If you regularly make backup copies of your files and keep them in a separate place, you can get some, if not all, of your information back in the event something happens to the originals on your computer.

Deciding what to back up is highly personal. Anything you cannot replace easily should be at the top of your list. Before you get started, make a checklist of files to back up. This will help you determine what to back up, and also give you a reference list in the event you need to retrieve a backed-up file. Here are some file suggestions to get you started:

If you haven't already decided where you want to store your backup copies—external hard disk drive, CDs, DVDs, or some other storage format—and you want to know more about your options, you can read about the types of external storage available.

After you've decided what you want to back up and where you're going to back up, you're ready to learn how to back up.

2. Use electrical surge protectors to ensure your computers will not experience sudden surges of electricity, e.g., during storms, if the quality of your electricity in your building is poor, or is the computer is turned off and on.

3. Protect unauthorized access to computer files by using passwords to log-on to your system, if possible. Critical files can be copied onto two different diskettes (with one as a backup for the other) and both stored in locked drawers. Be sure to label the diskettes such that you'll recognize them later by the name on the diskette label.

4. Ensure that computers remain working as much as possible (that is, maximum their uptime) by recording and testing detailed procedures for all routine, but critical, tasks performed by staff on the computers and associated peripherals, e.g., for computer backups and restores, fixing recurring problems, etc. Locate and label the procedures in a central location of which all staff are aware.

5. Develop competent internal technical support personnel who can help others to conduct basic activities on the computers and who can call outside consultants for troubleshooting when needed. Have one or two internal people who are designated as technical support contacts for other staff members.

6. Instruct staff to report all problems to the internal technical support people. That way, the internal people are aware of all problems and are more likely to detect oncoming problems as early as possible. They also become better trained at detecting and diagnosing problems.

7. Record all important phone numbers for technical support consultants or contacts, and ensure staff can find these numbers when needed.

8. Keep all software documentation, such as manuals and guides, stored in a central location where staff can find them. Post a sheet on the wall so they can check documents out and for control to ensure they are returned.

9. Promptly register all new software with the vendor to ensure you receive notification of regular software version updates and your eligibility to call the vendors for technical support if needed.

10. Keep the serial numbers of all software packages in a clearly visible place for ease of reference when calling the software vendor's technical support. (The vendor usually will ask you for the serial number to verify that you indeed purchased the software.)

11. Note that if you dissemble your computer hardware, you risk losing coverage of your warranty. During your warranty period (which often covers labor during the first 90 days and hardware during the first one or two years), always call the vendor as soon as you suspect any problems. Problems usually occur during the first several weeks if they occur at all.

12. Be sure to install a virus detector on your system. The detector should automatically check any new data brought into your system, for example, from diskettes, downloaded from the Internet, etc.

13. Develop a disaster recovery plan. The plan should address contingencies. It should include procedures to respond to, e.g., if a disk crashes, if the computer quits working, if the network is down, if the building is somehow destroyed, etc.

by dayatna at 6:03 AM |

Not All Products Are Very Compatible to Sales Over the Internet

But there are some features unique to e-commerce. Not all products are real compatible to be sold over the Internet. For example, they may require a lot of face-to-face selling. They may cost a lot to ship (a primary practice in e-commerce is that customers buy products, and you ship the products to them). You need to make sure that, because your product may be advertised to the world, that you remain in control of your ideas, or "intellectual property".

You Need an Online "Store"

Basically, you need an "online store" to be an "e-tailer". (Don't fret. You may be able to outsource, or hire, a current store to work with you.) Your store will need a "merchant" account, or the ability to process your customers' credit card transactions over the Internet. This includes needing a "secure server", or that your online store be on a computer system that ensures that customers' credit card numbers cannot readily be read by people who are not supposed to read these numbers. You'll probably need some kind of online order form that customers can complete, in order to purchase your products. You may even want your the processing of customers' order to include processing the customers' credit card numbers right away while they're still online and connected to your Website.

Let's read on to understand the very basics of e-commerce.

Obviously, You Need a Website

You need to design and promote a Website. You'll need access to expertise that can regularly design and maintain this Website for you -- and it will require ongoing attention. Fortunately, there is a great deal of free information available to help you with this design and promotion.

In 1995 the program expanded beyond computers to include other consumer electronics and appliances. The next year, the US Department of Energy became involved in the program for specific product categories. Most people are probably familiar of ENERGY STAR because this partnership brought the yellow energy guide labels to home appliances such as washers, dryers, refrigerators and dish washers.

Why Does it Matter?

Personal computers and home electronics may seem like they don't use a lot of power, but unlike a light that is switched off when not in use, most people leave their computers turned on.

New Qualifications For PCs

As technology has changed over the years, the ENERGY STAR program has updated the requirements for the ENERGY STAR program. After all, a PC built four years ago is going to have very different power requirements from systems today that use multiple processor cores and feature a greater number of integrated devices. As a result, a new 4.0 specification is being put in place for all personal computer systems effective July 20, 2007. The new specifications set three new categories of requirements that all new computers must meet to display the logo.

The first and probably the most important of the changes is in power supply efficiency. Computer components run at lower voltages then those provided by an outlet. To do this, a power supply converts the voltages down to those the computer can use. During this process, some of the energy is lost as thermal heat. The more efficient the power supply is, the less power is lost as heat. For example, a 65% efficient power supply would convert 100W of wall current to 65W of power for the internal components. The new ENERGY STAR requirements are that all internal and external power supplies must have a minimum efficiency rating of 80% across all rated output. This is a very significant change.

The second change is what they call “Operational Mode Efficiency” requirements. Essentially this defines how much power a desktop or notebook computer can use when it is in standby, sleep and idle modes of operation. The amount of power for the standby and sleep are set at specific levels no matter what the notebook or desktop hardware is. Idle power levels can vary depending upon the hardware that is inside the PC.

To give a better example of this, a desktop computer system is allowed a maximum of 2W while in standby and 4W when in sleep modes. A basic desktop is allowed to use up to 50W when in idle while a multiple core desktop with dedicated graphics card can use up to 95W. Notebooks are even lower with 1W for standby, 1.7W for sleep and either 14 or 22W for idle.

The final change is for a power management requirement. Users may be somewhat familiar with this settings in Windows control panels that can adjust the delays between sleep and standby for the monitor, drives and the whole system after it has no user interactivity. New computers must have a power management setting of 15 minutes to put the monitor into a sleep mode and a 30 minute setting to put the entire computer into sleep mode. Of course, these are only requirements for the settings when the computer is shipped and they can be changed by the user after they receive the PC.

What Consumers Can Do

The total cost of ownership for a computer is more than just the cost of the computer system. Consumers also pay for the power to run their computers. Then there are other factors to the use of a computer such as the resources made to produce the computer and the cost of properly disposing of the computer. The ENERGY STAR program can help let consumers know that they are taking a step at reducing some of the costs of ownership by reducing the power usage and also helping to save the environment by reducing power generation.

When purchasing your next computer system, look for the ENERGY STAR logo either on the packaging or materials for the PC. If they are displayed with the computer system, then you know that the computer meets the minimum requirements to earn that logo and will typically use less power than one that does not have the logo.

If you already have a computer system and are not looking to replace it, you can still help reduce the power consumption by adjusting your usage patterns and changing the Power Management settings in the operating systems. By helping to reduce the power used by the system when it is idle, you can also help save on power bills and the environment.