Change the Start text
1. First of all, make sure you download Resource Hacker. You'll need this puppy to edit resources inside your Windows shell.
2. Locate explorer.exe in your c:Windows directory. Make a copy of the file in the same directory and rename it explorer.bak.
3. Now launch Resource Hacker. In the File menu, open explorer.exe. You'll now see a bunch of collapsed folders.
4. Expand the String Table folder and then find folder No. 37 (folder No. 38 if you're in Windows Classic mode).
5. Click on resource 1033 and locate the text that says "Start." This is your Start button, and now you've got control over what it says! Change the "Start" text to your text of choice. You don't have a character limit, but the text takes up valuable taskbar space, so don't make it too long.
6. Click on the button labeled Compile Script. This updates the settings for your Start button. But nothing will happen until you complete through step #20, so keep going!
Change your hover text
7. While you're here, why not also change the text that pops up when your mouse hovers over your Start button?
8. Right now it says "Click here to begin." Well, duh! We already know that's where to begin!
9. Open folder No. 34 and click on resource 1033.
10. Find the text that says "Click here to begin" and change it to something cooler. Might I suggest "Click here for a good time, baby."
11. Click on the Compile Script button to update this resource.
Customize your Start icon
12. For an added bonus, you can also change the Windows icon to the left of the text, too.
13. Collapse the String Table folder and expand the Bitmap folder at the top of your folder list.
14. Click on folder No. 143 and click on resource 1033. You should see that familiar Windows icon.
15. Go to the Action Menu and select "Replace bitmap." Select "Open file with new bitmap", and locate the replacement image on your machine. Note: The image must have a .bmp extension and a size of 25 pixels by 20 pixels. Then click the Replace button.
Here's the image I've been using instead of the Windows icon, in case you want to use it.
16. Now that you've made your changes, save the file in your Windows folder with another name, such as newstartbutton.exe. Don't name it Explorer.exe, because that file is already being used by your system. Close all open programs and restart your system.
17. Boot into Safe Mode With Command Prompt by pressing F8 on startup. Then choose Safe Mode in the command prompt.
18. Log on as administrator and enter your password.
19. When the command prompt comes up, make sure you're in the right directory by typing "cd c:windows" (without the quotes).
20. Now type "copy c:windowsnewstartbutton.exe c:windowsexplorer.exe" (no quotes). Type "yes" (no quotes) to overwrite the existing file, then restart your system by typing "shutdown -r" (no quotes).
When Windows relaunches, you'll see your new Start button in all its glory!
01 February, 2008
Movie Jargon explained
CAM -
A cam is a theater rip usually done with a digital video camera. A mini tripod is sometimes used, but a lot of the time this wont be possible, so the camera make shake. Also seating placement isn't always idle, and it might be filmed from an angle. If cropped properly, this is hard to tell unless there's text on the screen, but a lot of times these are left with triangular borders on the top and bottom of the screen. Sound is taken from the onboard microphone of the camera, and especially in comedies, laughter can often be heard during the film. Due to these factors picture and sound quality are usually quite poor, but sometimes we're lucky, and the theater will be fairly empty and a fairly clear signal will be heard.
TELESYNC (TS) -
A telesync is the same spec as a CAM except it uses an external audio source (most likely an audio jack in the chair for hard of hearing people). A direct audio source does not ensure a good quality audio source, as a lot of background noise can interfere. A lot of the times a telesync is filmed in an empty cinema or from the projection booth with a professional camera, giving a better picture quality. Quality ranges drastically, check the sample before downloading the full release. A high percentage of Telesyncs are CAMs that have been mislabeled.
TELECINE (TC) -
A telecine machine copies the film digitally from the reels. Sound and picture should be very good, but due to the equipment involved and cost telecines are fairly uncommon. Generally the film will be in correct aspect ratio, although 4:3 telecines have existed. A great example is the JURASSIC PARK 3 TC done last year. TC should not be confused with TimeCode , which is a visible counter on screen throughout the film.
SCREENER (SCR) -
A pre VHS tape, sent to rental stores, and various other places for promotional use. A screener is supplied on a VHS tape, and is usually in a 4:3 (full screen) a/r, although letterboxed screeners are sometimes found. The main draw back is a "ticker" (a message that scrolls past at the bottom of the screen, with the copyright and anti-copy telephone number). Also, if the tape contains any serial numbers, or any other markings that could lead to the source of the tape, these will have to be blocked, usually with a black mark over the section. This is sometimes only for a few seconds, but unfortunately on some copies this will last for the entire film, and some can be quite big. Depending on the equipment used, screener quality can range from excellent if done from a MASTER copy, to very poor if done on an old VHS recorder thru poor capture equipment on a copied tape. Most screeners are transferred to VCD, but a few attempts at SVCD have occurred, some looking better than others.
DVD-SCREENER (DVDscr) -
Same premise as a screener, but transferred off a DVD. Usually letterbox , but without the extras that a DVD retail would contain. The ticker is not usually in the black bars, and will disrupt the viewing. If the ripper has any skill, a DVDscr should be very good. Usually transferred to SVCD or DivX/XviD.
DVDRip -
A copy of the final released DVD. If possible this is released PRE retail (for example, Star Wars episode 2) again, should be excellent quality. DVDrips are released in SVCD and DivX/XviD.
VHSRip -
Transferred off a retail VHS, mainly skating/sports videos and XXX releases.
TVRip -
TV episode that is either from Network (capped using digital cable/satellite boxes are preferable) or PRE-AIR from satellite feeds sending the program around to networks a few days earlier (do not contain "dogs" but sometimes have flickers etc) Some programs such as WWF Raw Is War contain extra parts, and the "dark matches" and camera/commentary tests are included on the rips. PDTV is capped from a digital TV PCI card, generally giving the best results, and groups tend to release in SVCD for these. VCD/SVCD/DivX/XviD rips are all supported by the TV scene.
WORKPRINT (WP) -
A workprint is a copy of the film that has not been finished. It can be missing scenes, music, and quality can range from excellent to very poor. Some WPs are very different from the final print (Men In Black is missing all the aliens, and has actors in their places) and others can contain extra scenes (Jay and Silent Bob) . WPs can be nice additions to the collection once a good quality final has been obtained.
DivX Re-Enc -
A DivX re-enc is a film that has been taken from its original VCD source, and re-encoded into a small DivX file. Most commonly found on file sharers, these are usually labeled something like Film.Name.Group(1of2) etc. Common groups are SMR and TND. These aren't really worth downloading, unless you're that unsure about a film u only want a 200mb copy of it. Generally avoid.
Watermarks -
A lot of films come from Asian Silvers/PDVD (see below) and these are tagged by the people responsible. Usually with a letter/initials or a little logo, generally in one of the corners. Most famous are the "Z" "A" and "Globe" watermarks.
Asian Silvers / PDVD -
These are films put out by eastern bootleggers, and these are usually bought by some groups to put out as their own. Silvers are very cheap and easily available in a lot of countries, and its easy to put out a release, which is why there are so many in the scene at the moment, mainly from smaller groups who don't last more than a few releases. PDVDs are the same thing pressed onto a DVD. They have removable subtitles, and the quality is usually better than the silvers. These are ripped like a normal DVD, but usually released as VCD.
Formats
VCD -
VCD is an mpeg1 based format, with a constant bitrate of 1150kbit at a resolution of 352x240 (NTCS). VCDs are generally used for lower quality transfers (CAM/TS/TC/Screener(VHS)/TVrip(analogue) in order to make smaller file sizes, and fit as much on a single disc as possible. Both VCDs and SVCDs are timed in minutes, rather than MB, so when looking at an mpeg, it may appear larger than the disc capacity, and in reality u can fit 74min on a CDR74.
SVCD -
SVCD is an mpeg2 based (same as DVD) which allows variable bit-rates of up to 2500kbits at a resolution of 480x480 (NTSC) which is then decompressed into a 4:3 aspect ratio when played back. Due to the variable bit-rate, the length you can fit on a single CDR is not fixed, but generally between 35-60 Mins are the most common. To get a better SVCD encode using variable bit-rates, it is important to use multiple "passes". this takes a lot longer, but the results are far clearer.
XVCD/XSVCD -
These are basically VCD/SVCD that don't obey the "rules". They are both capable of much higher resolutions and bit-rates, but it all depends on the player to whether the disc can be played. X(S)VCD are total non-standards, and are usually for home-ripping by people who don't intend to release them.
DivX / XviD -
DivX is a format designed for multimedia platforms. It uses two codecs, one low motion, one high motion. most older films were encoded in low motion only, and they have problems with high motion too. A method known as SBC (Smart Bit-rate Control) was developed which switches codecs at the encoding stage, making a much better print. The format is Ana orphic and the bit-rate/resolution are interchangeable. Due to the higher processing power required, and the different codecs for playback, its unlikely we'll see a DVD player capable of play DivX for quite a while, if at all. There have been players in development which are supposedly capable, but nothing has ever arisen. The majority of PROPER DivX rips (not Re-Encs) are taken from DVDs, and generally up to 2hours in good quality is possible per disc. Various codecs exist, most popular being the original Divx3.11a and the new XviD codecs.
CVD -
CVD is a combination of VCD and SVCD formats, and is generally supported by a majority of DVD players. It supports MPEG2 bit-rates of SVCD, but uses a resolution of 352x480(ntsc) as the horizontal resolution is generally less important. Currently no groups release in CVD.
DVD-R -
Is the recordable DVD solution that seems to be the most popular (out of DVD-RAM, DVD-R and DVD+R). it holds 4.7gb of data per side, and double sided discs are available, so discs can hold nearly 10gb in some circumstances. SVCD mpeg2 images must be converted before they can be burnt to DVD-R and played successfully. DVD>DVDR copies are possible, but sometimes extras/languages have to be removed to stick within the available 4.7gb.
MiniDVD -
MiniDVD/cDVD is the same format as DVD but on a standard CDR/CDRW. Because of the high resolution/bit-rates, its only possible to fit about 18-21 mins of footage per disc, and the format is only compatible with a few players.
Misc Info
Regional Coding -
This was designed to stop people buying American DVDs and watching them earlier in other countries, or for older films where world distribution is handled by different companies. A lot of players can either be hacked with a chip, or via a remote to disable this.
1 USA, Canada
2 Europe, Middle East, Japan, South Africa
3 S.Korea, Taiwan, HK, ASEAN
4 Australia, NZ, Latin America
5 Ex-Soviets, Indian sub-continent, Africa
6 China
7 Reserved
8 International territory (airplanes, cruise ships, etc.)
RCE -
RCE (Regional Coding Enhancement) was designed to overcome "Multiregion" players, but it had a lot of faults and was overcome. Very few titles are RCE encoded now, and it was very unpopular.
Macrovision -
Macrovision is the copy protection employed on most commercial DVDs. Its a system that will display lines and darken the images of copies that are made by sending the VHS signals it can't understand. Certain DVD players (for example the Dansai 852 from Tescos) have a secret menu where you can disable the macrovision, or a "video stabaliser" costs about 30UKP from Maplin
CODE
(www.maplin.co.uk)
NTSC/PAL -
NTSC and PAL are the two main standards used across the world. NTSC has a higher frame rate than pal (29fps compared to 25fps) but PAL has an increased resolution, and gives off a generally sharper picture. Playing NTSC discs on PAL systems seems a lot easier than vice-versa, which is good news for the Brits An RGB enabled scart lead will play an NTSC picture in full colour on most modern tv sets, but to record this to a VHS tape, you will need to convert it to PAL50 (not PAL60 as the majority of DVD players do.) This is either achieved by an expensive converter box (in the regions of £200+) an onboard converter (such as the Dansai 852 / certain Daewoos / Samsung 709 ) or using a World Standards VCR which can record in any format.
News Sites -
There are generally 2 news sites, and I'm allowed to be biased For Games/Apps/Console ::
CODE
www.isonews.com
is generally regarded as the best, but for VCD/SVCD/DivX/TV/XXX
CODE
www.vcdquality.com
displays screen grabs and allows feedback. **NOTICE** neither site offers movie downloads, and requesting movies/trades etc on the forums of either is NOT permitted.
There are generally 3 news sites for film release for p2p and they are:
CODE
nforce - VCD Help
http://www.vcdhelp.com/
http://www.vcdquality.com/
http://www.nforce.nl/
Release Files
RARset -
The movies are all supplied in RAR form, whether its v2 (rar>.rxx) or v3 (part01.rar > partxx.rar) form.
BIN/CUE -
VCD and SVCD films will extract to give a BIN/CUE. Load the .CUE into notepad and make sure the first line contains only a filename, and no path information. Then load the cue into Nero/CDRWin etc and this will burn the VCD/SVCD correctly. TV rips are released as MPEG. DivX files are just the plain DivX - .AVI
NFO -
An NFO file is supplied with each movie to promote the group, and give general iNFOrmation about the release, such as format, source, size, and any notes that may be of use. They are also used to recruit members and acquire hardware for the group.
SFV -
Also supplied for each disc is an SFV file. These are mainly used on site level to check each file has been uploaded correctly, but are also handy for people downloading to check they have all the files, and the CRC is correct. A program such as pdSFV or hkSFV is required to use these files.
----------------------------------------------------------------------------------------------------------------------------
Usenet Information
Access -
To get onto newsgroups, you will need a news server. Most ISPs supply one, but this is usually of poor retention (the amount of time the files are on server for) and poor completition (the amount of files that make it there). For the best service, a premium news server should be paid for, and these will often have bandwidth restrictions in place.
Software -
You will need a newsreader to access the files in the binary newsgroups. There are many different readers, and its usually down to personal opinion which is best. Xnews / Forte Agent / BNR 1 / BNR 2 are amongst the popular choices. Outlook has the ability to read newsgroups, but its recommended to not use that.
Format -
Usenet posts are often the same as those listed on VCDQUALiTY (i.e., untouched group releases) but you have to check the filenames and the description to make sure you get what you think you are getting. Generally releases should come down in .RAR sets. Posts will usually take more than one day to be uploaded, and can be spread out as far as a week.
PAR files -
As well as the .rxx files, you will also see files listed as .pxx/.par . These are PARITY files. Parity files are common in usenet posts, as a lot of times, there will be at least one or two damaged files on some servers. A parity file can be used to replace ANY ONE file that is missing from the rar set. The more PAR files you have, the more files you can replace. You will need a program called SMARTPAR for this.
----------------------------------------------------------------------------------------------------------------------------
Scene Tags
PROPER -
Due to scene rules, whoever releases the first Telesync has won that race (for example). But if the quality of that release is fairly poor, if another group has another telesync (or the same source in higher quality) then the tag PROPER is added to the folder to avoid being duped. PROPER is the most subjective tag in the scene, and a lot of people will generally argue whether the PROPER is better than the original release. A lot of groups release PROPERS just out of desperation due to losing the race. A reason for the PROPER should always be included in the NFO.
SUBBED -
In the case of a VCD, if a release is subbed, it usually means it has hard encoded subtitles burnt throughout the movie. These are generally in malaysian/chinese/thai etc, and sometimes there are two different languages, which can take up quite a large amount of the screen. SVCD supports switch able subtitles, so some DVDRips are released with switch able subs. This will be mentioned in the NFO file if included.
UNSUBBED -
When a film has had a subbed release in the past, an Unsubbed release may be released
LIMITED -
A limited movie means it has had a limited theater run, generally opening in less than 250 theaters, generally smaller films (such as art house films) are released as limited.
INTERNAL -
An internal release is done for several reasons. Classic DVD groups do a lot of .INTERNAL. releases, as they wont be dupe'd on it. Also lower quality theater rips are done INTERNAL so not to lower the reputation of the group, or due to the amount of rips done already. An INTERNAL release is available as normal on the groups affiliate sites, but they can't be traded to other sites without request from the site ops. Some INTERNAL releases still trickle down to IRC/Newsgroups, it usually depends on the title and the popularity. Earlier in the year people referred to Centropy going "internal". This meant the group were only releasing the movies to their members and site ops. This is in a different context to the usual definition.
STV -
Straight To Video. Was never released in theaters, and therefore a lot of sites do not allow these.
ASPECT RATIO TAGS -
These are *WS* for widescreen (letterbox) and *FS* for Fullscreen.
RECODE -
A recode is a previously released version, usually filtered through TMPGenc to remove subtitles, fix color etc. Whilst they can look better, its not looked upon highly as groups are expected to obtain their own sources.
REPACK -
If a group releases a bad rip, they will release a Repack which will fix the problems.
NUKED -
A film can be nuked for various reasons. Individual sites will nuke for breaking their rules (such as "No Telesyncs") but if the film has something extremely wrong with it (no soundtrack for 20mins, CD2 is incorrect film/game etc) then a global nuke will occur, and people trading it across sites will lose their credits. Nuked films can still reach other sources such as p2p/usenet, but its a good idea to check why it was nuked first in case. If a group realise there is something wrong, they can request a nuke.
NUKE REASONS :: this is a list of common reasons a film can be nuked for (generally DVDRip)
** BAD A/R ** :: bad aspect ratio, ie people appear too fat/thin
** BAD IVTC ** :: bad inverse telecine. process of converting framerates was incorrect.
** INTERLACED ** :: black lines on movement as the field order is incorrect.
DUPE -
Dupe is quite simply, if something exists already, then theres no reason for it to exist again without proper reason.
A cam is a theater rip usually done with a digital video camera. A mini tripod is sometimes used, but a lot of the time this wont be possible, so the camera make shake. Also seating placement isn't always idle, and it might be filmed from an angle. If cropped properly, this is hard to tell unless there's text on the screen, but a lot of times these are left with triangular borders on the top and bottom of the screen. Sound is taken from the onboard microphone of the camera, and especially in comedies, laughter can often be heard during the film. Due to these factors picture and sound quality are usually quite poor, but sometimes we're lucky, and the theater will be fairly empty and a fairly clear signal will be heard.
TELESYNC (TS) -
A telesync is the same spec as a CAM except it uses an external audio source (most likely an audio jack in the chair for hard of hearing people). A direct audio source does not ensure a good quality audio source, as a lot of background noise can interfere. A lot of the times a telesync is filmed in an empty cinema or from the projection booth with a professional camera, giving a better picture quality. Quality ranges drastically, check the sample before downloading the full release. A high percentage of Telesyncs are CAMs that have been mislabeled.
TELECINE (TC) -
A telecine machine copies the film digitally from the reels. Sound and picture should be very good, but due to the equipment involved and cost telecines are fairly uncommon. Generally the film will be in correct aspect ratio, although 4:3 telecines have existed. A great example is the JURASSIC PARK 3 TC done last year. TC should not be confused with TimeCode , which is a visible counter on screen throughout the film.
SCREENER (SCR) -
A pre VHS tape, sent to rental stores, and various other places for promotional use. A screener is supplied on a VHS tape, and is usually in a 4:3 (full screen) a/r, although letterboxed screeners are sometimes found. The main draw back is a "ticker" (a message that scrolls past at the bottom of the screen, with the copyright and anti-copy telephone number). Also, if the tape contains any serial numbers, or any other markings that could lead to the source of the tape, these will have to be blocked, usually with a black mark over the section. This is sometimes only for a few seconds, but unfortunately on some copies this will last for the entire film, and some can be quite big. Depending on the equipment used, screener quality can range from excellent if done from a MASTER copy, to very poor if done on an old VHS recorder thru poor capture equipment on a copied tape. Most screeners are transferred to VCD, but a few attempts at SVCD have occurred, some looking better than others.
DVD-SCREENER (DVDscr) -
Same premise as a screener, but transferred off a DVD. Usually letterbox , but without the extras that a DVD retail would contain. The ticker is not usually in the black bars, and will disrupt the viewing. If the ripper has any skill, a DVDscr should be very good. Usually transferred to SVCD or DivX/XviD.
DVDRip -
A copy of the final released DVD. If possible this is released PRE retail (for example, Star Wars episode 2) again, should be excellent quality. DVDrips are released in SVCD and DivX/XviD.
VHSRip -
Transferred off a retail VHS, mainly skating/sports videos and XXX releases.
TVRip -
TV episode that is either from Network (capped using digital cable/satellite boxes are preferable) or PRE-AIR from satellite feeds sending the program around to networks a few days earlier (do not contain "dogs" but sometimes have flickers etc) Some programs such as WWF Raw Is War contain extra parts, and the "dark matches" and camera/commentary tests are included on the rips. PDTV is capped from a digital TV PCI card, generally giving the best results, and groups tend to release in SVCD for these. VCD/SVCD/DivX/XviD rips are all supported by the TV scene.
WORKPRINT (WP) -
A workprint is a copy of the film that has not been finished. It can be missing scenes, music, and quality can range from excellent to very poor. Some WPs are very different from the final print (Men In Black is missing all the aliens, and has actors in their places) and others can contain extra scenes (Jay and Silent Bob) . WPs can be nice additions to the collection once a good quality final has been obtained.
DivX Re-Enc -
A DivX re-enc is a film that has been taken from its original VCD source, and re-encoded into a small DivX file. Most commonly found on file sharers, these are usually labeled something like Film.Name.Group(1of2) etc. Common groups are SMR and TND. These aren't really worth downloading, unless you're that unsure about a film u only want a 200mb copy of it. Generally avoid.
Watermarks -
A lot of films come from Asian Silvers/PDVD (see below) and these are tagged by the people responsible. Usually with a letter/initials or a little logo, generally in one of the corners. Most famous are the "Z" "A" and "Globe" watermarks.
