Troubleshooting on the CD-ROM or DVD-Rom



Troubleshooting on the CD-ROM or DVD-Rom

On post this time I will provide information about how to solve problems on the CD-Rom or DVD-Rom. The following are some common problems:
1. CD-Rom or DVD-Rom can not be read by a computer, whereas the CD-Rom or DVD-Rom is on.
Cause:
Possibility 1: The cable data is not properly installed or tenuous, and could also be because there is a broken data cable.
Solution: Connect the data cable correctly and tightly in the connector. If not successful, replace the cable data with others or with a new cable.
2. Difficult to open and close the door of a CD-Rom and DVD-Rom
Cause:
Possibility 1: Rubber tape drive motor where the CD has been loosened or expanded.
Solution: Replace the tape with a new rubber.
Possibility 2: Motor drive where the CD or DVD for the entrance and exit is weak or not does not spin anymore.
Solution: Try cleaning the teeth of the motor and driving with alcohol. If not successful, replace it with a new engine.


Hopefully useful.

Troubleshooting on Processor and its Maintenance


Problems on the processor generally cause the appearance of the layer blank without any sound. This occurs because:
1. Processors dead or damaged.
2. The processor temperature is too hot burns caused due to over clock or because the processor fan is not working.
The solution is to replace a new processor.

Processor Maintenance
The treatment for computer processors are:
1. Use a good heat sink and fan.
2. Frequently clean the heat sink and fan attached to the processor.
3. Trim the cable is in the casing.
4. Avoid doing the technique is not easy to over clock the processor to heat and age, the processor can be longer.

A System Is Dangerously Low On Resources Message

If you receive a system is dangerously low on resources message, this could mean you have a memory leak. A memory leak is less of a problem these days, but can occur if a program is quit or crashes before it completely finished loading. A program is supposed to relinquish the resources it takes when it shuts down. When this does not happen, a memory leak will siphon your system resources until your computer feels sluggish and you begin to get errors.
Regain System Resources

You can easily regain these system resources by rebooting the computer. But you need to figure our what application is causing the memory leaks–especially is this is a reoccurring problem. You can check the task manager to see what programs are running by hitting CTRL+ALT+DEL and selecting Task Manager, then the Processes tab. In the far right column you will see which programs are consuming the most RAM. If you see an application in there that is not running, but still consuming resources, you should end the task or reboot the machine. Check the task manager again when you reboot
. If if the program reappears and you are not running it, go to Start and in the run or search box type msconfig and hit OK. On the startup tab, uncheck that program if it is listed. The next time you reboot, that program should not load.

You can also uninstall any old programs you no longer use through the control panel. Uninstalling old programs ensures they stay out of memory and as a result, your computer should remain stable and run faster.

Keep in mind that memory leaks can be caused by programs that have coding issue and bugs. If you find that a particular program you like is causing a memory leak, check for a patch or a newer version of that program, as the issue might have been corrected in the latest release.

Troubleshooting Blue Screen of Death Errors


Any frequent Windows user has encountered the big bad BSOD, short for the Blue Screen of Death. This common error will make its presence known whenever the system senses that an application, piece of hardware or device driver is experiencing issues behind the scenes. What makes this particular issue so tricky is that it can be an indicator of anything from a minor glitch to a major error that causes your system to malfunction and leave you staring at the infamous blue screen.


On rare occasions, getting rid of a blue screen error is as simple as rebooting the system. Some have been lucky enough to restart their PC and never encounter the problem again. Unfortunately, this error usually means that your system is suffering from a critical error and when this is the case, it will not go away until you address the matter.


There is no standard solution to fixing the blue screen problems, mainly because there are so many problems that can result in such an error. This could be anything from a new program you just installed to a memory stick you added to the computer. In order to eliminate this nuisance, you must first diagnosis the problem to find out what’s actually going on. By doing a little troubleshooting, you can narrow things down and actually find the culprit.
Check Software and Hardware Components


The easiest step to eliminating blue screens is uninstalling any new software or hardware recently installed on the machine. If you encountered the problem after adding on a new component, this is likely the source of your problem. This could be due to a failed installation or incompatibility issues related to the software or a driver the device needs to function.
Check Your Memory Status


