BIOS Beep Codes

When your system has a problem that won't let it start up properly, the first thing you will hear is warning beeps. These could be because of hardware or even because of the BIOS itself.

Unfortunately, beep codes are not standardized across BIOS vendors and motherboard manufacturers. Below are mentioned the beep codes, along with the possible problem that could be causing the beep, and some suggestions towards resolution. These are for two popular BIOS vendors-AMI and Award. If your BIOS is from any other vendor, you will need to refer to the motherboard manufacturer's or the BIOS vendor's manual for details.

Also, motherboard manufacturers may modify the beep codes to their convenience and not maintain consistency. Keep an open mind when you decipher the beep, and don't get into a tizzy if the codes don't match what is in here or in the BIOS vendor's manual! You should always try and contact the manufacturer to get the correct beep codes.

One beep :RAM failure

Problem :Mother board problem or failed RAM

Solution: Troubleshoot motherboard and/or the RAM

Two Beeps: Parity circuit failure

Problem: Mother board problem or failed RAM

Solution: Troubleshoot motherboard and/or the RAM

Three Beeps : Base 64K RAM failure

Problem: There is failure with in the first 64k memory

Solution: Troubleshoot motherboard and/or the RAM

Four Beeps: System Timer failure

Problem : One or more of the system timers on the motherboard has failed; usually indicates motherboard failure

Solution: Troubleshoot motherboard. You may need to replace it.

Five Beeps :Processor failure

Problem : The processor is generating an error condition. This does not mean that the processor is not working-with a dead processor, the computer won't boot at all.

Solution : Check if the processor is overheating, and whether it is set correctly on the motherboard. Troubleshoot the motherboard.

Six Beeps: Keyboard controller or gate A20 failure

Problem : Keyboard, keyboard controller or motherboard error

Solution: Check if the key board is connected properly. Use another keyboard to see if the problem persists. If it does, look for the keyboard controller chip on the motherboard and see if it is seated properly and that it is not damaged. If the problem continues troubleshoot the motherboard.

Seven Beeps : Virtual mode exception error

Problem : This error is reported when testing the processor's virtual mode

Solution: Troubleshoot the motherboard/processor. Verify that jumpers are properly configured.

Eight Beeps : Display memory read/write failure

Problem : The BIOS is not able to read/write the display card's memory

Solution: Troubleshoot the motherboard and/or display card

Nine Beeps: BIOS' ROM checksum failure

Problem : The BIOS CMOS chip is most likely defective. May also be a problem with the motherboard.

Solution: The CMOS chip can be replaced, but replacing the motherboard is simpler and more cost effective

Ten Beeps: CMOS shutdown register read/write error

Problem: A motherboard component is creating an error when interacting with the CMOS

Solution:Troubleshoot the motherboard and verify that all components are properly setup and configured

11 Beeps: Cache Memory error

Problem: There is problem with 1.2 cache

Solution: Verify that 1.2 cache chip is inserted correctly. Verify that all connections inside the PC are correct. Replace the cache module if the problem persists

Continuous Beeps: Video/Memory Problem

Problem: A Problem with the RAM, display card or motherboard.

Solution: Troubleshoot the RAM first, followed by the display card and then the motherboard.

Other Beeps: heck motherboard manual

Problem: Check the mother board manual or the vendor's web site for more information. Treat it as a motherboard problem

Solution : Troubleshoot the motherboard.

G.R.Brindha MCA, MPhil
INC-Thanjavur,
Tamil Nadu,
India

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Installing Computer Memory on the Motherboard

Computer memory is one of the easier components to replace. It is a modular product, meaning that the replacement will generally snap into the slot vacated by the old memory with no modifications required. It is also one of the least expensive parts on a machine. Memory is responsible for a large part of the computer's overall "speed" and, therefore, it is generally quite worth it to replace it on a regular basis. At least every couple of years, updates to current programs are released that require machines to be upgraded, as well.

Computer memory is purchased in amounts that must match with one another when they're placed on the circuit board. One cannot, for example, install one board of 1GB in size on a PC alongside another board of 512MB. In some cases, the computer may boot but the entire available memory will not be used by the machine. One must also make certain to purchase the same type of memory in terms of it being DDR, SDRAM and so forth. Mixing and matching will not work on a computer motherboard.

Installing the memory is really quite easy. One starts by removing the old memory, which involves nothing more than a couple of plastic tabs. The tabs are located at the foot of the memory, alongside the socket which attaches it to the motherboard. These sockets will release in various ways, but one simply releases the memory and pulls it free of the motherboard to start. The new cards are inserted at a slight angle until it fits snugly into the socket. It is depressed straight in until the plastic tabs grasp the circuit board. Once the it is snug in the socket, it's time to boot up the computer and test it.

The computer will run a self test as it starts. The computer memory will be tested as part of this procedure. If there is a problem, the computer will usually offer an alert or simply fail to boot at all. The memory can be removed and the computer restarted to see if it is the cause of the problem. Most often, reseating the memory in the socket will take care of the problem. If the computer memory will not work, check to make sure that it's compatible or return it.

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This Holiday Season Give a 2g iPhone Motherboard

Fragile as they are, iPhones continue to be one of the top selling phones, and electronic items, on the market. With the holiday gift giving season coming up, just like every other year since they came out, lines are forming all around town to buy iPhones. Of course, if you happen to live in a place with no Apple store, you may be shopping exclusively online for gizmos and gadgets to go under the tree this year. As you may have noticed, there are some sources for buying not only general gifts but electronics, and especially iPhones that are far more economical than others. When looking at the exact same gift with far different price tags, many people begin to ask themselves "why?" It can be difficult to know which product to look out for. Is the expensive version overpriced, or is the inexpensive version probably damaged or a scam? Is the product a good deal, a rip off, or something that fell off the back of a truck? These are all the right questions to ask, but unfortunately there isn't always one good answer.

Often, the cheapest sources for buying iPhones are websites like online classifieds or auction style sites where the buyer has more control over the price. However, the holiday season tends to drive up prices all across the board, since buyers are willing to pay whatever it takes to have that special 'something' by the end of the month. As such, other great sources to try are the various websites that deal with refurbishing iPhones. Not only do they buy old iPhones back for cash (even broken ones) but they fix them up and sell them back to the world as working and wonderful iPhones once more. There are many positives to getting involved in this kind of electronics trading including of course the environment and your wallet. Sometimes a repair is easy and quick, but replacing a 2g iPhone motherboard can be tricky, costly and time consuming.

Keeping the selling of old electronics like laptops, printers, digital cameras and even MP3 players in the back of one's mind around the holiday season can help to get some extra cash back in your pocket right in time for a month that's financially tight for many. It might be worth considering that if a family member has a broken iPhone, it could simply be fixed, or you could find the right part online like a 2g iPhone motherboard and make that a gift in and of itself. For kids and teens it can often actually be fun to have the opportunity to try and fix it themselves. For adults it can be a real financial help to already have the part in hand before heading to the repair shop. A new replacement 2g iPhone motherboard is quite pricey, so getting a perfectly good used product can really make that gift-receiver's holiday season.

With the holiday season come parties, events and travel. All of these things can lead to the kinds of physical or water damage that lead to requiring a new 2g iPhone motherboard. Keep your ears open and eyes peeled this year while around those on your gift list to see if an iPhone, or even just iPhone parts might be at the top of their list!

iphonepartspro.com provides all of the parts to fix your broken iPhone. The selection at iphonepartspro.com is the best on the Internet.

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Avoid Wasted Resources and Replace Your Phone's Motherboard

Anyone that has witnessed the changes in modern technology over the past decade has probably familiarized themselves with a few key terms related to the gadgets and computers that they make use of. Sure we're not all computer experts, but the way technology has infiltrated our daily lives, it's become apparent that having a basic knowledge of what we use and how it works can often save us money and time in the long run. For precisely this reason, knowing what it means when someone says: 'You need to replace your computer's motherboard', shouldn't leave you in a daze. In fact, acquiring these central units, such as the iphone2g8gbmotherboard for your technological devices shouldn't scare you off. Instead, having an understanding of what the proper procedures should be will help keep you feeling calm and ready to react.

Although replacing the iphone2g8gbmotherboard in your smart phone may seem like the end of the line, a number of professional technicians and dealers can tell you with great certainty that it is not. Furthermore, you can do everyone a favor by accepting the fact that these replacement parts can be acquired. How, You might ask? By avoiding the mindless disposal of non-functional electronics, you are making a positive contribution to the environment. This change in mentality is something that we must be extremely attentive to as the valuable resources on our planet are taken into account.

For every piece of non-biodegradable garbage that you throw away, try to consider the same amount that is being disposed of by millions, in fact billions of people all around the world. Where does all this junk go? Cities, and landfills that extend for miles is the right answer. That's why it's so important that you consider how simple, cost-effective, and environmentally friendly it is to make simple decisions that are hugely effective. Replacing your iphone2g8gbmotherboard is one of many small decisions that you can take that adds up significantly in the long run.