Asian Silvers / PDVD -
These are films put out by eastern bootleggers, and these are usually bought by some groups to put out as their own. Silvers are very cheap and easily available in a lot of countries, and its easy to put out a release, which is why there are so many in the scene at the moment, mainly from smaller groups who don't last more than a few releases. PDVDs are the same thing pressed onto a DVD. They have removable subtitles, and the quality is usually better than the silvers. These are ripped like a normal DVD, but usually released as VCD.
Formats
VCD -
VCD is an mpeg1 based format, with a constant bitrate of 1150kbit at a resolution of 352x240 (NTCS). VCDs are generally used for lower quality transfers (CAM/TS/TC/Screener(VHS)/TVrip(analogue) in order to make smaller file sizes, and fit as much on a single disc as possible. Both VCDs and SVCDs are timed in minutes, rather than MB, so when looking at an mpeg, it may appear larger than the disc capacity, and in reality u can fit 74min on a CDR74.
SVCD -
SVCD is an mpeg2 based (same as DVD) which allows variable bit-rates of up to 2500kbits at a resolution of 480x480 (NTSC) which is then decompressed into a 4:3 aspect ratio when played back. Due to the variable bit-rate, the length you can fit on a single CDR is not fixed, but generally between 35-60 Mins are the most common. To get a better SVCD encode using variable bit-rates, it is important to use multiple "passes". this takes a lot longer, but the results are far clearer.
XVCD/XSVCD -
These are basically VCD/SVCD that don't obey the "rules". They are both capable of much higher resolutions and bit-rates, but it all depends on the player to whether the disc can be played. X(S)VCD are total non-standards, and are usually for home-ripping by people who don't intend to release them.
DivX / XviD -
DivX is a format designed for multimedia platforms. It uses two codecs, one low motion, one high motion. most older films were encoded in low motion only, and they have problems with high motion too. A method known as SBC (Smart Bit-rate Control) was developed which switches codecs at the encoding stage, making a much better print. The format is Ana orphic and the bit-rate/resolution are interchangeable. Due to the higher processing power required, and the different codecs for playback, its unlikely we'll see a DVD player capable of play DivX for quite a while, if at all. There have been players in development which are supposedly capable, but nothing has ever arisen. The majority of PROPER DivX rips (not Re-Encs) are taken from DVDs, and generally up to 2hours in good quality is possible per disc. Various codecs exist, most popular being the original Divx3.11a and the new XviD codecs.
CVD -
CVD is a combination of VCD and SVCD formats, and is generally supported by a majority of DVD players. It supports MPEG2 bit-rates of SVCD, but uses a resolution of 352x480(ntsc) as the horizontal resolution is generally less important. Currently no groups release in CVD.
DVD-R -
Is the recordable DVD solution that seems to be the most popular (out of DVD-RAM, DVD-R and DVD+R). it holds 4.7gb of data per side, and double sided discs are available, so discs can hold nearly 10gb in some circumstances. SVCD mpeg2 images must be converted before they can be burnt to DVD-R and played successfully. DVD>DVDR copies are possible, but sometimes extras/languages have to be removed to stick within the available 4.7gb.
MiniDVD -
MiniDVD/cDVD is the same format as DVD but on a standard CDR/CDRW. Because of the high resolution/bit-rates, its only possible to fit about 18-21 mins of footage per disc, and the format is only compatible with a few players.
Misc Info
Regional Coding -
This was designed to stop people buying American DVDs and watching them earlier in other countries, or for older films where world distribution is handled by different companies. A lot of players can either be hacked with a chip, or via a remote to disable this.
1 USA, Canada
2 Europe, Middle East, Japan, South Africa
3 S.Korea, Taiwan, HK, ASEAN
4 Australia, NZ, Latin America
5 Ex-Soviets, Indian sub-continent, Africa
6 China
7 Reserved
8 International territory (airplanes, cruise ships, etc.)
RCE -
RCE (Regional Coding Enhancement) was designed to overcome "Multiregion" players, but it had a lot of faults and was overcome. Very few titles are RCE encoded now, and it was very unpopular.
Macrovision -
Macrovision is the copy protection employed on most commercial DVDs. Its a system that will display lines and darken the images of copies that are made by sending the VHS signals it can't understand. Certain DVD players (for example the Dansai 852 from Tescos) have a secret menu where you can disable the macrovision, or a "video stabaliser" costs about 30UKP from Maplin
CODE
(www.maplin.co.uk)
NTSC/PAL -
NTSC and PAL are the two main standards used across the world. NTSC has a higher frame rate than pal (29fps compared to 25fps) but PAL has an increased resolution, and gives off a generally sharper picture. Playing NTSC discs on PAL systems seems a lot easier than vice-versa, which is good news for the Brits An RGB enabled scart lead will play an NTSC picture in full colour on most modern tv sets, but to record this to a VHS tape, you will need to convert it to PAL50 (not PAL60 as the majority of DVD players do.) This is either achieved by an expensive converter box (in the regions of £200+) an onboard converter (such as the Dansai 852 / certain Daewoos / Samsung 709 ) or using a World Standards VCR which can record in any format.
News Sites -
There are generally 2 news sites, and I'm allowed to be biased For Games/Apps/Console ::
CODE
www.isonews.com
is generally regarded as the best, but for VCD/SVCD/DivX/TV/XXX
CODE
www.vcdquality.com
displays screen grabs and allows feedback. **NOTICE** neither site offers movie downloads, and requesting movies/trades etc on the forums of either is NOT permitted.
There are generally 3 news sites for film release for p2p and they are:
CODE
nforce - VCD Help
http://www.vcdhelp.com/
http://www.vcdquality.com/
http://www.nforce.nl/
Release Files
RARset -
The movies are all supplied in RAR form, whether its v2 (rar>.rxx) or v3 (part01.rar > partxx.rar) form.
BIN/CUE -
VCD and SVCD films will extract to give a BIN/CUE. Load the .CUE into notepad and make sure the first line contains only a filename, and no path information. Then load the cue into Nero/CDRWin etc and this will burn the VCD/SVCD correctly. TV rips are released as MPEG. DivX files are just the plain DivX - .AVI
NFO -
An NFO file is supplied with each movie to promote the group, and give general iNFOrmation about the release, such as format, source, size, and any notes that may be of use. They are also used to recruit members and acquire hardware for the group.
SFV -
Also supplied for each disc is an SFV file. These are mainly used on site level to check each file has been uploaded correctly, but are also handy for people downloading to check they have all the files, and the CRC is correct. A program such as pdSFV or hkSFV is required to use these files.
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Usenet Information
Access -
To get onto newsgroups, you will need a news server. Most ISPs supply one, but this is usually of poor retention (the amount of time the files are on server for) and poor completition (the amount of files that make it there). For the best service, a premium news server should be paid for, and these will often have bandwidth restrictions in place.
Software -
You will need a newsreader to access the files in the binary newsgroups. There are many different readers, and its usually down to personal opinion which is best. Xnews / Forte Agent / BNR 1 / BNR 2 are amongst the popular choices. Outlook has the ability to read newsgroups, but its recommended to not use that.
Format -
Usenet posts are often the same as those listed on VCDQUALiTY (i.e., untouched group releases) but you have to check the filenames and the description to make sure you get what you think you are getting. Generally releases should come down in .RAR sets. Posts will usually take more than one day to be uploaded, and can be spread out as far as a week.
PAR files -
As well as the .rxx files, you will also see files listed as .pxx/.par . These are PARITY files. Parity files are common in usenet posts, as a lot of times, there will be at least one or two damaged files on some servers. A parity file can be used to replace ANY ONE file that is missing from the rar set. The more PAR files you have, the more files you can replace. You will need a program called SMARTPAR for this.
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Scene Tags
PROPER -
Due to scene rules, whoever releases the first Telesync has won that race (for example). But if the quality of that release is fairly poor, if another group has another telesync (or the same source in higher quality) then the tag PROPER is added to the folder to avoid being duped. PROPER is the most subjective tag in the scene, and a lot of people will generally argue whether the PROPER is better than the original release. A lot of groups release PROPERS just out of desperation due to losing the race. A reason for the PROPER should always be included in the NFO.
SUBBED -
In the case of a VCD, if a release is subbed, it usually means it has hard encoded subtitles burnt throughout the movie. These are generally in malaysian/chinese/thai etc, and sometimes there are two different languages, which can take up quite a large amount of the screen. SVCD supports switch able subtitles, so some DVDRips are released with switch able subs. This will be mentioned in the NFO file if included.
UNSUBBED -
When a film has had a subbed release in the past, an Unsubbed release may be released
LIMITED -
A limited movie means it has had a limited theater run, generally opening in less than 250 theaters, generally smaller films (such as art house films) are released as limited.
INTERNAL -
An internal release is done for several reasons. Classic DVD groups do a lot of .INTERNAL. releases, as they wont be dupe'd on it. Also lower quality theater rips are done INTERNAL so not to lower the reputation of the group, or due to the amount of rips done already. An INTERNAL release is available as normal on the groups affiliate sites, but they can't be traded to other sites without request from the site ops. Some INTERNAL releases still trickle down to IRC/Newsgroups, it usually depends on the title and the popularity. Earlier in the year people referred to Centropy going "internal". This meant the group were only releasing the movies to their members and site ops. This is in a different context to the usual definition.
STV -
Straight To Video. Was never released in theaters, and therefore a lot of sites do not allow these.
ASPECT RATIO TAGS -
These are *WS* for widescreen (letterbox) and *FS* for Fullscreen.
RECODE -
A recode is a previously released version, usually filtered through TMPGenc to remove subtitles, fix color etc. Whilst they can look better, its not looked upon highly as groups are expected to obtain their own sources.
REPACK -
If a group releases a bad rip, they will release a Repack which will fix the problems.
NUKED -
A film can be nuked for various reasons. Individual sites will nuke for breaking their rules (such as "No Telesyncs") but if the film has something extremely wrong with it (no soundtrack for 20mins, CD2 is incorrect film/game etc) then a global nuke will occur, and people trading it across sites will lose their credits. Nuked films can still reach other sources such as p2p/usenet, but its a good idea to check why it was nuked first in case. If a group realise there is something wrong, they can request a nuke.
NUKE REASONS :: this is a list of common reasons a film can be nuked for (generally DVDRip)
** BAD A/R ** :: bad aspect ratio, ie people appear too fat/thin
** BAD IVTC ** :: bad inverse telecine. process of converting framerates was incorrect.
** INTERLACED ** :: black lines on movement as the field order is incorrect.
DUPE -
Dupe is quite simply, if something exists already, then theres no reason for it to exist again without proper reason.
Virtual memory
Tutorial Objective
This tutorial talks about anything about the virtual memory and how much virtual memory you need for your system.
Tutorial Introduction & Background
Today application is getting bigger and bigger. Therefore, it requires a bigger system memory in order for the system to hold the application data, instruction, and thread and to load it. The system needs to copy the application data from the HDD into the system memory in order for it to process and execute the data. Once the memory gets filled up with data, the system will stop loading the program. In this case, users need to add more memory onto their system to support that intense application. However, adding more system memory costs the money and the normal user only needs to run the the intense application that requires the memory only for one or two days. Therefore, virtual memory is introduced to solve that type of problem.
Terminology & Explanation
There are two types of memory, which are as follows:
* System Memory is a memory that is used to store the application data and instruction in order for the system to process and execute that application data and instruction. When you install the memory sticks to increase the system RAM, you are adding more system memory. System Memory can be known as either the physical memory or the main memory.
* Virtual Memory is a memory that uses a portion of HDD space as the memory to store the application data and instruction that the system deemed it doesn't need to process for now. Virtual Memory can be known as the logical memory, and it controls by the Operating System, which is Microsoft Windows. Adding the Virtual Memory can be done in system configuration.
Tutorial Information & Facts or Implementation
Virtual Memory is a HDD space that uses some portion of it as the memory. It is used to store application data and instruction that is currently not needed to be process by the system.
During the program loading process, the system will copy the application data and its instruction from the HDD into the main memory (system memory). Therefore the system can use its resources such as CPU to process and execute it. Once the system memory gets filled up, the system will start moving some of the data and instruction that don't need to process anymore into the Virtual Memory until those data and instruction need to process again. So the system can call the next application data and instruction and copy it into the main memory in order for the system to process the rest and load the program. When the data and instruction that is in the Virtual Memory needs to process again, the system will first check the main memory for its space. If there is space, it will simply swap those into the main memory. If there are not any space left for the main memory, the system will first check the main memory and move any data and instructions that doesn't need to be process into the Virtual Memory. And then swap the data and instruction that need to be process by the system from the Virtual Memory into the main memory.
Having too low of Virtual Memory size or large Virtual Memory size (meaning the size that is above double of the system memory) is not a good idea. If you set the Virtual Memory too low, then the OS will keep issuing an error message that states either Not enough memory or Virtual too low. This is because some portion of the system memory are used to store the OS Kernel, and it requires to be remain in the main memory all the time. Therefore the system needs to have a space to store the not currently needed process data and instruction when the main memory get filled up. If you set the Virtual Memory size too large to support the intensive application, it is also not a good idea. Because it will create the performance lagging, and even it will take the HDD free space. The system needs to transfer the application data and instruction back and forth between the Virtual Memory and the System Memory. Therefore, that is not a good idea. The ideal size for the Virtual Memory is the default size of Virtual Memory, and it should not be exceed the value of the triple size of system memory.
To determine how much virtual memory you need, since the user's system contains the different amount of RAM, it is based on the system. By default, the OS will set the appropriate size for Virtual Memory. The default and appropriate size of Virtual Memory is:
CODE
* 1.5 =
.
For example, if your system contains 256 MB of RAM, you should set 384 MB for Virtual Memory.
CODE
256 MB of RAM (Main Memory) * 1.5 = 384 MB for Virtual Memory
If you would like to determine how much the Virtual Memory is for your system and/or would like to configure and add more virtual memory, follow the procedure that is shown below. The following procedure is based on windows XP Professional.
1-1) Go to right-click My Computer and choose Properties
1-2) In the System Properties dialog box, go to Advanced tab
1-3) Click Settings button that is from the Performance frame
1-4) Once the Performance Options shows up on the screen, go to Advanced tab
1-5) Under the Advanced tab, click the Change button from the Virtual Memory frame to access to the Virtual Memory setting
Then the Virtual Memory dialog box appears on the screen. In there, you are able to check how much the Virtual Memory you set. If you would like to modify the size of Virtual Memory, follow the procedure that is shown below.
2-1) In there, select the drive letter that is used to install the Operating System
2-2) Choose the option that says, "Custom Size:"
Once you choose that option, the setting for Initial Size and Maximum Size become available for you to set. Initial Size (MB) means the actual size of Virtual Memory, and Maximum Size (MB) means the maximum size of Virtual Memory that is allowed to use.
Let's say if your system contains 512 MB of RAM, then the ideal setting for the Virtual Memory is as follows:
CODE
Initial Size (MB): 768
Maximum Size (MB): 1500
Once you are happy with that Virtual Memory size, click the Set button from Paging file size for selected drive to apply the setting for the Virtual Memory size. Then click the OK button to apply the setting.
That's where you can manage and configure for the size of Virtual Memory.
Additional Information
* To maintain the good overall system performance, you should be using the default size of actual size for Virtual Memory and the triple the value of the size of the main memory for the maximum size of Virtual Memory. If you find that main memory plus virtual memory is not big enough to load the intensive application, then you will need to add more main memory onto your system.
This tutorial talks about anything about the virtual memory and how much virtual memory you need for your system.
Tutorial Introduction & Background
Today application is getting bigger and bigger. Therefore, it requires a bigger system memory in order for the system to hold the application data, instruction, and thread and to load it. The system needs to copy the application data from the HDD into the system memory in order for it to process and execute the data. Once the memory gets filled up with data, the system will stop loading the program. In this case, users need to add more memory onto their system to support that intense application. However, adding more system memory costs the money and the normal user only needs to run the the intense application that requires the memory only for one or two days. Therefore, virtual memory is introduced to solve that type of problem.
Terminology & Explanation
There are two types of memory, which are as follows:
* System Memory is a memory that is used to store the application data and instruction in order for the system to process and execute that application data and instruction. When you install the memory sticks to increase the system RAM, you are adding more system memory. System Memory can be known as either the physical memory or the main memory.
* Virtual Memory is a memory that uses a portion of HDD space as the memory to store the application data and instruction that the system deemed it doesn't need to process for now. Virtual Memory can be known as the logical memory, and it controls by the Operating System, which is Microsoft Windows. Adding the Virtual Memory can be done in system configuration.
Tutorial Information & Facts or Implementation
Virtual Memory is a HDD space that uses some portion of it as the memory. It is used to store application data and instruction that is currently not needed to be process by the system.
During the program loading process, the system will copy the application data and its instruction from the HDD into the main memory (system memory). Therefore the system can use its resources such as CPU to process and execute it. Once the system memory gets filled up, the system will start moving some of the data and instruction that don't need to process anymore into the Virtual Memory until those data and instruction need to process again. So the system can call the next application data and instruction and copy it into the main memory in order for the system to process the rest and load the program. When the data and instruction that is in the Virtual Memory needs to process again, the system will first check the main memory for its space. If there is space, it will simply swap those into the main memory. If there are not any space left for the main memory, the system will first check the main memory and move any data and instructions that doesn't need to be process into the Virtual Memory. And then swap the data and instruction that need to be process by the system from the Virtual Memory into the main memory.
Having too low of Virtual Memory size or large Virtual Memory size (meaning the size that is above double of the system memory) is not a good idea. If you set the Virtual Memory too low, then the OS will keep issuing an error message that states either Not enough memory or Virtual too low. This is because some portion of the system memory are used to store the OS Kernel, and it requires to be remain in the main memory all the time. Therefore the system needs to have a space to store the not currently needed process data and instruction when the main memory get filled up. If you set the Virtual Memory size too large to support the intensive application, it is also not a good idea. Because it will create the performance lagging, and even it will take the HDD free space. The system needs to transfer the application data and instruction back and forth between the Virtual Memory and the System Memory. Therefore, that is not a good idea. The ideal size for the Virtual Memory is the default size of Virtual Memory, and it should not be exceed the value of the triple size of system memory.
To determine how much virtual memory you need, since the user's system contains the different amount of RAM, it is based on the system. By default, the OS will set the appropriate size for Virtual Memory. The default and appropriate size of Virtual Memory is:
CODE
.
For example, if your system contains 256 MB of RAM, you should set 384 MB for Virtual Memory.
CODE
256 MB of RAM (Main Memory) * 1.5 = 384 MB for Virtual Memory
If you would like to determine how much the Virtual Memory is for your system and/or would like to configure and add more virtual memory, follow the procedure that is shown below. The following procedure is based on windows XP Professional.
1-1) Go to right-click My Computer and choose Properties
1-2) In the System Properties dialog box, go to Advanced tab
1-3) Click Settings button that is from the Performance frame
1-4) Once the Performance Options shows up on the screen, go to Advanced tab
1-5) Under the Advanced tab, click the Change button from the Virtual Memory frame to access to the Virtual Memory setting
Then the Virtual Memory dialog box appears on the screen. In there, you are able to check how much the Virtual Memory you set. If you would like to modify the size of Virtual Memory, follow the procedure that is shown below.
2-1) In there, select the drive letter that is used to install the Operating System
2-2) Choose the option that says, "Custom Size:"
Once you choose that option, the setting for Initial Size and Maximum Size become available for you to set. Initial Size (MB) means the actual size of Virtual Memory, and Maximum Size (MB) means the maximum size of Virtual Memory that is allowed to use.
Let's say if your system contains 512 MB of RAM, then the ideal setting for the Virtual Memory is as follows:
CODE
Initial Size (MB): 768
Maximum Size (MB): 1500
Once you are happy with that Virtual Memory size, click the Set button from Paging file size for selected drive to apply the setting for the Virtual Memory size. Then click the OK button to apply the setting.
That's where you can manage and configure for the size of Virtual Memory.
Additional Information
* To maintain the good overall system performance, you should be using the default size of actual size for Virtual Memory and the triple the value of the size of the main memory for the maximum size of Virtual Memory. If you find that main memory plus virtual memory is not big enough to load the intensive application, then you will need to add more main memory onto your system.
Virtual Memory Optimization Guide Rev. 4.0 - Final
Virtual Memory
Back in the 'good old days' of command prompts and 1.2MB floppy disks, programs needed very little RAM to run because the main (and almost universal) operating system was Microsoft DOS and its memory footprint was small. That was truly fortunate because RAM at that time was horrendously expensive. Although it may seem ludicrous, 4MB of RAM was considered then to be an incredible amount of memory.
However when Windows became more and more popular, 4MB was just not enough. Due to its GUI (Graphical User Interface), it had a larger memory footprint than DOS. Thus, more RAM was needed.
Unfortunately, RAM prices did not decrease as fast as RAM requirement had increased. This meant that Windows users had to either fork out a fortune for more RAM or run only simple programs. Neither were attractive options. An alternative method was needed to alleviate this problem.
The solution they came up with was to use some space on the hard disk as extra RAM. Although the hard disk is much slower than RAM, it is also much cheaper and users always have a lot more hard disk space than RAM. So, Windows was designed to create this pseudo-RAM or in Microsoft's terms - Virtual Memory, to make up for the shortfall in RAM when running memory-intensive programs.
How Does It Work?
Virtual memory is created using a special file called a swapfile or paging file.
Whenever the operating system has enough memory, it doesn't usually use virtual memory. But if it runs out of memory, the operating system will page out the least recently used data in the memory to the swapfile in the hard disk. This frees up some memory for your applications. The operating system will continuously do this as more and more data is loaded into the RAM.