Blue screen errors could also appear if you recently added more RAM to your computer. You can find out if your RAM is faulty by running a diagnostic utility. If you don’t have such a tool handy, you will have to get more hands on by opening the computer case and removing the stick of RAM you just installed. From there, you can fire up the machine to see if the blue screen still shows up. This is actually easier than it sounds, but if you don’t feel comfortable opening your computer find yourself a professional technician who won’t charge an arm and leg to do the job.
Fix the Registry


The Windows registry is one of the most common causes of the BSOD. Over time, the registry gets cluttered with invalid files and other unwanted items that can make your system unstable. A blue screen of death occurrence is the ultimate sign of instability. You can run a registry cleaner to find out if the registry is stirring up all the trouble on your PC. These programs are fairly inexpensive and have the ability to automatically detect and remove the questionable items hiding out on your PC.
Conclusion


When the blue screen of death shows up, it will be accompanied by a STOP code that gives details on what caused the problem. Be sure to jot down this information when troubleshooting to better your chances of successfully fixing the issue.

Computer Continuously Restarts


If your computer continuously restarts while running, or if you see the flash of a blue screen before it reboot, then Windows is in a state where the only way it can attempt to fix itself is through rebooting. While this will work with the occasional system crash, it will not fix the issue if there is a drastic hardware or software problem. Instead, your machine will seem to be caught in a loop of starting up, crashing and rebooting. The key to solving this type of problem is capturing the crash message that is flashing on the screen.
Prevent Windows From Rebooting

You can stop Windows from rebooting after a crash by doing the following:

1. Right-click My Computer
2. Select properties
3. Select the Advanced Tab
4. Under Start-up and Recovery, uncheck the Automatic Restart box and then click OK.
5. Reboot the computer

Now when your computer crashes, you should see the confusing Blue Screen of Death along with an error code. You can search Microsoft.com for the exact nature of that code and take measures to resolve it. Depending on the error, you might try rebooting into Safe Mode by tapping F8 while booting and running a System Restore to revert your computer back to a time when it was not crashing. Or you might run the error checking utility in Windows to scan your computer’s hard drive for issues. You might also run a popular program called Memtest86 to scan your computer’s RAM for errors that could be causing system stability issues.

The first step in this process is getting the blue screen to remain on the screen, and preventing the automatic restart is the way to do this

Troubleshooting of Power supply

Usually we think and are often considered as a problem caused by hardware components such as memory, VGA card or motherboard without a thought occurs at power suplly mistakes that we use. Here are examples of problems that occur:

Computer restarts alone when the system was working.
Computer dead after some time operated.
Internittent parity check or other memory-type errors.
Hard disks and fans are not rotating simultaneously.
Electric shocks felt in the casing or connector.
Power-on or startup failure or lockups.
Sometimes booting itself without spontaneous lockups during normal operation.
System completely dead.

Cause:

This problem often occurs because the amount of voltage at power supply is not sufficient to be distributed to the hardware component.
Installation / function On / Off button inappropriate or is damaged.
Power cable to the motherboard broken off.
Fan does not turn on the power supply, causing excessive heat on the power supply.
Solution:

Make sure the power supply voltage is sufficient to replace hardware components with the power supply has a higher voltage.
Replace the switch ON / OFF power supply is connected to the casing.
Make sure no power cord is broken into the motherboard or other hardware component.
Replace the existing fan to the power supply if it does not rotate.
Replace the power supply voltage in accordance with the existing hardware components inside the casing, at least for the PIV to the ATS computer, use a power supply with a voltage of 350 watts.
Hopefully this information useful.

Troubleshooting on Motherboard


Often there are problems on the motherboard that caused by faulty hardware components installed on the motherboard or damage to the chipset used on the motherboard and I / O.
The problems that can occur such as:

A. Computers can not be switched on or often referred to by the term "motherboard blank" when the ON button on the casing has been pressed without any sound. Usually this happens because:
Defective power supply or power supply cables to the motherboard is placed incorrectly or loosely.

