlog.

Scrum will be suitable for software development projects where the product is a new software product. By new I mean that it is new to the organization undertaking the project, not in general. The methodology was developed to address a need for a method to build software when its necessary to learn on the fly, not all requirements are known to the organization and the focus is on delivering a working prototype quickly to demonstrate capabilities. You need to be careful when choosing requirements to deliver in each sprint to ensure that the set developed builds a software system that is capable of demonstrating the feature set supporting the requirements included.

You also need to ensure that these requirements are well known and understood as no changes are allowed once the sprint starts. This means that any changes to the requirements must come through a new set of requirements in the backlog making changes to these requirements very expensive.

This methodology divides stakeholders into 2 groups: pigs and chickens. The inventors of this methodology chose this analogy based on the story of the pig and the chicken – it goes something like this. A pig and a chicken were walking down the road one morning and happened to notice some poor children who looked like they hadn’t eaten for days. The compassionate chicken said to the pig: “Why don’t we make those children a breakfast of ham and eggs?” The pig said: “I’m not happy with your suggestion. You’re just involved in making the breakfast, I’m totally committed!” The point to this is the product owner, scrum master, and team are all in the “pig” group. All others are in the “chicken” group. You will be in the “chicken” group if you choose the Scrum methodology as a project manager.

Waterfall

Waterfall methodology calls for each phase of the development cycle to be repeated once only. Requirements will be gathered and translated into functional specifications once, functional specifications will be translated to design once, designs will be built into software components once and the components will be tested once. The advantage of this methodology is its focus. You can concentrate the effort of all your analysts on producing functional specifications during one period rather than have the effort dispersed throughout the entire project. Focusing your resources in this way also reduces the window during which resources will be required. Programmers will not be engaged until all the functional specifications have been written and approved.

The disadvantage of this approach is its inability to teach the project team anything during the project. A key difference between the waterfall approach and an iterative methodology, such as Scrum or RUP, is the opportunity to learn lessons from the current iteration which will improve the team’s effectiveness with the next iteration. The waterfall methodology is an ideal methodology to use when the project team has built software systems very similar to the one your project is to deliver and has nothing to learn from development that would improve their performance. A good example of a project which would benefit from the waterfall methodology is a project to add functionality to a system the project team built in the not too distant past. Another example of an environment that is well suited to the waterfall methodology is a program to maintain a software system where a project is scheduled for specific periods to enhance the system. For example, an order and configuration software system which is enhanced every 4 months.

The waterfall methodology does not lend itself particularly well to projects where the requirements are not clearly understood at the outset. Iterative approaches allow the product owners or user community to examine the result of building a sub-set of requirements. Exercising the sub-set of requirements in the iteration’s build may cause the product owners or user community to re-examine those requirements or requirements to be built. You won’t have that opportunity with the waterfall method so you need to be certain of your requirements before you begin the build phase. Interpreting requirements into functionality is not the only aspect of development that can benefit from an iterative approach. Designing the system and building it can also benefit from doing these activities iteratively. You should use the waterfall method when your team is familiar with the system being developed and the tools used to develop it. You should avoid using it when developing a system for the first time or using a completely new set of tools to develop the system.

RUP

The Rational Unified Process, or RUP, combines an iterative approach with use cases to govern system development. RUP is a methodology supported by IBM and IBM provides tools (e.g. Rational Rose) that support the methodology. RUP divides the project into 4 phases:

1. Inception phase – produces requirements, business case, and high level use cases

2.Elaboration phase – produces refined use cases, architecture, a refined risk list, a refined business case, and a project plan

3. Construction phase – produces the system

4. Transition phase – transitions the system from development to production

RUP also defines 9 disciplines: 6 engineering disciplines, and 3 supporting disciplines: Configuration and Change Management, Project Management, and environment so is intended to work hand in hand with project management best practices.

Iteration is not limited to a specific project phase – it may even be used to govern the inception phase, but is most applicable to the construction phase. The project manager is responsible for an overall project plan which defines the deliverables for each phase, and a detailed iteration plan which manages the deliverables and tasks belonging to each phase. The purpose of the iterations is to better identify risks and mitigate them.

RUP is essentially a cross between Scrum and waterfall in that it only applies an iterative approach to project phases where the most benefit can be derived from it. RUP also emphasizes the architecture of the system being built. The strengths of RUP are its adaptability to different types of projects. You could simulate some of the aspects of a Scrum method by making all 4 phases iterative, or you could simulate the waterfall method by choosing to avoid iterations altogether. RUP will be especially useful to you when you have some familiarity with the technology but need the help of Use Cases to help clarify your requirements. Use Cases can be combined with storyboarding when you are developing a software system with a user interface to simulate the interaction between the user and the system. Avoid using RUP where your team is very familiar with the technology and the system being developed and your product owners and users don’t need use cases to help clarify their requirements.