However, when any data stored in the swapfile is needed, it is swapped with the least recently used data in the memory. This allows the swapfile to behave like RAM although programs cannot run directly off it. You will also note that because the operating system cannot directly run programs off the swapfile, some programs may not run even with a large swapfile if you have too little RAM.
Swapfile Vs. Paging File
We have all been using the terms swapfile and paging file interchangeably. Even Microsoft invariably refers to the paging file as the swapfile and vice versa. However, the swapfile and paging file are two different entities. Although both are used to create virtual memory, there are subtle differences between the two.
The main difference lies in their names. Swapfiles operate by swapping entire processes from system memory into the swapfile. This immediately frees up memory for other applications to use.
In contrast, paging files function by moving "pages" of a program from system memory into the paging file. These pages are 4KB in size. The entire program does not get swapped wholesale into the paging file.
While swapping occurs when there is heavy demand on the system memory, paging can occur preemptively. This means that the operating system can page out parts of a program when it is minimized or left idle for some time. The memory used by the paged-out portions are not immediately released for use by other applications. Instead, they are kept on standby.
If the paged-out application is reactivated, it can instantly access the paged-out parts (which are still stored in system memory). But if another application requests for the memory space, then the system memory held by the paged-out data is released for its use. As you can see, this is really quite different from the way a swapfile works.
Swapfiles were used in old iterations of Microsoft Windows, prior to Windows 95. From Windows 95 onwards, all Windows versions use only paging files. Therefore, the correct term for the file used to create virtual memory in current operating systems is paging file, not swapfile.
Because both swapfiles and paging files do the same thing - create virtual memory, people will always refer to swapfiles and paging files interchangeably. Let's just keep in mind their innate differences.
Do We Still Need A Paging File?
Even today, when the average home user's computer comes with at least 256MB of RAM, the paging file is still very important. While the large amount of RAM in the average user's computer makes the risk of memory shortage much less of a worry with single applications now than it was back then; the paging file is essential when multi-tasking.
Note that over the years, the emphasis has changed to multi-tasking. No longer will people be solely stuck to using one application at a time. In fact, it is common to have 10 or more applications running simultaneously!
For example, I normally have the following applications running at the same time :-
+ Microsoft Outlook
+ Internet browsers like Maxthon and Firefox
+ An FTP client
+ Instant messengers like Trillian and MSN Messenger
+ A download manager like FlashGet
+ Macromedia Dreamweaver
+ P2P clients like ShareAza
+ An antivirus software
+ Adobe Acrobat Reader with a few PDF documents opened
That's a total of 10-12 applications running simultaneously!
Even with 256MB of RAM, it would be impossible to load everything into memory. A paging file is needed to store the least used data in the memory so that I can open up all those applications I need. And let's not forget the disk cache.
Operating systems like Windows 98 and Windows XP allocate a sizeable portion of the RAM to the disk cache. This speeds up accesses to hard disk data by caching the most frequently used as well as data that are most likely to be accessed next by the computer. This cuts down on the amount of available RAM. So, without a paging file, you won't be able to open many applications even if your computer has 256MB of RAM.
Finally, some programs require the use of a paging file to function properly. It may be to store sensitive data on something less volatile than the RAM or to ensure the computer will have sufficient memory to run it. But whatever the reasons, a paging file is needed in order for these programs to run.
Why Optimize The Paging File?
Unless your computer is truly loaded with RAM, it will almost always use the paging file. As such, its performance affects the performance of the whole computer.
Now, using a paging file may sound like a really cheap way to run memory intensive programs without the expense of buying more RAM. However, even the fastest hard disk is more than an order of magnitude slower than the slowest RAM.
Even the fastest hard disk is currently over 70X slower than the dual-channel PC2700 DDR memory common in many computers. Let's not even start comparing the hard disk with faster RAM solutions like PC3200 DDR memory or PC2-4200 DDR2 memory.
So, paging file is only a stopgap solution for the lack of sufficient RAM. As long as you use the paging file, there will always be performance degradation. The ideal solution for insufficient RAM is always more RAM, not more Virtual Memory. But since we can't afford all the RAM we want, a paging file is necessary for us to run today's memory guzzling programs.
As you can tell, more isn't better for the paging file because more paging file space will only give you the ability to run more memory intensive programs at once. It will not speed up your system. But what we can do is to optimize the paging file so that the performance degradation when using it is minimized.
So How Do We Optimize The Paging File?
There have been many theories on how to optimize the paging file. The most important ones are listed below :-
+ Making the paging file contiguous.
+ Moving the paging file to the outer tracks of the hard disk.
+ Creating a huge paging file.
+ Moving the paging file to a different partition in the same hard disk.
+ Moving the paging file to a different hard disk.
+ Creating multiple paging files
+ Moving the paging file to a RAID array
+ Moving the paging file to a RAM drive
+ Reducing reliance on virtual memory
We will examine those methods and see what will work and what won't.
Virtual Memory Then And Now
Windows 3.1
Back in the good old days of DOS 6.22 and Windows 3.1, everyone knew that creating a permanent swapfile was the key to optimal swapfile performance. This was because Windows 3.1 only creates permanent swapfiles that are contiguous.
A contiguous swapfile is a swapfile that consists of an uninterrupted block of hard disk space. When a swapfile is contiguous, the read-write heads of the hard disk can read and write data on the swapfile in a continuous fashion.
In Windows 3.1, if the swapfile was set up as a temporary swapfile which is created every time Windows 3.1 boots up, it will end up at the end of the hard disk and fragmented too. So, every time the swapfile is read from or written to, the hard disk heads have to seek all over the platters to conduct those operations.
Needless to say, this greatly erodes the performance of the swapfile. That's why it was important to make the swapfile permanent in Windows 3.1 - so that the swapfile will become contiguous.
Windows 95 And Above
From Windows 95 onwards, Microsoft encouraged the use of its new dynamic virtual memory system. Of course, there is nothing new about the virtual memory part but the keyword in this new technique is dynamic.
The new dynamic virtual memory system no longer relies on a fixed-size swapfile but a paging file that dynamically resizes itself according to need. When the computer runs out of memory, more memory is created by increasing the size of the paging file. Once the virtual memory is freed up, theoretically the paging file diminishes in size.
Microsoft claims that while its dynamic virtual memory system will create a fragmented paging file, it is still faster than Windows 3.1's static virtual memory system. As a bonus, no hard disk space will be tied up in a permanent paging file.
However, this dynamic virtual memory system does have a big disadvantage - it cannot be moved to the outer tracks of the hard disk platters.
Dynamic Paging Files And Data Locality
There are people who assert that when left alone, Windows XP will actually create virtual memory pages in close proximity to frequently-used data in the hard disk, like documents. In other words, they claim that Windows XP monitors disk usage, maintains a database of frequently-used files in the hard disk and uses that information to create the paging file based on spatial locality.
With virtual memory pages created close to frequently-used data, this apparently allows shorter seeks between frequently-used data and the paging file. That is the premise behind their theory of letting Windows XP handle the paging file dynamically. However, I don't think this is true at all.
First of all, while Windows XP does monitor disk usage and maintain a database of frequently-used files, only disk defragmenting utilities use that database. The built-in Disk Defragmenter, as well as third-party disk defragmenting utilities, use this database to rearrange the hard disk so that frequently-used data.
But as far as I'm aware, the paging file does not arrange the location of the pages according to this database. From my observations, Windows XP simply uses the nearest available clusters for the dynamic paging file.
In fact, Microsoft states that if you create multiple paging files, Windows XP will favour the partition that is least active. This completely refutes the theory of virtual memory pages being allocated according to spatial locality. Here is a quote from Microsoft's Knowledge Base.
By design, Windows uses the paging file on the less frequently accessed partition over the paging file on the more heavily accessed boot partition. An internal algorithm is used to determine which paging file to use for virtual memory management.
In any case, it doesn't make sense for Windows XP to create the paging file based on spatial locality to work files like your documents. Once opened, Windows keeps the working copy in the Temp folder, not your paging file.
In addition, let us remember that Windows pre-emptively pages out pageable parts of an application in system memory. Windows does not directly load data from the hard disk into the paging file. Therefore, creating virtual memory pages close to frequently-used files will not help at all.
Fragmented Vs. Contiguous
Even though Microsoft asserts that the new dynamic virtual memory system does not benefit much from a contiguous paging file, the fact is maintaining a contiguous paging file will definitely improve the paging file's performance.
A contiguous paging file eliminates the need for the hard disk heads to seek all over the platters while accessing the paging file. The following pictures illustrate my points.
This shows a fragmented paging file (brown)
This shows a contiguous paging file (brown)
See how a contiguous paging file differs from a fragmented paging file? Instead of seeking and reading from a continuous block of hard disk space in the case of a contiguous paging file, the hard disk heads have to seek all over the platters to access the clusters allocated to a fragmented paging file.
As a result, a common operating pattern like the following may emerge :-
Fragmented : seek-read-read-seek-read-seek-read-read-read-seek-read-read-seek
Contiguous : seek-read-read-read-read-read-read-seek-read-read-read-read-read
Of course, the amount of time needed to do the seek operation is different from the time needed to read a block of data off the paging file but the logic remains.
A contiguous paging file allows data to be read with minimal amount of seeks. If the number of seeks can be reduced while accessing the paging file, then more data can be read in less time. This is the premise behind a contiguous paging file.
How Do We Create A Contiguous Paging File?
Now that we agree that making the paging file contiguous will greatly improve its performance, let's figure out how to make it contiguous.
Using A Permanent Paging File
Yes, I know. You are all thinking, "Simple! Just make the paging file permanent!"
True, creating a permanent paging file is usually the way to create a contiguous paging file. A permanent paging file ensures that the paging file will remain in one single block. However, creating a permanent paging file does not mean the paging file will automatically become contiguous.
That may have been true in Windows 3.1 but believe it or not, Windows XP does not force the creation of a contiguous paging file when you make the paging file permanent!
When you create a permanent paging file, Windows XP automatically uses the nearest (to the outer tracks) sectors to create the paging file. This creates a permanent but fragmented paging file. Naturally, this reduces the performance of the paging file.
But that's not the end of the world. To avoid this problem, defragment your hard disk before creating the permanent paging file. That will create a contiguous area for Windows XP to create a permanent paging file.
Using A Dynamic Paging File
But making a permanent paging file is not the only way to create a contiguous paging file. You can also create a contiguous paging file that is also dynamic in nature!
All you need to do is create a separate partition for the paging file. This allows the paging file a contiguous space on the hard disk to freely expand according to usage.
At first glance, the benefits of this method seem obvious. It ensures the paging file is always contiguous and yet have the ability to expand when the need arises. However, this method is really not very desirable when you examine it closely.
The main reason for using a dynamic paging file is to save hard disk space by using it only when there is a need for more virtual memory. But creating a partition to allow the paging file to dynamically resize is really defeating the purpose.
The size of the partition limits the maximum size that the dynamic paging file can expand to and you cannot use the partition to store anything else because that would interfere with its contiguity. If you create a big partition, that wastes hard disk space. If you create a small partition, that limits how big the paging file can expand. Therefore, this method is self-defeating.
What About A Semi-Permanent Paging File?
Although everyone knows about dynamic and permanent paging files, there is a third type of paging file - a semi-permanent paging file.
A semi-permanent paging file theoretically allows you to receive the performance benefits of a contiguous permanent paging file without its main disadvantage - the need to predetermine an optimal size. But what is a semi-permanent paging file?
Well, a semi-permanent paging file is a combination of a permanent paging file and a dynamic paging file. It consists of a permanent part and a dynamic part. The permanent part of this paging file behaves exactly like a permanent paging file. It will not change in size and can thus be moved to the outer tracks of the hard disk.
The dynamic part, however, does not normally appear. In fact, it is only created when the permanent part of the semi-permanent paging file is unable to cope with increased memory requirements.
Once created, it dynamically resizes itself to suit the current paging file requirements. Just like the dynamic paging file, it will use any free space on the hard disk so it will be fragmented.
The Advantages Of A Semi-Permanent Paging File
The semi-permanent paging file offers the advantage of never running out of virtual memory. That means even if the permanent part cannot handle the memory load, the application won't halt with an "Out of memory" error message. The dynamic part will come into action and provide the extra virtual memory required by the application.
With a permanent paging file, the application will just halt with the error message and you would have to close one or more applications to free up more memory. However, this is only true for older versions of Windows.
Newer iterations of Windows like Windows XP do not have a true permanent paging file. Even if you set a permanent paging file, Windows XP will automatically generate more virtual memory when it runs out of memory; by adding a dynamic component to the permanent paging file. In short, when you create a "permanent" paging file in Windows XP, you are actually creating a semi-permanent paging file.
The advantage of creating your own semi-permanent paging file, instead of a "permanent" paging file in Windows XP is that you get to avoid the warning message that appears whenever Windows XP runs out of memory and has to create more virtual memory by adding a dynamic component to the permanent paging file.
The Disdvantages Of A Semi-Permanent Paging File
Unfortunately, a semi-permanent paging file is a double-edged sword. With a dynamic component, it is inevitable that a dynamic paging file's disadvantages would also be applicable to it.
As mentioned earlier, the dynamic part will use any available space on the hard disk. This inevitably means the dynamic part of the semi-permanent paging file will always be fragmented. Naturally, the performance of the paging file deteriorates whenever the dynamic part comes into action.
But just how bad could be the deterioration be? Let's take a look at the disk map below which shows a semi-permanent paging file with both permanent and dynamic components in brown :-
This shows a semi-permanent paging file (brown)
You will notice that the paging file is split into two parts. The permanent part is at the outer tracks of the hard disk in one contiguous block. The lower, fragmented blocks of paging file are the dynamic part of the semi-permanent paging file. As the paging file requirement exceeds what the permanent part can provide, the dynamic part of the semi-permanent paging file will dynamically convert available hard disk space (which is usually on the inner tracks on the hard disk) into virtual memory.
Because the paging file's two components are at opposite ends of the hard disk, the hard disk heads will have to seek up and down the platters while servicing the paging file! Needless to say, that greatly degrades the performance of the paging file. The head seeks required to service a dynamic paging file are already bad enough. The amount of head seeks required to service both the permanent part and the fragmented dynamic part will definitely put a big dent on the paging file's performance.
Permanent Or Semi-Permanent?
Performance-wise, both a permanent and a semi-permanent paging file will perform equally, if the virtual memory requirement does not exceed what the permanent component of the semi-permanent paging file can provide. As the dynamic part comes into play, the semi-permanent paging file gradually loses its performance advantage over the dynamic paging file. Eventually, it may even become slower than a dynamic paging file.
The only way around this is to ensure that the permanent part of the semi-permanent paging file is enough to meet your usual virtual memory requirements. Do not look at the semi-permanent paging file as a way to save hard disk space. Instead, think of it as a permanent paging file with a backup capacity for dynamic expansion in emergencies!
Hard disk space is no longer that much of a premium as it was back in the old days. With desktop hard disks approaching half a terabyte in size, allocating a few hundred megabytes or even a gigabyte or so for the paging file isn't going to break anyone's heart. The performance of the paging file, especially in systems with very little RAM or for people who multitask a lot, is definitely more important than saving a few hundred megabytes of hard disk space.
Is Writing And Rewriting To The Same Area Dangerous?
Creating a permanent or semi-permanent paging file inevitably causes numerous writes and rewrites of information in the same fixed area of the hard disk platters. Compared to other areas of the hard disk, the space allocated to the paging file will be the area where data is most often written, deleted and replaced with newer data.
Some users have expressed concern over this fact. Will the platter media in that area get worn out after continuous use? Like the magnetic cassettes that we used to record our favourite songs? Will bad sectors form in that area like the floppy disks that have been written to once too often?
Well, unlike magnetic cassettes or floppy disks, there is actually no contact between the hard disk read-write heads with the platters. The read-write heads actually fly over the platters on a thin cushion of air. In fact, at the high speed that the platters are spinning at, any contact between a read-write head with a platter would have resulted in a head crash, with disastrous consequences.
Therefore, friction isn't the concern here. What about the effect of changing the magnetic properties of the media during the write process? Will the magnetic properties of the media deteriorate after too many of such changes? Or in the context of this article, will creating a permanent paging file damage the drive in the long run and reduce its MTBF (Mean Time Between Failures)?
To obtain a definitive answer to these questions, I contacted IBM and Seagate. Let's see what their technical experts have to say.
Seagate
This should not hurt the drive at all. As you are aware, the heads are actually suspended above the platters on an air bearing, so there is no direct contact with the media. As far as the recording and re-recording of the same tracks, also no problems. What we are dealing with here in order to write the data is simply moving the magnetic domain one way or the other, no wear involved.
Regards,
Bob
Seagate Tech Support
IBM
Remember, the heads truly fly above the media. The wear and tear factor only becomes an issue for bearings (heat) and physical damage to the media if the drive is shocked during operation. Performance is best at the outer tracks of the drive, so any recurring access directed there will benefit you in performance. Writing and rewriting data to a drive is good in that it remagnetizes (refreshes) the area every time it is written.
To answer your question: Your swap file will not affect the MTBF of your drive.
Don Gardner
IBM Hard Disk Technical Support/SIT Lab
So, Are Multiple Writes To The Same Area Good?
Well, it appears to be so. From what Don Gardner said, I gather that the signal carried by the media weakens with time and rewriting it refreshes and strengthens the signal strength of the data carried by the media.
I guess that pretty much answers our questions. Creating a permanent or semi-permanent paging file won't harm your drive. In fact, it might even be good for your data!
Creating A Permanent Paging File In Windows 9x
Luckily, Microsoft gave us a relatively painless way to create a permanent paging file though the proper directions were not included. Fear not however. This is what guides like this are for.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties. Once in System Properties, click on the Performance tab and you'll see the following picture :-
Right at the bottom, you'll see a Virtual Memory... button. Click on it to get the following screen :-
By default, it is set to Let Windows manage my virtual memory settings. (Recommended). Ignore the Recommended label and select Let me specify my own virtual memory settings.
Now, you will be allowed to choose the partition you wish to place the paging file in. We will touch on this later.
Next up is the minimum and maximum values for the paging file. To create a permanent paging file, both values must be the same. You would think that Microsoft could at least post a notice about that.
Please note that Windows 95/98 will not automatically add a dynamic component to a permanent paging file. If you run out of memory with a permanent paging file, it will halt the application and generate the "Out of memory" error message.
Naturally, you will have to decide on a size for the paging file. We will be discussing this later in the guide but in this example, we will use an arbitrary value of 150MB. Once you set the two values, click on OK and then let Windows 95/98 reboot the system. A permanent paging file will be created on your hard disk.
For the curious, do not click on Disable virtual memory. (Not recommended) because that will force Windows 95/98 to use only physical RAM.
Creating A Semi-Permanent Paging File In Windows 9x
Creating a semi-permanent paging file is rather similar to creating a permanent paging file.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Performance tab and you'll see the following picture :-
Right at the bottom, you'll see a Virtual Memory... button. Click on it to get the following screen :-
By default, it is set to Let Windows manage my virtual memory settings. (Recommended). Ignore the Recommended label and select Let me specify my own virtual memory settings.
Now, you will be allowed to choose the partition you wish to place the paging file in. We will touch on this later.
To create a semi-permanent paging file, you will need to set both the minimum and maximum values. They must not be the same. If they are the same values, then the paging file becomes a permanent paging file.
The minimum value determines the size of the permanent component of the semi-permanent paging file. The maximum value determines the maximum size of the paging file (both permanent and dynamic components) and thus limits how much the dynamic component can expand.
In the example above, Windows 98 will create a permanent paging file of 150MB when it starts up. But if the paging file cannot meet the memory demands of the computer, it will dynamically expand the paging file, up to a maximum of 6692MB.
It is highly recommended that you create a large permanent component that will meet all of your usual memory needs. Use the dynamic component as a backup for emergencies.
Once you set the two values, click on OK and then let Windows 95/98 reboot the system. A permanent paging file will be created on your hard disk. Please note that the dynamic component of the paging file will only become active after the system's virtual memory requirements exceed the minimum value.
For the curious, do not click on Disable virtual memory. (Not recommended) because that will force Windows 95/98 to use only physical RAM.
Creating A Permanent Paging File In Windows 2000
In Windows 2000, it takes a little bit more digging to get where you want.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three options. Click on Performance Options... and you'll see the following picture :-
The second section you see is titled Virtual Memory. Under it, there's a Change... button. Click on it to get the following screen :-
By default, there won't be any values set for both the Initial size (MB) and the Maximum size (MB) options.
You can select the partition you wish to place the paging file in by clicking on the list of partitions shown on the screen. Again, the selection of partition will be discussed in detail later in this article.
To create a permanent paging file, both values for the Initial size and the Maximum size must be the same.
Please note that Windows 2000 will not automatically add a dynamic component to a permanent paging file. If you run out of memory with a permanent paging file, it will halt the application and generate the "Out of memory" error message.
Naturally, you will have to decide on a size for the paging file. We will be discussing this later in this article but for now, we will use an arbitrary value of 150MB. Once you set the two values, click on OK and then let Windows 2000 reboot the system. A permanent paging file will be created on your hard disk.
You will note that Windows 2000 does not allow a paging file size of less than 2MB.
Creating A Semi-Permanent Paging File In Windows 2000
Again, it's almost similar to creating a permanent paging file.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three options. Click on Performance Options... and you'll see the following picture :-
The second section you see is titled Virtual Memory. Under it, there's a Change... button. Click on it to get the following screen :-
By default, there won't be any values set for both the Initial size (MB) and the Maximum size (MB) options.