1. BIOS is corrupted or not functioning.
2. CPU clock setting error due to over clock on a computer.
3. Processor that is installed is damaged or incompatible with the motherboard socket that is used.
4. Fan on the processor die.
5. Damage to the existing chipsets on the motherboard.
Solutions
1. Make sure the power supply lights up and the connectors installed properly on the existing connector on the motherboard.
2. Reinstall the BIOS program that existed at the CMOS / BIOS on the motherboard.
3. Restore all default settings in the BIOS.
4. Use in accordance with the type of processor that the existing motherboard.
5. If it does not rotate, the fan on the processor should be replaced with new ones.
6. Chipset damaged must be replaced with a brand of the same chipset.
7. Clear CMOS / BIOS function from the initial reset all BIOS settings, by removing the "reset jumper" on the motherboard, then installed again.

B. Computers often hang or can not boot.

This is caused by:
1. Chase memory on the motherboard is damaged.
2. BIOS settings are not correct due to over clocking
3. Motherboard dirty or full of dust, so the data points on the motherboard much disturbed.
Solutions

1. Replace IC chase memory with the same type and brand. Because this work requires a professional, you can fix this by disabling the function of memory chase through the motherboard BIOS settings. However, in order not computer performance is slower, main memory capacity are required to be added (eg an existing memory of 256MB, 256MB should be added again to 512MB).
2. Restore the BIOS settings at default or in any way clear the CMOS / BIOS.
3. Clean the motherboard and the fan is in the casing with a soft brush.

C. At the time the computer boots, there is a message "CMOS failure" and "Press F1 to continue". The problem is caused by BIOS CMOS battery has been depleted or damaged. The solution is to replace the CMOS battery on the motherboard BIOS with the new.

D. Damage was also often occurs due to the connector I / O motherboards.
This damage, such as:
1. LPT port (port printer) damaged so that the printer can not work.
2. Serial port (Com 1 or Com 2) damaged so that all equipment that uses this port can not function. Like a mouse model of external devices that use this port.
3. The USB port is damaged. Often there is a presumption that the external device that uses this port is damaged, for example, USB flash, USB mouse & keyboard, digital camera not detected by the computer.
Solutions

To overcome the problem of I / O port, replace the appliances or connector I / O with the new. You can do it yourself by installing a super I / O card as an equipment replacement I / O ports by installing a defective motherboard I / O card on PCI slot. In order for the super I / O cards can work on your computer, you must disable the internal function of I / O is in the motherboard by setting enabled in the BIOS to disable. The motherboard uses the I / O card installed in PCI.

Dead Computer Troubleshooting




One of the most difficult computer problems for a home user is troubleshooting a dead computer. When we mean “dead” we mean no signs of life at all. Where do you even begin? The average user doesn’t know the internal workings of their computer–and they shouldn’t have to. So when things go wrong, they do not know where to begin to diagnose and either fix the problem or make arrangements to have the problem corrected. The following steps will help give you some general knowledge of what could be wrong with your PC and give you some ideas on how to fix it or provide you with enough knowledge to prevent you getting ripped off at the computer repair shop.
For starters, if the computer is still under warranty, do not open the case, as this will void your warranty.HP, Dell and any other major manufacturer will respond quickly to your problems and arrange for you to send the computer in, or they might opt to send a technician out to work on the computer. If you bought the PC at a shop around the corner, send emails and begin a paper trail on the issue.
With that said, a completely dead computer will usually have either a bad motherboard, bad power supply, or a faulty case. The following steps will help you find out which is the culprit. Well start with the easiest and work our way down to the hardest. One of the first things you’ll want to do is unplug the computer and take it to a table where you can lay it flat. Open the case and check the connections to see if you notice anything blatantly wrong, then proceed with the steps below.

Diagnosing A Bad Power SupplyPower supplies can fail without warning. The worse part is, they can partially fail. This means you might be getting power to the motherboard, the fans and other components, but you do not have the correct voltages to start the motherboard.The power supply is located at the back of the case, and is where the power cable plugs into the PC.