For all its complexity, the iphone2g8gbmotherboard makes up for it with the simple and convenient methods by which it can be acquired and installed. Many people choose to forgo professional installation altogether, instead disassembling the personal electronic devices themselves and making the necessary repairs. In doing so, they find themselves making a fundamental shift that steers them away from the wasteful consumer habits that once defined our generation. The DIY nature of this act is symbolic in more ways than what meets the eye.

If you think that your smart phone might need a repair beyond fixing, you might want to take the time to do a little extra research. In fact, most every replaceable part for a variety of brands and products are now readily available online. Whether it's the iphone2g8gbmotherboard that needs to be replaced, or a simple battery change, you'll find each of these components available online at affordable prices. By making the decision to invest in your gadget's repair, you'll be avoiding consumption habits that don't contribute positively to the natural environment. Moreover, you'll be thanking yourself in the long run.

iphonepartspro.com provides all of the parts to fix your broken iPhone. The selection at iphonepartspro.com is the best on the Internet.

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Getting Your Hands on Parts Like the iPhone 2g Motherboard

It wasn't so long ago that the craze surrounding the release of the original iPhone took hold and Apple unveiled its new powerhouse product. For many people, it has changed the way they communicate forever. Yet that phone was only the beginning in a series of iPhones and some consumers are wondering about the longevity of the iPhone, as replacing them every few years is not an option.

The need for replacement parts often has nothing to do with the quality of manufacturer workmanship. Whether repairs became necessary after a phone was dropped, mangled or otherwise damaged by its owner will depend. However, it became clear that parts like an iPhone 2g motherboard or logic board would need to be available on a large scale. In the beginning, the iPhone was a huge gamble for Apple and it wasn't quite clear that it would pay off. After a few months on the market, that concern was tossed out the window by media experts. Sales were extraordinary; the only question was how to keep the demand going and the phones in working order.

The manufacturer warranty proved to be the savior for most iPhone users early on. If there was a mechanical malfunction or if it got damaged during use, it could be repaired by factory technicians. However, once the warranties began to expire and customers chose not to renew them, access to parts like an iphone 2g motherboard became a concern.

Technicians picked up on this demand rather quickly. With the opportunity to command a new wave of clients, those who became skilled at repairing issues like a damaged iPhone 2g motherboard found themselves busy in short order. In fact, the smartest repair companies offered to take on iPhones the consumers considered "dead" and figured out a way to bring them back to life. Waiting in the wings were a whole group of iPhone converts willing to start out with a refurbished phone.

In the meantime, the original owners mostly went for 3G models when they were released. Luckily, the market for the original iPhone existed. Otherwise, it could have meant the waste of so many usable devices which only required a new iPhone 2g motherboard. Everyone must remember that replacing phones should always accompany the recycling of a previous model. The days of careless consumerism are hopefully over, as the amount of space to put the trash continues to diminish.

Getting an iPhone in working order is no longer that difficult. Parts like the iPhone 2g motherboard, the LCD front bezel, the logic board, the antenna cover and even a new camera are readily available these days. It only takes a technician who knows how to handle the parts and install them quickly. Most users will be able to handle repairs which don't involve wiring, but the more difficult exercises should be left to the professionals. There is no point in risking further damage to a device.

From logic boards to LCD screens to back covers, http://www.iPhonepartspro.com has everything you need to get your phone back in great shape. With a full line of http://www.iPhonepartspro.com.

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Gigabyte Motherboard Help - Is Your Pc Not POSTing After Upgrading Your CPU?

Since I got my new motherboard I have learnt even more about how good this board is and just how incredibly powerful the P31 chipset from Intel really is. Every time I search for something about my GA-P31-DS3L, I keep coming across all these reviews everywhere, from overclockers.com right through to Tom's Hardware. All there is, is good stuff and rave reviews, especially when it comes to over clocking.

Well when I initially bought the board, I thought it was just a mid-range item that you see everywhere and in everyone's computer, not particularly bad or incredibly "wow" amazing either. But I was definitely really impressed by the overclock-ability of the board, I could run my P4 HT 3.00GHz Processor at an easy 3.6GHz, I even Saw 3.752GHz for a while but I'm using only the standard heat sink, so that was the only problem there, I could run it, but eventually it would freeze. I have never had a problem at 3.6GHz though

There is one crucial thing though that is more a loophole than anything, and I have only found this out recently, since I bought a new CPU, and been researching into why it doesn't work properly. In order for CPU's with an FSB of 1333MHz to actually run at the full 1333MHZ, it drains power from the memory sockets to achieve this full FSB speed. This has caused so many problems for everyone and isn't clearly explained anywhere in the Gigabyte Board Manual or on the Gigabyte site as far as I'm aware, After much reading and digging about the site and manual, the closest i could find is you may encounter problems with your memory with a CPU running at 1333FSB. No explanation on how to get round this problem or CPU's that may cause this problem.

The alternative complaint is that their processor runs at only 1066MHz FSB, even though it's a 1333Mhz. this again is down to the memory drain. From what I've read this again can be cured by messing around with your memory modules. The other way to fix some of these options is to update your bios, which is far simpler and not as risky as you may think it is. I'll Be posting on my blog soon about this because I know how wary people can be when it comes to updating the bios. I was bricking myself till I actually did this.

Gigabyte GA-P31-DS3L Detailed Look.

You can See and read more here, if you have any thoughts or questions, leave a comment, There's a good chance I can help

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How To Troubleshoot Your Computer Hardware

There could be many reasons why you'd want to troubleshoot your computer, well, one actually and that's because something is not working right. The process of troubleshooting is something you learn after working for a long time with computers. Often enough when there's a problem, nothing is going to explicitly tell you what is causing the problem and how you can fix it. By taking logical steps and walking through the process of troubleshooting you should be able to solve almost any computer problem, software or hardware related. It involves identifying the problem(s), finding the cause of that problem, determining the solution, executing that solution, and testing and checking that solution to see if it solves your problem.

As an example let's say one day while using your computer the screen suddenly turns all black and you can't see anything. We found a problem now what would be the first step to take to fix it? First check to see if the monitor is on and is receiving power, most monitors when they have power, but no connection or connection problems with the computer will display a message that says this monitor is working, but make sure you check your cables. So the next logical step to take would be to check the cable to make sure it is properly connected and secured to the VGA slot behind your computer case and to make sure the monitor cable is plugged into the monitor. Now, here's where you have to decide what would be the next best course of action to take. you could either swap out your monitor with another monitor that you know is working to see if the problem is the monitor itself and nothing else or you can try to see if the problem is your graphics card. If your replacement monitor works, good, then you know your culprit is a bad monitor and you'll most likely have to get a new one, because monitors are dangerous and too costly service. If the replacement monitor you used shows up a black screen as well, the next thing you'd do is check to make sure the graphics card is properly seated in the motherboard, if it is and the display is still not showing up, then swap out the graphics card to see if your problem is fixed.

Generally there are only so many steps you can take before you solve the problem and everything is back in order. Make sure that before you start testing and swapping out parts that the problem wasn't caused by you changing a software setting in Windows or some ambiguous option in the motherboard's BIOS that causes your problem.

Motherboard

The motherboard is the heart of the computer, every part of the computer relies on the motherboard to function correctly. It maintains connection between every PC component and ensures that things are operating smoothly between them. Many signs of motherboard failure is that the computer won't boot up, not reaching the POST test, erratic system behavior, different combinations of components not working. Because everything is connected to the motherboard certain parts may or may not work correctly if the motherboard is faulty so be sure to test those parts before thinking they're dead and getting new ones.

Be sure to do a visual inspection of the motherboard to make sure all cables are seated properly, the fans are spinning, and that the CMOS battery is in it's proper place.
Also check for any broken or leaking capacitors, those can immediately render a motherboard dead.

Make sure that all of the jumpers are set correctly as well, you should be able to find jumper information in your motherboard's manual, and if you don't have the manual you should be able to find the manual on the Internet at the motherboard manufacturer's website.

Many of the problems caused by a bad motherboard is also similar to problems caused by a faulty or dying power supply, so be sure to check if the power supply is faulty or swap it out for another to see if your problem is fixed. If you have a spare motherboard you can try swapping out the motherboard to see if that solves your problem, if that's the case then the motherboard is most likely faulty. If you think the motherboard is faulty and it is still in warranty you should be able to send it back to the manufacturer for a new one with no hassle, sometimes they might even pay for the shipping & handling if it is a big problem that is happening with a certain line of motherboards. Make sure that when you open a motherboard you keep all of the packaging and the box, and if there are any stickers that will void the warranty if removed make sure you do NOT remove them, so that way it is easier to send back.

Power Supply

If you suspect your power supply is giving you trouble, make sure you check it out fast, because power supplies can make trouble with the rest of your system as well. Irregular voltages sent from the power supply can short circuit and overheat your components thus frying them and making them unusable. Some faulty power supplies have even caught on fire, but if you're lucky it might just smoke a little and start to smell. A few signals that your power supply is bad or is going bad would be erratic and seemingly random system behavior like system hangs and crashes, and burning smells along with smoke.

