Process of DVD Recording

Menu: Project - Burn DVD from disk
This is the last step in the DVD creation process.
With our DVD Project having been Compiled, there are a set of files that DVD-lab has prepared for you in the Output folder as set in the Compile process. At this point, the DVD Author has choices as to how to convert this set of files into a DVD master disc. You can either use the DVD-lab built-in recording module or you can choose to use a third party DVD recording software such as Nero, Prassi, Gear, etc...

It is common that you are supplied with a DVD recording software that was bundled with your DVD-R/DVD+R burner. This software may be better optimized for your particular drive. The DVD-lab built-in DVD recording module is a general ASPI writing application and should work fine. In an ideal world, either one would work equally well.
DVD-lab Disc record window
The DVD-lab Disc record window is automatically detached. That means it runs as a separate process independent from DVD-lab, you could even close DVD-lab and the recording will continue.








Here are some of the parameter choices for the DVD-lab Disc record window.
Input Folder
The Input Folder is the same as the Output folder in Compile. That means this is the folder where the VIDEO_TS and AUDIO_TS folders are expected to be.
Device
The DVD recording drive you want to write to, presented as the O/S recognizes it.
Media Type
Set if you want to burn DVD Video or a Mini-DVD.Mini-DVD is a DVD format burned on the CD-R. Obviously you can put far less data on a CD-R (about 700 MB) than on DVD (4.3 GB)





The size indicator on the bottom can help you to determine how much data you can record to the disc.


You have to keep your data below the red area.


Note: While you will be able to play the CD-R on a computer not all standalone players will be able to play the Mini-DVD. In fact such format is not officially supported. The reason is that CD's have far less density of data so in order to play the large DVD video bitrate they have to spin much faster than DVD. Not all DVD drives in players are ready for this so the functionality to DVD files from CD-R is often simply disabled. However a number of Asian or re-branded Asian US models of players use a standard PC type of DVD drive which allows for fast spin of CD.
DVD-RW/DVD+RW Tools
For those using a re-writable media, the DVD-RW needs to be formatted if they were already used - click the Erase/Format button to do this. The more common DVD-R media do not need any formatting.
The DVD-RW and +RW needs to be finalized after writing. This takes quite a large amount of time on RW media. Please be patient until this important process is completed.
Options
Test Write checkboxUse this option by checking the Test Write checkbox to have DVD-lab do a trial run at writing a DVD. This option does not write anything to disk or your hard drive, it merely goes through the motions to insure that all of the content and menus within the DVD project are correctly prepared and defined.
Volume Name inputEnter here a name for the DVD volume that will appear when placed in a computer drive. A standalone DVD player just ignores this.
Create Image checkboxYou can choose to have DVD-lab create a large file on your hard drive which is an the image of a DVD disc instead of burning. The result will be one big IMG file. That IMG file can be used with a number of third party DVD recording software to replicate a DVD disc from this image file, as many times as you like, whenever you like.
Some software will look for a ISO file name extension, if so, just rename the file to a .ISO extension. This method has the advantage of speed as the DVD image is all prepared on your hard drive, it is then a just matter of how fast your DVD burner drive will burn that image.
Hybrid DVD Writing buttonYou can add additional files and folders to the DVD master disc with the Hybrid DVD Writing option.
What this option will do is setup an alternate filesystem on the DVD master disc which is called an ISO filesystem. The ISO format is what a standard CD uses while the DVD video is in UDF/ISO. This is perfectly DVD "legal" as the DVD player doesn't know or care about this ISO filesystem's contents, it just looks for a UDF filesystem.
It doesn't matter at all what the content or nature of these files are. They are just files, not Windows or Mac or Linux files, just files.
As they are recorded into the ISO file system domain, they are available on any computer with a DVD drive. This offers the DVD-lab Author some creative options for bonus content that would be available to a computer user on any O/S that supports a DVD drive.

For example, you can create an autorun project in Multimedia Builder and record it to DVD as an extra feature when used on PC. HTML based content may be placed here as well, be sure to indicate to your computer users where to find your HTML starting page (ex: index.html).

Note: The space used by the Hybrid DVD Writing option counts in the entire Project space value. You only get so much space on a DVD (4.7G), this option uses part of that. Do the math to be sure you have room for this extra area.
Write buttonAs expected, click this button to start the DVD writing (burn) process.