You can select the logical drive you wish to place the paging file in by clicking on the list of logical drives shown on the screen. Again, the selection of logical drives will be discussed in detail later in this article.
To create a semi-permanent paging file, you will need to set both the minimum and maximum values. They must not be the same. If they are the same values, then the paging file becomes a permanent paging file.
The minimum value determines the size of the permanent component of the semi-permanent paging file. The maximum value determines the maximum size of the paging file (both permanent and dynamic components) and thus limits how much the dynamic component can expand.
In the example above, Windows 2000 will create a permanent paging file of 150MB when it starts up. But if the paging file cannot meet the memory demands of the computer, it will dynamically expand the paging file, up to a maximum of 1422MB.
It is highly recommended that you create a large permanent component that will meet all of your usual memory needs. Use the dynamic component as a backup for emergencies.
Once you set the two values, click on OK and then let Windows 2000 reboot the system. A permanent paging file will be created on your hard disk. Please note that the dynamic component of the paging file will only become active after the system's virtual memory requirements exceed the minimum value.
You will note that Windows 2000 does not allow a paging file size of less than 2MB.
Creating A Permanent Paging File In Windows XP
Like in Windows 2000, it takes a little digging in Windows XP to get where you want.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three sections.
Click on Settings in the Performance section and the Performance Options screen will pop up. Click on the Advanced tab and you'll see the following picture :-
The second section you see is titled Virtual memory. Under it, there's a Change button. Click on it to get the following screen :-
You can select the logical drive you wish to place the paging file in by clicking on the list of logical drives shown on the screen. Again, the selection of logical drives will be discussed in detail later in this article.
To create a permanent paging file, both values for the Initial size and the Maximum size must be the same.
Please note that Windows XP will dynamically expand the paging file when you run out of memory, even if you create a permanent paging file. When this happens, you will get an error message telling you that Windows XP is trying to expand the paging file to create more virtual memory.
In this example, we are using an arbitrary value of 512MB. Once you set the two values, click on OK and then let Windows XP reboot the system. A permanent paging file will be created on your hard disk.
You will note that Windows XP does not allow a paging file size of less than 2MB.
Creating A Semi-Permanent Paging File In Windows XP
Creating a semi-permanent paging file is rather similar to creating a permanent paging file.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three sections.
Click on Settings in the Performance section and the Performance Options screen will pop up. Click on the Advanced tab and you'll see the following picture :-
The second section you see is titled Virtual memory. Under it, there's a Change button. Click on it to get the following screen :-
You can select the partition you wish to place the paging file in by clicking on the list of partitions shown on the screen. Again, the selection of partition will be discussed in detail later in this article.
To create a semi-permanent paging file, you will need to set both the minimum and maximum values. They must not be the same. If they are the same values, then the paging file becomes a permanent paging file.
The minimum value determines the size of the permanent component of the semi-permanent paging file. The maximum value determines the maximum size of the paging file (both permanent and dynamic components) and thus limits how much the dynamic component can expand.
In the example above, Windows XP will create a permanent paging file of 512MB when it starts up. But if the paging file cannot meet the memory demands of the computer, it will dynamically expand the paging file, up to a maximum of 768MB.
It is highly recommended that you create a large permanent component that will meet all of your usual memory needs. Use the dynamic component as a backup for emergencies.
Once you set the two values, click on OK and then let Windows XP reboot the system. A permanent paging file will be created on your hard disk. Please note that the dynamic component of the paging file will only become active after the system's virtual memory requirements exceed the minimum value.
You will note that Windows XP does not allow a paging file size of less than 2MB.
Making The Paging File Contiguous
After creating a permanent or semi-permanent paging file, check and make sure it is contiguous. You can ensure it is contiguous by defragmenting the hard disk before you creating the permanent or semi-permanent paging file. However, that does not always work.
In such cases, you will need to defragment the paging file after it is created. Unfortunately, Windows XP's Defrag utility does not have the ability to defragment the paging file. You will have to use a third-party defragmentation utility to do this. I will use Diskeeper as an example.
Windows NT, 2000 and XP does not allow the paging file to be defragmented while it is in used. Therefore, you must set Diskeeper to move the paging file during the next reboot.
Run Diskeeper and click on Change your settings to expand its menu. You will see the screen below.
Look for and click on Set a boot-time defragmentation. That will display this screen.
Now, select the partition where the paging file resides and tick the checkbox of Defragment the paging file option. The option will be grayed out if there is no paging file in that partition.
Then click OK and reboot the computer. Diskeeper will load up during the boot process and defragment the paging file.
Once Diskeeper has completed its operation, Windows XP will boot up and start using the newly optimized paging file that is contiguous.
Please note that Diskeeper requires a certain amount of free space to defragment the paging file. If you do not have the necessary amount of free space in that partition, then Diskeeper may not defragment the paging file.
Wanna Do It For Free?
You can easily do this for free. Just download a trial copy of Diskeeper!
Moving The Paging File To The Outer Tracks
Moving the paging file to the outer tracks is a powerful way of increasing paging file performance. In fact, it will give the paging file a bigger boost in performance than just making it contiguous. Why is that?
Check out this transfer rate graph of a hard disk :-
It shows pretty clearly the transfer rate of a hard disk is highest on the outer tracks and lowest on the inner tracks. In this case, the transfer rate of the inner tracks is only about half the transfer rate of the outer tracks.
The areal density of a hard disk's platters and its spin rate are constant. But the linear velocity at each point of the platter isn't constant. Therefore, the performance of the paging file depends on where it is located on the hard disk.
The time taken for the hard disk head to read from point A to point B is exactly the same as the time taken for the head to read from C to D. But because the areal density of the platter is constant, a lot more data can be read from the outer tracks than from the inner tracks, in the same amount of time.
Now that the outer tracks have been proven to be the fastest area on a hard disk, we can use that to our advantage. By moving the paging file to the outer tracks, we give the paging file a major boost in performance.
As you can see from the example above, the transfer rate at the outer tracks are about 59MB/s while the central and inner tracks have transfer rates of about 49MB/s and 30MB/s respectively. Moving the paging file from the inner tracks to the outer tracks will almost double its performance! Even moving the paging file from the central tracks to the outer tracks will give the paging file a transfer rate boost of 20%.
But please note that this method must be used in conjunction with a permanent paging file. This is because the paging file cannot be moved to the outer tracks of the hard disk unless it is a permanent paging file.
How Do We Move The Paging File To The Outer Tracks?
Before you can move the paging file to the outer tracks, you must first make the paging file permanent. Follow the steps outlined in the previous pages. Once you have a permanent paging file, you can use your favourite hard disk defragmentation utility to move the paging file to the outer tracks.
Unfortunately, Windows XP's Defrag utility does not have the ability to move paging file to the outer tracks. You will have to use a third-party defragmentation utility to move the paging file to the outer tracks. I will use Diskeeper as an example.
Windows NT, 2000 and XP does not allow the paging file to be moved while it is in used. Therefore, you must set Diskeeper to move the paging file during the next reboot.
Run Diskeeper and click on Change your settings to expand its menu. You will see the screen below.
Look for and click on Set a boot-time defragmentation. That will display this screen.
Now, select the partition where the paging file resides and tick the checkbox of Defragment the paging file option. The option will be grayed out if there is no paging file in that partition.
Then click OK and reboot the computer. Diskeeper will load up during the boot process and defragment the paging file. It will also move the paging file to the outer tracks.
Once Diskeeper has completed its operation, Windows XP will boot up and start using the newly optimized paging file that is not only contiguous but also located in the outer tracks of the hard disk! Your paging file will now show a marked boost in performance.
Please note that you cannot actually force Diskeeper to move the paging file right up to the outermost tracks. Diskeeper has an internal algorithm that determines which files are best placed in the outermost tracks for optimal performance.
In addition, Diskeeper requires a certain amount of free space to defragment and move the paging file. If you do not have the necessary amount of free space in that partition, then Diskeeper may not defragment the paging file or move it to the outer tracks.
Creating A Huge Paging File
Because games and applications often list a minimum paging file size, many people equate the size of the paging file with performance, just like they would with anatomy. But at least in the first case, that's not true.
What does a bigger paging file get you? Well, it gives you the ability to run more memory-intensive programs concurrently. But does a larger paging file make virtual memory faster or better? Unfortunately, the answer is no.
Why Not?
First of all, creating a large amount of virtual memory doesn't mean the operating system will use it all. Although Windows will pre-emptively page out parts of idle applications, there are limits to how much it can page out for each application. Therefore, creating an excessively large paging file will just waste hard disk space.
Second, if you ever move the paging file to the outer tracks of the hard disk, an excessively large paging file will take up outer track space that could have been used to store system or application files. Look at these two pictures :-
Hard disk with a 2GB paging file (brown)
Hard disk with a 600MB paging file (brown)
The first one has a huge 2GB paging file while the second has a smaller 600MB paging file. For many systems, 600MB of virtual memory is more than enough to multitask 7 or 8 applications at the same time or run the most memory-intensive 3D games out there. So, anything more is just taking space.
The extra space taken up by an excessively large paging file on the outer tracks could have been used to store system or application files for faster access. The amount of space regained from using a smaller page file can be seen as a red block in the second picture. You can bet on a faster loading time for Windows and other applications if you limit the size of your paging file.
Therefore, the trick here is to gauge the maximum size of the paging file that you will ever need. This way, you will not create an excessively large paging file that wastes hard disk space and takes up the precious space on the outer tracks away from the system and application files.
How Large Should The Paging File Be?
That's a question that has bugged many users. Since the good old days of DOS and Windows 3.1, many users have staunchly adhered to an old rule of the thumb that the swapfile should be 2.5 x the amount of RAM.
In fact, whenever I visit other forums, I still notice many people quoting this old "rule". The question is - is this rule still applicable for today's systems and operating systems? Unfortunately, it's a big NO!
Why Not 2.5 x RAM?
Back in the Windows 3.1 days, computers only came with 4MB or 8MB of RAM. 16MB of RAM was considered a luxury in those days. I remember running Windows 3.1 on an Intel i386SX-16 machine with just 4MB of RAM!
Because RAM in those days was horrendously expensive and only a limited amount of it was available in most systems, a relatively large swapfile was needed. A swapfile size of 2.5 times the system RAM wasn't a lot, considering the fact that most systems came with only 4MB or 8MB of RAM. That would only amount to a swapfile size of 10MB to 20MB, which enabled most systems to run Windows 3.1 applications comfortably.
But today, most computers come with at least 512MB of RAM and many have 1GB of RAM! If the 2.5X rule was applied, that would result in "optimal" paging file sizes of 1.28GB to 2.5GB! That doesn't make sense at all.
The purpose of buying more memory is to prevent the system from using the slower virtual memory. The more memory you buy, the less you need to use virtual memory. It doesn't make sense to increase the paging file size every time you increase the amount of RAM in your system!
Imagine if you have follow the rule when you upgrade to 2GB of RAM in the future... You would have to create a 5GB paging file! That's ridiculous.
The amount of hard disk space you dedicate to a paging file should depend on the amount of RAM you need to use, NOT the amount of RAM you have. The 2.5 x system RAM rule was flawed from the beginning and it is certainly not applicable today.
Do not use the 2.5 x system RAM rule to determine the size of your paging file. Instead, you should first gauge how much virtual memory is actually needed by the system during the heaviest memory load. Then use your finding to set the most appropriate paging file size for your system.
But You Require A Huge Paging File For A Memory Dump!
There are people who actually believe in increasing the size of the paging file following an increase in system memory. That certainly goes against what we have been recommending, doesn't it? The reason is simple.
Whenever Windows crashes, it first writes the memory contents to the paging file. After the computer is restarted, Windows will create a memory dump file using the memory contents stored in the paging file. This memory dump file is used to analyze the cause of the crash.
However, for a complete memory dump to created, the paging file size should be large enough to store all the contents of the system memory. That's why the paging file size has to meet this equation :-
Paging file size = Physical memory in the system + 1MB
So, if you have 1024MB of memory, the paging file size should be 1025MB in size for a complete memory dump to be created successfully.
However, this does not mean you should increase the size of your paging file according to the amount of system memory. Why not? Let's find out.
Why Not?
First of all, there is no need to create a complete memory dump. Windows supports three different kinds of memory dumps. Here is a summary of information from Microsoft's Knowledge Base.
Type Of Memory Dump
Description
Size
Small
* Small memory dump files contain the least information, but consume the least disk space, 64 kilobytes (KB).
* Unlike kernel and complete memory dump files; Windows XP stores small memory dump files in the systemrootMinidump folder, instead of using the systemrootMemory.dmp file name.
* Windows XP always create a small memory dump file when a Stop error occurs, even when you choose the kernel or complete memory dump file options.
* One of the services that use small memory dump files is the Error Reporting service. The Error Reporting service reads the contents of a small memory dump file to help diagnose problems that cause Stop errors.
64KB
Kernel
* This is an intermediate size dump file that records only kernel-level memory and can occupy several megabytes (MB) of disk space.
* When a Stop error occurs, Windows XP Professional saves a kernel memory dump file to a file named systemrootMemory.dmp and create a small memory dump file in the systemrootMinidump folder.
* You cannot exactly predict the size of a kernel memory dump file because this depends on the amount of kernel-mode memory allocated by the operating system and drivers present on the machine when the Stop error occurred.
About 1/3 of system memory
Complete
* A complete memory dump file contains the entire contents of physical memory when the Stop error occurred.
* The file size is equal to the amount of physical memory installed plus 1 MB.
* When a Stop error occurs, the operating system saves a complete memory dump file to a file named systemrootMemory.dmp and creates a small memory dump file in the systemrootMinidump folder.
System memory + 1MB
Although you may think that it is always good to create a complete dump file. However, that is not true. Even Microsoft recommends creating a kernel memory dump, instead of a complete memory dump. Why? I'll quote them :-
For most purposes, a kernel memory dump file is the most useful kind of file for troubleshooting Stop messages. It contains more information than the small memory dump file and is significantly smaller than the complete memory dump file. It omits only those portions of memory that are unlikely to have been involved in the problem.
In addition, a kernel memory dump will require the paging file to be only about 1/3 of the system memory. It will also require the same amount of free hard disk space.
Even if you wish to create a complete memory dump, there is still no need to create a large paging file. Even if you restrict your paging file to, for example, 500MB; Windows XP will automatically expand the paging file to store the memory dump BEFORE it is written out to disk on the next reboot.
Therefore, I consider it to be a real waste of hard disk space if you have 2GB of memory and yet create a 2GB paging file, just so Windows XP can write an enormous memory dump the next time it crashes.
How Much Virtual Memory Do I Need?
No one can tell you how much hard disk space you need to allocate to a permanent paging file because every system is different and everyone uses his/her system differently.
If you create a permanent paging file that is too small, then Windows will continuously create more virtual memory via a dynamic extension to the permanent paging file. This reduces the paging file's performance
If you create a permanent paging file that is too large, you are only wasting hard disk space, especially on the outer tracks.
So, the best method would be to accurately gauge how much virtual memory you actually need. This allows you to create a permanent paging file with the appropriate size. To do that, you need to monitor your paging file usage. Let's see how you can do that.
Finding Out In Windows 9x
Give your system a clean boot and once you are in Windows 95/98, load System Monitor. You can get to it via Start Menu > Programs > Accessories > System Tools. You will see this screen :-
Go to the Edit menu and click on Add Item...
In the next screen, select the Memory Manager category and add Swapfile in use. Click OK and you will see this screen :-
Now, you can monitor the size of your paging file. Start up and run all the applications that you usually use at the same time. Load several documents and work files. Play around with them and check the peak value for the paging file.
Then play several of the most memory-intensive games you have. 3D games with large textures are good ones to test. At all times, record down the highest value for the paging file size that System Monitor reports.
Once you are done, select the highest value that has been recorded for the paging file size and round it up to the nearest 100MB. For example, if the biggest size your paging file ever went during the tests was 619MB, then 700MB is the ideal size for your paging file.
But always make sure you add at least 40-50MB as a cushion against future memory-guzzling applications or games. For example, if the largest size your paging file expanded to during your tests was 684MB, then 750MB would be an ideal size for your paging file.
How Much Virtual Memory Do I Need?
Finding Out In Windows XP
Finding your optimal paging file size in Windows XP is much easier.
Just give your system a clean boot. Once you are in Windows XP, run Task Manager . You can get to it by right-clicking on the taskbar and selecting Task Manager. You can also access it through the keyboard shortcut of Ctrl-Alt-Del.
After you load Task Manager, click on the Performance tab. You will see this screen :-
Now, you can monitor the size of your paging file. Start up and run all the applications that you usually use at the same time. Load several documents and work files. Play around with them and check the peak value for the paging file.
Then play several of the most memory-intensive games you have. 3D games with large textures are good ones to test. At all times, record down the highest value for the paging file size that System Monitor reports.
Once you are done, select the highest value that has been recorded for the paging file size and round it up to the nearest 100MB. For example, if the biggest size your paging file ever went during the tests was 619MB, then 700MB is the ideal size for your paging file.
But always make sure you add at least 40-50MB as a cushion against future memory-guzzling applications or games. For example, if the largest size your paging file expanded to during your tests was 684MB, then 750MB would be an ideal size for your paging file.
Moving The Paging File To A Different Partition
Another popular technique proposed by many tweakers suggests moving a temporary paging file from the default first partition to a separate, dedicated partition.
The reasons for this technique are ostensibly two-fold :-
+ to reduce fragmentation of the first partition
+ to ensure that the paging file will remain contiguous even though it is a temporary paging file
This idea looks good because it enables users of temporary paging files to keep their primary partition neat and the paging file contiguous for a speed boost.
However, many users of this technique failed to take into account several things. Let's see what they are.
Cylinders And Partitions
First of all, let's take a look at a hard disk cylinder. A cylinder consists of the same tracks on all the platters in the hard disk.
The first cylinder, nominally called cylinder 0, is coloured in bright green. It is the outer most cylinder and consists of the first track of all the platters in the hard disk. Such groups of tracks have a cylindrical look, hence the name. Cylinder n (in red) is the last cylinder of the hard disk, where n can be any integer.
Partitions are constructed using full cylinders. The first one starts at cylinder 0 and go out to where you specify. The next one starts on the following cylinder, and so on. If you try to create a partition with an end that falls in the middle of the cylinder, FDISK or similar utilities will round it up so that the partition occupies the entire cylinder, instead of a partial cylinder.
Needless to say, the first partition will always start with the first track of every platter. In other words, the first partition will always be the fastest partition in the hard disk, followed by the second partition and so on. Therefore, if you create a second partition and dump the paging file there, you will actually be moving it to a slower part of your hard disk!
As you can see, while the temporary paging file will be remain contiguous using this technique, the transfer of the paging file from the outer tracks to the inner tracks of the hard disk will inevitably reduce its performance.
Need More Reasons?
Creating a dedicated partition for the dynamic paging file also means tying up hard disk space and inviting inflexibility.
Users of FDISK will find it impossible to change the size of the paging file partition when they need to do so. In fact, they will have to remove at least two partitions to create a larger one. If they only have one primary and a secondary paging file partition, then they will have to remove both and recreate two new partitions.
Users of special utilities like Partition Magic will have an easier time as they can easily adjust the sizes of the partitions. But in the end, this method is counter-productive because for all your trouble, you have just slowed down your paging file and orphaned off a portion of your hard disk for the dedicated partition.
The main reason for using a temporary paging file is actually to save hard disk space. Users of a temporary paging file avoid tying up large amounts of hard disk space in a permanent swapfile.
However, this method actually requires you to set aside a large amount of hard disk space and worse, place cordon off this space in an inflexible partition. If you can afford to allocate space for this dedicated partition, you would be better off using the space for a permanent paging file.
In my opinion, this technique is a waste of time and needlessly endangers your data. Messing around with FDISK and partitions can be heartbreakingly exciting, if you catch my drift.
More Partitions = Data Parachute?
Some users advocate using multiple partitions for safety reasons. Their opinion is that in the event of a hard disk crash, corruption to the boot sector or FAT (File Allocation Tables), only the primary partition will be lost, leaving precious data safe in the other partitions.
Unfortunately, from my experience involving hard disk crashes, every partition was inevitably wiped out. When a hard disk head crashes with a platter, I seriously doubt it would politely avoid scoring through the media that has been allocated to other partitions.
Russ Johnson, a Product Support Engineer from Symantec Corporation has this to say, "It's not a substitute for a good backup, but it may save you from having to restore all of your data from a backup. However, if your first partition is taken out, more than likely the whole drive will be lost. The first partition is also the location of the Master Boot Record and the partition table."
Now, I agree that storing your data on a different partition is actually a good practice. It can save your data if the first partition gets corrupted due to a soft error. For example, even if the FAT of one of the partitions gets corrupted, data on the other partitions will still be safe.
So, if data integrity (as well as disk management) is important to you, you should consider using multiple partitions. However, this does not mean you should move the paging file to a different partition... oh no...
When the paging file is permanent, tweakers who advocate moving paging files around will tell you to move your partition to a second hard disk. Why?
As the theory goes, this allows your system to access both the paging file on the second hard disk and data on the first hard disk concurrently. This theoretically improves performance a lot! But does it really work?
Well, it depends.
Hard Disk, NOT Partition!
Many people get confused by drive letters. They assume that moving the paging file from drive C: to drive D: is the same as moving it to another hard disk. However, this is not true.
The operating system does not bother with physical drives. It is only interested in logical drives. By this, we mean properly-formatted partitions that can be accessed by the operating system.