If you recently upgraded your system or added new hard drives, disk drives, a graphics card or anything for that matter, be sure to check if your power supply is being overloaded with hardware. A good way to check is to use a power supply calculator. One time when I upgraded my system with a new fancy PCI Express 16x Graphics card, well it was fancy back then, I had problems with the graphics card performing while in 3d games, it was all due to my power supply being unable give it enough juice on the 12v rails so it performed poorly and didn't act as it should have, I even swapped out the graphics card for another one believing it was bad, after checking the manufacturer's forums it seemed like a lot of people were having problems with faulty cards, so I figured mine must have been faulty too. After getting the new card it seemed like it performed better for a little bit longer, which could've just been some optimizations they did to circuit board. Seeing how they sent me an upgraded version of the same card, but it wasn't until I checked my power supply wattages that I found the real culprit.

The first thing to do to diagnose your power supply is check the power supply connectors, make sure everything is plugged into the motherboard and the power cable is plugged into the power supply, you wouldn't believe how many people forget to plug in their computer. Many power supplies also have a power switch on them so check to make sure that no one accidentally or purposefully switched it off maybe for a prank. Check the fan to see if it is spinning at the correct speed and if it's dusty vacuum it out. Determine if the power supply cables are giving out the right amount of voltage, if you computer will let you boot you should be able to check them in the BIOS menu to see if the correct voltages are being given. Normal power supplies give +3.3 volts DC, +5 volts DC, -5 volts DC, +12 volts DC, and -12 volts DC.

Memory

Faulty RAM can have many adverse effects on your system. Constant lockups, computer rebooting, memory error message (duh), system crashes, and sometimes refusing to boot up are all signs of memory errors. Though, these are also signs for motherboard, hard drive, and power supply problems too. Luckily for you if you think your memory is subject to causing a disruption in your system there are programs that can check the memory for it's performance and to see if it is generating any errors.

Memtest86+ is an amazing memory diagnostic program. It is based off of the original Memtest86 that has been around since 1994 and is used by system-builders, average joes, and professionals in the IT world. It's a standalone memory check test which means it can be easily run without a bootable operating system, that's good if you can't just seem to get your PC started and want to rule out your memory as quickly as possible.

How To Use Memtest86 With Your Floppy Drive To Test Your Memory

First go their website at http://www.memtest.org and select the most appropriate version to download. You can download the bootable iso or the Pre-compiled floppy drive depending on whether you want burn a CD or use your floppy drive. We're going to go into details on floppy method.
Open up the .zip and extract the files to a folder, then click on install.bat, you will be asked to "Enter target diskette drive:". Type A and hit enter then it will ask you to insert a formatted diskette into drive A: and press -Enter-: after you hit enter it will write some files to your floppy so you can boot your computer with the floppy to test for errors.
After the floppy has been formatted with Memtest86+, leave the floppy in your floppy drive and reboot your computer. Remember to set your floppy drive as the first boot device in your BIOS menu.
The program will automatically load and perform the memory diagnostic tests on your computer. During the testing if there any errors they will show up and at the end of the test it will tell you how many errors you've had.

After testing your memory if you receive any errors you should make sure that your memory is okay either by swapping it out and seeing the problems still occur or try your memory in another system. If the memory passes the tests then you proceed to troubleshoot something else with good faith that your memory is fine.

Hard Drive

The hard drive is that ultimate safe to everything important on your computer. It keeps all of your information, files and folders, music, videos, favorite websites, and programs. With a bad hard drive there's no reason to have a computer. In terms of fixing a computer if the hard drive isn't salvageable then most people don't even want to bother with the rest, because their computer is probably a piece of junk that has been handed down from time to time. Generally when a hard drive is about to fail it's usually years down the road from first acquiring the computer. So the next best option rather than replacing the drive is to just buy a new computer, or build a new one, because your old one sure is probably not running as fast as it used to.

Luckily before your hard drive kicks the bucket there is usually a few warning signs:

Abnormally slow file transfers
Problems with booting, especially when Windows is being loaded
Corrupted files
Disappearing files or folders
Loud hard drive noise is a good sign that there is a mechanical problem going on inside

If your hard drive exhibits any of these signs be sure to transfer all of your files to another source immediately, and do not continue to do day-to-day activities with that hard drive. If it doesn't show any of these tell-tale signs, however you have a gut feeling that your hard drive is on the brink of destruction you can try using many different drive testing utilities available on the internet. The hard drive manufacturer usually has at least one qualified tool that you can download from their website and run. Other ways to check the health of your hard drive involves running the Windows Error Checking tool by right clicking on your hard drive in 'My Computer' then selecting 'Properties' and going to the 'Tool' and clicking on "Check Now", or checking the SMART status located in your motherboard's BIOS. SMART stands for Self-Monitoring, Analysis and Reporting Technology. Most motherboards nowadays has this technology. It should be automatically enabled in your BIOS, if it's not then your hard drive won't get checked. What it does is on boot up it will perform quick tests on your hard drive to ensure it is running correctly and it will continue to monitor it for any errors or abnormal problems that may occur as long as the computer is turned on.

Monitor

Watching movies, videos, playing games, and looking at NSFW material are all amazing things we can do on our computers. Yet there may come a day where you just want to get on your computer and relax in your computer room looking at all that NSFW material you have bookmarked under the "Special Sites" category, but you can't because your monitor won't turn on. No, you don't frump and punch holes in the walls to look for an outlet for your rage. You troubleshoot it, and hope to god that your monitor isn't broken!

When diagnosing a screen problem, half the time it's usually something very easy, like a cable coming loose, or the monitor getting unplugged accidentally; unfortunately the other half the time it's probably a problem that's related to your monitor being old, or a problem that's related to your graphics card instead. So you may have to diagnose both items at the same time to see which solves your problem.

First, check all your cables, I know this is probably getting a little old with the checking connections and everything, but so many computer problems can be avoided if people just remember that their computer isn't always going to stay the same way they left it. A foot could kick out a cable, a dog or a cat that got to curious, or almost anything can render half your hardware useless.

After checking all your cables, make sure your screen has power, if it has power and shows a message such as "This monitor is working correctly please check your cable" and shows bars of color on the screen, that means that your monitor is not getting a signal from your computer. Try swapping out the monitor for another one to see if it still says that message. If it does then that means the problem is most likely something to do with your graphics card not seated in the motherboard, or just isn't working properly, you may want to try swapping out another graphics card to see if that solves your problem.

Generally monitors don't have that many diagnosable problems. Either they work and they work well, or they don't work and you have to replace them. When working on a monitor you should never open them, they aren't meant to be serviced and contain high charged capacitors that hold lethal doses of electricity. We wouldn't want to read about a computer guy in the obituaries now would we?

Graphics Card

The glorious graphics card, it's an amazing thing really. It makes all those pretty HDR (High Dynamic Range) pictures look just that good, it keeps your games running smoothly, and your videos in HD. Yet these things can be pains when they're just not working right, because if something is wrong there's not a strict hardware or software solution, you have to analyze the current situation to see what's up.

First and foremost if you're having any problems with your graphics card, probably the best thing to try to do first is see if there an updated driver for it at the manufacturer's website that may solve the problem, or if there isn't an update try uninstalling your graphics drivers and reinstalling them this little action can solve so many problems.

If there's little jaggies or weird colorful mishaps known as artifacts appearing on your screen you may want to check the temperature of your graphics and make sure is getting enough cooling, and that the fan is working properly. If the cooling checks out okay you may also want to check your power supply ratings to see if it is giving enough juice to your graphics card. Nowadays most graphics cards need a lot of power on the 12v rails, make sure your power supply can give you that power that the graphics card needs.

Sound Card

Some of the typical problems people have with sound cards is either A) no sound or B) no sound. Sounds card typically aren't very expensive so having to replace one if the current one isn't working is no big deal. However, if you're one of those audiophile types who expect 100% original recording quality with your $300 sound card replacing one of those is as expected a lot more harder to do.

Sound Card Troubleshooting

Check speaker cables make sure they're all connected and plugged into the right spot on your sound card. Also check the speaker's power cables.
Make sure windows volume is turned up and the volume is not muted, also make sure that you have all the wave and playback volume turned up and not muted. If you have 'Digital Output Only' checked in your Advanced Controls for Playback Controls, try unchecking it to see if that solves your non-sound problem. I found that if I have that checked my sound card won't give me any sound.
Try reinstalling your sound card drivers, also try checking on the internet at the manufacturer's website for any updated drivers that may be available. They increase your sound card's compatibility with your system.
If the previous tips didn't help, then you may just have to replace your sound card, or atleast swap it out for another one to see if it might be a problem related to your sound card's connection to the motherboard instead.

Processor

The processor is the actual thinking part of the brain of the computer. It does all the calculations needed to make a computer run, and does them all in split second timing. It determines how fast your computer generally runs, and most of the time is a bottle neck for systems that have had everything upgraded except the CPU.