Your first step should be to plug the computer directly into the wall and bypass any power strips. You should also confirm the outlet is working properly.
Make sure the red voltage regulator switch on the back is set to 115 if you reside in the United States, people in some countries will need to set theirs to 230. With the power off and unplugged, try toggling the switch to 230, then back to 115 to make sure it is seated in the right position.
Next, buy a power supply tester. Computer techs will use a multimeter to test for proper voltages. Normal users can just buy a power supply tester. These are cheap and easy to use.
If your power supply is bad, buy one of equal or greater power. If your current power supply is 350WT, be sure to get one that’s 350WT or higher. Shop for a power supply.
If you have an HP computer, read these HP power Supply troubleshooting tips.A power supply will tend to fail before anything else, as they take the most abuse. They are the front line when a power surge or brown out occurs. The good news is, they are extremely easy to replace should you find this is the problem.

Diagnosing A Bad Computer CaseWhile a dead PC will either normally be a bad power supply or bad motherboard, the next easiest thing to troubleshoot is the case. How can a case go bad? A case has minimal smarts, but it does have wires leading from the power button to the motherboard that can go bad, and some even have advanced I/O panels that can fail.

You can try bypassing the case switch. This means you are initiating the power-on sequence without using the button on the front of the case. For this, you will need a good set of eyes and a small, flat-head screw driver. The idea is to find the wire leading from the power button to the motherboard that’s marked something like POWER SW or POWER ON. It will cover two pins on the motherboard. Carefully, with the computer plugged in, touch tip of the flat head screwdriver to both of those pins at the same time, thus “shorting” them. You will not get shocked by doing this, but you need to be careful not to scratch the motherboard. Read more on bypassing the case switch here.

If you have a Dell computer, read how to test a Dell I/O panel here.
Diagnosing A Bad MotherboardThe motherboard is the hardest thing to diagnose and replace. If your motherboard is proven to be bad, it must be removed from the case and replaced. Unfortunately, there’s a lot of stuff plugged into the motherboard, such as the CPU, RAM, PCI cards, Video Cards, hard drives, CD / DVD drives, power supply and fans. There are also tricky connections that must be made to the case’s power and reset switches. So replacing a bad motherboard is a long process. A bad motherboard will be determined by the following:

If all of the above are not the problem, the motherboard is the problem by default.
A bad motherboard might have visual signs of damage, such as bulging or leaking capacitors. See below.
With the computer unplugged, try holding in on the power button for twenty seconds. This will drain the capacitors of any excess power. The computer might start up and work fine forever. If the computer starts, then fails again after doing this, then the motherboard is bad.
Try removing any non-essential cards and drives in the computer. You do not need modems, sound cards, hard drives, CD / DVD drives, or floppy drives connected to boot. Our goal is to get a clean power-up situation, not boot into windows. If you remove non-essential parts and you still have no power, then the motherboard is bad.In Conclusion, technicians will have more advanced tools and diagnostic equipment to quickly find the problem with your PC. But it will usually be one of the above that is causing the problem in a no power scenario.

Computer troubleshooting

1: Processor overheating

Chipmakers have recently been working to make processors more efficient, which means they generate less heat. Nonetheless, some modern processors still generate a lot of heat. That’s why all processors require some sort of cooling element, typically a fan of some type. A system’s Thermal Design Point (TDP) rating indicates, in watts, how much heat it can safely dissipate without exceeding the maximum temperature for the chip. When the processor temperature goes over spec, the system can slow down or run erratically (lock up) or may simply reboot. The processor fan may fail for several reasons:
Dust is preventing the fan from spinning smoothly.
The fan motor has failed.
The fan bearings are loose and jiggling.

Often, you can tell if there is a fan problem by listening and/or touching the computer. A fan that has loose bearings starts jiggling and vibrates the case, making a characteristic noise. As time goes by, the sounds and vibrations will become so prominent that you’ll change the fan out just to regain some peace and quiet.

You don’t always need to replace the fan. If it is covered with dust, you can often spray away the dust with compressed air. But even though you might get the fan running again, its life span has likely been reduced because of the overwork. You should keep an extra fan in reserve in case of failure.

Processors may also overheat because the heat sink is not properly placed above the processor or the thermal paste is not of good quality or was applied incorrectly (or not at all) when the system was built. This is more likely to be a problem with home-built systems but can happen with commercially manufactured ones as well. The paste can break down over time, and you may need to reapply it.

Case design is another element that can contribute to or help prevent overheating. Cases with extra fans, better vents, and adequate room inside for good airflow may cost more but can provide superior cooling performance. Small cases that squeeze components together can cause overheating. For this reason, laptops with powerful processors are prone to overheating.