RUP is one of those methodologies that your organization is very likely to have invested heavily in. If that’s your situation, you probably don’t have the authority to select another methodology but you can tailor RUP to suit your project. Use iterations to eliminate risks and unknowns that stem from your team’s unfamiliarity with the technology or the system, or eliminate iterations where you would otherwise use the waterfall method.

JAD

Joint Application Development, or JAD, is another methodology developed by IBM. It’s main focus is on the capture and interpretation of requirements but can be used to manage that phase in other methodologies such as waterfall. JAD gathers participants in a room to articulate and clarify requirements for the system. The project manager is required for the workshop to provide background information on the project’s goals, objectives, and system requirements. The workshop also requires a facilitator, a scribe to capture requirements, participants who contribute requirements, and members of the development team whose purpose is to observe.

JAD can be used to quickly clarify and refine requirements because all the players are gathered in one room. Your developers can avert misunderstandings or ambiguities in requirements by questioning the participants. This method can be used with just about any software methodology. Avoid using it where the organization’s needs are not clearly understood or on large, complex projects.

RAD

RAD is an acronym for Rapid Application Development uses an iterative approach and prototyping to speed application development. Prototyping begins by building the data models and business process models that will define the software application. The prototypes are used to verify and refine the business and data models in an iterative cycle until a data model and software design are refined enough to begin construction.

The purpose of RAD is to enable development teams to create and deploy software systems in a relatively short period of time. It does this in part by replacing the traditional methods of requirements gathering, analysis, and design with prototyping and modeling, the prototyping and modeling allow the team to prove the application components faster than traditional methods such as waterfall. The advantage of this method is it facilitates rapid development by eliminating design overhead. It’s disadvantage is that in eliminating design overhead it also eliminates much of the safety net which prevents requirements from being improperly interpreted or missed altogether.

RAD is suitable for projects where the requirements are fairly well known in advance and the data is either an industry or business standard, or already in existence in the organization. It is also suitable for a small development team, or a project where the system can be broken down into individual applications that require small teams. RAD is not suitable for large, complex projects or projects where the requirements are not well understood.

LSD

Lean Software Development, or LSD, applies the principles of waste reduction from the manufacturing world to the business of developing software. The goal of LSD is to produce software in 1/3 the time, on 1/3 the budget, and with 1/3 the defects of comparable methods. Lean does this by applying 7 principles to the endeavor of software development:

1. Eliminate waste

2. Amplify Learning (both technical and business)

3. Decide on requirements as late as possible

4. Deliver as fast as possible

5. Empower the team

6. Build integrity

7. See the whole

Although Lean Manufacturing has been around for some time, its application to the process of developing software is relatively new so I wouldn’t call it a mature process.

LSD would be a suitable method to use where you have a subject matter expert in the method who has some practical experience in applying lean methods to a software development project. “Amplified” learning implies that your development team has a depth of knowledge in the software tools provided, and also a breadth of knowledge that includes an understanding of the business needs of the client. LSD would be suitable for a project where the development team has these attributes.

LSD depends on a quick turnaround and the late finalization of requirements to eliminate the majority of change requests, so will not be suitable for a project where a delayed finalization of requirements will have a poor chance of eliminating change requests, or the size and complexity of the system being developed would prevent a quick turnaround.

Extreme Programming (XP)

Extreme programming places emphasis on an ability to accommodate changes to requirements throughout the development cycle and testing so that the code produced is of a high degree of quality and has a low failure rate in the field. XP requires the developers to write concise, clear, and simple code to solve problems. This code is then thoroughly tested by unit tests to ensure that the code works exactly as the programmer intends and acceptance tests to ensure that the code meets the customer’s needs. These tests are accumulated so that all new code passes through them and the chances for a failure in the field are reduced.

XP requires the development team to listen carefully to the needs and requirements of the customer. Ambiguities will be clarified by asking questions and providing feedback to the customer which clarifies the requirements. This ability implies a certain degree of familiarity with the customer’s business; the team will be less likely to understand the customer’s needs if they don’t understand their business.

The intent of XP is to enhance coding, testing, and listening to the point where there is less dependency on design. At some point it is expected that the system will become sufficiently complex so that it needs a design. The intent of the design is not to ensure that the coding will be tight, but that the various components will fit together and function smoothly.