Note: It is not recommended to do any work on the computer during DVD writing. Things like reading/writing to hard-drive may easily ruin your DVD-R. Try to let the burning process be the only thing your computer is running until it is completed.

Congratulations - now it is up to you to enjoy the DVD.

Assignment n#2 2nd trinal:Package Types

ent nIntel CPU Processor Identification

(http://support.intel.com/support/processors/procid)
There are several package types for Intel® processors. These different package types are illustrated below along with a brief explanation of how to easily identify them.

FC-PGA Package Type

The FC-PGA package is short for flip chip pin grid array, which have pins that are inserted into a socket. These chips are turned upside down so that the die or the part of the processor that makes up the computer chip is exposed on the top of the processor. By having the die exposed allows the thermal solution can be applied directly to the die, which allows for more efficient cooling of the chip. To enhance the performance of the package by decoupling the power and ground signals, FC-PGA processors have discrete capacitors and resistors on the bottom of the processor, in the capacitor placement area (center of processor). The pins on the bottom of the chip are staggered. In addition, the pins are arranged in a way that the processor can only be inserted one way into the socket. The FC-PGA package is used in Pentium® III and Intel® Celeron® processors, which use 370 pins.Pentium III and Intel® Celeron®

processor

OOI Package Type

OOI is short for OLGA. OLGA stands for Organic Land Grid Array. The OLGA chips also use a flip chip design, where the processor is attached to the substrate face-down for better signal integrity, more efficient heat removal and lower inductance. The OOI then has an Integrated Heat Spreader (IHS) that helps heatsink dissipation to a properly attached fan heatsink. The OOI is used by the Pentium 4 processor, which has 423 pins.

FC-PGA2 Package Type

FC-PGA2 packages are similar to the FC-PGA package type, except these processors also have an Integrated Heat Sink (IHS). The integrated heat sink is attached directly to the die of the processor during manufacturing. Since the IHS makes a good thermal contact with the die and it offers a larger surface area for better heat dissipation, it can significantly increase thermal conductivity. The FC-PGA2 package is used in Pentium III and Intel Celeron processor (370 pins) and the Pentium 4 processor (478 pins).

PGA Package Type

PGA is short for Pin Grid Array, and these processors have pins that are inserted into a socket. To improve thermal conductivity, the PGA uses a nickel plated copper heat slug on top of the processor. The pins on the bottom of the chip are staggered. In addition, the pins are arranged in a way that the processor can only be inserted one way into the socket. The PGA package is used by the Intel Xeon™ processor, which has 603 pins.

PPGA is short for Plastic Pin Grid Array, and these processors have pins that are inserted into a socket. To improve thermal conductivity, the PPGA uses a nickel plated copper heat slug on top of the processor. The pins on the bottom of the chip are staggered. In addition, the pins are arranged in a way that the processor can only be inserted one way into the socket. The PPGA package is used by early Intel Celeron processors, which have 370 pins.

S.E.C.C. Package Type

S.E.C.C. is short for Single Edge Contact Cartridge. To connect to the motherboard, the processor is inserted into a slot. Instead of having pins, it uses goldfinger contacts, which the processor uses to carry its signals back and forth. The S.E.C.C. is covered with a metal shell that covers the top of the entire cartridge assembly. The back of the cartridge is a thermal plate that acts as a heatsink. Inside the S.E.C.C., most processors have a printed circuit board called the substrate that links together the processor, the L2 cache and the bus termination circuits. The S.E.C.C. package was used in the Intel Pentium II processors, which have 242 contacts and the Pentium® II Xeon™ and Pentium III Xeon processors, which have 330 contacts.

S.E.C.C.2 Package Type

The S.E.C.C.

2 package is similar to the S.E.C.C. package except the S.E.C.C.2 uses less casing and does not include the thermal plate. The S.E.C.C.2 package was used in some later versions of the Pentium II processor and Pentium III processor (242 contacts).

S.E.P. Package Type

S.E.P. is short for Single Edge Processor.

The S.E.P. package is similar to a S.E.C.C. or S.E.C.C.2 package but it has no covering. In addition, the substrate (circuit board) is visible from the bottom side. The S.E.P. package was used by early Intel Celeron processors, which have 242 contacts.