Tip

Another common reason for processor overheating is overclocking. Until heat begins to take its toll, overclocking does allow for significant performance improvements. Because processor overclocking can really cook a processor, most dedicated overclockers do not use regular processor fans. Instead, they use complex — and expensive — water-cooling systems. For more information on overclocking, check out overclockers.com.


Overheating can also be caused by the external temperature (that is, the temperature in the room). Computers no longer have to be kept in cold rooms as they did in the early days of computing, but if the room temperature goes above 80, you may find your computers exhibiting the symptoms of overheating. If the temperature is uncomfortable for you, it’s probably too high for your computers. Adequate ventilation is also important.

Most computers today have an option to display the CPU temperature in the BIOS. There are also a number of utilities that will track the temperature of your processor and case, such as Core Temp. If you want to look for other such utilities, check out TechRepublic’s software library and use the search term “temperature.”

2: Bad RAM

Several situations can lead to RAM-related performance problems with a particular machine:
RAM timing is slower than optimal machine spec.
RAM has minor flaws that appear only on detailed testing.
RAM is overheating.
There is insufficient RAM.

In the old days of Fast Page RAM, buying new RAM for your computer was a simple affair. You just needed to know what speed your motherboard supported and the maximum each slot would take. Today, there are many types and speeds of RAM, and the better motherboards may be tolerant of using RAM that does not match the motherboard’s maximum specs. For example, your motherboard may support PC133 RAM but will still work with PC100 RAM. But be aware that you may see performance decreases if you install RAM that is slower than the maximum spec. Some motherboards will even allow you to mix speeds but will default to the slowest RAM installed.

Minor flaws in RAM chips can lead to system slowdowns and instability. The least expensive chips often have minor flaws that will cause your system to slow down or Blue Screen intermittently. Although built-in mechanisms may allow the system to keep working, there is a performance hit when it has to deal with flawed RAM chips.

In the past, no one worried about RAM chips getting hot, because they didn’t seem to generate much heat. But that’s changed with newer RAM types, especially SDRAM. To check for overheating, open your computer’s case, power down, and pull the plug out. Ground yourself and touch the plastic on one of your RAM chips. Ouch! They get pretty hot. If you find that your RAM chips are overheating, you should consider buying a separate fan to cool your memory. If your motherboard doesn’t support a RAM fan, you might be able to get enough additional cooling by installing a fan card that plugs in to a PCI slot.

Of course, one common reason for poor performance that’s related to RAM is simply not having enough of it. Modern operating systems such as Windows 7 and today’s resource-hungry applications, combined with our increasing tendency toward extreme multitasking, result in a need for more RAM. The minimal specified system requirements may not cut it if you’re doing lots of multimedia or running other memory-intensive applications. 32-bit Windows is limited to using 4 GB of RAM, but 64-bit Windows 7 can handle from 8 to 192 GB, depending on the edition. If your system allows, adding more RAM can often increase performance.

3: Hard disk issues

Traditional hard drives are mechanical devices that eventually wear out. There are many signs of imminent failure before a hard disk finally gives up. Some of these signs include:
Slow access times on the affected drive.
An increasing number of bad sectors when running scandisk and chkdsk.
Unexplained Blue Screens.
Intermittent boot failures.
An “Imminent Hard Disk Failure” warning.

Detecting a failing hard disk can be tricky because the early signs are subtle. Experienced computer professionals can often hear a change in the normal disk spin. After the disk deteriorates further, you’ll see the system slow to a crawl. Write processes will take a long time as the system tries to find good blocks to write to. (This will occur if you’re using a robust file system such as NTFS; other file systems will likely Blue Screen the computer.)

When you notice the system slowing down, run scandisk or chkdsk, depending on your operating system. If you notice a bad sector where a good sector existed earlier, that’s a clue that the disk is going bad. Back up the data on the disk and prepare for it to fail soon. Make sure you have a spare disk ready so you can replace it when it fails or replace the disk as soon as you notice the early signs of failure.

Disk noise and scandisk/chkdsk are your best indicators for identifying a failing drive that’s leading to a system slowdown. However, if you are managing a system remotely, or you can’t take the system down for a full chkdsk/R, you can use tools that monitor disk health, such as Executive Software’s DiskAlert.

