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Archive for August, 2009

Ultimate Budget Overclocking

Friday, August 28th, 2009

We’ve uncovered something special, something we’ve not seen the likes of since the   original Slot-1 Celeron C300A of yore, something wonderful. No, it’s not full of stars, but it is full of silicon. We’ve uncovered the latest Intel budget dual-core processor and by Jove, it overclocks more crazily than a supermodel on an economy class flight.

On first impressions, the E7200 seems unremarkable, other than a bargain. Running at a stock 2.53GHz on a 1,066MHz FSB it’s built on a 45nm process with 3MB L2 cache and can be snapped up for around $l20. That alone makes it the best value Core 2 on the market. But hang on, this is built on the new 45nm process, which means it’ll run very cool and with CPUs already running at 3.2GHz on the same process just how fast will this boy run?

Even under normal settings the performance is impressive with it running at 30°C just passively cooled with a cheap $15 cooler. Under load this rises to 50°C, but even that is more than acceptable for day-to-day work and incredible for passive cooling. Feeling brave we initially went straight for 3.2GHz running on a 337MHz FSB and even with the stock cooler we got a stable overclock.

Taking the FSB up to 350MHz showed the first signs of strain. It would boot into Vista, but bluescreen shortly after or during benchmarking. Switching to the Akasa Blue Aurora soon sorted that problem out and once again we were stable, running at 3.33GHz. That’s 800MHz or 30 per cent faster. It was, unfortunately, at this point our fun ran out, as beyond 350MHz our chosen motherboard, a budget ASUS P5LD2-X/1333 ‘lost’ all the SATA hard drives. Even then it was happy to boot to the BIOS at up to a 390MHz FSB (3.7GHz) on the stock core voltage. Proving there’s a lot of overclocking territory left to discover with this beauty.

Overclocking the processor is all about pushing up the front side bus speed. This not only affects the processor, but the memory speed. While many motherboards do enable you to ‘clock-down’ the memory bus it’s always helpful to have performance memory parts installed, alongside your processor and performance cooler.

The first step to good overclocking has nothing to do with settings or indeed your hardware: it’s to make sure you install your cooler correctly. That means don’t overdo the thermal grease. A micron-thin film is all that’s required, place a few blobs, push the heatsink on, remove it, wipe clean and then install it for a better contact. Of course, the BIOS is at the heart of overclocking, while Windows-based tools have somewhat alleviated the need for it, frankly this is still where the real work has to be done. An overclocking motherboard will, of course, greatly help as it will provide better recovery tools and more advanced tweaking options.

If you really want to get the most out of the E7200, then grab yourself a decent cooler. The Akasa Blue Aurora stepped up to the mark nicely here, help us to push the FSB from the stock coolers 320MHz to a cool 350MHz.

Sandra Prior PhotoAbout Author
Subscribe to Sandra Prior’s Online Newsletter and get up to date Computer Technology News delivered right to your email box for free. See website for details http://usacomputers.rr.nu and http://sacomputers.rr.nu.

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iPhone, The World’s Favorite Phone

Saturday, August 15th, 2009

The iPhone is Apple’s first Internet enabled smartphone with fantastic networking features to access the internet. It combines the features of a mobile phone, wireless Internet device, and iPod into one package. Perhaps the iPhone’s most innovative feature is its 3.5-inch multi touch screen. The iPhone can also be viewed in landscape or portrait mode, with the screen automatically shifting based on the angle that the phone is held at. The iPhone runs a version of Apple’s Mac OS X operating system. One major inconvenience is that, like the iPod, the iPhone has a sealed battery and must be sent to Apple or to a third-party company for replacement if not under warranty. There is also no memory card slot for expansion.

There are a large number of people who want to sell iphone 3gs motherboard because of various reasons. They might have got bored of the phone or they may be finding the memory less for their usage or they may have mishandled the battery and are in no mood to get it repaired and wait during the mean time or some other reason. Such people have the option of selling iPhone 3G on one of the many places on the internet offering a lucrative deal. You have two options for selling the iPhone 3G – either you can find a suitable buyer directly or you can sell it to a service. The second option frees you from the hassles of finding a reliable buyer whom you can trust. Also you do not face problems like getting a lower than usual price for your iPhone, waiting for many days for the payment to come, chances of your phone getting lost in transit etc. The process followed at websites which purchase iPhones from clients, is highly easy and transparent. Several provisions are made so that people who want to sell iPhone 3G logic board get the best possible deal. These provisions include insuring your iPhone so that it does not get lost in transit, keeping the whole process simple, arranging amicable negotiations for the price at which the iPhone will be sold, ensuring that you get your payment within seven days etc.

As a person who wants to purchase an iPhone, you must be willing to do some hard work. This includes browsing through the large number of websites that claim to sell good quality iPhones. Then you must check the authenticity of both the business and the iPhone through all possible means. You must check online forums and message boards started and run by mobile phone or iPhone enthusiasts and see what websites are the forum members recommending. You must compare and contrast the prices at which you are being offered the iPhone for sale and try to get the price reduced to as low as possible. In short, you should make sure that you get the best possible deal.