Laptops:

Micro-FCPGA

The micro-FCPGA (Flip Chip Plastic Grid Array) package consists of a die placed face-down on an organic substrate. An epoxy material surrounds the die, forming a smooth, relatively clear fillet. The package uses 478 pins, which are 2.03 mm long and .32 mm in diameter. While there are several micro-FCPGA socket designs available, all of them are designed to allow zero-insertion force removal and insertion of the processor. Different from micro-PGA, the micro-FCPGA does not have an interposer and it includes capacitors on the bottom side.

Micro-FCBGA

Micro-FCBGA (Flip Chip Ball Grid Array) package for surface mount boards consists of a die placed face-down on an organic substrate. An epoxy material surrounds the die, forming a smooth, relatively clear fillet. Instead of using pins, the packages use small balls, which acts as contacts for the processor. The advantage of using balls instead of pins is that there are no leads that bend. The package uses 479 balls, which are .78 mm in diameter. Different from Micro-PGA, the micro-FCPGA includes capacitors on the top side.

Micro-BGA2 Package

The BGA2 package consists of a die placed face-down on an organic substrate. An epoxy material surrounds the die, forming a smooth, relatively clear fillet. Instead of using pins, the packages use small balls, which acts as contacts for the processor. The advantage of using balls instead of pins is that there are no leads that bend. The Pentium® III processor uses the BGA2 package, which contains 495 balls.

Micro-PGA2 Package

The micro-PGA2 consists of a BGA package mounted to an interposer with small pins

. The pins are 1.25 mm long and 0.30 mm in diameter.

While there are several micro-PGA2 socket designs available,

all of them are designed to allow zero-insertion force removal.

and insertion of the mobile Pentium III processor.

MMC-2 Package

The Mobile Module Cartridge 2 (MMC-2) package has a mobile Pentium® III processor and the host bridge system controller (consisting of the processor bus controller, memory controller and PCI bus controller) on a small circuit. It connects to the system via a 400-pin connector. On the MMC-2 package, the thermal transfer plate (TTP) provides heat dissipation from the processor and host bridge system controller.

Other Package Types
CPGA (Ceramic Pin Grid Array)

CPGA stands for Ceramic Pin Grid Array, a type of connection for CPUs where the processor's die is attached to a heat-conducting ceramic plate which is pierced by an array of pins which make the requisite connections to the socket.
Popular CPUs that employ CPGA are the "classic" Socket A Athlon and the Duron, both from AMD.
OPGA (Organic Pin Grid Array )

The Organic Pin Grid Array (OPGA) is a type of connection for integrated circuits, and especially CPUs, where the silicon die is attached to a plate out of an organic plastic which is pierced by an array of pins which make the requisite connections to the socket.
A popular type of CPU to employ the OPGA is the AMD Athlon XP.

Assignment # 3: Motherboard Form Factors

Definition of: Baby AT motherboard A smaller version of the original AT motherboard used in the IBM PC/AT. Introduced in 1987, the Baby AT reduced width from 12" to 8.5". Although its maximum length was 13", most boards were only 9" or 10" long. The Baby AT was the first PC motherboard to build in sockets for I/O ports (serial, parallel, etc.), which were cabled to connectors on the back of the case. Widely used in 386, 486 and early Pentium PCs, the Baby AT was superseded by the ATX motherboard.

Definition of: AT motherboard A motherboard that follows the same design and 12x13" form factor that was in the original IBM PC/AT. It was superseded by the Baby AT.

Definition of: ATX motherboard (Advanced Technology EXtended motherboard) The PC motherboard that superseded the Baby AT design. The ATX layout rotated the CPU and memory 90 degrees, allowing full-length expansions to be plugged into all sockets. The power supply blows air over the CPU rather than pulling air through the chassis.Introduced in 1995, the ATX was the first PC motherboard to not only include I/O support (serial, parallel, mouse, etc.), but to place all the connectors directly on the motherboard. Prior to the ATX, only the keyboard connector was attached to the motherboard.Numerous variations of the ATX were subsequently introduced with both smaller and larger form factors, including the microATX, Mini ATX, FlexATX and Extended ATX (see PC motherboards).

https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi5eWUSaZ8mosRoCZqfAtVfJaZxOppCNKFQmL97DDutPW9YCP5rtURqdFZ-PLhqensLVUEYwjjTlNiPjYtS1Vu6r_DpUUZfArujZYOyesgrrRL9ZqbEtDOZNH_mbto62ZHXpJe1B32-SrH0/s1600-h/atx.bmp

Definition of: LPX motherboard (Low-Profile EXtended motherboard) A low-profile PC motherboard for slimline cases, introduced in 1997 by Western Digital. Unlike boards for desktop and tower cases that hold the expansion cards perpendicular to the board, cards plug into a riser card on the LPX and are parallel with the board. Having a 9" width, the Mini LPX version decreased the length from 13" to 11". See PC motherboards.