You may also get a warning message from SMART hard drives that failure is imminent. Sometimes, you’ll get these warnings when the hard drive is fine, due to problems with the hard drive device driver, the chipset driver, or the way the BIOS interfaces with the drive. Check for newer versions of the drivers and BIOS firmware.

Even if it’s operating properly, your hard disk may be a bottleneck that’s slowing down the rest of your system. See the next item for more information on what you can do about that.

4: Disk type and interface

Once upon a time, buying a hard drive to work with your system was easy. Today, things are more complicated, with many types of drives available, offering differing levels of performance. Most modern motherboards will support more than one type.

For best performance, you may want to dump the old IDE PATA type drives and upgrade to SATA, which comes in several speeds from 1.5 Gb/s to 6 Gb/s. Obviously, the faster drives will also be more expensive. Some new computers also have eSATA connectors for attaching a SATA drive externally. Other options for attaching drives externally include USB and Firewire/IEEE 1394.

Slowdowns may be caused by installing programs or often-used files on slow external drives. If you must use external drives for such files, go with the latest version, such as USB 3.0 (which is up to four times faster than USB 2.0) or Firewire 800. If you don’t have ports to support the faster version, you can install a card to add support.

New Solid State Drives (SSDs), which generally connect via SATA, can often provide better performance than other drive types, but cost much more per GB of storage space. Windows 7 includes support for TRIM, which optimizes SSD performance. SCSI drives are still around, too, notably in the form of Serial Attached SCSI (SAS) with super fast access times — but they’re expensive and noisy and used primarily for servers.

5: BIOS settings

One frequently ignored cause of system slowdown is the machine’s BIOS settings. Most people accept the BIOS settings as they were configured in the factory and leave them as is. However, slowdowns may occur if the BIOS settings do not match the optimal machine configuration. Often, you can improve machine performance by researching your motherboard’s optimal BIOS settings, which may not be the same as the factory defaults.

There is no centralized database of optimal BIOS settings, but you can employ a search engine such as Google or Bing and use your motherboard name and BIOS as keywords to find the correct settings.

6: Windows services

Many Windows services are enabled by default. A lot of these services, however, are not required for your machine to run properly. You should review the services running on your Windows XP/Vista/7 computer and disable those that you don’t need.

One way to see which services are running is to use the Services applet found in the Administrative Tools menu. In Windows 7, click Start and type “Services” in the search box, then select Component Services. In the console’s left pane, click Services (Local) to display the list of services, shown in Figure A.
Figure A

Use the Component Services console to identify the services running on your system.

Important information contained in the Services console includes the service Name, Status, and Startup Type. You can get more details on a service by double-clicking on it to bring up the service’s Properties, shown in Figure B.
Figure B

The Properties sheet for the service provides detailed information.

You can stop the service by clicking the Stop button. If you are sure that you don’t need the service, click the down arrow in the Startup Type drop-down list box and set the service to Disabled. If you are not sure if you need the service, change the Startup Type to Manual. Then you’ll have the option of manually starting the service if you find that you need it.

Another way of controlling which services start is using the msconfig utility (see Figure C). In Windows 7, click Start and in the search box, type msconfig. Click msconfig.exe.
Figure C

Use the System Configuration utility to control the behavior of services.

Note that some secure Microsoft services cannot be disabled. These are considered essential for running the computer. For a list of some Windows 7 services you may be able to disable, 

7: Runaway processes

Runaway processes take up all of the processors’ cycles. The usual suspects are badly written device drivers and legacy software installed on a newer operating system. You can identify a runaway process by looking at the process list in the Windows Task Manager (see Figure D). Any process that takes almost 100 percent of the processing time is likely a runaway process.
Figure D

Use the Task Manager to identify processes that are slowing the system.

We see an exception to this rule, however, if we click the button to Show Processes From All Users. On a smoothly running system, the System Idle Process should be consuming the majority of the processor cycles most of the time. If any other process were to take up 98 percent of the processor cycles, you might have a runaway process.

If you do find a runaway process, you can right-click it and click the End Process command. You may need to stop some processes, such as runaway system services, from the Services console. If you can’t stop the service using the console, you may need to reboot the system. Sometimes a hard reboot is required.