XP would be a suitable software development method where the development team is knowledgeable about the customers business and have the tools to conduct the level of testing required for this method. Tools would include automated unit testing and reporting tools, issue capture and tracking tools, and multiple test platforms. Developers who are also business analysts and can translate a requirement directly to code are a necessity because design is more architectural than detail. This skill is also required as developers implement changes directly into the software.

XP won’t be suitable where the development team does not possess business analysis experience and where testing is done by a quality assurance team rather than by the development team. The method can work for large complex projects as well as simple smaller ones.

There is no law that states you must choose one or the other of these methodologies for your software project. The list I’ve given you here is not a totally comprehensive list and some methodologies don’t appear on it (e.g. Agile) so if you feel that there is some other methodology that will better suit your project, run with it. You should also look at combining some of the features of each of these methods to custom make a methodology for your project. For example, the desire to eliminate waste from the process of developing software is applicable to any method you choose and there is likely waste that could be eliminated in any development shop.

Be careful to choose a methodology that is a good fit for your team, stakeholders, and customer as well as your project. Bringing in a new development methodology that your team will struggle to learn at the same time they are trying to meet tight deadlines is not a good idea. On the other hand, if you have the latitude you may want to begin learning a new method with your project.

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Computer Viruses Problems and Solutions

We all are now aware with the term Computer Viruses

Let’s understand this simple definition: Computer Viruses can be considered as small software application which tends to take control over computer operation. The computer virus may delete contents from the hard disk and even take a ride on e-mail programs to become pandemic. Computer viruses be in various formats like in form of images, audio or video files. They may spread while downloading files from the Internet. Sometimes they may be purchased along with the pirated software too.

Let’s concentrate on symptoms of Viruses

There can be difficulty in accessing any disk or drive. The system might be running slow. Sometimes it may freeze. You may see distorted menus and dialog boxes. Any program may disappear on its own without any action. Sometimes you may see some new icons on the desktop. Application will not be running smooth. You may get error of any system file missing. Your windows may restart automatically sometimes. If you see this kind of symptoms on your system, then install any latest version of anti virus which you think compatible with the Operating System you have. Scan your system for the Computer Viruses. Even in severe condition you may need to format your system completely.

Let’s see what we can do to remove a Virus

You need to apply a Computer Viruses removal tools for the purpose. Sometimes you may find specific problems which are associated with some unwanted software programs which carries Computer Viruses You may get those viruses again in your system after uninstalling those programs. So you should be very much smart while choosing for the Tools for Computer Viruses removal.

To remove virus, follow these steps

1. Visit the Microsoft website to get latest updates from Microsoft Updates.

2. Perform regular scanning of your system with any updated Anti- Virus.

3. Download, install, and then run the Microsoft Malicious Software Removal Tool to remove Computer Viruses the system.

Preventive measure for Computer Virus

Its highly recommended you to keep your Operating systems updated. If you are not online don’t forget to check for Windows updates frequently. This is important because the Virus creator always tries to make use of any void in your Operating System to install their software Computer Viruses. If you are online user then make sure that your web browser is also an updated one. Try to use the most compatible and latest of the Web browser may be from any one like IE, Firefox, Opera or anyone else, because the Virus writer always tries to find mistakes in your browser.

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Determining the Best Type of Fastener to Use For Outdoor Furniture Construction

If you want to learn about selecting hardware for your next outdoor furniture project, then you'll want to read this article. Specifically, I'll be telling you about what type of hardware will perform best, why the type of metal used for fasteners and the finish used are important considerations, and how properly protecting or limiting exposure of your furniture to wet and winter conditions can increase Life span. After you're done with this article you will understand that the best choice of hardware for your outdoor furniture project is dependent on furniture style, material used for construction, selected location for the furniture and budget.

Selecting proper hardware for your furniture will help ensure a long life span, as well as improve the overall appearance of your furniture. Part of the problem is knowing what hardware to select when there are so many options available at the hardware store. The typical Lowes or Home Depot carries a huge selection of stainless steel, hot dipped galvanized, bright galvanized, plain steel, coated steel and brass bolts, nuts, washers and screws. Each type of fastener is suitable for certain applications, but not all are ideal for outdoor furniture applications.

In fact, choosing the wrong fasteners can greatly shorten the lifespan of your furniture, contribute to rot of wood furniture, cause unsightly staining, and even make your furniture unsafe to use.