To the operating system, partitions appear as physically-separate hard disks although they may reside on the same hard disk. If you partition your hard disk into three different partitions, your operating system will identify them as three logical drives (Drive C:, Drive D: and Drive E. But they are still physically on the same hard disk!
Therefore, if you merely move the paging file to a different logical drive, you could be doing nothing more moving it to a different partition. So, please check and make sure you are moving it to a physically-separate hard disk. Preferably, it should be the first partition in that hard disk.
Parallel-ATA
Many tweakers forget one thing when they move their paging files to the second hard disk - only one PATA (Parallel-ATA) device can be active at any one time on the same IDE channel.
Most users slave the second hard disk to the first hard disk on the primary IDE channel and put the removable media drives (CD writers, DVD-ROM, etc.) on the secondary IDE channel. That is theoretically sound practice but it actually negates the purpose of moving the paging file off the primary hard disk!
Because both hard disks are on the same IDE channel, they can't be active at the same time. So, there is no way data can be read from both hard disks at the same time. In fact, because the secondary hard disk is often slower and smaller than the primary hard disk, the performance of the paging file on the second hard disk will actually be worse off.
So How Do We Make It Work?
The only way for this method to work is to put the first and second hard disks on separate IDE channels. That means the first hard disk gets hooked up to the primary IDE channel and second hard disk gets the secondary IDE channel. This allows both IDE channels can be active at the same time, delivering data from both hard disks concurrently.
In addition, the second hard disk needs to be at least half as fast as the primary hard disk. This allows the paging file on the second hard disk to be at least as fast as a paging file on the first hard disk. Otherwise, the performance advantage accessing the paging file concurrently on a second hard disk will be negated by the slower performance of the second hard disk.
Remember, if the first hard disk can serve data to and from both the application in use and the paging file faster than the second hard disk can access the paging file alone, then it is pointless to maintain a paging file on the second hard disk.
But if the second hard disk is more than half as fast as the first hard disk, then it would be advantageous to move the paging file there because the paging file can then be accessed concurrently with data on the first hard disk. In addition, the valuable outer tracks on the first hard disk will be freed up for use by the operating system.
Other Considerations
The trouble with such a setup is that most motherboards usually with only two IDE channels.
If you slave your DVD writer to the first hard disk (on the primary IDE channel), then you may have trouble writing data from the first hard disk to a DVD. This is because the IDE channel has to interleave its operations between the first hard disk and the DVD writer.
You won't have any trouble writing data from devices on the second IDE channel to the DVD writer though. This is because the DVD writer is on the first IDE channel and can thus be accessed concurrently with the devices on the second IDE channel.
However, if you slave your DVD writer to the second hard disk (on the secondary IDE channel), then you may have problems with games running off CDs or DVDs in that drive. Of course, this time you won't have any trouble writing data from devices on the first IDE channel to the DVD writer!
Either way, you will face performance compromises. It is a great idea but implementation is not quite as simple as you might think. The key to making this work is to be aware of such considerations and plan your setup accordingly.
But if your motherboard comes with enough ID
Back in the 'good old days' of command prompts and 1.2MB floppy disks, programs needed very little RAM to run because the main (and almost universal) operating system was Microsoft DOS and its memory footprint was small. That was truly fortunate because RAM at that time was horrendously expensive. Although it may seem ludicrous, 4MB of RAM was considered then to be an incredible amount of memory.
However when Windows became more and more popular, 4MB was just not enough. Due to its GUI (Graphical User Interface), it had a larger memory footprint than DOS. Thus, more RAM was needed.
Unfortunately, RAM prices did not decrease as fast as RAM requirement had increased. This meant that Windows users had to either fork out a fortune for more RAM or run only simple programs. Neither were attractive options. An alternative method was needed to alleviate this problem.
The solution they came up with was to use some space on the hard disk as extra RAM. Although the hard disk is much slower than RAM, it is also much cheaper and users always have a lot more hard disk space than RAM. So, Windows was designed to create this pseudo-RAM or in Microsoft's terms - Virtual Memory, to make up for the shortfall in RAM when running memory-intensive programs.
How Does It Work?
Virtual memory is created using a special file called a swapfile or paging file.
Whenever the operating system has enough memory, it doesn't usually use virtual memory. But if it runs out of memory, the operating system will page out the least recently used data in the memory to the swapfile in the hard disk. This frees up some memory for your applications. The operating system will continuously do this as more and more data is loaded into the RAM.
However, when any data stored in the swapfile is needed, it is swapped with the least recently used data in the memory. This allows the swapfile to behave like RAM although programs cannot run directly off it. You will also note that because the operating system cannot directly run programs off the swapfile, some programs may not run even with a large swapfile if you have too little RAM.
Swapfile Vs. Paging File
We have all been using the terms swapfile and paging file interchangeably. Even Microsoft invariably refers to the paging file as the swapfile and vice versa. However, the swapfile and paging file are two different entities. Although both are used to create virtual memory, there are subtle differences between the two.
The main difference lies in their names. Swapfiles operate by swapping entire processes from system memory into the swapfile. This immediately frees up memory for other applications to use.
In contrast, paging files function by moving "pages" of a program from system memory into the paging file. These pages are 4KB in size. The entire program does not get swapped wholesale into the paging file.
While swapping occurs when there is heavy demand on the system memory, paging can occur preemptively. This means that the operating system can page out parts of a program when it is minimized or left idle for some time. The memory used by the paged-out portions are not immediately released for use by other applications. Instead, they are kept on standby.
If the paged-out application is reactivated, it can instantly access the paged-out parts (which are still stored in system memory). But if another application requests for the memory space, then the system memory held by the paged-out data is released for its use. As you can see, this is really quite different from the way a swapfile works.
Swapfiles were used in old iterations of Microsoft Windows, prior to Windows 95. From Windows 95 onwards, all Windows versions use only paging files. Therefore, the correct term for the file used to create virtual memory in current operating systems is paging file, not swapfile.
Because both swapfiles and paging files do the same thing - create virtual memory, people will always refer to swapfiles and paging files interchangeably. Let's just keep in mind their innate differences.
Do We Still Need A Paging File?
Even today, when the average home user's computer comes with at least 256MB of RAM, the paging file is still very important. While the large amount of RAM in the average user's computer makes the risk of memory shortage much less of a worry with single applications now than it was back then; the paging file is essential when multi-tasking.
Note that over the years, the emphasis has changed to multi-tasking. No longer will people be solely stuck to using one application at a time. In fact, it is common to have 10 or more applications running simultaneously!
For example, I normally have the following applications running at the same time :-
+ Microsoft Outlook
+ Internet browsers like Maxthon and Firefox
+ An FTP client
+ Instant messengers like Trillian and MSN Messenger
+ A download manager like FlashGet
+ Macromedia Dreamweaver
+ P2P clients like ShareAza
+ An antivirus software
+ Adobe Acrobat Reader with a few PDF documents opened
That's a total of 10-12 applications running simultaneously!
Even with 256MB of RAM, it would be impossible to load everything into memory. A paging file is needed to store the least used data in the memory so that I can open up all those applications I need. And let's not forget the disk cache.
Operating systems like Windows 98 and Windows XP allocate a sizeable portion of the RAM to the disk cache. This speeds up accesses to hard disk data by caching the most frequently used as well as data that are most likely to be accessed next by the computer. This cuts down on the amount of available RAM. So, without a paging file, you won't be able to open many applications even if your computer has 256MB of RAM.
Finally, some programs require the use of a paging file to function properly. It may be to store sensitive data on something less volatile than the RAM or to ensure the computer will have sufficient memory to run it. But whatever the reasons, a paging file is needed in order for these programs to run.
Why Optimize The Paging File?
Unless your computer is truly loaded with RAM, it will almost always use the paging file. As such, its performance affects the performance of the whole computer.
Now, using a paging file may sound like a really cheap way to run memory intensive programs without the expense of buying more RAM. However, even the fastest hard disk is more than an order of magnitude slower than the slowest RAM.
Even the fastest hard disk is currently over 70X slower than the dual-channel PC2700 DDR memory common in many computers. Let's not even start comparing the hard disk with faster RAM solutions like PC3200 DDR memory or PC2-4200 DDR2 memory.
So, paging file is only a stopgap solution for the lack of sufficient RAM. As long as you use the paging file, there will always be performance degradation. The ideal solution for insufficient RAM is always more RAM, not more Virtual Memory. But since we can't afford all the RAM we want, a paging file is necessary for us to run today's memory guzzling programs.
As you can tell, more isn't better for the paging file because more paging file space will only give you the ability to run more memory intensive programs at once. It will not speed up your system. But what we can do is to optimize the paging file so that the performance degradation when using it is minimized.
So How Do We Optimize The Paging File?
There have been many theories on how to optimize the paging file. The most important ones are listed below :-
+ Making the paging file contiguous.
+ Moving the paging file to the outer tracks of the hard disk.
+ Creating a huge paging file.
+ Moving the paging file to a different partition in the same hard disk.
+ Moving the paging file to a different hard disk.
+ Creating multiple paging files
+ Moving the paging file to a RAID array
+ Moving the paging file to a RAM drive
+ Reducing reliance on virtual memory
We will examine those methods and see what will work and what won't.
Virtual Memory Then And Now
Windows 3.1
Back in the good old days of DOS 6.22 and Windows 3.1, everyone knew that creating a permanent swapfile was the key to optimal swapfile performance. This was because Windows 3.1 only creates permanent swapfiles that are contiguous.
A contiguous swapfile is a swapfile that consists of an uninterrupted block of hard disk space. When a swapfile is contiguous, the read-write heads of the hard disk can read and write data on the swapfile in a continuous fashion.
In Windows 3.1, if the swapfile was set up as a temporary swapfile which is created every time Windows 3.1 boots up, it will end up at the end of the hard disk and fragmented too. So, every time the swapfile is read from or written to, the hard disk heads have to seek all over the platters to conduct those operations.
Needless to say, this greatly erodes the performance of the swapfile. That's why it was important to make the swapfile permanent in Windows 3.1 - so that the swapfile will become contiguous.
Windows 95 And Above
From Windows 95 onwards, Microsoft encouraged the use of its new dynamic virtual memory system. Of course, there is nothing new about the virtual memory part but the keyword in this new technique is dynamic.
The new dynamic virtual memory system no longer relies on a fixed-size swapfile but a paging file that dynamically resizes itself according to need. When the computer runs out of memory, more memory is created by increasing the size of the paging file. Once the virtual memory is freed up, theoretically the paging file diminishes in size.
Microsoft claims that while its dynamic virtual memory system will create a fragmented paging file, it is still faster than Windows 3.1's static virtual memory system. As a bonus, no hard disk space will be tied up in a permanent paging file.
However, this dynamic virtual memory system does have a big disadvantage - it cannot be moved to the outer tracks of the hard disk platters.
Dynamic Paging Files And Data Locality
There are people who assert that when left alone, Windows XP will actually create virtual memory pages in close proximity to frequently-used data in the hard disk, like documents. In other words, they claim that Windows XP monitors disk usage, maintains a database of frequently-used files in the hard disk and uses that information to create the paging file based on spatial locality.
With virtual memory pages created close to frequently-used data, this apparently allows shorter seeks between frequently-used data and the paging file. That is the premise behind their theory of letting Windows XP handle the paging file dynamically. However, I don't think this is true at all.
First of all, while Windows XP does monitor disk usage and maintain a database of frequently-used files, only disk defragmenting utilities use that database. The built-in Disk Defragmenter, as well as third-party disk defragmenting utilities, use this database to rearrange the hard disk so that frequently-used data.
But as far as I'm aware, the paging file does not arrange the location of the pages according to this database. From my observations, Windows XP simply uses the nearest available clusters for the dynamic paging file.
In fact, Microsoft states that if you create multiple paging files, Windows XP will favour the partition that is least active. This completely refutes the theory of virtual memory pages being allocated according to spatial locality. Here is a quote from Microsoft's Knowledge Base.
By design, Windows uses the paging file on the less frequently accessed partition over the paging file on the more heavily accessed boot partition. An internal algorithm is used to determine which paging file to use for virtual memory management.
In any case, it doesn't make sense for Windows XP to create the paging file based on spatial locality to work files like your documents. Once opened, Windows keeps the working copy in the Temp folder, not your paging file.
In addition, let us remember that Windows pre-emptively pages out pageable parts of an application in system memory. Windows does not directly load data from the hard disk into the paging file. Therefore, creating virtual memory pages close to frequently-used files will not help at all.
Fragmented Vs. Contiguous
Even though Microsoft asserts that the new dynamic virtual memory system does not benefit much from a contiguous paging file, the fact is maintaining a contiguous paging file will definitely improve the paging file's performance.
A contiguous paging file eliminates the need for the hard disk heads to seek all over the platters while accessing the paging file. The following pictures illustrate my points.
This shows a fragmented paging file (brown)
This shows a contiguous paging file (brown)
See how a contiguous paging file differs from a fragmented paging file? Instead of seeking and reading from a continuous block of hard disk space in the case of a contiguous paging file, the hard disk heads have to seek all over the platters to access the clusters allocated to a fragmented paging file.
As a result, a common operating pattern like the following may emerge :-
Fragmented : seek-read-read-seek-read-seek-read-read-read-seek-read-read-seek
Contiguous : seek-read-read-read-read-read-read-seek-read-read-read-read-read
Of course, the amount of time needed to do the seek operation is different from the time needed to read a block of data off the paging file but the logic remains.
A contiguous paging file allows data to be read with minimal amount of seeks. If the number of seeks can be reduced while accessing the paging file, then more data can be read in less time. This is the premise behind a contiguous paging file.
How Do We Create A Contiguous Paging File?
Now that we agree that making the paging file contiguous will greatly improve its performance, let's figure out how to make it contiguous.
Using A Permanent Paging File
Yes, I know. You are all thinking, "Simple! Just make the paging file permanent!"
True, creating a permanent paging file is usually the way to create a contiguous paging file. A permanent paging file ensures that the paging file will remain in one single block. However, creating a permanent paging file does not mean the paging file will automatically become contiguous.
That may have been true in Windows 3.1 but believe it or not, Windows XP does not force the creation of a contiguous paging file when you make the paging file permanent!
When you create a permanent paging file, Windows XP automatically uses the nearest (to the outer tracks) sectors to create the paging file. This creates a permanent but fragmented paging file. Naturally, this reduces the performance of the paging file.
But that's not the end of the world. To avoid this problem, defragment your hard disk before creating the permanent paging file. That will create a contiguous area for Windows XP to create a permanent paging file.
Using A Dynamic Paging File
But making a permanent paging file is not the only way to create a contiguous paging file. You can also create a contiguous paging file that is also dynamic in nature!
All you need to do is create a separate partition for the paging file. This allows the paging file a contiguous space on the hard disk to freely expand according to usage.
At first glance, the benefits of this method seem obvious. It ensures the paging file is always contiguous and yet have the ability to expand when the need arises. However, this method is really not very desirable when you examine it closely.
The main reason for using a dynamic paging file is to save hard disk space by using it only when there is a need for more virtual memory. But creating a partition to allow the paging file to dynamically resize is really defeating the purpose.
The size of the partition limits the maximum size that the dynamic paging file can expand to and you cannot use the partition to store anything else because that would interfere with its contiguity. If you create a big partition, that wastes hard disk space. If you create a small partition, that limits how big the paging file can expand. Therefore, this method is self-defeating.
What About A Semi-Permanent Paging File?
Although everyone knows about dynamic and permanent paging files, there is a third type of paging file - a semi-permanent paging file.
A semi-permanent paging file theoretically allows you to receive the performance benefits of a contiguous permanent paging file without its main disadvantage - the need to predetermine an optimal size. But what is a semi-permanent paging file?
Well, a semi-permanent paging file is a combination of a permanent paging file and a dynamic paging file. It consists of a permanent part and a dynamic part. The permanent part of this paging file behaves exactly like a permanent paging file. It will not change in size and can thus be moved to the outer tracks of the hard disk.
The dynamic part, however, does not normally appear. In fact, it is only created when the permanent part of the semi-permanent paging file is unable to cope with increased memory requirements.
Once created, it dynamically resizes itself to suit the current paging file requirements. Just like the dynamic paging file, it will use any free space on the hard disk so it will be fragmented.
The Advantages Of A Semi-Permanent Paging File
The semi-permanent paging file offers the advantage of never running out of virtual memory. That means even if the permanent part cannot handle the memory load, the application won't halt with an "Out of memory" error message. The dynamic part will come into action and provide the extra virtual memory required by the application.
With a permanent paging file, the application will just halt with the error message and you would have to close one or more applications to free up more memory. However, this is only true for older versions of Windows.
Newer iterations of Windows like Windows XP do not have a true permanent paging file. Even if you set a permanent paging file, Windows XP will automatically generate more virtual memory when it runs out of memory; by adding a dynamic component to the permanent paging file. In short, when you create a "permanent" paging file in Windows XP, you are actually creating a semi-permanent paging file.
The advantage of creating your own semi-permanent paging file, instead of a "permanent" paging file in Windows XP is that you get to avoid the warning message that appears whenever Windows XP runs out of memory and has to create more virtual memory by adding a dynamic component to the permanent paging file.
The Disdvantages Of A Semi-Permanent Paging File
Unfortunately, a semi-permanent paging file is a double-edged sword. With a dynamic component, it is inevitable that a dynamic paging file's disadvantages would also be applicable to it.
As mentioned earlier, the dynamic part will use any available space on the hard disk. This inevitably means the dynamic part of the semi-permanent paging file will always be fragmented. Naturally, the performance of the paging file deteriorates whenever the dynamic part comes into action.
But just how bad could be the deterioration be? Let's take a look at the disk map below which shows a semi-permanent paging file with both permanent and dynamic components in brown :-
This shows a semi-permanent paging file (brown)
You will notice that the paging file is split into two parts. The permanent part is at the outer tracks of the hard disk in one contiguous block. The lower, fragmented blocks of paging file are the dynamic part of the semi-permanent paging file. As the paging file requirement exceeds what the permanent part can provide, the dynamic part of the semi-permanent paging file will dynamically convert available hard disk space (which is usually on the inner tracks on the hard disk) into virtual memory.
Because the paging file's two components are at opposite ends of the hard disk, the hard disk heads will have to seek up and down the platters while servicing the paging file! Needless to say, that greatly degrades the performance of the paging file. The head seeks required to service a dynamic paging file are already bad enough. The amount of head seeks required to service both the permanent part and the fragmented dynamic part will definitely put a big dent on the paging file's performance.
Permanent Or Semi-Permanent?
Performance-wise, both a permanent and a semi-permanent paging file will perform equally, if the virtual memory requirement does not exceed what the permanent component of the semi-permanent paging file can provide. As the dynamic part comes into play, the semi-permanent paging file gradually loses its performance advantage over the dynamic paging file. Eventually, it may even become slower than a dynamic paging file.
The only way around this is to ensure that the permanent part of the semi-permanent paging file is enough to meet your usual virtual memory requirements. Do not look at the semi-permanent paging file as a way to save hard disk space. Instead, think of it as a permanent paging file with a backup capacity for dynamic expansion in emergencies!
Hard disk space is no longer that much of a premium as it was back in the old days. With desktop hard disks approaching half a terabyte in size, allocating a few hundred megabytes or even a gigabyte or so for the paging file isn't going to break anyone's heart. The performance of the paging file, especially in systems with very little RAM or for people who multitask a lot, is definitely more important than saving a few hundred megabytes of hard disk space.
Is Writing And Rewriting To The Same Area Dangerous?
Creating a permanent or semi-permanent paging file inevitably causes numerous writes and rewrites of information in the same fixed area of the hard disk platters. Compared to other areas of the hard disk, the space allocated to the paging file will be the area where data is most often written, deleted and replaced with newer data.
Some users have expressed concern over this fact. Will the platter media in that area get worn out after continuous use? Like the magnetic cassettes that we used to record our favourite songs? Will bad sectors form in that area like the floppy disks that have been written to once too often?
Well, unlike magnetic cassettes or floppy disks, there is actually no contact between the hard disk read-write heads with the platters. The read-write heads actually fly over the platters on a thin cushion of air. In fact, at the high speed that the platters are spinning at, any contact between a read-write head with a platter would have resulted in a head crash, with disastrous consequences.
Therefore, friction isn't the concern here. What about the effect of changing the magnetic properties of the media during the write process? Will the magnetic properties of the media deteriorate after too many of such changes? Or in the context of this article, will creating a permanent paging file damage the drive in the long run and reduce its MTBF (Mean Time Between Failures)?
To obtain a definitive answer to these questions, I contacted IBM and Seagate. Let's see what their technical experts have to say.
Seagate
This should not hurt the drive at all. As you are aware, the heads are actually suspended above the platters on an air bearing, so there is no direct contact with the media. As far as the recording and re-recording of the same tracks, also no problems. What we are dealing with here in order to write the data is simply moving the magnetic domain one way or the other, no wear involved.
Regards,
Bob
Seagate Tech Support
IBM
Remember, the heads truly fly above the media. The wear and tear factor only becomes an issue for bearings (heat) and physical damage to the media if the drive is shocked during operation. Performance is best at the outer tracks of the drive, so any recurring access directed there will benefit you in performance. Writing and rewriting data to a drive is good in that it remagnetizes (refreshes) the area every time it is written.
To answer your question: Your swap file will not affect the MTBF of your drive.
Don Gardner
IBM Hard Disk Technical Support/SIT Lab
So, Are Multiple Writes To The Same Area Good?