For more detailed information about running processes, check out Process Explorer 12.04, shown in Figure E. This is a handy little utility written by Mark Russinovich that includes powerful search capabilities.
Figure E

Process Explorer gives you more detailed information about running processes.

8: Disk fragmentation

As files are added, deleted, and changed on a disk, the contents of the file can become spread across sectors located in disparate regions of the disk. This is file fragmentation. All Windows operating systems subsequent to Windows NT have built-in disk defragmentation tools, but there are also third -party programs available that give you more options.

If you have traditional hard disks, disk fragmentation can significantly slow down your machine. The disk heads must move back and forth while seeking all the fragments of a file. A common cause of disk fragmentation is a disk that is too full. You should keep 20 percent to 25 percent of your hard disk space free to minimize file fragmentation and to improve the defragmenter’s ability to defrag the disk. So if a disk is too full, move some files off the drive and restart the defragmenter.

Note that SSDs work differently and can access any location on the drive in essentially the same amount of time. Thus, they don’t need to be defragmented.

9: Background applications

Have you ever visited an end user’s desktop and noticed a dozen icons in the system tray? Each icon represents a process running in either the foreground or background. Most of them are running in the background, so the users may not be aware that they are running 20+ applications at the same time.

This is due to applications starting up automatically in the background. You can find these programs in the Startup tab of the System Configuration utility, as shown in Figure F. Uncheck the box to disable the program from starting at bootup.
Figure F

You can disable programs from starting when you boot Windows.

10: File system issues and display options

Some file systems work better than others for large disk partitions. Windows 7 should always use the NTFS file system for best performance.

Cleaning up the file system will also help speed performance. You can use the Disk Cleanup tool to:
Remove temporary Internet files.
Remove downloaded program files (such as Microsoft ActiveX controls and Java applets).
Empty the Recycle Bin.
Remove Windows temporary files such as error reports.
Remove optional Windows components you don’t use.
Remove installed programs you no longer use.
Remove unused restore points and shadow copies from System Restore.

To run Disk Cleanup in Windows 7, click Start and type “Disk Cleanup” in the search box. Select the drive you want to clean up.

Another way to increase performance is by turning off some of the visual effects that make Windows 7 look cool but use valuable system resources. In Control Panel, click the System applet and in the left pane, click Advanced System Settings. Under Performance, click the Settings button and then the Visual Effects tab. Here, you can disable selected Aero effects or just click Adjust For Best Performance, as shown in Figure G, which disables them all.
Figure G

You can turn off selected (or all) visual effects to increase performance.

Conclusion

When troubleshooting a system slowdown, you should always look for potential hardware problems first. Then, investigate the common software problems. If you use a systematic troubleshooting plan, you should be able to improve the performance of most computers suffering from system slowdown.

Samsung Galaxy Note 510: A Specifications Review

Gearing up for a launch at the end of March, Samsung’s all new entry into the tablet segment will be the upcoming Note 510. There’s plenty to like here on paper and hopefully, we’ll see some updates before the device makes it to the Indian shelves.


Gearing up for a launch at the end of March, Samsung’s all new entry into the tablet segment will be the upcoming Note 510. There’s plenty to like here on paper and hopefully, we’ll see some updates before the device makes it to the Indian shelves. As of now, Samsung hasn’t quite announced a price for the tablet, although we’re estimating it to be below Rs 30,000.



Here’s a detailed look at the specifications of the Note 510 that will give you an inkling on whether the tablet is worth the wait. For a quick hands on, you can refer to our First Impressions story here.

OS – Android 4.1 Jelly Bean

At the time of its unveiling at this year's Samsung Forum, the Galaxy Note 510 aka Note 8.0 tablet was showcased running Android 4.1.2 Jelly Bean, but there’s every reason to believe that it would get the 4.2 update at the time of launch, if not before. Thanks to the latest iteration of the platform, we could be looking at a speedy performer here in terms of overall operation and functionality. All the little extras that JB brings to the table will also make this a tablet to beat in the higher-end segment. 