One thing that needs to be noted right up front is, do not ever use unprotected steel fasteners for outdoor furniture, they will rust very quickly, and the steel will react with the tannic acid in the wood causing streaks and staining. The tannic acid actually speeds up the corrosion of the fasteners. Have you ever seen a wooden fence with black streaks running down the boards from the nails? This fence was installed with the wrong type of fasteners. The same thing will happen to your furniture. Even worse, as the fasteners rust, they will speed up the decay process of the wood around the rusted fasteners, ruining your furniture and making it potentially unsafe to use.

Hot Dipped Galvanized

Screws and bolts treated by hot dipped galvanizing are specifically designed for use outdoors. Electroplated galvanized or bright galvanized fasteners will very well not hold up as well as the hot dipped galvanized hardware. Zinc is used as a coating in both methods, and acts as a barrier against the elements and the tannic acids in the wood.

I strongly recommend only using screws or bolts in the construction of outdoor furniture, however. The galvanized finish on nails, either electroplated or hot dipped, can easily become damaged while hammering them in, exposing the nail head to the elements and allowing them to begin rusting quickly.

Adequate care must be taken when installing galvanized screws. Drill pilot holes in hardwoods, and be sure to use a bit that is not worn and intolerable to skipping in the screw head. For whatever reason, the galvanized screws seem to not be as well tempered as other steel fasteners, and are more likely to either snap off or have the heads strip out while installing them. Due to the permission required for the hot dipped coating, galvanized bolts do not have as tight of tolerance on the threads, and are more likely to strip if over tightened.

Hot dipped galvanized fasteners are a fine choice for many outdoor furniture applications, including Adirondack Chairs, but are not the best choice for use in woods, such as teak.

Stainless steel

Stainless steel is the best choice for use in woods with higher levels of tannic acid, such as teak. Stainless steel is an alloy or blend of steel, nickel and chrome. The ratio of the other metals with the steel determine the weather and corrosion resistance of stainless steel. Because the steel is mixed with other softer metals, the stainless steel is not as strong, so predrilling of screw holes is highly recommended in all applications, and essential in hardwoods such as teak and mahogany. The added corrosion resistance more than outweighs any shortcomings that the metal may have, especially in outdoor furniture applications.

While stainless steel fasteners are the most rust resistant, they are also the most expensive of the options we are discussing. However, using stainless steel fasteners will add years of life to your furniture. In the respect, they are an investment that will pay out for years to come.

Brass

I have seen brass used in some commercially produced outdoor furniture, but do not recommend it. While brass does not form red rust, and is well suited for many wet applications such as toilets and sinks, it does tarnish and corrode. It is also very susceptible to the tannic acids in wood, which will cause it to fail more quickly. Brass screws in particular Do not have sufficient strength for outdoor furniture applications.

Outdoor or deck screws

In the past several years a number of manufacturers have introduced outdoor fastening products specifically marketed for deck building. These will typically be green, gray, tan or brown. These screws are either ceramic or plastic coated to delay the metal reacting with the wood acids. The specific coating methods are proprietary to each manufacturer, and can be a combination of electroplated galvanizing and plastic, or a baked on ceramic.

I have used these fasteners in furniture applications and they perform just fine. Unfortunately, I have not come across bolts with this type of finish. The brand of screw I used was Deck Mate, and they were available in tan and brown, so that the color can be selected to better match the wood being used. These screws are ceramic covered, and the manufacturer provided a coated bit for installation, which was designed to not damage the ceramic coating at the screw head. If you choose this type of fastener, be sure to compare the cost with stainless steel, as the price will vary. If the stainless steel is reasonably comparable in cost, it would be the recommended fastener.

Always be sure to read the manufacturers specifications on the box to be sure that the screws are suitable for your application.

Other Considerations

If you are building furniture that will be located on a covered porch or patio where it will be protected from the elements, the concern will be the interaction between the wood and the fasteners, much more so than the weather. Furniture that will be exposed to the elements all year, such as a garden bench, or an adirondack chair in the corner of your garden, will have to be constructed with much more care and concern to ensure that they hold up more than just one or Two winters.

Additional considerations must be made beyond just the choice of what type of fastener to use, though this is very important. For example, fasteners should not be located where water where collect and sit on the fasteners for an extended period of time. The screws that attach the seat slats to an Adirondack chair are a prime example- typically these screws will be countersunk below the surface of the wood. This will allow water to collect in the screw holes, shortening the life span of all but stainless steel fasteners, and prolonging the exposure of the wood to water, which will increase the rate of decay. In applications where the furniture will be exposed to the elements year round the screw heads should be driven flush with the surface of the surrounding wood.