If your processor's not working, it's not the end of the world, generally most processors that work correctly for a few weeks, should work correctly for the rest of it's lifespan, which varies from 5-10 years or so. As long as you're not overclocking the processor or letting it overheat too badly your processor should be fine, and it could just be a BIOS setting that's messed up, or a jumper setting, but for kicks just check to make the processor is seated properly and the heat sink is attached to the processor and the motherboard. The heat sink should be attached tightly to the motherboard and not have room to move about, you should be able to pick up your motherboard by grabbing onto the heat sink without any problems. Check in your motherboard manual to make sure all the jumpers are set correctly for your type of processor. Any jumpers set incorrectly can cause the processor to not work, or function correctly or at it's optimal speed. Also check the heat sink to see if it is cooling off the processor, if it's not doing a very good job you may want to look into investing in a better one that gets the job done.

Steve's Tech Guide - A blog that helps you scratch your tech itch with computer guides, informative how-tos, and important news events [http://stevestechguide.com].

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Intel D945GCLF2 Dual Core Mini-ITX Carputer Motherboard

After dealing with the numerous issues of my previous AMD Geode carputer motherboard, I decided to upgrade. Some of the problems I had were hanging at POST, bluescreens due to driver issues, and overall weird behavior. I also wanted more features, such as the ability to boot from a USB drive. Not only that, but the board ran pretty hot in my glove box and lacked performance that I wanted.

Alas, the Intel D945GCLF2, based on the Intel Atom, is finally released. One of the key features that caught my eye was the dual core Atom processor. Not only is it dual core, but its power usage is outstanding. It's estimated to use 4 watts under load while consuming milliwatts (thousandths of a watt) when idle. Being in a carputer, power consumption is a vital specification because you need to figure out how large of a power supply you will need. The power consumption spec can also give you an idea of how much heat will be disappated, because after all, the power not used for computing will dissipate into heat.

The power supply I am using is an Opus 120. It's rated for 120 watts and has powered my previous build just fine. I ran into one snag that I didn't expect, however. The motherboard uses a 12v P4 ATX connector (see pic on the website) as well as the standard 20-24pin ATX connector. The power supply I have (and most that I've seen) do not have this connector incorporated into their harness.

To solve this problem, you can either purchase a molex to P4 adapter, or you can mod your existing wiring harness and add the P4 connector. I chose to mod my existing wiring harness and add the P4 connector to one of the existing molex connectors. Basically, I cut off the P4 connector from a regular ATX power supply, stripped the wires, and crammed them into an existing molex connection. See the pictures on the website to see what I mean.

After everything was setup, I installed the full Windows XP Pro with SP3. I opted not to use TinyXP because I felt that it could cause issues down the road with all the drivers it has stripped out. After the installation, I installed the usual Winamp, VLC media player, SpeedFan, iGuidance, Centrafuse, and finally the drivers. Instead of configuring Windows to hibernate after the car was shut off, I chose to shutdown completely because I've had lots of issues with hibernation such as it not resuming correctly.

With 1GB of RAM and a 2.5" 80GB 4200RPM hard drive, the performance isn't too bad. You would think that a 4200RPM hard drive would be kind of sluggish, but I can hardly notice it. Windows starts up from a cold boot quickly and so do all of the programs I use. I'm never left waiting for the next song to load or a program to open.

The low power consumption of the board is also very noticeable. With my old board, the CPU temperature would always be at least 45C upon boot, and rise to a little over 60C after being used for awhile. On a cold morning, at about 55F, The Intel Atom managed to boot up at 30C and after 20 minutes, it had only risen to 35C! Now, when I open my glove box, there's no more hot air oozing out. The air inside the glove box is almost the same temperature as the air in the cabin! However, the temperatures will differ based on the ambient temperature inside the cabin, so the CPU will run hotter on a warmer day. On an 80F day, the CPU boots at 30C and rises to about 55-60C, still not bad on a very warm day.

All in all, the Intel D945GCLF2 is a great buy. At only $89.99 from Mini-box.com, you get tons of features, and best of all, a dual core processor. With low power consumption, low temperatures, and high performance it seems as if the board was made explicitly for carputer usage, in which it excels.

Visit http://www.IsYouGeekedUp.com for more carputer information

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Looking At Building A New PC

So you have decided it is time to build that new PC. What appears to be a simple idea at first, quickly becomes complicated when confronted with all the hardware options. "Where do I start?" I hear you ask. Well first things first, a decision has to be made on what the purpose of this flashy new machine will be. Although you can build a PC to cater for all purposes it is seldom necessary. I mean why buy a motherboard that can support three graphics cards which creates a lot of heat, so requires lots of cooling and makes lots of noise, when the main use of the machine is for a HTPC (home theater PC). If I where to build a HTPC I would opt for a low power consumption motherboard with on-board graphics. Of course if your main use is for high demand gaming then the motherboard that supports the three graphics cards would be a better choice.

Now that you have decided what the main use of your computer will be. The next thing to do is to choose a motherboard. So lets say, as an example, I want to build a new entry level gaming machine. First I would decide on my motherboard budget, for this example I will use a budget of $200 - $240. Now I will have just a handful of motherboards to choose from. My next port of call would be Google, I will visit review sites and try to find the best motherboard that meets my gaming requirements, within my $200 - $240 budget. For this example I will choose the following ASUS P6X58D-E.

Next on my list for an entry level gaming PC would be a CPU (central processing unit). Now that I have made my choice of motherboard, the ASUS P6X58D-E, some of the CPU decision-making has been taken out of my hands. Because the motherboard I am going to buy is only compatible with Intel CPU's with the socket type 1366. I found this information by visiting the motherboards review site and looking at the technical information.

So now that I know that my motherboard is only compatible with Intel socket 1366 CPU's I would decide on my CPU budget. Then follow with research into that range of CPU's to try and find one that fits my needs.

By repeating the above process I would determine which components to purchase in order to complete my new build computer.

For more resources on motherboards please follow this link ASUS P6X58D-E Review.

Cameron Woods

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The Rampage III Extreme is Yet Another Example of Motherboard Design and Integration

The Rampage III Extreme is yet another example of motherboard design and integration. It is the long-awaited successor to the former ASUS Rampage II product that's quite simply-awesome. Few tech products have really ever surprised me as this-as it has the Intel X58 processor and a host of features that enable over-clocking.

As a fellow gamer, this one stands out in an extremely competitive market. The fact that any serious gamer knows his technology alone pushes manufacturers to their producing abilities-we will just say that people who love online gaming are very particular about their machines. The folks at ASUS know this all too well; therefore, their gift to us. Let's digress, though.

The Rampage III continues a decade long legacy of delivering top-notch processing abilities. Coupled with the incomparable X58 (boasting-so far-count them, three (3) cores), two SATA 600 ports (operating at a very nice six gigs a second) and a whopping four PCI (x16) slots, this is one lean, powerful board. Also, the fact that it hosts so many PCI-Express lanes is sure to please even the veteran gamer.

The chipset, the i7-based 980x, is wonderment all in its own. The RAM alone is over-clockable to 2200Mhz, which was unfathomable by anyone's standards just 10 years ago. Additionally, the two 3.0 USB ports make their way onto the stage with the ASUS-possibly signifying the future demise of 2.0.

Most Republic of Gamers fans will not accept anything less than a threshold motherboard such as this one. Adding to its superior performance is the ability to connect peripheral devices like cell phones and notebooks-thanks to its built-in ROG and Bluetooth support.

What you get with it:

*Motherboard

*Manual

*6 Gb/s SATA cables (2)

*Additional USB 2.0 ports along with the two 3.0's

*A Bluetooth RC kit

*A SLI bridge + 3-way

*Crossfire link

Article written by Jeffrey Frasco. Take a look at Computer Components For You for more detailed information about buying computer components and computer hardware like the Asus Rampage Extreme.

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How to Handle a Problem With a Damaged iPhone Motherboard

If your iPhone has stopped working and you believe it is a problem with some of the main parts, you will need to roll up your sleeves and get to work. If you are not prepared to begin dissecting your iPhone and try to determine the problem, you should find a technician with experience to help. Either way, there is no point in considering your phone a worthless piece of equipment so soon. Many phones can be prepared with little hassle these days.

The interior of an iPhone is of special interest to anyone who has even repaired a cell phone before. Upon first glance, it may seem like the iPhone motherboard is extremely compact for the functions it performs. Part of the challenge for its designers was getting all of that technology into a piece small enough to work for the consumer. The iPhone motherboard is actually composed of two separate circuit boards. If you see what looks like damage to this piece, you will need to have it replaced.

Finding out your iPhone motherboard is damaged is not the end of the world. While it may seem like the market for the newest electronic necessities does not yet exist, that isn't true. Finding a repair specialist locally may be difficult if you don't want to spend the time waiting for a factory repair process (which could mean up to a month without your phone). Yet you can probably get the job done within a week once you know which replacement part you'll need to get it running again.