Definition of: NLX motherboard (New Low-Profile EXtended motherboard) A low-profile PC motherboard from Intel for slimline cases, introduced in 1987. Unlike boards for desktop and tower cases that hold the expansion cards perpendicular to the board, cards plug into a riser card on the NLX and are parallel with the board. See PC motherboards.

Assignment No.2

How to install Windows 98NOTE:
This article is for informational use only. It does not contain any troubleshooting information. If you are searching for troubleshooting information that is not mentioned in this article, search the Microsoft Knowledge Base againOn This Page
SUMMARY
MORE INFORMATION
Before Purchasing Windows 98
Before Installing Windows 98
Installing Windows 98
Common Windows 98 Setup Issues
Highlights for Windows Web Site

SUMMARY

loadTOCNode(1, 'summary');This article provides general information about installing Windows 98. This information can help you avoid problems that might arise during the installation process and help make the installation process as smooth as possible.

MORE INFORMATION

loadTOCNode(1, 'moreinformation');Before Purchasing Windows 98Before you purchase Windows 98, make sure that your computer meets the minimum hardware requirements for running Windows 98.

The minimum hardware requirements include:•486DX 66 megahertz (MHz) or faster processor (Pentium recommended)
•16 megabytes (MBs) of memory (24 MB recommended)

•120 MB of free hard disk space (typical installation requires approximately 195 MB of free hard disk space, but the required space may vary from 120 MB to 295 MB, depending on your computer's configuration and the options that you choose to install)

•CD-ROM or DVD-ROM drive
•3.5-inch high-density floppy disk drive
•Video adapter and monitor that support video graphics adapter (VGA) or higher resolution
•Microsoft Mouse or compatible pointing deviceAlthough Windows 98 includes more than 1,200 new drivers, not all third-party manufacturers' hardware drivers are compatible with Windows 98.

Some older computers or devices may require an updated basic input/output system (BIOS) or device driver to fully support Windows 98.
You can use the Windows 98 Upgrade version to upgrade Microsoft Windows version 3.1x, Microsoft Windows for Workgroups version 3.1x, or Microsoft Windows 95 or later to Windows 98.
If Windows 3.1x, Windows for Workgroups 3.1x, or Windows 95 is not currently installed, you can use the Windows 98 Upgrade Setup program to install Windows 98 if you can provide the disks or CD-ROM from an earlier version of Windows to confirm your eligibility for the upgrade. Because the Windows 98 Upgrade version does not include a Startup disk, you must be able to start from the computer's hard disk to install the Windows 98 Upgrade.

To install the non-upgrade version of Windows 98, you do not need an earlier version of Windows or MS-DOS. Because the non-upgrade version of Windows 98 includes a Startup disk, you do not need to be able to start from the computer's hard disk.Before Installing Windows 98Before you upgrade your existing version of Windows to Windows 98, perform the following steps:
•Read the Setup.txt file in the Win98 folder on the Windows 98 CD-ROM, and perform any additional preinstallation steps as suggested.
•Make sure that your computer is not infected with a virus. To do so, run an antivirus program that has the latest virus signatures and allow the program to remove any viruses that it finds.
•Disable any programs that run automatically, including antivirus programs, screen savers, and system utilities. After Setup is finished, you can re-enable these programs.
•Uninstall any utilities or tools that protect or encrypt the master boot record (MBR) or partition table (for example, uninstall the Bootlock utility that is included with Symantec Norton Your Eyes Only). Make sure that you check with the software manufacturer before you reinstall the program to make sure that the version that you want to install is compatible with Windows 98.
•Back up all critical data on your hard disk. Although it is unlikely that you will encounter a serious problem when you install Windows 98, it is always a good idea to perform a complete system backup before you install a new operating system. When you upgrade your computer's operating system, an error might occur (such as a problem that is the result of incompatible hardware or a power failure) that could temporarily or permanently prevent you from gaining access to the data on your hard disk.Installing Windows 98If you want to install Windows 98 on a computer that does not have an installed operating system, go to http://support.microsoft.com/kb/221829/EN-US/
If you are upgrading Windows 95, start Windows 95, and then insert the Windows 98 CD-ROM. Follow the instructions on your screen to install Windows 98.If you are not upgrading Windows 95, see the appropriate section of the Windows 98 Setup.txt file for specific installation instructions.
Posted by donald at 1:55 AM 0 comments Links to this post
Labels: Installing Windows 98