Construction and design of the furniture are also important considerations. Are the horizontal surfaces of the furniture constructed in such a way that will allow them to shed water, rather than collect it? Think of a picnic table with a slatted or board top. The gaps between the boards allow water a way to run off the top and not pool up.

Conclusion

Stainless steel is usually the best choice for outdoor furniture applications, although the cost may be prohibitive for some. There are other less expensive fastener options available that will perform acceptably. Do not use unprotected steel fasteners for outdoor furniture applications under any circumstances. Know where and how you intend to use your furniture and design it for the conditions it will be subjected to.

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History and Components of a Modern Mainframe Computer

Mainframe computers are critical for some of the largest corporations in the world. Each mainframe has more than one modern processor, RAM ranging from a few megabytes to multiple-score gigabytes, and disk space and other storage beyond anything on a microcomputer. A mainframe can control multiple tasks and serve thousands of users every second without downtime.

The chief difference between mainframes and other computing systems is the level of processing that takes place. Mainframes are also different in terms of data bandwidth, organization, reliability, and control. Big organizations-banking, healthcare, insurance, and telecom companies, etc.-use mainframes for processing critical commercial data.

In this article, we discuss the evolution of mainframe computers and their components.

History of mainframe computers

IBM developed a critical part of mainframe computing, the Automatic Sequenced Controlled Calculator (ASCC) for arithmetic operations, in 1944. From the late 1950s through the 1970s, several companies manufactured mainframes: IBM, Burroughs, RCA, NCR, General Electric, and Sperry Rand, for example. Since then, System / 390 by IBM is the only kind of mainframe in use. It evolved from IBM's System / 360 in 1960.

An Early mainframe occupied a huge space. New technologies have drastically reduced the size and cost of the hardware. A current-generation mainframe can fit in a small closet.

Components of a modern mainframe computer

Like a PC, a mainframe has many components for processing data: operating system, motherboard or main board, processor, controllers, storage devices, and channels.

• Motherboard: The motherboard of a mainframe computer consists of a printed circuit that allows CPU, RAM, and other hardware components to function together through a concept called "Bus architecture". The motherboard has device slots for input cards and cable interfaces for various external devices. Where PC motherboards use 32- or 64-bit buses, mainframes use 128-bit buses. General instructions regarding the internal architecture help the motherboard connect to the other devices and retrieve data using binary computation.

• Processor: A CPU acts as the central processing point in mainframe architecture and includes an Arithmetic Logic Unit (ALU) for performing arithmetic calculations. It also works as a controller for the bus architecture and handles traffic and data requests. The processing power of mainframes is much higher compared to PCs, so that they can handle huge amounts of data.

• Storage devices: Storage devices are for entering, retrieving, storing, and recording data. Many are external devices, such as hard drives, tape drives, and punch card readers, all connected to terminals of the mainframe and controlled by the CPU. Their capacity for data storage can be hundred or even thousands of times that of a PC.

• Communication controllers: Communication controllers allow remote computers to access a mainframe. With the help of networks, LAN or WAN, communication controllers establish connections with various devices, perform data transmission over communication channels, and keep track of users at terminals.

• Channels: The "channels" are the cables used to connect the CPU and the main storage to other parts of the system and make sure that data is moved in a systematic way without losing its integrity.

Modern mainframes have advanced features such as expanded service management capabilities, cross-platform integration facilities, etc. And so are suitable for critical data center operations. The cost of maintaining modern mainframes is much less compared to older models.

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The Importance Of Excel In The Workplace

Excel is perhaps the most important computer software program used in the workplace today. That’s why so many workers and prospective employees are required to learn Excel in order to enter or remain in the workplace.

From the viewpoint of the employer, particularly those in the field of information systems, the use of Excel as an end-user computing tool is essential. Not only are many business professionals using Excel to perform everyday functional tasks in the workplace, an increasing number of employers rely on Excel for decision support.

In general, Excel dominates the spreadsheet product industry with a market share estimated at 90 percent. Excel 2007 has the capacity for spreadsheets of up to a million rows by 16,000 columns, enabling the user to import and work with massive amounts of data and achieve faster calculation performance than ever before.

Outside the workplace, Excel is in broad use for everyday problem solving.

Let’s say you have a home office. You can use Excel to calculate sales tax on a purchase, calculate the cost of a trip by car, create a temperature converter, calculate the price of pizza per square inch and do analysis of inputted data. You can track your debt, income and assets, determine your debt to income ratio, calculate your net worth, and use this information to prepare for the process of applying for a mortgage on a new house. The personal uses for Excel are almost as endless as the business uses for this software – and an Excel tutorial delves into the practical uses of the program for personal and business use.