While this solution might not have seemed possible to you, it's actually the only way to think when it comes to technology these days. Not only are pieces like an iPhone too expensive to abandon, they are also too much for the environment to continue absorbing. The amount of laptop and cell phone parts which has accumulated since the 1990s is astounding. Instead of thinking of a new phone or computer as the end of another, the old model should be packed off for recycling. In fact, you may even be able to sell an old phone or computer to an individual or secondhand repair service.

In fact, one of these places online may be the solution to problems with your iPhone motherboard. You'll be able to find a number of different parts available online, whether you need an iPhone motherboard or LCD screen. Trying to find the parts from a workshop in your area will probably be difficult (not to mention expensive), which is another reason the online services have become effective. We can take for granted the way in which online buying and selling has changed the way we shop. Not only has it lowered the price for important repairs like this one; it has also made the process much faster and easier to handle.

Think your iPhone is broken beyond repair? Consult the experts at http://www.iPhonepartspro.com. They have the iPhone parts you need to get your phone back up and running.

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Breaking the Computer Buying Cycle

That New Computer Smell

If you are like most people when they go out and buy a new Personal Computer you probably get excited when you take it out of the box, turn it on and marvel at how fast it runs. When a computer is new it always seems to run faster and boot up quicker than your old computer. The applications and games seem to run without any slow down and when you get on the internet the pages load instantly on the screen, and you can quickly surf from one website to another. Overtime though, your computer can slow down and not run as quickly as it did when it was new.

This slow down can occur for a variety of reasons and when it happens it can be frustrating and spoil your computing experience. Often times when this happens it can be corrected by either cleaning up your hard drive, or running some diagnostics. Perhaps the computer has a virus and once you remove the virus, performance can be restored. What do you do though if you have done all those things and your computer is still running slow?

If your computer is running slow even after you have removed any viruses and attempted to improve system performance, it could mean that the demands you are now placing on your computer have exceeded the computer's capability.

As we use our computers we tend to install new software applications and attempt to run more applications simultaneously. The new software we install can require greater computer resources such as more computer memory and a faster CPU, or central processing unit to run the software applications or games properly.

If you are like me you like to have multiple software applications running or multiple internet browser windows open at the same time and that can utilize greater amounts of computer resources as well. The more resources you use, the slower the computer will run.

This is a constant problem in computing because computer technology doubles roughly every 18 months. In a demand for more feature rich software applications, software developers create more resource consuming software programs. To meet the increased demands of the software, computer manufacturers continue to build faster, more expensive computers. This, in my opinion, is a vicious cycle where in order to maintain a fast and enjoyable computing experience, the computer user is forced to go out and buy a new computer every few years.

Fortunately for me I have never had to worry about that problem. I am a certified computer professional and have been building and repairing computers for over 15 years. When I want a faster computer I do not go out and buy a new expensive computer. I have learned how to break the new computer buying cycle by upgrading my computer. By upgrading my computer rather than buying new, I can simply make myself a faster computer at a fraction of the cost.

You can break the computer buying cycle too and you do not have to be a computer professional like me to do it. You only need to know a few things about computers, be handy with a screw driver and be able to follow a few simple instructions; but before you begin to think about upgrading your computer, it might be important to get a brief overview on how a computer works.

Computer Basics

Computers are made up of a combination of hardware and software working together. When you aren't familiar with how a computer functions then they can seem very complex. You can reduce that complexity, once you understand how a computer works at a basic level.

At its most basic level a computer receives input and produces output. A computer receives input through input devices such as the keyboard and mouse (hardware). Every time we click the mouse on a link or move the mouse across the screen we are giving the computer input or an instruction to do something.

The computer receives the input as an electronic signal created by the mouse click or keystroke on the keyboard. This signal is transmitted through the computer and is converted into digital data where it can be interpreted as an instruction by the operating system, software application or game.(software)

The computer processes digital instruction data and produces output as either an image or words on the computer screen or perhaps as a printout on a printer.

What makes a computer fast is its ability to receive input, and produce output quickly. There are several components a computer needs in order to function but there are three primary components that directly affect how fast a computer can operate.

The three primary computer components which handle the processing of input and make a computer fast are the:

Motherboard or Main System board
CPU or Central Processing Unit
RAM or Random Access Memory

The Motherboard

Without getting too technical, the Motherboard is the computer component that connects all the hardware together on the computer. You could think of the Motherboard as a data freeway that links together all the components of the computer and allows them to transmit data between each other and and communicate.

Every computer component on the computer connects to the Motherboard either by being connected directly to the Motherboard or connecting via a data cable. The devices or components that connect to the Motherboard are the CPU, RAM Memory, Hard Drive, CD ROM/DVD drive, Video Card, Sound Card, Network Card, Modem, Key Board, Mouse and Monitor.

There are additional peripheral devices which can connect to the Motherboard as well through a variety of data ports which are connected to the Motherboard such as a printer, digital camera, microphone, and even a HDTV. These devices can connect to the Motherboard using one of several ports such as a USB, Parallel, Fire-Wire, SATA (Serial-ATA), or HDMI (High Definition Multimedia Interface) port.

In short the Motherboard provided the data communication infrastructure which allows communication between all the devices. What makes one Motherboard faster than another is the volume of data it can support being transmitted across what is called it's data BUS and the speed at which it can transmit the data. One way to think of it is in terms of a street. Think of the data bus as a street and the data are like cars driving down the street. Older Motherboards communication was the equivalent of a two way two lane street with a speed limit of 25 MPH. Today the new Motherboards are like 8 lane highways with 200MPH speed limits.

New Motherboards are faster because they can allow more data traffic at higher speeds.

The CPU

The CPU or Processor is the brain of the computer. The CPU carries out all the instructions that you in conjunction with the Operating System, like Windows XP or Windows 7, asks it to do. CPUs can only carry out one instruction at a time but they do it so fast it seems like they are doing multiple tasks at one time or "Multitasking".

Newer CPUs are faster because their "clock speed" or "clock cycle" is faster. The clock speed is the speed at which a CPU can carry out instructions. You can think of clock speed like the timing of a metronome, the device that helps musicians keep the right musical time. A metronome has a hand on the front of it which swings back and forth at a timing interval you set. As it swings back and forth it ticks like a clock. Like the metronome the CPU also ticks at a set interval but a CPU ticks at an incredibly fast rate which is measured in Mega or Gigahertz. The CPU carries out an instruction on every tick of its clock cycle.

New CPUs can not only carry out instructions at very high clock speeds but they can also be made up of multiple CPU Cores. Each Core can carry out its own instructions. When you have a Dual Core CPU it can carry out two instructions at the same time and a Quad Core CPU can carry out four. There are even six Core CPUs out now and like the newer Motherboards these CPUs also have a larger Data BUS to send and receive data faster through the Motherboard enhancing the computers overall performance.

RAM Memory

RAM or Random Access Memory is what stores all the instructions you have asked the computer to carry out. Every time we interact with our computer we are creating instruction data for the CPU to process and even the simplest interaction, like moving the mouse across the screen, requires many single instructions the CPU must carry out. You can imagine that playing a computer game or running an application like Adobe Photo shop can create a tremendous amount of instructions for the CPU. The CPU is fast and can execute a lot of instructions quickly but it can't do them all at once which is why we need a place to store the instructions until they can be processed. This is why RAM was created.

RAM is basically the storage place for all the instructions that are waiting to be executed by the CPU. You can sometimes tell when you don't have enough RAM when you have clicked on the mouse or hit the enter key to initiate a program and the hour glass just sits there spinning on the screen. It can appear that our computer has locked up or froze but what is actually happening is the computer is completing the series of instructions it has been given before it can perform any further instructions. When this happens we usually see it as the computer briefly locking up. It is also very frustrating.

The best way to resolve this problem is by simply adding more RAM to your computer. Adding more RAM is possibly the easiest way to increase the performance of your computer. Increasing the amount of RAM in your computer can help your computer run faster because it allows your computer store more instructions. This lets the computer carry out a lot of instructions while you continue to do your work and it reduces the computer freeze ups.

The speed of the RAM you use can also help the computer. If you use RAM that has a faster Data Bus speed it can send the instructions it is storing to the CPU at a faster rate. The faster the CPU gets the instructions the faster it can carry them out and the faster your computer will run.

The amount and type you can use is dictated by the type of CPU and Motherboard you use. The Bus speed of the CPU and Motherboard as well as the capacity of RAM the Motherboard can recognize will determine what type of RAM and how much you can use.

Some Motherboards will allow you to install as much as 32GBs of RAM and most Motherboards will recognize multiple Bus speeds so you can use several different types of RAM. Generally speaking the faster the BUS speed and the larger storage capacity of the RAM, the faster your computer will perform. The important thing to remember though is that with larger capacity and speed comes higher price.

What's nice about upgrading RAM is most Motherboards can accommodate several different speeds and capacities of RAM so you can start out with a slower speed and smaller capacity, which will be less expensive reducing your initial upgrade cost and then later down the road you can upgrade your RAM to a larger capacity and high speed.