Well, it appears to be so. From what Don Gardner said, I gather that the signal carried by the media weakens with time and rewriting it refreshes and strengthens the signal strength of the data carried by the media.
I guess that pretty much answers our questions. Creating a permanent or semi-permanent paging file won't harm your drive. In fact, it might even be good for your data!
Creating A Permanent Paging File In Windows 9x
Luckily, Microsoft gave us a relatively painless way to create a permanent paging file though the proper directions were not included. Fear not however. This is what guides like this are for.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties. Once in System Properties, click on the Performance tab and you'll see the following picture :-
Right at the bottom, you'll see a Virtual Memory... button. Click on it to get the following screen :-
By default, it is set to Let Windows manage my virtual memory settings. (Recommended). Ignore the Recommended label and select Let me specify my own virtual memory settings.
Now, you will be allowed to choose the partition you wish to place the paging file in. We will touch on this later.
Next up is the minimum and maximum values for the paging file. To create a permanent paging file, both values must be the same. You would think that Microsoft could at least post a notice about that.
Please note that Windows 95/98 will not automatically add a dynamic component to a permanent paging file. If you run out of memory with a permanent paging file, it will halt the application and generate the "Out of memory" error message.
Naturally, you will have to decide on a size for the paging file. We will be discussing this later in the guide but in this example, we will use an arbitrary value of 150MB. Once you set the two values, click on OK and then let Windows 95/98 reboot the system. A permanent paging file will be created on your hard disk.
For the curious, do not click on Disable virtual memory. (Not recommended) because that will force Windows 95/98 to use only physical RAM.
Creating A Semi-Permanent Paging File In Windows 9x
Creating a semi-permanent paging file is rather similar to creating a permanent paging file.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Performance tab and you'll see the following picture :-
Right at the bottom, you'll see a Virtual Memory... button. Click on it to get the following screen :-
By default, it is set to Let Windows manage my virtual memory settings. (Recommended). Ignore the Recommended label and select Let me specify my own virtual memory settings.
Now, you will be allowed to choose the partition you wish to place the paging file in. We will touch on this later.
To create a semi-permanent paging file, you will need to set both the minimum and maximum values. They must not be the same. If they are the same values, then the paging file becomes a permanent paging file.
The minimum value determines the size of the permanent component of the semi-permanent paging file. The maximum value determines the maximum size of the paging file (both permanent and dynamic components) and thus limits how much the dynamic component can expand.
In the example above, Windows 98 will create a permanent paging file of 150MB when it starts up. But if the paging file cannot meet the memory demands of the computer, it will dynamically expand the paging file, up to a maximum of 6692MB.
It is highly recommended that you create a large permanent component that will meet all of your usual memory needs. Use the dynamic component as a backup for emergencies.
Once you set the two values, click on OK and then let Windows 95/98 reboot the system. A permanent paging file will be created on your hard disk. Please note that the dynamic component of the paging file will only become active after the system's virtual memory requirements exceed the minimum value.
For the curious, do not click on Disable virtual memory. (Not recommended) because that will force Windows 95/98 to use only physical RAM.
Creating A Permanent Paging File In Windows 2000
In Windows 2000, it takes a little bit more digging to get where you want.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three options. Click on Performance Options... and you'll see the following picture :-
The second section you see is titled Virtual Memory. Under it, there's a Change... button. Click on it to get the following screen :-
By default, there won't be any values set for both the Initial size (MB) and the Maximum size (MB) options.
You can select the partition you wish to place the paging file in by clicking on the list of partitions shown on the screen. Again, the selection of partition will be discussed in detail later in this article.
To create a permanent paging file, both values for the Initial size and the Maximum size must be the same.
Please note that Windows 2000 will not automatically add a dynamic component to a permanent paging file. If you run out of memory with a permanent paging file, it will halt the application and generate the "Out of memory" error message.
Naturally, you will have to decide on a size for the paging file. We will be discussing this later in this article but for now, we will use an arbitrary value of 150MB. Once you set the two values, click on OK and then let Windows 2000 reboot the system. A permanent paging file will be created on your hard disk.
You will note that Windows 2000 does not allow a paging file size of less than 2MB.
Creating A Semi-Permanent Paging File In Windows 2000
Again, it's almost similar to creating a permanent paging file.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three options. Click on Performance Options... and you'll see the following picture :-
The second section you see is titled Virtual Memory. Under it, there's a Change... button. Click on it to get the following screen :-
By default, there won't be any values set for both the Initial size (MB) and the Maximum size (MB) options.
You can select the logical drive you wish to place the paging file in by clicking on the list of logical drives shown on the screen. Again, the selection of logical drives will be discussed in detail later in this article.
To create a semi-permanent paging file, you will need to set both the minimum and maximum values. They must not be the same. If they are the same values, then the paging file becomes a permanent paging file.
The minimum value determines the size of the permanent component of the semi-permanent paging file. The maximum value determines the maximum size of the paging file (both permanent and dynamic components) and thus limits how much the dynamic component can expand.
In the example above, Windows 2000 will create a permanent paging file of 150MB when it starts up. But if the paging file cannot meet the memory demands of the computer, it will dynamically expand the paging file, up to a maximum of 1422MB.
It is highly recommended that you create a large permanent component that will meet all of your usual memory needs. Use the dynamic component as a backup for emergencies.
Once you set the two values, click on OK and then let Windows 2000 reboot the system. A permanent paging file will be created on your hard disk. Please note that the dynamic component of the paging file will only become active after the system's virtual memory requirements exceed the minimum value.
You will note that Windows 2000 does not allow a paging file size of less than 2MB.
Creating A Permanent Paging File In Windows XP
Like in Windows 2000, it takes a little digging in Windows XP to get where you want.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three sections.
Click on Settings in the Performance section and the Performance Options screen will pop up. Click on the Advanced tab and you'll see the following picture :-
The second section you see is titled Virtual memory. Under it, there's a Change button. Click on it to get the following screen :-
You can select the logical drive you wish to place the paging file in by clicking on the list of logical drives shown on the screen. Again, the selection of logical drives will be discussed in detail later in this article.
To create a permanent paging file, both values for the Initial size and the Maximum size must be the same.
Please note that Windows XP will dynamically expand the paging file when you run out of memory, even if you create a permanent paging file. When this happens, you will get an error message telling you that Windows XP is trying to expand the paging file to create more virtual memory.
In this example, we are using an arbitrary value of 512MB. Once you set the two values, click on OK and then let Windows XP reboot the system. A permanent paging file will be created on your hard disk.
You will note that Windows XP does not allow a paging file size of less than 2MB.
Creating A Semi-Permanent Paging File In Windows XP
Creating a semi-permanent paging file is rather similar to creating a permanent paging file.
First, open up System Properties, either through the Control Panel or by right-clicking on the My Computer icon and selecting Properties.
Once in System Properties, click on the Advanced tab. There will be three sections.
Click on Settings in the Performance section and the Performance Options screen will pop up. Click on the Advanced tab and you'll see the following picture :-
The second section you see is titled Virtual memory. Under it, there's a Change button. Click on it to get the following screen :-
You can select the partition you wish to place the paging file in by clicking on the list of partitions shown on the screen. Again, the selection of partition will be discussed in detail later in this article.
To create a semi-permanent paging file, you will need to set both the minimum and maximum values. They must not be the same. If they are the same values, then the paging file becomes a permanent paging file.
The minimum value determines the size of the permanent component of the semi-permanent paging file. The maximum value determines the maximum size of the paging file (both permanent and dynamic components) and thus limits how much the dynamic component can expand.
In the example above, Windows XP will create a permanent paging file of 512MB when it starts up. But if the paging file cannot meet the memory demands of the computer, it will dynamically expand the paging file, up to a maximum of 768MB.
It is highly recommended that you create a large permanent component that will meet all of your usual memory needs. Use the dynamic component as a backup for emergencies.
Once you set the two values, click on OK and then let Windows XP reboot the system. A permanent paging file will be created on your hard disk. Please note that the dynamic component of the paging file will only become active after the system's virtual memory requirements exceed the minimum value.
You will note that Windows XP does not allow a paging file size of less than 2MB.
Making The Paging File Contiguous
After creating a permanent or semi-permanent paging file, check and make sure it is contiguous. You can ensure it is contiguous by defragmenting the hard disk before you creating the permanent or semi-permanent paging file. However, that does not always work.
In such cases, you will need to defragment the paging file after it is created. Unfortunately, Windows XP's Defrag utility does not have the ability to defragment the paging file. You will have to use a third-party defragmentation utility to do this. I will use Diskeeper as an example.
Windows NT, 2000 and XP does not allow the paging file to be defragmented while it is in used. Therefore, you must set Diskeeper to move the paging file during the next reboot.
Run Diskeeper and click on Change your settings to expand its menu. You will see the screen below.
Look for and click on Set a boot-time defragmentation. That will display this screen.
Now, select the partition where the paging file resides and tick the checkbox of Defragment the paging file option. The option will be grayed out if there is no paging file in that partition.
Then click OK and reboot the computer. Diskeeper will load up during the boot process and defragment the paging file.
Once Diskeeper has completed its operation, Windows XP will boot up and start using the newly optimized paging file that is contiguous.
Please note that Diskeeper requires a certain amount of free space to defragment the paging file. If you do not have the necessary amount of free space in that partition, then Diskeeper may not defragment the paging file.
Wanna Do It For Free?
You can easily do this for free. Just download a trial copy of Diskeeper!
Moving The Paging File To The Outer Tracks
Moving the paging file to the outer tracks is a powerful way of increasing paging file performance. In fact, it will give the paging file a bigger boost in performance than just making it contiguous. Why is that?
Check out this transfer rate graph of a hard disk :-
It shows pretty clearly the transfer rate of a hard disk is highest on the outer tracks and lowest on the inner tracks. In this case, the transfer rate of the inner tracks is only about half the transfer rate of the outer tracks.
The areal density of a hard disk's platters and its spin rate are constant. But the linear velocity at each point of the platter isn't constant. Therefore, the performance of the paging file depends on where it is located on the hard disk.
The time taken for the hard disk head to read from point A to point B is exactly the same as the time taken for the head to read from C to D. But because the areal density of the platter is constant, a lot more data can be read from the outer tracks than from the inner tracks, in the same amount of time.
Now that the outer tracks have been proven to be the fastest area on a hard disk, we can use that to our advantage. By moving the paging file to the outer tracks, we give the paging file a major boost in performance.
As you can see from the example above, the transfer rate at the outer tracks are about 59MB/s while the central and inner tracks have transfer rates of about 49MB/s and 30MB/s respectively. Moving the paging file from the inner tracks to the outer tracks will almost double its performance! Even moving the paging file from the central tracks to the outer tracks will give the paging file a transfer rate boost of 20%.
But please note that this method must be used in conjunction with a permanent paging file. This is because the paging file cannot be moved to the outer tracks of the hard disk unless it is a permanent paging file.
How Do We Move The Paging File To The Outer Tracks?
Before you can move the paging file to the outer tracks, you must first make the paging file permanent. Follow the steps outlined in the previous pages. Once you have a permanent paging file, you can use your favourite hard disk defragmentation utility to move the paging file to the outer tracks.
Unfortunately, Windows XP's Defrag utility does not have the ability to move paging file to the outer tracks. You will have to use a third-party defragmentation utility to move the paging file to the outer tracks. I will use Diskeeper as an example.
Windows NT, 2000 and XP does not allow the paging file to be moved while it is in used. Therefore, you must set Diskeeper to move the paging file during the next reboot.
Run Diskeeper and click on Change your settings to expand its menu. You will see the screen below.
Look for and click on Set a boot-time defragmentation. That will display this screen.
Now, select the partition where the paging file resides and tick the checkbox of Defragment the paging file option. The option will be grayed out if there is no paging file in that partition.
Then click OK and reboot the computer. Diskeeper will load up during the boot process and defragment the paging file. It will also move the paging file to the outer tracks.
Once Diskeeper has completed its operation, Windows XP will boot up and start using the newly optimized paging file that is not only contiguous but also located in the outer tracks of the hard disk! Your paging file will now show a marked boost in performance.
Please note that you cannot actually force Diskeeper to move the paging file right up to the outermost tracks. Diskeeper has an internal algorithm that determines which files are best placed in the outermost tracks for optimal performance.
In addition, Diskeeper requires a certain amount of free space to defragment and move the paging file. If you do not have the necessary amount of free space in that partition, then Diskeeper may not defragment the paging file or move it to the outer tracks.
Creating A Huge Paging File
Because games and applications often list a minimum paging file size, many people equate the size of the paging file with performance, just like they would with anatomy. But at least in the first case, that's not true.
What does a bigger paging file get you? Well, it gives you the ability to run more memory-intensive programs concurrently. But does a larger paging file make virtual memory faster or better? Unfortunately, the answer is no.
Why Not?
First of all, creating a large amount of virtual memory doesn't mean the operating system will use it all. Although Windows will pre-emptively page out parts of idle applications, there are limits to how much it can page out for each application. Therefore, creating an excessively large paging file will just waste hard disk space.
Second, if you ever move the paging file to the outer tracks of the hard disk, an excessively large paging file will take up outer track space that could have been used to store system or application files. Look at these two pictures :-
Hard disk with a 2GB paging file (brown)
Hard disk with a 600MB paging file (brown)
The first one has a huge 2GB paging file while the second has a smaller 600MB paging file. For many systems, 600MB of virtual memory is more than enough to multitask 7 or 8 applications at the same time or run the most memory-intensive 3D games out there. So, anything more is just taking space.
The extra space taken up by an excessively large paging file on the outer tracks could have been used to store system or application files for faster access. The amount of space regained from using a smaller page file can be seen as a red block in the second picture. You can bet on a faster loading time for Windows and other applications if you limit the size of your paging file.
Therefore, the trick here is to gauge the maximum size of the paging file that you will ever need. This way, you will not create an excessively large paging file that wastes hard disk space and takes up the precious space on the outer tracks away from the system and application files.
How Large Should The Paging File Be?
That's a question that has bugged many users. Since the good old days of DOS and Windows 3.1, many users have staunchly adhered to an old rule of the thumb that the swapfile should be 2.5 x the amount of RAM.
In fact, whenever I visit other forums, I still notice many people quoting this old "rule". The question is - is this rule still applicable for today's systems and operating systems? Unfortunately, it's a big NO!
Why Not 2.5 x RAM?
Back in the Windows 3.1 days, computers only came with 4MB or 8MB of RAM. 16MB of RAM was considered a luxury in those days. I remember running Windows 3.1 on an Intel i386SX-16 machine with just 4MB of RAM!
Because RAM in those days was horrendously expensive and only a limited amount of it was available in most systems, a relatively large swapfile was needed. A swapfile size of 2.5 times the system RAM wasn't a lot, considering the fact that most systems came with only 4MB or 8MB of RAM. That would only amount to a swapfile size of 10MB to 20MB, which enabled most systems to run Windows 3.1 applications comfortably.
But today, most computers come with at least 512MB of RAM and many have 1GB of RAM! If the 2.5X rule was applied, that would result in "optimal" paging file sizes of 1.28GB to 2.5GB! That doesn't make sense at all.
The purpose of buying more memory is to prevent the system from using the slower virtual memory. The more memory you buy, the less you need to use virtual memory. It doesn't make sense to increase the paging file size every time you increase the amount of RAM in your system!
Imagine if you have follow the rule when you upgrade to 2GB of RAM in the future... You would have to create a 5GB paging file! That's ridiculous.
The amount of hard disk space you dedicate to a paging file should depend on the amount of RAM you need to use, NOT the amount of RAM you have. The 2.5 x system RAM rule was flawed from the beginning and it is certainly not applicable today.
Do not use the 2.5 x system RAM rule to determine the size of your paging file. Instead, you should first gauge how much virtual memory is actually needed by the system during the heaviest memory load. Then use your finding to set the most appropriate paging file size for your system.
But You Require A Huge Paging File For A Memory Dump!
There are people who actually believe in increasing the size of the paging file following an increase in system memory. That certainly goes against what we have been recommending, doesn't it? The reason is simple.
Whenever Windows crashes, it first writes the memory contents to the paging file. After the computer is restarted, Windows will create a memory dump file using the memory contents stored in the paging file. This memory dump file is used to analyze the cause of the crash.
However, for a complete memory dump to created, the paging file size should be large enough to store all the contents of the system memory. That's why the paging file size has to meet this equation :-
Paging file size = Physical memory in the system + 1MB
So, if you have 1024MB of memory, the paging file size should be 1025MB in size for a complete memory dump to be created successfully.
However, this does not mean you should increase the size of your paging file according to the amount of system memory. Why not? Let's find out.
Why Not?
First of all, there is no need to create a complete memory dump. Windows supports three different kinds of memory dumps. Here is a summary of information from Microsoft's Knowledge Base.
Type Of Memory Dump
Description
Size
Small
* Small memory dump files contain the least information, but consume the least disk space, 64 kilobytes (KB).
* Unlike kernel and complete memory dump files; Windows XP stores small memory dump files in the systemrootMinidump folder, instead of using the systemrootMemory.dmp file name.
* Windows XP always create a small memory dump file when a Stop error occurs, even when you choose the kernel or complete memory dump file options.
* One of the services that use small memory dump files is the Error Reporting service. The Error Reporting service reads the contents of a small memory dump file to help diagnose problems that cause Stop errors.
64KB
Kernel
* This is an intermediate size dump file that records only kernel-level memory and can occupy several megabytes (MB) of disk space.
* When a Stop error occurs, Windows XP Professional saves a kernel memory dump file to a file named systemrootMemory.dmp and create a small memory dump file in the systemrootMinidump folder.
* You cannot exactly predict the size of a kernel memory dump file because this depends on the amount of kernel-mode memory allocated by the operating system and drivers present on the machine when the Stop error occurred.
About 1/3 of system memory
Complete
* A complete memory dump file contains the entire contents of physical memory when the Stop error occurred.
* The file size is equal to the amount of physical memory installed plus 1 MB.
* When a Stop error occurs, the operating system saves a complete memory dump file to a file named systemrootMemory.dmp and creates a small memory dump file in the systemrootMinidump folder.
System memory + 1MB
Although you may think that it is always good to create a complete dump file. However, that is not true. Even Microsoft recommends creating a kernel memory dump, instead of a complete memory dump. Why? I'll quote them :-
For most purposes, a kernel memory dump file is the most useful kind of file for troubleshooting Stop messages. It contains more information than the small memory dump file and is significantly smaller than the complete memory dump file. It omits only those portions of memory that are unlikely to have been involved in the problem.
In addition, a kernel memory dump will require the paging file to be only about 1/3 of the system memory. It will also require the same amount of free hard disk space.
Even if you wish to create a complete memory dump, there is still no need to create a large paging file. Even if you restrict your paging file to, for example, 500MB; Windows XP will automatically expand the paging file to store the memory dump BEFORE it is written out to disk on the next reboot.
Therefore, I consider it to be a real waste of hard disk space if you have 2GB of memory and yet create a 2GB paging file, just so Windows XP can write an enormous memory dump the next time it crashes.
How Much Virtual Memory Do I Need?
No one can tell you how much hard disk space you need to allocate to a permanent paging file because every system is different and everyone uses his/her system differently.
If you create a permanent paging file that is too small, then Windows will continuously create more virtual memory via a dynamic extension to the permanent paging file. This reduces the paging file's performance
If you create a permanent paging file that is too large, you are only wasting hard disk space, especially on the outer tracks.
So, the best method would be to accurately gauge how much virtual memory you actually need. This allows you to create a permanent paging file with the appropriate size. To do that, you need to monitor your paging file usage. Let's see how you can do that.
Finding Out In Windows 9x
Give your system a clean boot and once you are in Windows 95/98, load System Monitor. You can get to it via Start Menu > Programs > Accessories > System Tools. You will see this screen :-
Go to the Edit menu and click on Add Item...
In the next screen, select the Memory Manager category and add Swapfile in use. Click OK and you will see this screen :-
Now, you can monitor the size of your paging file. Start up and run all the applications that you usually use at the same time. Load several documents and work files. Play around with them and check the peak value for the paging file.
Then play several of the most memory-intensive games you have. 3D games with large textures are good ones to test. At all times, record down the highest value for the paging file size that System Monitor reports.
Once you are done, select the highest value that has been recorded for the paging file size and round it up to the nearest 100MB. For example, if the biggest size your paging file ever went during the tests was 619MB, then 700MB is the ideal size for your paging file.
But always make sure you add at least 40-50MB as a cushion against future memory-guzzling applications or games. For example, if the largest size your paging file expanded to during your tests was 684MB, then 750MB would be an ideal size for your paging file.
How Much Virtual Memory Do I Need?
Finding Out In Windows XP
Finding your optimal paging file size in Windows XP is much easier.
Just give your system a clean boot. Once you are in Windows XP, run Task Manager . You can get to it by right-clicking on the taskbar and selecting Task Manager. You can also access it through the keyboard shortcut of Ctrl-Alt-Del.
After you load Task Manager, click on the Performance tab. You will see this screen :-
Now, you can monitor the size of your paging file. Start up and run all the applications that you usually use at the same time. Load several documents and work files. Play around with them and check the peak value for the paging file.
Then play several of the most memory-intensive games you have. 3D games with large textures are good ones to test. At all times, record down the highest value for the paging file size that System Monitor reports.
Once you are done, select the highest value that has been recorded for the paging file size and round it up to the nearest 100MB. For example, if the biggest size your paging file ever went during the tests was 619MB, then 700MB is the ideal size for your paging file.