About Author
“Jitendra Jain Says:” iPhone, are the most popular phones nowadays.one major convenience is that iphone 3gs motherboard and iPhone 3G logic board can be sent to Apple or to a third-party company for replacement if not under warranty.For more details please visit:
http://www.iphonepartspro.com/

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Features of Core i7 on the Nehalem Processor

Wednesday, August 12th, 2009

Core i7 is truly an amazing piece of silicon technology. One of its new features is Macrofusion. Macrofusion was originally implemented on the Merom and all it basically does is turn two instructions into one micro operation. In Core 2, macrofusion was limited to just 32 bit instructions but in Core i7 both 32 bit and 64 bit instructions are supported. What Macrofusion actually means for the average Joe is extra performance, done specifically by taking a TEST instruction and a CMP instruction and combining them into a single micro operation, but only if both instructions are followed by a conditional branch. So that little piece of information wasn’t exactly exciting or understandable for most but Intel has assured the world at large that it will be very significant in the future. Another all important feature of Nehalem is its power efficiency.

Processors function at different states; namely P-states and C-states. P-states are all about performance while C-states are idle states and are therefore the subject of interest. There are seven C-states; Co is the active state for a processor, when you are clicking around in Windows your processor is happily in this state. When you walk away from your PC or decide to play a little solitaire on your multicore, the CPU will kick back to one of the six other C-states. C1 and C2 were developed in the early 90s and all they do is stop core pipelines and stop most of the core clocks. C3 will stop the remaining core clocks while C4, C5, and C6 will drop the core voltages which supposedly will reduce leakage and voltage reduction via shared internal chip voltage regulation (VR). In Penryn; the C6 state would reduce VR voltages only if all cores were idle, which was pointless if you had multiple cores and were only using one. Intel perfected the C6 state on the Nehalem and now each core will power down to such an extent that they would consume virtually no power at all. For the average desktop user this will be of limited benefit but for mobile users this means massive power savings. 

Intel giving free Performance?

Since power consumption is hardly a priority for desktop users, it is now time to look at performance, a realm where thankfully, the Core i7 really shows its worth. Intel has developed a dynamic performance increasing feature called Turbo Mode. 486 throwbacks aside, Turbo Mode actually does have a rather useful function. If you are running a single threaded application or an application that is not using all of the cores then the processor will crank up the frequency of the cores that are being used. The basic thinking is that while the total TDP (thermal design power) or basic maximum heat of the processor is a safety barrier that should not be crossed, if you are only using half of the available cores, then why not juice up the frequency and get more performance for your heat expenditure. The fact that Intel are increasing performance based on the TDP not being reached, shows that the silicon giant is doing a bit of lateral thinking and that the world of overclocking is about to receive a whole new continent. To add to the excitement, Turbo Mode does not only kick in when you aren’t using all your cores, Intel in their seemingly endless wisdom has decided that should your processor not be hitting its TDP then it will happily increase its frequency across all the cores to get you more performance. For those people who crave even more performance Intel has made it a feature of X58 chipset motherboard BlOSes that the user can increase the TDP of the processor in the BIOS. Intel reckons that if you have purchased an aftermarket cooler that can deal comfortably with the 130W TDP of a Core i7 processor, then why not allow an increase the TDP of the processor to gain yet more performance?

While most overclockers would baulk at idea of letting a system overclock itself, there is a certain appeal to the idea of a CPU that can increase its speed without the use of software. Intel explained that Turbo mode is just a higher P state and that an older OS would not be able to take advantage of it, but that newer ones like Vista and XP would.

The Board

Core i7 will not be compatible with current motherboards simply because it won’t fit. Intel has for the last 3 years been using the LGA775, this is a socket which has been used from the Pentium 4 across the board to the Xeon processors, but for Core i7 Intel had to change its design of the LGA to 1366 pins which means that the Core i7 processor is a bit bigger than a Core 2 processor. Intel have taken the redesign a step further by reinforcing the socket to handle much larger coolers because Core i7s TDP of 130W is not exactly arctic. The new X58 chipset with its ICH10 Southbridge will carry the usual six SATA2 ports, as well as eSATA, throw in twelve USB2.0 ports (time to bin those USB hubs), support for RAID 0/1/5/10, Gigabit and WLAN, and high definition audio. This list is nothing extraordinary but Intel has always opted for the idea of a stable feature rich platform and this is something people have come to appreciate. The ICH10 Southbridge will be replaced in the near future with the Platform Controller Hub (PCH) which will take over all the left over functions of the Northbridge and Southbridge as the processor takes on more of the traditional roles of the Northbridge. While this all might sound a bit complicated it will in fact lead to much cleaner motherboard designs and with a reduction in excess communication increased data transfer speeds.

Conclusion

Intel have knocked another one out of the ball park, and while we cannot reveal performance results witnessed firsthand we hope that our excitement about Core i7 carries through and that you can realize just how much of an impact Core i7 will make. Intel really have put in the homework with Core i7, that much is clear when you look the portfolio of new features ad improvements. They are also keeping the enthusiasts firmly in mind with a battery of overclocking features from better heatsink mounts to core specific tweaks. All in all the next few years look to be truly exciting and the second we can get our grubby paws on a sample you will see it right here.