Replacing the Motherboard, CPU and RAM is actually a lot easier than you may think. The CPU and RAM are directly connected to the motherboard so you can replace all three components at the same time by simply swapping out the motherboard.

To do this you must first determine what kind of form factor of motherboard your current computer supports.

The Motherboard Form Factor

Many computer manufacturers such as HP, Compaq, Dell, Gateway, eMachine, and Acer build their computers based on 4 primary motherboard form factors or design specifications and they are:

ATX = Full Size Motherboard generally found in full size Desktop computers and Towers
Micro-ATX = Mid Size motherboard found in Mid Tower and Smaller Desktops
Mini-ATX = Small Motherboard found in Mid Towers, Smaller Desktops
Mini-ITX = Newest motherboards very small size found in new smaller towers and desktops

These form factors refer to the size of the Motherboard itself. The computer case is designed to accommodate a specific size of Motherboard. Once you have determined which form factor your computer model is, then all you need to do is purchase the correct form factor Motherboard that fits your computer models case.

It would work like this. Let's say you have an HP Pavilion 750n desktop computer. This is an older computer with a single core processor. Nice computer when it first came out but very slow by today's standards. You decide that you want to make it faster by upgrading it to a Quad Core CPU but you need to determine if you can upgrade it.

You can determine whether or not you can upgrade that particular computer by going to the HP support website. On the site you would type in your computer model and look at the hardware specifications for that computer. HP will list the form factor information in the specifications guide. Having done this many times, I already know the 750n uses a Micro-ATX form factor.

Each computer manufacturer I named has a support site on their webpage where you can go to determine your models form factor. You can also do a search on Yahoo, Google, or Bing and ask what form factor your computer model is. If that doesn't work simply email me or leave a comment on this article and I can help you locate it.

Once you know the type of form factor your computer model supports you are now ready to decide what performance level you would like to upgrade your computer to.The performance level of the computer is generally dictated by the CPU it uses. You may recall I indicated the CPU is often referred to as the brain of the computer because it processes all the instructions and it sets the computers overall speed based on it's clock speed.Since the computers overall speed is set by the CPU, you typically start your upgrade by determining the CPU performance level you want.

How you decide which performance level you would like to upgrade to can be based on how you use your computer and how much you want to spend to upgrade it. Generally speaking if you only use your computer to send and receive email, browse the web, and save and share digital images from a digital camera, then you may only need to upgrade to a Dual Core CPU to significantly improve you computing experience.

If you play lots of games, burns DVDs, edit movies or sound files, and work with high resolution images or graphics, then you may want to select a Quad Core CPU to increase performance and improve your computing experience.

From a cost perspective you can expect to pay more for a faster CPU than you would for a slower CPU and Quad Core CPUs are generally more expensive than Dual Cores. As a rule I believe you should purchase as much as you can for as little as possible that way you get the most for your money and you won't have to upgrade again for quite a while.

When you are ready to select your CPU you will have choices based on manufacturer and type and there are also some differences between the various types of CPUs from each manufacturer which you should be aware of.

There are three primary CPU manufacturers Intel, AMD and Motorola, but for the purpose of this article we are only going to focus on Intel and AMD. Motorola is primarily responsible for making CPUs for Apple Computers. Apple computers, are a proprietary computer model and it can be more difficult and more costly to upgrade an Apple computer.

This article is focused on helping the budget conscious, who own what is generally referred to as an IBM compatible computer, upgrade their computer easily and inexpensively. IBM compatible computers are identified as those computers which primarily run a Microsoft Windows based operating system such as Windows XP or Windows 7. Intel and AMD manufacture CPUs that support IBM compatible computers so those are the two manufacturers we will focus on.

For the purpose of this article I am not going to go into great detail about the differences between Intel and AMD CPUs. There is already a significant amount of detailed information available on the internet which describes each manufacturers CPU chip architecture, as well as gives side by side comparison.

I would invite you to do a little research on how each manufacturers chips are designed and then review a website that benchmarks each CPUs performance. There are many links on CPU design, comparisions and reveiws on the weband this can help you make your CPU choice.

The prevailing sentiment regarding AMD vs. Intel is that both CPUs, in either Dual or Quad Core configuration, perform similarly with Intel being slightly faster. Intel CPUs have always been associated with executing business applications quickly while AMD CPUs run multimedia applications quickly. As you research their benchmark scores you will see Intel on a graph seems to dramatically out perform AMD but when you look at the duration of time between the two it is minimal.

Where you will see a significant difference between the two manufacturers is in cost. AMD CPUs are almost always less expensive than Intel CPUs. The question I always ask my clients is, "Is a 4 second faster speed difference worth an extra $200 or $300 dollars more by buying an Intel CPU?" To me it is not.

I am looking for an overall performance increase compared to what I am currently using. Once you upgrade your computer you are not going to be comparing it to another computer of equal performance, you will be comparing it to the speed of your last computer. If after your upgrade, you find your computer runs significantly faster than your last computer and it didn't cost much for you to achieve that performance increase, you will be happy with your upgrade and that is what is important.

CPU Cache

Earlier I indicated that RAM stores all the instruction data being transmitted to the CPU and throughout the computer. The CPU Cache is another form of high speed memory only it is specifically devoted to the CPU. It has been shown that a CPU can process data faster if more of the data it must process can be stored on memory located closer to the CPU itself.

All CPUs come with a cache but some newer CPUs will come with an additional cache that is faster and can hold more data closer to the CPU. Typically CPUs operating at a higher clock speed and having an additional, faster cache will offer higher performance.

A good example of this is the difference between the AMD Athlon and Phenom Series of CPUs. Both the Athlon and Phenom series come in Dual and Quad Core configurations but the Phenoim Series has an additional L3 cache making the CPU faster. It also makes a Phenom series CPU more expensive than the Athlon Series.

Another interesting tidbit is there is now a version II for both the Athlon and Phenom Series. The version II offers a more faster cache hence both CPUs are supposed to be faster than their predecessors however the benchmark numbers show a relatively small increase in performance.

Be sure to do a little research on the differences between the AMD and Intel CPUs and select the one you feel will be appropriate for your computing needs while meeting your budget goals. Once you have chosen the CPU you want you will then be ready to select the Motherboard that supports not only your CPU but your computer form factor as well.

One last thing regarding CPUs are both AMD and Intel have different CPU form factors so when you are selecting a Motherboard for the form factor that meets your computers specifications you also need to select the one that fits your CPU choice. This may seem complicated but it is not that difficult once you start looking at the Motherboard and CPU combinations.

The resellers I have showed you have filtering options on their web pages which allow you to select Motherboards that can support either AMD or Intel. You can also filter by both CPU and computer form factor as well which can help you narrow down your decision making.

Once you have made a decision on the CPU, you want to select the Motherboard that will support the CPU you have chosen. As far as Motherboards go there are several major manufactures of Motherboards and they all produce the 4 main types of Motherboard form factors. The major manufactures are:

ASUS
Biostar
Gigabyte
MSI
Foxconn
ECSJetway
Zotac

This may seem like a lot to choose from but as you begin to filter on the CPU type you can narrow down your focus and make selecting the right Motherboard easier.

Each motherboard will come with common features that are necessary for standard computer operations and some can come with additional features that may or may not be beneficial to you. The primary thing to remember about the Motherboard is that all of the components connect too it and you can choose to customize your computer upgrade as much or as little you want depending on the Motherboard you purchase.

For example, you can purchase a Motherboard which has the video and sound card integrated into the board. This saves you both time and money because it eliminates the need for you to choose a video or sound card, but if you want a specific video or sound card, you can select a Motherboard that does not come with those integrated components and then pick the video and sound card you would like to install as add in cards onto the Motherboard.

Here is a list of common Motherboards features:

Keyboard and Mouse input often referred to as a PS2 connector
USB - Universal Serial Bus ports for connecting computer peripherals such as (Keyboard, Mouse, Printer, Digital Camera, external Hard Drive etc...)
Parallel Printer Port (not as much in newer motherboards as printers use USB)
Local Area Network or LAN connection for a network or internet connection
Dial-up Modem (not as common in newer boards due to high speed internet connections)

Optional Motherboard Features:

1394 or Fire-wire connection (higher speed data connection)
External SATA or Serial-ATA connection (higher speed data connection designed to connect external SATA devices such as a Hard Drive)
HDMI - High-Definition Multimedia Interface to connect an HD Monitor or TV, or to an external High Definition Audio component

We touched on RAM earlier and we know that the RAM you choose must be supported by the CPU and Motherboard you choose. To make it simple it breaks down like this when upgrading. The CPU determines the type of Motherboard you have to choose and your computer model determines the type of Motherboard form factor you select.

The Motherboard will dictate what type of RAM you will be able to use so that will make your selection easier. The only thing you will have to decide when it comes to RAM, is the size of RAM meaning the amount of Gigabytes, Gigs or GBs of RAM you choose and the RAM speed you select.