But always make sure you add at least 40-50MB as a cushion against future memory-guzzling applications or games. For example, if the largest size your paging file expanded to during your tests was 684MB, then 750MB would be an ideal size for your paging file.
Moving The Paging File To A Different Partition
Another popular technique proposed by many tweakers suggests moving a temporary paging file from the default first partition to a separate, dedicated partition.
The reasons for this technique are ostensibly two-fold :-
+ to reduce fragmentation of the first partition
+ to ensure that the paging file will remain contiguous even though it is a temporary paging file
This idea looks good because it enables users of temporary paging files to keep their primary partition neat and the paging file contiguous for a speed boost.
However, many users of this technique failed to take into account several things. Let's see what they are.
Cylinders And Partitions
First of all, let's take a look at a hard disk cylinder. A cylinder consists of the same tracks on all the platters in the hard disk.
The first cylinder, nominally called cylinder 0, is coloured in bright green. It is the outer most cylinder and consists of the first track of all the platters in the hard disk. Such groups of tracks have a cylindrical look, hence the name. Cylinder n (in red) is the last cylinder of the hard disk, where n can be any integer.
Partitions are constructed using full cylinders. The first one starts at cylinder 0 and go out to where you specify. The next one starts on the following cylinder, and so on. If you try to create a partition with an end that falls in the middle of the cylinder, FDISK or similar utilities will round it up so that the partition occupies the entire cylinder, instead of a partial cylinder.
Needless to say, the first partition will always start with the first track of every platter. In other words, the first partition will always be the fastest partition in the hard disk, followed by the second partition and so on. Therefore, if you create a second partition and dump the paging file there, you will actually be moving it to a slower part of your hard disk!
As you can see, while the temporary paging file will be remain contiguous using this technique, the transfer of the paging file from the outer tracks to the inner tracks of the hard disk will inevitably reduce its performance.
Need More Reasons?
Creating a dedicated partition for the dynamic paging file also means tying up hard disk space and inviting inflexibility.
Users of FDISK will find it impossible to change the size of the paging file partition when they need to do so. In fact, they will have to remove at least two partitions to create a larger one. If they only have one primary and a secondary paging file partition, then they will have to remove both and recreate two new partitions.
Users of special utilities like Partition Magic will have an easier time as they can easily adjust the sizes of the partitions. But in the end, this method is counter-productive because for all your trouble, you have just slowed down your paging file and orphaned off a portion of your hard disk for the dedicated partition.
The main reason for using a temporary paging file is actually to save hard disk space. Users of a temporary paging file avoid tying up large amounts of hard disk space in a permanent swapfile.
However, this method actually requires you to set aside a large amount of hard disk space and worse, place cordon off this space in an inflexible partition. If you can afford to allocate space for this dedicated partition, you would be better off using the space for a permanent paging file.
In my opinion, this technique is a waste of time and needlessly endangers your data. Messing around with FDISK and partitions can be heartbreakingly exciting, if you catch my drift.
More Partitions = Data Parachute?
Some users advocate using multiple partitions for safety reasons. Their opinion is that in the event of a hard disk crash, corruption to the boot sector or FAT (File Allocation Tables), only the primary partition will be lost, leaving precious data safe in the other partitions.
Unfortunately, from my experience involving hard disk crashes, every partition was inevitably wiped out. When a hard disk head crashes with a platter, I seriously doubt it would politely avoid scoring through the media that has been allocated to other partitions.
Russ Johnson, a Product Support Engineer from Symantec Corporation has this to say, "It's not a substitute for a good backup, but it may save you from having to restore all of your data from a backup. However, if your first partition is taken out, more than likely the whole drive will be lost. The first partition is also the location of the Master Boot Record and the partition table."
Now, I agree that storing your data on a different partition is actually a good practice. It can save your data if the first partition gets corrupted due to a soft error. For example, even if the FAT of one of the partitions gets corrupted, data on the other partitions will still be safe.
So, if data integrity (as well as disk management) is important to you, you should consider using multiple partitions. However, this does not mean you should move the paging file to a different partition... oh no...
When the paging file is permanent, tweakers who advocate moving paging files around will tell you to move your partition to a second hard disk. Why?
As the theory goes, this allows your system to access both the paging file on the second hard disk and data on the first hard disk concurrently. This theoretically improves performance a lot! But does it really work?
Well, it depends.
Hard Disk, NOT Partition!
Many people get confused by drive letters. They assume that moving the paging file from drive C: to drive D: is the same as moving it to another hard disk. However, this is not true.
The operating system does not bother with physical drives. It is only interested in logical drives. By this, we mean properly-formatted partitions that can be accessed by the operating system.
To the operating system, partitions appear as physically-separate hard disks although they may reside on the same hard disk. If you partition your hard disk into three different partitions, your operating system will identify them as three logical drives (Drive C:, Drive D: and Drive E. But they are still physically on the same hard disk!
Therefore, if you merely move the paging file to a different logical drive, you could be doing nothing more moving it to a different partition. So, please check and make sure you are moving it to a physically-separate hard disk. Preferably, it should be the first partition in that hard disk.
Parallel-ATA
Many tweakers forget one thing when they move their paging files to the second hard disk - only one PATA (Parallel-ATA) device can be active at any one time on the same IDE channel.
Most users slave the second hard disk to the first hard disk on the primary IDE channel and put the removable media drives (CD writers, DVD-ROM, etc.) on the secondary IDE channel. That is theoretically sound practice but it actually negates the purpose of moving the paging file off the primary hard disk!
Because both hard disks are on the same IDE channel, they can't be active at the same time. So, there is no way data can be read from both hard disks at the same time. In fact, because the secondary hard disk is often slower and smaller than the primary hard disk, the performance of the paging file on the second hard disk will actually be worse off.
So How Do We Make It Work?
The only way for this method to work is to put the first and second hard disks on separate IDE channels. That means the first hard disk gets hooked up to the primary IDE channel and second hard disk gets the secondary IDE channel. This allows both IDE channels can be active at the same time, delivering data from both hard disks concurrently.
In addition, the second hard disk needs to be at least half as fast as the primary hard disk. This allows the paging file on the second hard disk to be at least as fast as a paging file on the first hard disk. Otherwise, the performance advantage accessing the paging file concurrently on a second hard disk will be negated by the slower performance of the second hard disk.
Remember, if the first hard disk can serve data to and from both the application in use and the paging file faster than the second hard disk can access the paging file alone, then it is pointless to maintain a paging file on the second hard disk.
But if the second hard disk is more than half as fast as the first hard disk, then it would be advantageous to move the paging file there because the paging file can then be accessed concurrently with data on the first hard disk. In addition, the valuable outer tracks on the first hard disk will be freed up for use by the operating system.
Other Considerations
The trouble with such a setup is that most motherboards usually with only two IDE channels.
If you slave your DVD writer to the first hard disk (on the primary IDE channel), then you may have trouble writing data from the first hard disk to a DVD. This is because the IDE channel has to interleave its operations between the first hard disk and the DVD writer.
You won't have any trouble writing data from devices on the second IDE channel to the DVD writer though. This is because the DVD writer is on the first IDE channel and can thus be accessed concurrently with the devices on the second IDE channel.
However, if you slave your DVD writer to the second hard disk (on the secondary IDE channel), then you may have problems with games running off CDs or DVDs in that drive. Of course, this time you won't have any trouble writing data from devices on the first IDE channel to the DVD writer!
Either way, you will face performance compromises. It is a great idea but implementation is not quite as simple as you might think. The key to making this work is to be aware of such considerations and plan your setup accordingly.
But if your motherboard comes with enough ID
Hacking Windows XP Registry
Structure of Windows XP Registry :
When you will open the Windows XP Registry , you will see it's divided into two panes. On the left side there are Five main
Keys as shown below. These can be expanded to several Sub-Keys, which further has many Sub-Keys.
+HKEY_CLASSES_ROOT
+HKEY_CURRENT_USER
+HKEY_LOCAL_MACHINE
+HKEY_USERS
+HKEY_CURRENT_CONFIG
Before you try out the Tweaks, learn how to Backup and Restore Windows XP Registry.
Types of Registry Backups :
It?s very important that before you do editing you make a backup of the current registry. If you ignore this warning, it might prove deadly for you?so better listen to me J
Open your registry. Go to Start>Run , type regedit . When you invoke the Export function from File>Export, you are given a choice of different file types that can be saved :
Registration Files (*.reg)
Registry Hive Files (*.*)
Text Files (*.txt)
Win9x/NT 4 Registration Files (*.reg)
All Files
Each one of the different file types above plays an important role in how the data you export is saved. Choosing the wrong type can give you unexpected results. So let me explain you quickly these file types.
Registrations Files : The Registration Files option creates a .reg file. This is the most well known file format used for backing up the registry. The Registration File can be used in two ways. As a text file it can be read and edited using Notepad outside of Registry Editor. Once the changes have been made and saved, right clicking the file and using the [Merge] command adds the changed file back into the registry. If you make additions to the registry using regedit and then merge the previously saved Registration File, anything that you've added via regedit will not be removed, but changes you make to data using regedit that previously existed in the saved Registration File will be overwritten when it is merged
Registry Hive Files : Unlike the Registration Files option above, the Registry Hive Files option creates a binary image of the selected registry key. The image file is not editable via Notepad nor can you view its contents using a text editor. However, what the Registry Hive Files format does is create an image perfect view of the selected key and allow you to import it back into the registry to insure any problematic changes you made are eliminated.
Text Files : This option does just as the name suggests. It creates a text file containing the information in the selected key. It's most useful purpose is creating a record or snapshot of a key at a particular point in time that you can refer back to if necessary. It cannot be merged back into the registry like a Registration File.
Win9x/NT 4 Registration Files : This option creates a .reg file in the same manner used by the Registration Files option. It's used by previous Windows versions and serves no purpose in XP unless you want to merge a key from XP into a previous version of Windows.
Out of the give above choices , the safest method of backing up registry is to use Registry Hive Files option. No matter what ever you do or goes wrong in editing, importing the image of the key will eliminate all changes.
**Note-> I have included the exact name/value between [ ] brackets. [ & ] should be ignored, only the data inside them should be considered.
1. Customize Windows Media Player Title Bar
Change the title bar to read Windows Media Player provided by, so if I had entered text ?Abhishek Bhuyan? , it would read: Windows Media Player provided by Abhishek Bhuyan
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwarePoliciesMicrosoft
Create the Key [WindowsMediaPlayer]
Create String value named [TitleBar]
Data Type: REG_SZ // Value Name: TitleBar
Double click TitleBar and Enter the text to be displayed in the title bar.
Exit Registry / Reboot
2. Minimize Outlook 2002 to the System Tray
If you frequently access Outlook during the day it?s more convenient to have it minimized to the system tray rather than invoking it each time you need to send/receive e-mail. This tweak minimizes Outlook 2002 to the system tray:
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftOffice10.0OutlookPreferences
Modify/Create Data Type DWORD named [MinToTray]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
3. Specify Default IE Download Directory
This tweak changes the default directory where downloads initiated in Internet Explorer are stored on the system.
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftInternet Explorer
Modify/Create String Value of Data type REG_SZ Named [Download Directory]
Value Data: [Enter Path to Directory to be Assigned as Defualt for Downloads]
Exit Registry / Reboot
4. Force Use of Classic Start Menu
This tweak loads the Classic Start Menu and makes it impossible to change back to the Windows XP version
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
Modify/Create the DWORD Value of Data type REG_DWORD Named [NoSimpleStartMenu]
Value Data: [0 = Default / 1 = Force Classic Start Menu]
Exit Registry / Reboot
5. Hide/Show Internet Explorer Desktop Icon
By default, Windows XP does not show the Internet Explorer icon on the Windows desktop. Using the registry tweak below allows you to control whether or not the Internet Explorer icon is displayed.
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
Modify/Create DWORD Value of Data type REG_DWORD Named [NoInternetIcon]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
6. Increase Menu Display Speed
When you click on the Start Menu there is some delay to display the contents , just for no reason. Effects are pretty though. The default speed can be adjusted with a quick registry entry.
The default value is 400. Set it to 0 and the delay is gone. If you are not able to adjust pick a number that suits your style and make the change.
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERControl PanelDesktop
Modify/Create String value of Data type REG_SZ Named [MenuShowDelay]
Value Data: [Default = 400 / Adjust to Preference]
Exit Registry / Reboot
7. Change the Location of Special Folders
This tweak allows changing the location of special folders on the system. Any of the folders listed in the registry key may be moved.
[Start] [Run] [Regedit]
Go to : HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerUserShell Folders
Modify/Create String value of Data type REG_SZ Named [Various Folder Names]
Data Type: REG_SZ [String Value] // Value Name: Consult RegEdit for Folder Names
Value Data: [Move the folder to the new desired location using explorer, and then edit the matching folder in RegEdit to reflect the new folder location]
Exit Registry and Reboot
8. Faster Browsing in Windows Explorer on Network Computers
By default, a Windows XP machine connecting to a Windows 95/98/Me computer will search for scheduled tasks or enabled printers on the remote computer. Two sub-keys control this behavior. Deleting them will speed up browsing on the remote computer.
[Start] [Run] [Regedit]
Go to : HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersionExplorerRemoteComputerNameSpace
To Disable Scheduled Task Checking
Value Name: {D6277990-4C6A-11CF-8D87-00AA0060F5BF}
Delete the sub-key in the left pane of Registry Editor
To Disable Printer Checking
Value Name: {2227A280-3AEA-1069-A2DE-08002B30309D}
Delete the sub-key in the left pane of Registry Editor
Exit Registry / Reboot
9. Add Administrator Account to Log In Screen
When Windows XP is first installed it requires you to enter at least one name of a user who will access the computer. Once you create this name the default Administrator account vanishes. To access it, press Ctrl-Alt-Delete twice at the Welcome screen to retrieve the standard Windows 2000 logon dialog. Log on as Administrator from this point. To log the Administrator off, click [Start] [Log Off] and [Log Off] when the [Log Off Windows] selection box appears. The Log On screen with the available users will be displayed.
To Make the Administrator Account Always Visible on the Login Screen use this Registry Tweak.
[Start] [Run] [Regedit]
Go to: HKEY_LOCALMACHINESOFTWAREMicrosoftWindows NTCurrentVersionWinlogonSpecialAccountsUserList
Modify/Create DWORD Value of Data type REG_DWORD Named [Administrator]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
10. Increase Internet Download Connections
Increase Simultaneous Internet Download Connections. Increases the number of allowed simultaneous connections to ten (10).
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionInternet Settings
Modify/Create DWORD Value of Data type REG_DWORD Named [MaxConnectionsPer1_0Server]
Setting for Value Data: [0000000a]
Modify/Create DWORD Value of Data type REG_DWORD Named [MaxConnectionsPerServer]
Setting for Value Data: [0000000a]
Exit Registry / Reboot
11. Connected Web Files and Folders
Connecting web files and folders allows a primary .htm or .html file to be moved in conjunction with files associated with the primary document. Once the primary document has been defined, create a sub-folder using the same name as the primary document but assign it a .files extension. Whenever the primary file is moved, the sub-folder will also move and remain as a sub-folder of the primary.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorer
Modify/Create DWORD Value of Data type REG_DWORD Named [NoFileFolderConnection]
Setting for Value Data: [0 = Enabled (Default) / 1 = Disabled]
Exit Registry / Reboot
12. Hide/Show My Documents Folder on Desktop
By default, Windows XP does not show the My Documents folder on the Windows desktop. Using the registry tweak below allows you to control whether or not My Documents is displayed.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerCLSID{450D8FBA-AD25-11D0-98A8-0800361B1103}ShellFolder
Modify/Create DWORD Value of Data type REG_DWORD Named [Attributes]
Setting for Value Data: [Default = 0xf0400174 / Hidden = 0xf0500174]
Exit Registry / Reboot
13. Create a Hidden User Account
This tweak allows an account that is normally displayed on the Welcome screen to be hidden from view. To log on using the account it's necessary to use the Log On To Windows dialog box similar to the one in Windows 2000 i.e. press CTRL+ALT+DEL twice.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsNTCurrentVersionWinlogonSpecialAccountsUserList
Modify/Create DWORD Value of Data type REG_DWORD Named [Type Name of Account to be Hidden]
Setting for Value Data: [0 = Account is Hidden / 1 = Enabled]
Exit Registry / Reboot
While the account is hidden on the Welcome screen, note that the account profile will be visible in C:Documents and Settings or wherever user profiles are stored as well as in Local Users and Groups.
14. Create Legal Notice Logon Dialog Box
In situations where you need users to read a legal notice before logging on, this tweak will create the caption for the notice.
Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NTCurrentVersionWinlogon
Modify/Create String Value of Data type REG_SZ Named [LegalNoticeCaption]
Value Data for LegalNoticeCaption: [Type the Caption for the Dialog Box]
Modify/Create String Value of Data type REG_SZ Named [LegalNoticeText]
Value Data for LegalNoticeText: [Type the Data for the Legal Notice]
Exit Registry / Reboot
15. Manage Internet Explorer Error Reporting
This tweak removes the IE Error Reporting tool from appearing with the option to send browser debugging reports to Microsoft.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESoftwareMicrosoftInternet ExplorerMain
Note:- Create both values listed below and set according to the bold type for the tweak to function properly.
Modify/Create DWORD Value of Data type REG_DWORD Named [IEWatsonEnabled]
Value Data: [0 - Disabled / 1 - Enabled]
Modify/Create DWORD Value of Data type REG_DWORD Named [IEWatsonDisabled]
Value Data: [0 - Disabled / 1 - Enabled]
Exit Registry / Reboot
16. Customize Logon and Security Dialog Title
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NT CurrentVersionWinlogon
Modify/Create String Value of Data type REG_SZ Named [Welcome]
Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
17. Customize Logon Box Message
This is the message displayed on the Classic Logon box, not the XP ?Welcome? logon screen
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NT CurrentVersionWinlogon
Modify/Create String Value of Data type REG_SZ Named [LogonPrompt]
Value Data: [Enter the text of the message]
Exit Registry / Reboot
18. Welcome Screen Logon Vs Classic Logon
This tweak specifies whether the Welcome screen or the Classic logon will be used to access Windows XP.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NTCurrentVersionWinlogon
Modify/Create DWORD Value of Data type REG_DWORD Named [LogonType]
Value Data: [0 - Classic Mode / 1 - Welcome Screen]
Exit Registry / Reboot
19. QoS (Quality Of Service) Bandwidth Reserve Setting
By default, Windows XP reserves 20% of the connection bandwidth for QoS traffic. This tweak allows the setting to be altered to a different percentage of connection bandwidth. If the system uses more than a single adapter for network connections, each adapter may be set individually by navigating to:
HKEY_LOCAL_MACHINESYSTEMCurrentControlSetServicesPschedParametersAdapters{Adpater-ID} rather than HKEY_LOCAL_MACHINESOFTWAREPoliciesMicrosoftWindowsPsched
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREPoliciesMicrosoftWindowsPsched
Modify/Create DWORD Value of Data type REG_DWORD Named [NonBestEffortLimit]
Setting for Value Data: [Enter as a Percentage / Default Value = 20]
Exit Registry / Reboot
20. Enable/Disable Save Password in DUN
This tweak saves user passwords for Dial Up Networking so they do not have to be re-entered each session.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESYSTEMCurrentControlSetServicesRasManParameters
Modify/Create DWORD Value of Data type REG_DWORD Named [DisableSavePassword]
Setting for Value Data: [0 = Disabled (Passwords Saved) / 1 = Enabled (Passwords Not Saved)]
Exit Registry / Reboot
21. Change the Registered Organization/Owner of Windows XP
This tweak allows modification of the registered owner and organization of the Windows XP software.
Note:- This tweak has nothing to do with Windows Product Activation (WPA) and will not allow you to register illegal XP software.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NTCurrentVersion
Modify/Create String Value of Data type REG_SZ Named [RegisteredOrganization] or [RegisteredOwner]
Setting for Value Data: [Modify the Values to Reflect Current Information]
Exit Registry / Reboot
22. Remove Links Folder in Favorites
The Links folder is part of Favorites whether it's being accessed through Internet Explorer or the Favorites menu in the Start Menu. This tweak will remove it from those locations.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftInternet ExplorerToolbar
Modify/Create String Value of Data type REG_SZ Named [LinksFolderName]
Value Data: [Set the String Value to a blank string]
Open Internet Explorer and manually delete the Links folder from Favorites Menu.
The Links folder will not be recreated.
Exit Registry / Reboot
23. Enable/Disable Active Window Tracking to Mouse Movements
When the mouse is moved over an open window it automatically sets the focus to that particular window. It does not bring the window to the foreground of the open windows.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERControl PanelMouse
Modify/Create DWORD Value of Data type REG_DWORD Named [ActiveWindowTracking]
Setting for Value Data: [0 = ActiveWindowTracking Disabled / 1 = ActiveWindowTracking Enabled]
Exit Registry / Reboot
24. Auto Disconnect for Internet Explorer
Use this edit to automatically disconnect from Internet Explorer after a specified length of time has elapsed. Use this trick on anyone whom you don?t like using your computer with net J
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESystemCurrentControlSetServicesLanmanServerParameters
Modify/Create DWORD Value of Data type REG_DWORD Named [Autodisconnect]
Value Data: [Enter a new disconnect time. Use Hexadecimal if you are unfamiliar with Binary]
Exit Registry / Reboot
25. Auto Reboot on System Crash
By default, when the Windows XP operating system crashes an automatic reboot of the system occurs. While this behavior can be convenient, the downside is the error message accompanying the crash is not visible. Often times this information can be a great help in troubleshooting the source of the crash. This behavior can be modified in two ways; via the registry or using the System Properties property sheet.