The use of spreadsheets on computers is not new. Spreadsheets, in electronic form, have been in existence since before the introduction of the personal computer. Forerunners to Excel and Lotus 1-2-3 were packages such as VisiCalc, developed and modeled on the accountant’s financial ledger. Since 1987, spreadsheet programs have been impacting the business world. Along the way, computerized spreadsheets have become a pervasive and increasingly effective tool for comparative data analysis throughout the world.

Today, end users employ Excel to create and modify spreadsheets as well as to author web pages with links and complex formatting specifications. They create macros and scripts. While some of these programs are small, one-shot calculations, many are much more critical and affect significant financial decisions and business transactions.

Widely used by businesses, service agencies, volunteer groups, private sector organizations, scientists, students, educators, trainers, researchers, journalists, accountants and others, Microsoft Excel has become a staple of end users and business professionals.

The beauty of Excel is that it can be used as a receiver of workplace or business data, or as a calculator, a decision support tool, a data converter or even a display spreadsheet for information interpretation. Excel can create a chart or graph, operate in conjunction with Mail Merge functions, import data from the Internet, create a concept map and sequentially rank information by importance.

Excel offers new data analysis and visualization tools that assist in analyzing information, spotting trends and accessing information more easily than in the past. Using conditional formatting with rich data display schemes, you can evaluate and illustrate important trends and highlight exceptions with colored gradients, data bars and icons.

Indeed, Excel can be customized to perform such a wide variety of functions that many businesses can’t operate without it. Excel training has become mandatory in many workplaces; in fact, computer software training is a must for any workplace trying to keep up with the times.

Let’s say you’re an employer with 97 workers, 17 of whom called in sick today, and you want to know the percentage represented by absentees. Excel can do that. You can learn Excel and use it to determine the ratio of male to female employees, the percentage of minorities on the payroll, and the ranking of each worker by compensation package amount, including the percentages of that package according to pay and benefits. You can use Excel to keep track of production by department, information that may assist you in future development plans. You can create additional spreadsheets to track data on vendors and customers while maintaining an ongoing inventory of product stock.

Let’s say you want to know your business production versus cost. You don’t have to be a math wiz – you just have to learn Excel. Excel allows you to input all of the data, analyze it, sort it according to your customized format, and display the results with color, shading, backgrounds, icons and other gimmicks that offer time-saving assistance in later locating precisely the information desired. If this spreadsheet is for presentation purposes, Excel helps you put it together in such a visually appealing way that the data may seem to pop and sparkle.

The single most important thing an employer may do is learn Excel – it is one of the most essential tools of the workplace.

Excel and Microsoft are trademarks of Microsoft Corporation, registered in the U.S. and other countries. Lotus is a registered trademark of International Business Machines Corporation in the U.S. and/or other countries.

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How Useful is CAD Software to Engineers and Architects?

The emergence of advanced technology has made people today dependent on machines. Using computers and software, for example, is a very common illustration of this. Computer experts are coming up with more and more software to make more and more jobs easier.

A more specific illustration of this can be found in the modern approach towards engineering and architecture. These days, professionals in these fields use CAD computer software which is a program that allows them to create designs faster, easier and with more accurate measurements. Aside from the convenience that CAD software brings, it also helps put architects and engineers ahead of their competitors. CAD, which can render designs that are two-dimensional or three dimensional, stands for Computer Aided Design and has been in use since 1982.

So how does CAD computer software work? And what does it do exactly to help engineers and architects? The program is actually multifaceted in the sense that there are many ways it can help. To make CAD work will require, however, a careful study of its features and the many ways it can be used. It is rather a complex yet flexible and highly functional program.

This article will not be enough to discuss the various ways that CAD works but pinpointing its advantages could give some very good ideas. One great advantage of CAD computer software is its easy-to-use tools in the creation and alteration of designs. Obviously, this is so much better than the old fashioned way of using a pencil and eraser directly on paper. This method of designing is obviously so much easier and engineers and architects simply have more time to finish other tasks. In other words, high productivity is going to be the main end result of using CAD.

Before the design is actually printed on paper, CAD also allows both the design professional and the client to preview what has been finished so far. Any alterations can be made simply by manipulating the drawing through the use of the software. With CAD, it is so much easier to spot errors because the designs can be rendered exactly as they would be in reality. Hence, modifications can be done even before printing, thus, allowing one to save.