One other thing you must be aware of is the newer Operating Systems such as Windows Vista and Windows 7 require a minimum of 2GBs of RAM to run properly so you will want to select at least 2GBs of RAM when you upgrade. Knowing this can make your decision regarding the amount of RAM pretty straight forward. As far as the speed of RAM you select that again will depend on the speeds the Motherboard will support, the amount of performance you want and how much you are willing to spend.

As far as determining the speed of RAM your Motherboard will support that is not difficult to determine. As you begin to look at Motherboards you will see they clearly specify the type and speed of RAM they support.

I have covered a lot of information up to this point and I hope you have a better understanding of what is required for you to be able to identify the Motherboard, CPU and RAM components you would need to upgrade your current computer. Buying these components and upgrading them your self is far less expensive then going out and buying a new computer and I am confident with this information as a starting point you too can save money buy upgrading the computer yourself.

There are however, two important additional pieces of information you should know before you attempt to upgrade your computer.

1. Before you upgrade your current computer you should back up all of your important data on to an external storage device such as an external hard drive, USB jump drive or burn it onto a CD or DVD.

The reason this is important is when you upgrade those components you will be forced to reinstall the operating system and that will erase all the current data on your hard drive. In additional if you don't have an installation disk for your current operating system, you will need to purchase a new copy of Windows XP, Vista or Windows 7 to install once you have upgraded the components. This may not actually be a major concern for you if you were already considering upgrading to a newer version of Windows. Also I can help you find an inexpensive copy of the Windows operating system if you it.

2. The new components you will install in you current PC will be more advanced from a power consumption standpoint and upgrading them will most likely require you to also upgrade your power supply.

The upgrade is not expensive and is a very easy to accomplish. The type of power supply you will want to select will be roughly 400 watts at least and will need to be a 20x4 pin or 24 pin power supply. This is the type of power supply supported by the newer Motherboards. Again the Motherboard specifications will indicate the power supply requirements.

To make your computer faster all you need to do is upgrade the Motherboard, CPU and RAM. You start by identifying the type of Motherboard form factor your current computer will support, and the performance level you want to upgrade to. Then you buy the CPU that fits your performance needs along with the Motherboard and RAM that fits both your computer model and CPU specifications.

The one thing I didn't cover is the actual installation of these components once you have purchased them and are ready to install. At a high level the process is nothing more then:

Unplugging the computer and disconnecting all peripheral components such as the keyboard, mouse and monitor from the case
Before you open the computer, discharge yourself electrically or purchase a static strap to ground yourself to the chassis, this will help you avoid static discharge which can fry a computer component.
Removing the side cover off the computer case
Disconnecting all the power cables and Data cables from the old Motherboard
Unscrewing and removing the old Motherboard from the case
Unscrewing and removing the old power supply
Install the new power supply
Install the new Motherboard into the case
Reconnecting all the power and data cables
Powering the computer back up and listening for proper post sound
Now you are ready to install the operating system

I know once you decide to start this process you will have many questions which is why there is one last thing I would recommend you do before you begin to upgrade you computer.

There are many do it yourself computer repair and upgrade manuals available online and they can provide you all the help you need to do your computer upgrade. Many of the books will provide you step by step explanation on how to replace just about every component on your computer and provide you with detailed diagrams so you can see how to actually perform the removal or install. I would suggest you make a small investment and purchase one of these books.

If I could recommend any do it yourself computer manual it would be "Self Computer Repair Unleashed".This book covers all aspects of computer upgrade and repair in a clear concise format and provides full color diagrams and step by step instructions to help you through any computer upgrade or repair. I can't recommend this book enough. I have provided a link to this book on the links page of my website below in my signature.

I thank you for reading my article and I hope it has inspired you to go out and tackle what you may have originally thought was an impossible task. You can upgrade your computer yourself and save yourself a lot of money too.

David R Doohen
http://www.djmusickaraoke.com/links
IT Professional with 15 years of experience specializing in Computer Upgrade and Repair
MCP, CCNA, Net+, Server+, A+
Check out Tech Nibble for great computer repair and upgrade content and information.
http://www.technibble.com/

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EVGA's Next Monster - X58 Classified

For years, EVGA has been a major competitor in the motherboard market, releasing consistently-efficient and high-quality motherboards sporting NVidia chipsets and the well-known EVGA logo. However, since NVidia agreed to allow Intel to go as far as enabling SLI between two graphics cards, many motherboard makers that have been loyal to NVIdia chipsets have had to somewhat go in between both Intel and NVidia, and start making motherboards of both NVidia and Intel chipsets. And EVGA has had to do the same.

Now EVGA has taken its first few steps in the X58 market, and according to many reviews of EVGA's X58 motherboards so far, have come with guns blazing; like their previous NVidia chipset motherboards, they are doing amazingly well. But it's EVGA, they don't just stop at the "ordinary" level; they constantly strive for much higher standards for performance, ignoring price most of the time, to provide the best of the best in every aspect of the motherboard. And now, they have done it again.

According to rumors given by world-class overclockers, EVGA has recently been building a prototype motherboard of the X58 that exceeds far beyond the regular specs of normal motherboards. This, my friends, is called the X58 Classified. Now, traditionally, EVGA has been calling its step-up motherboards the "FTW"(For the Win); for example, the EVGA 780i FTW motherboard. Now, they have discarded this moniker(for now, forever, I don't know for sure), and used the new moniker "Classified". Now, the name itself is somewhat intimidating; when we think about the word "classified", we think of something secret, something that may even be dangerous. And yes, this motherboard may be, indeed, a KILLER motherboard. Not for us, but for other motherboard vendors, because it may perform so well that it may leave all other motherboards in its dust.

So far, not much information has been released. However, I know this much; there are three full x16 PCI Express slots for Tri-SLI configurations, and still room left for x1 PCI Express slot for audio cards. Now, here's the killer part; there's another PCI Express slot. That means there're a total of 4 PCI Express slots, all on one motherboard, and one left for the audio. This is, indeed, an enthusiast's dream-come-true; you can have Tri-SLI, good audio, AND you can now have a PhysX card that further enhances your PC gaming/graphics experience. Can't ask for more than that!

http://www.ImIcarus.com

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Fix Your Dell XPS M1530 by Cooking It!

It's your worst nightmare!

You switch on your laptop, the hard drive whirs, the fan spins, but nothing else happens, the screen is blank. It is, to all intents and purposes-dead!

You try all the usual fixes-take the battery out, put it back in again, check that the memory sticks are seated properly, swap them with ones that you know work, reset the CMOS (if you know how to get to the battery) -nothing works-and you can't afford to take it somewhere to get it fixed. There are no other options available to you.

Well, there is one, a radical one at that, and it worked for me... bake your laptop!!

Now this might sound a bit over the top, but allow me to explain what I did and why it might just work.

I can't emphasise enough, that this really is a 'last ditch' method, but what have you got to lose?

The simple fact of the matter is that laptop motherboards can be prone to failure. When you think about it, everything in a laptop is built onto the one board. Unlike your desktop computer, it also has to cope with being used in a portable environment.

What can happen (especially if your laptop runs hot, by running games on it, or by using it on your lap instead of a desk) is that hairline cracks can develop in the solder between the surface mounted components and the motherboard. This is exactly what happened to my trusty Dell XPS M1530.

Motherboards are manufactured using a process called 'reflow soldering'. In this process, components are placed on the board which has solder paste on it, and put through an oven. This melts the solder, and connects the components to the board. Surface Mount Devices are so small, that it's simply not possible to resolder the components with a conventional soldering iron. It's too big, so this is where your domestic oven comes into play.

So, down to business.

First of all, we need to get the motherboard out of the laptop. I strongly recommend that you download a copy of the service manual (from the Dell website) so that you know which screws to undo!

Once the motherboard is out of the case, the next step is to remove the plastic protective sheets. They're stuck on with glue, so carefully remove them. The CPU and heatsink also needs to be removed along with any cabling. (Refer to your service manual).

Next, prepare a baking tray with aluminum foil (to reflect the heat evenly) . The motherboard needs to be supported above the baking tray with standoffs. You can either use pillars made from scrunched up aluminum foil, or large bolts (which is what I did) which go into the screw holes on the motherboard. Make sure that it's really well supported.

Now, pre-heat your oven to 180C. The type of solder used in laptop motherboards melts at this temperature, and as we're trying to re-create the reflow solder environment, this is an ideal temperature.

Place your baking tray with your motherboard in the oven, and leave it for 7 minutes-no more!

After the 7 minutes are up, remove your motherboard very carefully, and let it cool. Remember, the solder will still be partially molten when you remove it, and if you're not extremely careful, components could drop off!

Finally, once the motherboard has cooled down, connect everything back together again and try it out. Avoid completely re-assembling the laptop to test it, you may have to put it back in the oven again if the solder hasn't reflowed properly, but remember, don't overdo it!

If all has gone well, as it did in my case, you now have a working laptop!

A few extra points to note:

- This is a 'make or break' solution!

- An obvious point perhaps, DON'T use a Microwave Oven! This will 'fry' all the components on the board and destroy your Microwave to boot!