Cellular network – 3G and call support

Following in the footsteps of its predecessors, Samsung’s Note 510 will also be loaded with support for 3G via SIM card. To add a little more value to the deal, Samsung’s also ensured that its customers will also be able to use the 510 as a fully functional mobile phone complete with calling and messaging capabilities. With 3G support for high speed data on the go, you could opt to use the device as a primary medium of communication.

Plenty of connectivity for all, including calling and messaging

Display – 8.0-inch capacitive touchscreen

The 8-inch touchscreen features a resolution of 1280 x 800, making it quite vibrant and sharp. The pixel density (189 ppi) isn’t as high as that on the Google Nexus 7, but it did look quite good nonetheless with balanced colours. There was no mention on whether the Note 510 would be equipped with a Gorilla Glass, but we’re hoping this would be the case when it launches. Hopefully, the flip cover showcased at the announcement will ship with it to help minimise possible damage to the screen.

Form factor and weight – Slim: yes, light: perhaps, design: could have been different

This is where Samsung could have done some real good. Instead of going with the same old boring design as the S3, Note II, S III Mini, Galaxy Grand and others, the Note 510 could have taken a different route. However, the rounded edges and slim shape don’t hamper it in the looks department. At 338 g, the Note seems a bit on the heavy-set side, but the weight seems evenly distributed, so it didn’t feel awkward to hold. The dimensions are: 210.8 x 135.9 x 8 mm. Samsung’s also added a physical Home button as you’d find on its other devices coupled with the soft-touch keys for menus and the "Return" option to go back to previous pages. 

Wi-Fi – 802.11 b/g/n

Like most of the new mid-to-high-end type smart devices, the Note 510 is also equipped with dual-band Wi-Fi for connectivity. Wi-Fi Direct will also be available for data transfer through this medium and DLNA was also spoken of.

No flash for the 5MP camera

SoC– Exynos 4412 (Quad-Core)

Samsung’s Note 510 will ship with its own 1.6GHz Quad Core processor and will also feature a Mali-400MP GPU. The combination should ensure speedy performance for all of the device's multi-tasking functionalities as well as for handling HD video, streaming and gaming. With 2GB of RAM also on board, this has tremendous potential.

Storage – 16/32GB or onboard with room for expansion

The 510 will ship with 16GB of on-board storage. Although there was mention of a 32GB variant, it was not mentioned if that model would be available for India. Additionally, the Note 510 also supports microSD cards going up to 64GB, which will give users plenty of space for all requirements.

Primary camera – 5 megapixel

The Note 510 packs a 5 megapixel shooter at the rear. What was missing was an LED flash, which tends to come in handy for low light conditions. Features were similar to what one would find in the Galaxy Grand or other Samsung mobile devices. The camera will also record videos in full HD.

Front camera – 1.3-megapixel

For those who like taking self portraits and video chatting, the 1.3MP front camera will make sure you don’t miss a beat.

Sensors – Nothing new

The tablet comes equipped with an accelerometer, gyro and ambient light sensor.

GPS – With Google Maps

Thanks to support from AGPS and GLONASS for Google Maps, finding your way around new neighbourhoods shouldn’t be an issue. With 3G speeds to back you up, this should also be a speedy endeavour.

8.0-inch display seems like a good size

Battery – Li-Ion 4600mAh

The massive 4600mAh battery should be more than capable of allowing you to make rigorous use of the device each day. Thanks to the kind of features enveloped into this device, the power of this battery would hopefully be just about right to get you at least through a full work day, if not more.

S-Pen – A handy little tool
Similar to the S Pen in the Note II and Note 800, this one too makes creativity and work related actions quite easy to perform. It slips into the bottom corner where it's neatly tucked away and has its own set of actions and features from note-taking and screen capture to editing images.

The bottom line

Everything ultimately boils down to the price. Should Samsung position this device over the Rs 30,000 mark, the competition would certainly be quite happy. If our estimate of it being closer to Rs 25,000 is accurate, then it’s very possible that Samsung could have another winner on its hands. Based purely on these specifications, the Note 510 has a lot of potential to make a great offering for those looking for either a secondary mobile device with full connectivity or those willing to drop the traditional two-device constraint and use this tablet as their one and only means of communication. Again, just to reiterate, the 510 looks good on paper, but we’ll be able to tell you more after we get through reviewing it post launch. Stay tuned.