How to install Windows Vista

On This Page
SUMMARY
INTRODUCTION
MOREINFORMATION
Upgrade to Windows Vista
Recommended minimum hardware requirements for Windows Vista
Operating system requirements to upgrade to Windows Vista
Windows Vista Upgrade Advisor
Upgrade procedure
The Upgrade option is unavailable, and you receive an
"Upgrade has been disabled" message
Perform a clean installation of Windows VistaMethod
1: Run the Setup program after you start the computer by using the current operating systemMethod
2: Run the Setup program after you start the computer by using the Windows Vista DVDREFERENCES

SUMMARY

loadTOCNode(1, 'summary');
This article describes how to upgrade to Microsoft Windows Vista from an earlier version of Microsoft Windows and how to perform a clean installation of Microsoft Windows Vista.
To upgrade to Windows Vista, the operating system that is currently installed on the computer must be supported in the upgrade path to Windows Vista.
This article lists the operating system requirements to upgrade to Windows Vista. This article also lists some methods that you can use to troubleshoot scenarios where you receive an "Upgrade has been disabled" message when you try to upgrade to Windows Vista.
Additionally, this article describes two methods that you can use to start the Setup program to perform a clean installation of Windows Vista.

INTRODUCTION

loadTOCNode(1, 'summary');
This article contains information about how to upgrade to Windows Vista from an earlier version of Windows and how to perform a clean installation of Windows Vista.

MORE INFORMATION

Important:
To make sure that you have the best possible experience when you upgrade to Windows Vista, follow these steps:
1. Exit all applications that are open before you upgrade to Windows Vista.
This includes browsers and media players.
2. Make sure that you are connected to the Internet when you start the upgrade process.
3. When you are prompted, Get important updates for installation, click Go Online.

Upgrade procedure

loadTOCNode(3, 'summary');
To upgrade your computer to Windows Vista, follow these steps:
1. Start the computer by using the current operating system. Verify that the Microsoft Windows operating system that is currently installed on the computer is eligible for upgrade to Windows Vista.
2. Insert the Windows Vista DVD in the computer's DVD drive.
3. Use one of the following procedures, as appropriate:•
If Windows automatically detects the DVD, the Install now screen appears.
Click Install now.

•If Windows does not automatically detect the DVD, follow these steps:

a. Click Start, click Run, type Drive:\setup.exe, and then click OK.Note Drive is the drive letter of the computer's DVD drive.
b. Click Install now.
4. When you reach the Which type of installation to you want? screen, click Upgrade to upgrade the current operating system to Windows Vista.
The Upgrade option is unavailable, and you receive an "Upgrade has been disabled" messageWhen you try to upgrade to Windows Vista, the Upgrade option is unavailable. Additionally, you receive the following message:
Upgrade has been disabled
This issue may occur if one of the following conditions is true:
•The operating system that is currently installed on the computer is not supported in the upgrade path to Windows Vista.
•You did not start the computer by using the current operating system. Instead, you started the computer from the Windows Vista DVD. To resolve this issue, start the computer by using the current operating system, and then run the Setup program from the current operating system.
•The operating system is installed to a partition that uses the FAT32 file system.
To resolve this issue, convert the file system on the partition to use the NTFS file system.The partition on which you want to upgrade to Windows Vista has insufficient free hard disk space. To resolve this issue, free additional space on the hard disk.

Perform a clean installation of Windows Vista

loadTOCNode(2, 'summary');
Warning In a clean installation, existing data is removed.
This data includes personal data and settings.
After you install the operating system, you must also reinstall all programs.
Make sure that you back up personal data before you perform a clean installation.To perform a clean installation of Windows Vista, use one of the following methods.