With the tough competition that everyone has to face these days, it is wise to take advantage of new technologies that can help put them ahead in the race. While traditional methods hold a significant part in the history of design, advanced tools such as CAD software should only be welcomed as man’s way of furthering development in a field of expertise that he himself has created long ago.

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Define Computer Hardware

It is quite well known that the working of the computer is dropped by hardware and software. One can define computer hardware as the electronic, magnetic, and electric devices that carry out the computing functions. Hardware is the physical components of the computer like microprocessor, hard disks, RAM, and motherboard. The peripheral devices such as monitor, mouse, keyboard, printer, and speakers can also be included in the list of hardware parts. The programs that run on the computers like Windows, C ++, and Photoshop are the software parts of the computer. A good example for an easy understanding of hardware-software definition is music CDs. The actual compact disk is the hardware, while the songs and music in the CD are the software parts.

There is another way to define computer hardware. Hardware devices are the executors of the commands provided by software applications. For example, let us see what happens when you click the print button of the web browsing software. The software application provides a command to the processor, which is the central part of all computer hardware. Processor in turn checks for an attached printer. If the printer is ready, the software will get a positive response from the processor. Then the software application provides instruction to the printer via the processor to print the web page. In that sense, hardware parts are the foot soldiers and software applications are the commanders in the digital operation that takes place within a computer.

The main player of computer hardware is unduly the microprocessor. It is the sun in the solar system of computer hardware devices. It is the central component and all other components work around it. It is an integrated chip on which a number of functions are incorporated. Two specifications determine its efficiency. One is its processing speed, which is measured in gigahertz. The other is its bit rate. Commonly available processors are 32 bit and 64 bit. The bit rate is a measure of the efficiency of a processor to carry out multiple operations at the same time.

One can not define computer hardware without mentioning the two types of memory used in computers. One is permanent memory. It refers to the magnetic storage capacity of hard disk. It is measured in gigabytes. The second is RAM or random access memory. This memory is able to store data only when the computer is switched on. The memory will lose all the data when the computer is switched off.

Another important product that one should mention when one defines computer hardware is motherboard. It is the electric and electronic circuit board on which all the other components are inserted. There are several other kinds of products such as sound card, video card, network card, and modem that complete the hardware spectrum.

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Kitchen Design Ideas

Kitchens have so many design options that they are literally never ending. Kitchen design ideas include features such as cabinetry, tiles, counter tops, appliances, hardware and fixtures. Each feature on its own has a multitude of design options and the possible combinations are endless. Two identical kitchens with only one different feature can look like very different kitchens when finished. Because of the vast number of design options, thoroughly research what products are available on the market and get a fairly good idea what it is you are looking for.

The main feature in any kitchen is the cabinetry. It is more often than not the first thing that people notice in a kitchen. The layout of the cabinetry is unique to each kitchen. Measure the size of your kitchen and determine the types of cabinets and where you would like them placed. If you have a solid wall with no windows, doors or appliances opt for floor to ceiling cabinets full of drawers for storage. Include a broom or cleaning closet in these cupboards. Glass fronts in corner cabinets are a popular design feature. Cabinets have a wide variety of door styles. There are recessed, flat paneled and raised cabinet doors. Each of these options comes with several design choices. Once you have picked the design of your cabinets you need to decide on the stain that suits your kitchen space. Opt for lighter colored stains for smaller kitchens to keep them feeling open and spacious.

Counter tops are also an important feature in a kitchen. They too are highly visible. Counter tops should be chosen for durability as well as looks. Granite counter tops are the most popular choice today. You may also choose from engineered stone, ceramic tile, laminates, wood and stainless steel. The material and color of your counter tops should compliment your cabinetry, backslash and tiles. If your kitchen is a large room but does not have a lot of counter space you might want to consider adding an island for additional space. Not only does an island adds counter space but also storage space.

Flooring is an integral kitchen feature. Most kitchens are done with ceramic tile flooring but wood floors and laminates are growing in popularity. Many kitchens have tiled backslashes. Be sure that the tiles used in your backslash compliment the flooring. Besides the type of flooring you use, you must also pick a color of tile, wood or laminate as well as texture. Quite often a kitchen with light colored cabinetry will look best with a slightly darker floor and vice-versa. Contrast between the cabinetry and the flooring, no matter how small, creates the illusion of depth.