Sandra Prior PhotoAbout Author
Subscribe to Sandra Prior’s Online Newsletter and get up to date Computer Technology News delivered right to your email box for free. See website for details http://usacomputers.rr.nu and http://sacomputers.rr.nu.

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How to Reset BIOS Password?

Monday, August 10th, 2009

There are two passwords in BIOS. One is start up password, the other is BIOS setting password. If you have forgotten the start up password that means you cannot open computer at all. Then the first method is the only thing you can do. Other methods can use to clear setting password.

==a’�:Motherboard Battery Discharge==

The common way to reset start up password is discharge Motherboard Battery. Most of the current motherboard BIOS is using the button batteries to provide electric power.That means if there is no electricity, the information it contains will be lost. When it’s on power again, BIOS will set back to its original state, of course, there will be no BIOS passwords. But you will lose your setting at the same time.

What we need to do is to power off computer, open the computer box, and then unplug the power plug of the computer to make sure that it is no electricity at all. Then locate the white silver button battery on the motherboard. Remove the battery carefully. Perhaps 30 seconds later, put back the battery.

After put back the computer box then power on, the system will prompt “CMOS Checksum Error-Defaults Loaded”. That means CMOS errors detected during inspections, had been included in the system default, BIOS password cracking success!

On some motherboards, the battery is soldered to the motherboard, making it difficult to remove. If this is the case, you have another alternative. Somewhere on the motherboard you should find a jumper that will clear the BIOS password. If you have the motherboard documentation, you will know where that jumper is. If not, the jumper may be labeled on the motherboard. If you are not fortunate enough for either of these to be the case, you may be able to guess which jumper is the correct jumper. This jumper is usually standing alone near the battery. If you cannot locate this jumper, you might short both of the points where the battery connects to the motherboard.

==a’� : Backdoor BIOS Password==

Each motherboard manufacturer has set a backdoor password in order to facilitate the provision of technical support. The backdoor password is a BIOS password that works, no matter what the user sets the BIOS password to. These passwords are typically used for testing and maintenance. Manufacturers typically change the backdoor BIOS passwords from time to time.

AMI Backdoor BIOS Passwords

Reported AMI backdoor BIOS passwords include A.M.I., AAAMMMIII, AMI?SW , AMI_SW, BIOS, CONDO, HEWITT RAND, LKWPETER, MI, and PASSWORD.

Award Backdoor BIOS Passwords

One reported Award backdoor BIOS password is eight spaces. Other reported Award backdoor BIOS passwords include 01322222, 589589, 589721, 595595, 598598 , ALFAROME, ALLY, ALLy, aLLY, aLLy, aPAf, award, AWARD PW, AWARD SW, AWARD?SW, AWARD_PW, AWARD_SW, AWKWARD, awkward, BIOSTAR, CONCAT, CONDO, Condo, condo, d8on, djonet, HLT, J256, J262, j262, j322, j332, J64, KDD, LKWPETER, Lkwpeter, PINT, pint, SER, SKY_FOX, SYXZ, syxz, TTPTHA, ZAAAADA, ZAAADA, ZBAAACA, and ZJAAADC.

Phoenix Backdoor BIOS Passwords

Reported Phoenix BIOS backdoor passwords include BIOS, CMOS, phoenix, and PHOENIX. Backdoor BIOS Passwords from Other Manufacturers Reported BIOS backdoor passwords for other manufacturers include:

Manufacturer BIOS Password VOBIS & IBM merlin Dell Dell Biostar Biostar Compaq Compaq Enox xo11nE Epox central Freetech Posterie IWill iwill Jetway spooml Packard Bell bell9 QDI QDI Siemens SKY_FOX SOYO SY_MB TMC BIGO Toshiba Toshiba

Remember that what you see listed may not be the actual backdoor BIOS password, this BIOS password may simply have the same checksum as the real backdoor BIOS password. For Award BIOS, this checksum is stored at F000:EC60.

==a’c: Software Crack==

There are a lot softwares to test systems or start up password, but they need to run on Windows. So it is only used to reset BIOS setting password.

!BIOS

  • http://www.11a.nu/software/bios-pc-bios-security-and-maintanance-toolkit/

    will recover the BIOS password for most common BIOS versions, including IBM, American Megatrends Inc, Award and Phoenix.

    CmosPwd will recover the BIOS password for the following BIOS versions:

    * ACER/IBM BIOS

    * AMI BIOS

    * AMI WinBIOS 2.5

    * Award 4.5x/4.6x/6.0

    * Compaq (1992)

    * Compaq (New version)

    * IBM (PS/2, Activa, Thinkpad)

    * Packard Bell

    * Phoenix 1.00.09.AC0 (1994), a486 1.03, 1.04, 1.10 A03, 4.05 rev 1.02.943, 4.06 rev 1.13.1107

    * Phoenix 4 release 6 (User)

    * Gateway Solo – Phoenix 4.0 release 6

    * Toshiba

    * Zenith AMI

    If all else fails, you might be going to lose some money for technician. But they will use these same methods, try hard by yourself.

    • About Author
    windows password recovery methods.

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