Method
1: Run the Setup program after you start the computer by using the current operating system1. Start the computer by using the current operating system.
2. Insert the Windows Vista DVD in the computer's DVD drive.
3. Use one of the following procedures, as appropriate:
•If Windows automatically detects the DVD, the Install now screen appears.
Click Install now.
• If Windows does not automatically detect the DVD, follow these steps:
a. Click Start, click Run, type Drive:\setup.exe, and then click OK. Note Drive is the drive letter of the computer's DVD drive.
b. Click Install now.
4. When you reach the Which type of installation do you want? screen, click Custom (advanced), and then follow the instructions that are displayed on the screen to install Windows Vista.
Method
2: Run the Setup program after you start the computer by using the Windows Vista DVD
1. Start the computer by using the Windows Vista DVD. To do this, insert the Windows Vista DVD in the computer's DVD drive, and then restart the computer.
Note To start the computer from the Windows Vista DVD, the computer must be configured to start from the DVD drive.
For more information about how to configure the computer to start from the DVD drive, see the documentation that is included with the computer, or contact the computer manufacturer.
2. When the "Press any key to boot from CD" message is displayed on the screen, press a key.
3. Follow the instructions that are displayed on the screen to install Windows Vista.APPLIES TO

•Windows Vista Home Basic
•Windows Vista Home Premium
•Windows Vista Ultimate
•Windows Vista Business
•Windows Vista Enterprise
•Windows Vista Starter
Posted by donald at 1:30 AM 0 comments Links to this post
Labels: Installing Windows Vista

Assignment # 2: Installing Windows XP
How to install or upgrade to Windows XP
On This PageINTRODUCTIONUpgrade to Windows XPInstall Windows XP to a new hard diskInstall Windows XP to a new folderPerform a clean install of Windows XPPerform a multiple boot operation
INTRODUCTION
This step-by-step article describes how to install Windows XP.
Upgrade to Windows XPThis section describes how to upgrade to Windows XP from Microsoft Windows 98, Microsoft Windows Millennium Edition (Me), and Microsoft Windows 2000 Professional.
Note Before you start the upgrade process, obtain and install the latest BIOS upgrade for your computer from the computer's manufacturer.
If you update the BIOS after you upgrade the computer, you may have to reinstall Windows XP to take advantage of features such as Advanced Configuration and Power Interface (ACPI) support in the BIOS.
Update the firmware in all of your hardware devices before you start the upgrade if you can.Also, you may want to disconnect from the Internet during the installation.
Disconnecting from the Internet during the installation helps protect you from malicious users. You may also want to enable the Microsoft Internet Explorer firewall.

To upgrade Windows XP:

1. Start your computer, and then insert the Windows XP CD-ROM into the CD-ROM drive.
2. If Windows automatically detects the CD-ROM, click Install Windows to start the Windows XP Setup Wizard. If Windows does not automatically detect the CD-ROM, click Start, click Run, type the following command, and then click OK:CD-ROM drive letter:\setup.exe
3. When you are prompted to select an installation type, select Upgrade (the default setting), and then click Next.
4. Follow the instructions on the screen to complete the upgrade.Install Windows XP to a new hard diskTo install Windows XP to a new hard disk, you must start your computer by using one of the following media:

• Microsoft Windows 98/Windows Millennium startup disk
• Windows XP boot disks
• Windows XP CD-ROMNote

If you want to start your computer from the Windows XP CD-ROM, your CD-ROM or DVD-ROM drive must be configured to do this. For information about how to configure your computer to start from the CD-ROM or DVD-ROM drive, see the documentation that is included with your computer or contact the computer manufacturer.

To install Windows XP to a new hard disk:

1. Read the End-User License Agreement, and then press F8.Note If your Windows XP CD-ROM is an upgrade, you are prompted to insert a CD-ROM of a previous operating system to verify upgrade compliance. Remove the Windows XP CD-ROM, and then insert the CD-ROM from your previous operating system into the CD-ROM drive. You can use the CD-ROM to upgrade from the following versions of Windows:Windows 98Windows 98 Second EditionWindows Millennium EditionWindows NT 4.0Windows 2000 Professional

2. When you are prompted for the Windows XP CD-ROM, remove your previous operating system CD-ROM, and then insert your Windows XP CD-ROM.

3. To install Windows XP by starting the computer from the Windows XP CD-ROM, insert the Windows XP CD-ROM into your CD-ROM or DVD-ROM drive, and then restart the computer.

4. When you see the "Press any key to boot from CD" message, press any key to start the computer from the Windows XP CD-ROM.

5. At the Welcome to Setup screen, press ENTER to start Windows XP Setup.
6. Follow the instructions on the screen to select and format a partition where you want to install Windows XP.