- Faulty Graphics cards could also be fixed using this method, as they are prone to faults caused by excessive heat.

- Finally, don't blame me if this doesn't work! It worked for me, and as I keep saying, it's a technique that you should use only when all else fails.

Good luck!

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Mother Boards

Today when you talk of a PC, you think of the motherboard, You are careful to choose the PC with a reputed motherboard. This is so since motherboard constitutes a very central and crucial part of computers.The motherboard has been an integral part of most personal computers for more than 20 years. Think of a motherboard as a scale model of a futuristic city with many modular plug-in buildings, each using power from a common electrical system. Multiple-lane highways of various widths transport data between the buildings.

The motherboard is the data and power infrastructure for the entire computer. Motherboards are actually a carryover from architecture used for years in mainframe computers. Various circuit cards performing various functions all plug into many similar sockets on a common circuit board. Each circuit card performs a unique function in the computer and gets its power from the socket. Due to improvements in circuitry and packaging, motherboards have essentially stayed the same size or shrunk while their functionality has skyrocketed. The original IBM PC contained the original PC motherboard.

In this design, which premiered in 1982, the motherboard itself was a large printed circuit card that contained the 8088 microprocessor, the BIOS, sockets for the CPU's RAM and a collection of slots that auxiliary cards could plug into. If you wanted to add a floppy disk drive or a parallel port or a joystick, you bought a separate card and plugged it into one of the slots. This approach was pioneered in the mass market by the Apple II machine. By making it easy to add cards, Apple and IBM accomplished two huge things,namely they made it easy to add new features to the machine over time and they opened the computer to creative opportunities for third-party vendors. Different motherboards of different vintages typically have different form factors. The form factor is essentially the size, shape and design of the actual motherboard. There are more than a half-dozen form factors for motherboards. The motherboard, by enabling pluggable components, allows users to personalize a computer system depending on their applications and needs.

Today several established mother boards are available on demand. ASUS, Intel, Mercury and VIA are some of the motherboards with good market shares. Motherboards today come with built in graphic cards. These are called onboard graphic cards. But one has the option to choose an indepndent high end graphics card. Motherboards come in an fully assembled manner and also in the chipset form. In the fully assembled form, you need only to plug in the components, while in the chipset variey one has to assemble the motherboard itself from scratch. Motherboards contain the BIOS or the Basic Input-Output System which runs the POST (power-on system Test) once you switch on the PC. Unless you choose your motherboard with care, since it is the very foundation of your PC, the system may not perform upto the expected level.Once you have chosen a good motherboard, the task of assembling a PC is half done.

Pkp Iyer, Senior Editor, Excellone Technologies. Excellone Technologies Are Quality Webdesign And Website Development Company From India http://www.Excellone.com

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Knowing How to Sell a Laptop Motherboard On The Net

In a world where computers tend to out date themselves far too quickly, it makes sense to be a little bit concerned about whether or not it's possible to make a profit off of one's latest purchase when it's time to upgrade to something that is crucial for work-related purposes. And those who aren't used to turning a profit selling things on the world wide web will definitely be a little bit more hesitant to throw oneself into the world of the latest technology that happens to be available. But the fact is that anyone who has a Toshiba laptop Motherboard lying around can find a market for it easier on the web, and that selling a machine that has a functional Toshiba laptop Motherboard but nothing else is definitely a way to still make enough money, which means that people should get on board and actually do that more frequently.

When it comes to actually making those types of sales on the world wide web, it is definitely a better idea to start out on auction sites, rather than getting into the world of searching to figure out exactly where there is going to be a site that specializes in handling things in a particular way. And with the auction sites that are out there, it is incredibly easy to figure out what pricing should be for something like a Toshiba laptop Motherboard, something that might not immediately seem like something that will be making a lot of money. Being smart enough to do some research is essential, but anyone who does will be quickly rewarded with the opportunity to actually make money on a laptop that might not even be in the best of condition.

Of course, the world wide web is also teeming with all kinds of different sites that specialize in reselling computer parts, and anyone who has not had any luck on auction sites or local sites that focus on the "for sale by owner" element of commerce can surely go try to advertise a Toshiba laptop Motherboard to them and see if there is a way to make money doing that instead. It might initially be a little bit more difficult, but the fact of the matter is that it can often mean more profit, too, and that is definitely something worth keeping in mind, as it can definitely pay off quicker and more significantly in the long-term, too.

So anyone who needs to make an upgrade to a better machine and who is not quite sure how to get that started should simply realize that it is a whole lot easier to just go to the world wide web and see where the best spot to start selling is, rather than getting caught up in the world of actually trying to find someone in person who is in the market for a Toshiba laptop Motherboard. It's just the smarter way to do things. And it makes it easier to be in the loop and plugged in, which is an important part of everything.

Recycling is an important part of saving the environment. By selling a used laptop, you'll do your part to help green the Earth. http://www.CashforLaptops.com offers the best prices for your old tired laptop.

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How to Build Your Own Computer - What Do You Need?

Have you ever thought of building your own computer? If you were ever frustrated with all the prepackaged "software" that comes with a pre-built computer, or ever had to spend hundreds of dollars to get your desktop serviced, you might want to consider building your own computer.

Listed are some reason you might want to build your own computer:

1. A clean new operating system (no prepackaged software).

2. A better understanding of your computer, and computers in general.

3. You can build a machine specific to your needs.

4. If your machine ever becomes obsolete, you can buy new parts instead of a completely new computer.

5. You can save money!

First of all, you need to determine what kind of computer you need. Do you need a small, quiet computer to write reports and spreadsheets? Do you need a powerful video editing/gaming machine? Once you have made that decision, you can move on to picking the parts.

The Motherboard

The motherboard is the most essential component in a computer. Almost everything, including the CPU, RAM, hard drives, disk drives, and optical drives are plugged into the motherboard. I would recommend buying at least a $50 - $100 motherboard. Often, you can find motherboard and CPU combos in this range, which are great for inexpensive home/office computers. Intel Dual Core is perfect for multitasking programs, and is the lowest I would settle for any machine. However, if you want a more powerful machine, you might want to spend a little more on the motherboard and CPU, which leads me to...

The CPU

The CPU, or central processing unit is an older term for processor. The CPU contains the logic cicuitry that performs the instructions of computer programs. Since you are picking your CPU, I will assume you are building a high-end machine, as a motherboard and CPU combo would be fine for anything else. I could settle for Dual Core, but if you want raw processing power, Quad Core is the way to go. I reccomend Intel or AMD, but there are some other manufacturers out there. The most important thing to remember is to make sure it is the right brand and pin configuration to fit you motherboard!

Other Parts

RAM - 2 gigs, at the very least. 4 gigs for a more powerful machine. Make sure it has the correct pin configuration.

Power Supply - If the computer case does not come with a power supply, you need to pick one. Make sure it matches with your motherboard. 300 watts is enough for most machines, but you might want to consider something bigger if you want a gaming rig.

Video Card - 1 gig is enough for most machines, but if you want to edit videos or play games, go for a few gigs. Some motherboards support more than one video card, but at the time of this article, some programs don't. Good brands to pick from are nVidia and ATI.

Optical Drive - If you want a home/office computer, pick a cheap one. If you want to burn CDs and DVDs, make sure it can handle it. To tell the truth, these aren't used much anymore. Good read/write speed is optional, but recommended.

Hard Drive - Serial ATA drives are recommended. Around 100 gigs of space, depending on your needs. For a gaming/video editing computer, you can get multiple drives.

Operating System - Windows XP, Windows Vista, or Linux. Windows XP is recommended for the average user, as Windows Vista is not very user-friendly, and Linux is more technical. However, Linux is free, and if you are interested, there are many sites to help you install Linux. Linus isn't all that hard to install.

Buying The Parts

Online is usually the cheapest, and has the widest selection, but any national chain or local retailer will do.

Building The Computer

Before you start to build your computer, one thing you need to know about is static electricity. If you shock any of the sensitive hardware, it will be useless. Do yourself a favor and buy a grounding bracelet and ground yourself. If not, you run the risk of damaging your components and buying a new one.

Since every set of part will be unique (which is the point), the instructions will differ from person to person. But below is a general outline of what you should do.

Find the motherboard and microprocessor. Align the marked corners and drop the microprocessor into the socket. No force is necessary. Attach in place.

Install the heat sink. The CPU box will have instructions, and you should follow them carefully.

To install the RAM, look for a slot marked "one" and push the module in. It should lock in place.

Now you need to install the motherboard into the case. The case comes with a hole cut in for the motherboard, so all you need to do is line it up, and screw it in.

The case should have a few more slots. These slots are where the hard drive(s) and optical drive go. Slide in the drives, screw them in place, and then attach them to the motherboard. It should be fairly obvious where to plug them in.

If you have a video card, you should install it now. The manual has more detailed instructions for each different card.

Now close up the case, and attach the monitor, keyboard, speakers, and mouse.

Turn it on! You should hear the fans and hard disks going, lights lighting up, and something on the monitor. Now all you have to do is install the operating system. Congratulations!

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