The kitchen design ideas listed above are just the tip of the iceberg. We have not even touched on cabinet hardware, lighting fixtures, sinks and taps, paint colors or appliances. Matching appliances are ideal in any kitchen. Stainless steel appliances are a favorite because they match just about any kitchen design. Families with small children may wish to consider black appliances since stainless steel shows fingerprints. Put as much thought into the small features as you do the larger ones. Something as simple as buying the wrong cabinet hardware can ruin the look of the completed project.

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How To Spot a Fake Jimmy Choo Handbag

  • Label: The Jimmy Choo label is generally a lilac colored metal face fastened to a leather backing, and stitched to the interior of the handbag. Many fakes have the incorrect shade of lilac, either going to light or too dark in the purple spectrum. The label should read in either gold or silver. However, even if the colors are correct, the label may still not be in the clear. Because it often times the font details that are singular to authentic Jimmy Choo that many of fake handbags get wrong, and this is one of the best places to look when trying to identify a phony J. Choo.
  • Font: Always check out the "H" in Choo. On an authentic handbag, the horizontal cross-bar in the H should not be in the center of the letter, the way it is intended to be with regards to most standard fonts. Instead, the Jimmy Choo H should have the cross-bar closer to the top, about 75-80% of the way up the H, if measuring from the bottom of the letter. If the handbag has the correct H, move to the letters "O" in Choo. On an authentic handbag, the O will have a slightly bent look. This means that the "O" will appear as if someone snapped down on the top of the letter, giving the O an oval shape rather than a perfect circle. Spotting a fake Jimmy Choo handbag often times comes down to the subtleties in the font.
  • Hardware: Any screws located on handbag hardware will always be a flat head (-) screw. Jimmy Choo will never use any Philips head (+) screws in any of their handbags.
  • Dustbag: Fake Jimmy Choo handbags will often be accompanied by a dustbag that is an incorrect color or format. An authentic dustbag should have the logo: "JIMMY CHOO," with "LONDON" centered perfectly under the logo. The font should be an embossed gray, while the dustbag itself will be the famous lilac color. Many fakes will have incorrect font colors on the dustbag, as well as the incorrect dustbag color ie the wrong shades of purple etc. Good luck and safe shopping!
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How Has Technology Changed Art?

We all are witnessing the changes being made in the art these days. Technology has the power to change anything. It is changing the traditional art into digital art.

Amazing digital art has taken place of traditional art. Digital art is exploring itself in many different ways that one can imagine. Different software is developed to increase the presence of digital art.

Photoshop Artists are one of the most common digital artists who give an amazing look to a picture with the help of imaging software and different applications.

These applications are developed with the help of technology. Anyone can be a digital artist having knowledge and proficiency in Photoshop.

Difference between traditional artists and digital artists is that traditional artists use paint and cement for their art and digital artists use imaging software and applications in their art. Some of the applications have the power to create 3D art work.

Technology has taken art into a new level of creativity. Let us talk about how technology has changed traditional art into digital art. We know that internet is ruling the world with its power. So, artists decided to present their art online with the help of internet. This is possible with use of technology.

You must have seen art galleries and attended painting exhibitions in your life. These doesn’t work well these days so artists find a way where they can get more attention and more praise for their work. Most of the artistic stuff is now seen online and is circulated to the art lovers.

There are some places where exhibitions are held and we do respect them. But presenting paintings, sculptures and art work online is in trend. Some of the artists are also showing their art on the basis of card swipe panel or coins.

How this work – when you enter coins or swipe card in the panel, the panel shows you some of the art work for a few minutes and then gets closed and if you want to see it again or explore more, further you need to swipe your card or add coins into it. This is how artists are using technology.

How digital artists are using technology for their art work

Digital artists already in touch with technology are aware of the systems that are in trend and use them to create their art work and sell them online.

Some of the professional digital artists are earning a lot of bucks by selling their art work. They can also design the ones that you want and are also ready to make any modifications you need.

They use different software to explore their skills and made it more impressive. They are using technologies that offer new ways to express their art work in a realistic way for much more time.

They are using different types of media and mix them to provide a more creative art work. Their 3D art work looks as real as it is present live in front of you.

Technology not only brings changes in education, medical field, industry and business but also brings a huge change in the art work and the artists as well.

Technology opens different paths for the artists to enter into for a good earning. They made their profession more powerful along with their art work.

In our busy lives we hardly get time to meet each other and our loved ones. How can it be possible to see exhibitions and galleries? So technology has brought this change in the art workers to show their skills and talent to people from anywhere in the world.

Technology is getting advanced and making more useful for the common man as well as artists. Technology has provided us with several things that we should be thankful. One of them is digital art work.

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