7. Follow the instructions on the screen to complete Windows XP Setup.Install Windows XP to a new folderTo install Windows XP to a new folder (also known as a parallel installation), you must start your computer by using one of the following media:

• Mcrosoft Windows 98/Windows Millennium Edition startup disk
• Windows XP boot disks
• Windows XP CD-ROMNote
If you want to start your computer from the Windows XP CD-ROM, your CD-ROM or DVD-ROM drive must be configured to do this. For information about how to configure your computer to start from the CD-ROM or DVD-ROM drive, please refer to the documentation that is included with your computer or contact the computer manufacturer.

1. Start your computer from the Windows XP CD-ROM. To do this, insert the Windows XP CD-ROM into your CD-ROM or DVD-ROM drive, and then restart your computer.
2. When the "Press any key to boot from CD" message appears on the screen, press any key to start the computer from the Windows XP CD-ROM.
3. At the Welcome to Setup screen, press ENTER to begin Windows XP Setup.
4. Read the End-User License Agreement, and then press F8.
5. Select the partition in which you want to install Windows XP, and then press ENTER.
6. Select the Leave the current file system intact (no changes) option, and then press ENTER to continue.
7. Press ESC to install to a different folder.

If the Setup program detects another operating system folder, it prompts you to type the name for the new folder after the back slash (\), for example, \WINXP. If there are no other operating systems detected, the Setup program automatically names the folder \Windows.
8. Press ENTER to continue.
9. Follow the instructions on the screen to complete Windows XP Setup.

Perform a clean install of Windows XPA clean installation refers to removing all data from your hard disk by repartitioning and reformatting your hard disk and reinstalling the operating system and programs to an empty (clean) hard disk.
You should back up all important information before you perform a clean installation of Windows XP.

How to partition and format a hard disk in Windows XP After you have backed up all your important information, follow these steps to install Windows XP:

1. Start your computer from the Windows XP CD-ROM.
To do this, insert the Windows XP CD-ROM into your CD drive or DVD drive, and then restart your computer.
2. When you see the "Press any key to boot from CD" message, press any key to start the computer from the Windows XP CD-ROM.
3. At the Welcome to Setup screen, press ENTER to start Windows XP Setup.
4. Read the End-User License Agreement, and then press F8.
5. Follow the instructions on the screen to select and format a partition where you want to install Windows XP.
6. Follow the instructions on the screen to complete Windows XP Setup.
APPLIES TO
•Microsoft Windows XP Professional
•Microsoft Windows XP Home Edition
Posted by donald at 12:56 AM 0 comments Links to this post
Labels: Installing Windows XP

ASSIGNMENT NO.1

the K9A2 CF Motherboard - AMD 790X Chipset

MSI has just announced two new AM2+ motherboards, the value-oriented K9A2 CF and the high-end K9A2 Platinum. The K9A2 CF motherboard will be all most people need as it supports two card Crossfire and the latest quad-core Phenom processors.Check out the layout of the K9A2 below!

MSI’s latest K9A2 CF utilizes the latest AMD 790X chipset, supporting the new generation Socket AM2+ with dual channel DDR2 800 and enables users to overclock to higher level. In addition to being the most future-proof platform currently available, the K9A2 CF is ready to support features such as the new Quad Core Phenom processors which comes with HyperTransport 3.0, a great improvement in the chipset/CPU internal bandwidth, MSI unique technology Dual CoreCell™ with software control Dual CoreCenter, Dual VGA CrossFire, HD 7.1 channel Sound for better mainstream design!

Processors

So what's the big deal with these latest Intel Core 2 Duo processors, anyway? Well, the Merom chips introduced today take the higher power and efficiency of the desktop Core 2 Duo processors introduced a few weeks back and apply that to laptops. Intel claimed the Merom Core 2 Duo processors would show a 20% performance boost over their predecessors, the Core Duo processors used in notebooks.

But we're not going to believe Intel, are we? Trusty testers at Laptop Magazine checked out Intel's claims and it turns out the chip giant's boasts were accurate, even conservative in some cases. The testers used two identical notebooks, where the only difference was one of them had the fastest Core 2 Duo processor and the other had the fastest Core Duo processor. Sure enough, the new Core 2 Duo processor was 22% faster than the old Core Duo, while battery life was still pretty much the same. The newer processor did even better in multitasking operations.

MEMORY

DDR memory, PC2100 (DDR266), PC2700 (DDR333), PC3200 (DDR400), PC4200 (DDR533). A quick look at DDR memory, what is DDR memory ? what some of the terms mean & which DDR memory to buy?

What is DDR Memory?

DDR memory, or Double Data Rate memory, is a new high performance type of memory that runs at twice the speed of normal SDRAM. This DDR SDRAM is ideally suited to the latest high performance processors to increase overall system speed. The faster the memory, the quicker instructions can be passed to the processor. DDR memory provides roughly a 15% boost in performance compared to regular SDRAM. With DDR memory now in the affordable price range, and motherboard manufacturers phasing out SDRAM on nearly every new board, it looks like DDR is definitely here to stay. Even corporate giant Intel dumped the once-all-mighty RAMBUS, and opted for integration of DDR support into their chipsets and motherboards, only to join forces and rise to power with the P4. Memory manufacturers are doing a good job of producing high-quality RAM for demanding systems and the ever-changing industry.

DDR memory is the latest in high-performance memory module technological advances. It offers twice the data bandwidth of conventional PC100 or PC133 SDRAM, and is particularly well suited for high-performance servers and workstations, which need optimal CPU-memory performance. Double Data Rate (DDR) SDRAM (AKA SDRAMII) is precisely what the name implies. A clock cycle can be represented as a square wave, with the rising edge defined as the transition from "0" to "1", and the falling edge as "1" to "0". In SDRAM, only one of these wave edges is used, but DDR SDRAM references both, effectively doubling the rate of data transmission. Unlike 168-pin SDRAM, DDR SDRAM utilizes a 184-pin plug. Although the basic motherboard technology does not need to be changed, DDR SDRAM is not backward compatible on motherboards designed for SDRAM.

Compaq Computer Memory
Upgrading memory on Compaq Computer, find help on issues with your Memory Upgrade

DDR memory can only be used in systems designed specifically for DDR memory

DDR Memory terms explained

What is DDR memory CAS Latency?

CAS Latency is the time needed (clock cycles) to address the data column. CAS is the Column Address Strobe. Thus CL2.5 is quicker than CL3. (2.5 <>
RAS is the Row Address Strobe. Abbreviated RAS, a signal, or strobe, sent by the processor to a DRAM circuit to activate a row address. DRAM stores data in a series of rows and columns, similar in theory to a spreadsheet, and each cell where a data bit is stored exists in both a row and a column. A processor uses RAS and CAS (column address strobe) signals to retrieve data from DRAM. When data is needed, the processor activates the RAS line to specify the row where the data is needed, and then activates the CAS line to specify the column. Combined, the two signals locate the data stored in DRA

Latest Expansion Slot

if you are planning to build the ultimate gaming computer, then you may consider an NVIDIA SLI or ATI CrossFire video card configuration. This entails selecting a motherboard with SLI or CrossFire support to enable this function. These motherboards provide more than one PCI Express x16 video card slot, but not all motherboards with two PCI Express x16 slots automatically support SLI/CrossFire. Last but not least, an SLI-capable motherboard does not necessarily support CrossFire due to video card driver issues, and vice versa.

Expansion Slots

Expansion slots are used to install add-in cards such as sound cards, TV tuner cards, network interface cards and HDD/RAID cards. These add-in cards add additional functionality or connectivity to your computer. If you plan on using these cards, make sure the motherboard provides sufficient expansion slots for all your cards. One thing to remember is that PCI Express slots and PCI (PCI is not equal to PCI-X) slots are different and are not compatible with each other. Installing a PCI card into PCI Express slot is not possible, and vice versa.

Also, note that there are different specifications of PCI Express cards and they should be installed into the corresponding slots. For example, a PCI Express x1 card should be installed into a PCI Express x1 slot (or above, such as x4/x8 slot) and a PCI Express x4 slot (or above, such as x8) slot can be installed with a PCI Express x4 card.

IDE/PATA/SATA Device Ports

PATA (Parallel ATA) and SATA (Serial ATA) ports are used for the connection of hard drives and optical drives. ATA is the acronym for Advanced Technology Attachment. It has been an industry standard hard drive interface for 15 years. ATA uses a 16-bit parallel connection to make the link between storage devices and motherboards, and is also called PATA to distinguish it from the newer SATA standard. In additional, ATA is also known as IDE or EIDE (Enhanced Integrated Drive Electronics).