[Start] [Run] [Regedit]
Registry Key: HKEY_LOCAL_MACHINESYSTEMCurrentControlSetControlCrashControl
Modify/Create DWORD Value of Data type REG_DWORD Named [AutoReboot]
Setting for Value Data: [0 = AutoReboot Disabled / 1 = AutoReboot Enabled]
Exit Registry / Reboot
Open System Properties via Start > Control Panel > Performance and Maintenance > System
[System Properties may also be opened using the WinKey+Pause key combination]
Select the Advanced tab and then click Settings in the Startup and Recovery section
In System Failure section, clear the checkbox next to Automatically Restart
Click OK and OK to exit
26. Modify Control Panel Categories
Even if you like the new style for Control Panel, you might at times wish you could shift some items around into a different category. It's possible.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsCurrentVersionControl PanelExtended Properties{305CA226-D286-468e-B848-2B2E8E697B74} 2
Modify/Create DWORD Value of Data type REG_DWORD Named [Choose one of the applets with .cpl extension]
Setting for Value Data: [Select the value from table below]
Other Control Panel Options 0
Appearance and Themes 1
Printers and Other Hardware 2
Network and Internet Connections 3
Sounds, Speed, and Audio Devices 4
Performance and Maintenance 5
Date, Time, Language, and Regional Options 6
Accessibility Options 7
Add or Remove Programs 8
User Accounts 9
Exit Registry / Reboot
To further customize the items that appear in the new Control Panel, do a search of your system for all files that end in .cpl extension. If they aren't already listed, you can add them with a new DWORD value and then assign them to a category of your choosing.
27. Enable/Disable Run Commands Specific to the Registry
This tweak controls the use of the Run command on the local machine
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersion PoliciesExplorer
Create a DWORD value of Data Type REG_DWORD for each Run function that will be disabled.
Modify/Create the Value Name [DisableLocalMachineRun]
Modify/Create the Value Name [DisableLocalMachineRunOnce]
Modify/Create the Value Name [DisableCurrentUserRun]
Modify/Create the Value Name [DisableCurrentUserRunOnce]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
28. Enable/Disable System Properties Access from My Computer
This tweak removes access to System Properties via My Computer as well as via Control Panel.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
Modify/Create DWORD Value of Data type REG_DWORD Named [NoPropertiesMyComputer]
Value Data: [0 - Display Properties / 1 - Hide Properties]
Exit Registry / Reboot
29. Uninstall Programs Manually
Just because Windows XP has the Add/Remove Programs feature it doesn't mean your application will appear in the list. Furthermore, even if it does appear, it's no guarantee that the uninstall feature will work. When you run across one of these situations the items listed below will help in getting rid of the application. Be aware that these steps may not remove everything associated with the application and can impact other applications on the computer. Have a backup or restore point and use caution.
Find the directory for the application and delete all the files in the directory. Delete the directory.
Open regedit and navigate to HKEY_LOCAL_MACHINESOFTWARE and find the folder for the application. Delete the folder.
Open regedit and navigate to HKEY_CURRENT_USERSOFTWARE and find the folder for the application. Delete the folder.
To remove the application entry from Add/Remove Programs (if present) open regedit and navigate to HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsCurrentVersionUninstall and find the folder for the application. Delete the folder.
Some applications have Services attached to them. If this is the case, navigate to HKEY_LOCAL_MACHINESystemCurrentControlSetServices, locate and delete the service.
In Windows Explorer, navigate to the individual user settings and delete program references. Common places to check would be:
C:Documents and SettingsAll UsersStart MenuPrograms and delete relevant entries.
C:Documents and SettingsAll UsersStart MenuProgramsStartup and delete relevant entries.
C:Documents and Settings%YourUserID%Start MenuPrograms and delete relevant entries.
[Do this for each User ID listed]
C:Documents and Settings%YourUserID%Start MenuProgramsStartup and delete relevant entries.
[Do this for each User ID listed]
If no entries were found in the previous step and the application launches automatically, navigate to
HKEY_CURRENT_USERSoftwareMicrosoftWindows NTCurrentVersionWindows
and delete the entry.
30. Create a right-click command prompt option
You can right-click a folder to get a list of actions you can apply to it. Here?s a way to create an action on that right-click menu that opens a command prompt window with that folder as the current directory. In a text editor such as Notepad, type the following exactly:
Windows Registry Editor Version 5.00
[HKEY_CLASSES_ROOTFoldershellCmd Here]
@=?Command &Prompt Here?
[HKEY_CLASSES-ROOTFoldershellCmd Herecommand]
@=?cmd.exe /k pushd %L?
Save the file with any name you want, with a .reg extension. Then double-click the saved file and choose Yes to merge the file?s information into the Registry. You can delete the file. Right-click any folder and you?ll see the CommandPrompt Here option.
31. Adjusting System Restore values
The new System Restore feature in Windows XP automatically backs up a snapshot of your system, including your Registry, every 24 hours. It also saves restore points for 90 days. Neither of these values is directly editable in the System Restore program, but you can change them in the Registry. Go to:
HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsNTCurrentVersionSystemRestore
You?ll find an assortment of settings here. To change the interval between automatically created restore points, change the RPGlobalInterval setting. To change the number of days that a restore point is retained, change the RPLifeInterval setting.
System Restore time intervals are measured in seconds, not days, so you must convert the number of days you want into seconds. There are 86,400 seconds in a day, so multiply 86,400 by the number of days you want to determine the value. (There are 3,600 seconds in an hour, I hope you know)
32. Erase the swap file at shutdown
You might be concerned about someone browsing your users? swap files and gathering up little bits of their sensitive data. A remote possibility, to be sure, but it could happen. For that extra measure of security, go to:
HKEY_LOCAL_MACHINESystemCurrentControlSetControlSession ManagerMemory Management
Set the ClearPageFileAtShutdown DWORD to 1. This will make shutdowns take longer, because it overwrites everything in the swap file with zeroes. Don?t turn this feature on unless you have a serious security threat.
33. Delete the Files Stored on This Computer category in the My Computer window
In Windows XP, the My Computer window?s listing is broken down by categories: Hard Disk Drives, Devices with Removable Storage, and so on. One of these categories is Files Stored on This Computer, which appears at the top of the My Computer window. If a user doesn?t need it , you can get rid of it. To do so, go to:
HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersionExplorerMyComputer
NameSpaceDelegate Folders
Delete the {59031a47-3f72-44a7-89c55595fe6b30ee} subkey to remove the category.
34. Change the desktop cleanup frequency
Through Display Properties (Desktop tab, Customize Desktop button, General tab), you can turn on and off a feature that runs the Desktop Cleanup Wizard every 60 days. You don?t have an option to set a different interval there, but you can change the interval in the Registry. To do so, go to:
HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerDesktopCleanupWiz
Change the Days Between Clean Up Value to some other number of days (in decimal format).
35. Sort menus alphabetically
When you install a new program for a user, it doesn?t find its place in the alphabetical Start menu hierarchy right away; it hangs out at the bottom for a little while. If your users employ the Classic Start menu, they can re-alphabetize it manually by right-clicking the taskbar and choosing Properties, clicking the Customize button next to the Classic Start Menu, and clicking the Sort button. With the Windows XP style of Start menu, however, you don?t have an equivalent button. To make Windows always alphabetize the list, remove the permissions from the Registry key that controls the sort order for the Start menu. To do so, go to:
HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerMenuOrder
Choose Edit | Permissions and click the Advanced button. Deselect the Inherit From Parent The Permission Entries That Apply To Child Objects check box and then click Copy when the Security dialog box pops up. Click OK and clear the Full Control entry for your account and all security groups you are a member of. Leave only Read permission.
36. Prevent programs from loading at startup
Remember back in the good old days of Windows 3.1 when you could open up the Win.ini file in a text editor and remove an item from the RUN= line to disable it from running at startup? With Windows 9x and above, the Win.ini file became less useful because 32-bit programs were set to run at startup from within the Registry instead.
One way to selectively disable programs from loading at startup is to use MSCONFIG (from the Run command) to deselect certain items. Another way to remove them is to edit the Registry directly. Consider the following locations:
HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersionRun
for applications that start up for all users
HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionRun
for applications that start up when the current user logs on
Remove the entry for a program by right-clicking it and selecting Delete to prevent it from loading.
37. Change categories in the Control Panel
Windows XP?s Control Panel is broken down by category in the default Category view, but the group to which an item belongs is not always obvious. If you disagree with Microsoft?s assignments, you can switch them around. To assign a different category to an item, go to:
HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsCurrentVersionControl PanelExtended Properties
{305CA226-D286-468e-B848-2B2E8E697B74} 2
Find the item you want to change and double-click it to bring up a dialog box. Change the item?s DWORD value to your preference. Use the Table given below as a guide (shown with decimal numbers, which is the way you should enter them).
DWORD value to set
Other Control Panel Options 0
Appearance and Themes 1
Printers and Other Hardware 2
Network and Internet Connections 3
Sounds, Speed, and Audio Devices 4
Performance and Maintenance 5
Date, Time, Language, and Regional Options 6
Accessibility Options 7
Add or Remove Programs 8
User Accounts 9
38. Grouping multiple open windows
Windows XP will group multiple open windows (IE windows for example) into one group on the task bar to keep the taskbar clear. This can be annoying at times - especially when comparing different web pages because you have to go back to the task bar, click on the group and then click on the page you want and then you only get one page because you have to click on each one separately. I think the default for this is 8 windows - any combination of apps or utilities open.
You can modify this behavior by adding this registry key at:
HKEY_CURRRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerAdvanced
add a Dword value of type REG_DWORD named [TaskbarGroupSize]
modify "TaskbarGroupSize" entry to be the number of windows you want open before XP starts to group them on the task bar.
A value of 2 will cause the Taskbar buttons to always group
Another tweak is to disable or enable recent documents history. This can be done at:
HKEY_CURRRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
this key should already be present - if it isn't you'll need to add it:
Add a Binary value of type REG_BINARY named [NoRecentDocsHistory]
modify it so that value reads 01 00 00 00
39. Disable Tips
To disable Ballon tips in Windows XP do this registry tweak
Go to : HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerAdvanced
Create a new DWORD value, name it EnableBalloonTips, and set it equal to 0. If EnableBalloonTips is already there and equal to 1, set it equal to 0. Quit the registry editor, log off, and log back on. Voila! Your computer will stop talking down to you.
40. Add/Remove optional features of Windows XP
To dramatically expand the list of applications you can remove from Windows XP after installation, navigate to C:WINDOWSinf and open the sysoc.inf file. {Opps , if you didn?t find the inf directory, you are right. It?s a hidden folder, so go to Tools>Folder Options> View , enable Show Hidden Files & Folders.}
[Version]
Signature = "$Windows NT$"
DriverVer=07/01/2001,5.1.2600.0
[Components]
NtComponents=ntoc.dll,NtOcSetupProc,,4
WBEM=ocgen.dll,OcEntry,wbemoc.inf,hide,7
Display=desk.cpl,DisplayOcSetupProc,,7
Fax=fxsocm.dll,FaxOcmSetupProc,fxsocm.inf,,7
NetOC=netoc.dll,NetOcSetupProc,netoc.inf,,7
iis=iis.dll,OcEntry,iis.inf,,7
com=comsetup.dll,OcEntry,comnt5.inf,hide,7
dtc=msdtcstp.dll,OcEntry,dtcnt5.inf,hide,7
IndexSrv_System = setupqry.dll,IndexSrv,setupqry.inf,,7
TerminalServer=TsOc.dll, HydraOc, TsOc.inf,hide,2
msmq=msmqocm.dll,MsmqOcm,msmqocm.inf,,6
ims=imsinsnt.dll,OcEntry,ims.inf,,7
fp_extensions=fp40ext.dll,FrontPage4Extensions,fp40ext.inf,,7
AutoUpdate=ocgen.dll,OcEntry,au.inf,hide,7
msmsgs=msgrocm.dll,OcEntry,msmsgs.inf,hide,7
RootAutoUpdate=ocgen.dll,OcEntry,rootau.inf,,7
IEAccess=ocgen.dll,OcEntry,ieaccess.inf,,7
Games=ocgen.dll,OcEntry,games.inf,,7
AccessUtil=ocgen.dll,OcEntry,accessor.inf,,7
CommApps=ocgen.dll,OcEntry,communic.inf,HIDE,7
MultiM=ocgen.dll,OcEntry,multimed.inf,HIDE,7
AccessOpt=ocgen.dll,OcEntry,optional.inf,HIDE,7
Pinball=ocgen.dll,OcEntry,pinball.inf,HIDE,7
MSWordPad=ocgen.dll,OcEntry,wordpad.inf,HIDE,7
ZoneGames=zoneoc.dll,ZoneSetupProc,igames.inf,,7
[Global]
WindowTitle=%WindowTitle%
WindowTitle.StandAlone="*"
The entries that include the text hide or HIDE will not show up in Add/Remove Windows Components by default. To fix this, do a global search and replace for ,hide and change each instance of this to , (a comma). Then, save the file, re launch Add/Remove Windows Components,
41. Remove Windows Messenger
It seems that a lot of people are interested in removing Windows Messenger for some reason, though I strongly recommend against this: In Windows XP, Windows Messenger will be the hub of your connection to the .NET world, and now that this feature is part of Windows, I think we're going to see a lot of .NET Passport-enabled Web sites appearing as well. But if you can't stand the little app, there are a couple of ways to get rid of it, and ensure that it doesn't pop up every time you boot into XP. The best way simply utilizes the previous tip:
If you'd like Windows Messenger to show up in the list of programs you can add and remove from Windows, navigate to C:WINDOWSinf and open sysoc.inf (see the previous tip for more information about this file). You'll see a line that reads:
msmsgs=msgrocm.dll,OcEntry,msmsgs.inf,hide,7
Change this to the following and Windows Messenger will appear in Add or Remove Programs, then Add/Remove Windows Components, then , and you can remove it for good:
msmsgs=msgrocm.dll,OcEntry,msmsgs.inf,7
42. Rename multiple files ( it is not a Registry tweak though. I thought this to be really cool, so I have put it here)
A new, small, neat feature for Windows XP deals with renaming files. I personally have always wanted the OS to include a way to do a mass file renaming on a bunch of files. You can now rename multiple files at once .Its really simple:
Select several files in Explorer, press F2 and rename one of those files to something else. All the selected files get renamed to the new file name (plus a number added to the end). Simple J
I hope you enjoyed the above Registry tricks ! May be next time I?ll come up with more. That's all for now .
When you will open the Windows XP Registry , you will see it's divided into two panes. On the left side there are Five main
Keys as shown below. These can be expanded to several Sub-Keys, which further has many Sub-Keys.
+HKEY_CLASSES_ROOT
+HKEY_CURRENT_USER
+HKEY_LOCAL_MACHINE
+HKEY_USERS
+HKEY_CURRENT_CONFIG
Before you try out the Tweaks, learn how to Backup and Restore Windows XP Registry.
Types of Registry Backups :
It?s very important that before you do editing you make a backup of the current registry. If you ignore this warning, it might prove deadly for you?so better listen to me J
Open your registry. Go to Start>Run , type regedit . When you invoke the Export function from File>Export, you are given a choice of different file types that can be saved :
Registration Files (*.reg)
Registry Hive Files (*.*)
Text Files (*.txt)
Win9x/NT 4 Registration Files (*.reg)
All Files
Each one of the different file types above plays an important role in how the data you export is saved. Choosing the wrong type can give you unexpected results. So let me explain you quickly these file types.
Registrations Files : The Registration Files option creates a .reg file. This is the most well known file format used for backing up the registry. The Registration File can be used in two ways. As a text file it can be read and edited using Notepad outside of Registry Editor. Once the changes have been made and saved, right clicking the file and using the [Merge] command adds the changed file back into the registry. If you make additions to the registry using regedit and then merge the previously saved Registration File, anything that you've added via regedit will not be removed, but changes you make to data using regedit that previously existed in the saved Registration File will be overwritten when it is merged
Registry Hive Files : Unlike the Registration Files option above, the Registry Hive Files option creates a binary image of the selected registry key. The image file is not editable via Notepad nor can you view its contents using a text editor. However, what the Registry Hive Files format does is create an image perfect view of the selected key and allow you to import it back into the registry to insure any problematic changes you made are eliminated.
Text Files : This option does just as the name suggests. It creates a text file containing the information in the selected key. It's most useful purpose is creating a record or snapshot of a key at a particular point in time that you can refer back to if necessary. It cannot be merged back into the registry like a Registration File.
Win9x/NT 4 Registration Files : This option creates a .reg file in the same manner used by the Registration Files option. It's used by previous Windows versions and serves no purpose in XP unless you want to merge a key from XP into a previous version of Windows.
Out of the give above choices , the safest method of backing up registry is to use Registry Hive Files option. No matter what ever you do or goes wrong in editing, importing the image of the key will eliminate all changes.
**Note-> I have included the exact name/value between [ ] brackets. [ & ] should be ignored, only the data inside them should be considered.
1. Customize Windows Media Player Title Bar
Change the title bar to read Windows Media Player provided by
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwarePoliciesMicrosoft
Create the Key [WindowsMediaPlayer]
Create String value named [TitleBar]
Data Type: REG_SZ // Value Name: TitleBar
Double click TitleBar and Enter the text to be displayed in the title bar.
Exit Registry / Reboot
2. Minimize Outlook 2002 to the System Tray
If you frequently access Outlook during the day it?s more convenient to have it minimized to the system tray rather than invoking it each time you need to send/receive e-mail. This tweak minimizes Outlook 2002 to the system tray:
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftOffice10.0OutlookPreferences
Modify/Create Data Type DWORD named [MinToTray]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
3. Specify Default IE Download Directory
This tweak changes the default directory where downloads initiated in Internet Explorer are stored on the system.
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftInternet Explorer
Modify/Create String Value of Data type REG_SZ Named [Download Directory]
Value Data: [Enter Path to Directory to be Assigned as Defualt for Downloads]
Exit Registry / Reboot
4. Force Use of Classic Start Menu
This tweak loads the Classic Start Menu and makes it impossible to change back to the Windows XP version
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
Modify/Create the DWORD Value of Data type REG_DWORD Named [NoSimpleStartMenu]
Value Data: [0 = Default / 1 = Force Classic Start Menu]
Exit Registry / Reboot
5. Hide/Show Internet Explorer Desktop Icon
By default, Windows XP does not show the Internet Explorer icon on the Windows desktop. Using the registry tweak below allows you to control whether or not the Internet Explorer icon is displayed.
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
Modify/Create DWORD Value of Data type REG_DWORD Named [NoInternetIcon]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
6. Increase Menu Display Speed
When you click on the Start Menu there is some delay to display the contents , just for no reason. Effects are pretty though. The default speed can be adjusted with a quick registry entry.
The default value is 400. Set it to 0 and the delay is gone. If you are not able to adjust pick a number that suits your style and make the change.
[Start] [Run] [Regedit]
Go to HKEY_CURRENT_USERControl PanelDesktop
Modify/Create String value of Data type REG_SZ Named [MenuShowDelay]
Value Data: [Default = 400 / Adjust to Preference]
Exit Registry / Reboot
7. Change the Location of Special Folders
This tweak allows changing the location of special folders on the system. Any of the folders listed in the registry key may be moved.
[Start] [Run] [Regedit]
Go to : HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerUserShell Folders
Modify/Create String value of Data type REG_SZ Named [Various Folder Names]
Data Type: REG_SZ [String Value] // Value Name: Consult RegEdit for Folder Names
Value Data: [Move the folder to the new desired location using explorer, and then edit the matching folder in RegEdit to reflect the new folder location]
Exit Registry and Reboot
8. Faster Browsing in Windows Explorer on Network Computers
By default, a Windows XP machine connecting to a Windows 95/98/Me computer will search for scheduled tasks or enabled printers on the remote computer. Two sub-keys control this behavior. Deleting them will speed up browsing on the remote computer.
[Start] [Run] [Regedit]
Go to : HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersionExplorerRemoteComputerNameSpace
To Disable Scheduled Task Checking
Value Name: {D6277990-4C6A-11CF-8D87-00AA0060F5BF}
Delete the sub-key in the left pane of Registry Editor
To Disable Printer Checking
Value Name: {2227A280-3AEA-1069-A2DE-08002B30309D}
Delete the sub-key in the left pane of Registry Editor
Exit Registry / Reboot
9. Add Administrator Account to Log In Screen
When Windows XP is first installed it requires you to enter at least one name of a user who will access the computer. Once you create this name the default Administrator account vanishes. To access it, press Ctrl-Alt-Delete twice at the Welcome screen to retrieve the standard Windows 2000 logon dialog. Log on as Administrator from this point. To log the Administrator off, click [Start] [Log Off] and [Log Off] when the [Log Off Windows] selection box appears. The Log On screen with the available users will be displayed.
To Make the Administrator Account Always Visible on the Login Screen use this Registry Tweak.
[Start] [Run] [Regedit]
Go to: HKEY_LOCALMACHINESOFTWAREMicrosoftWindows NTCurrentVersionWinlogonSpecialAccountsUserList
Modify/Create DWORD Value of Data type REG_DWORD Named [Administrator]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
10. Increase Internet Download Connections
Increase Simultaneous Internet Download Connections. Increases the number of allowed simultaneous connections to ten (10).
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionInternet Settings
Modify/Create DWORD Value of Data type REG_DWORD Named [MaxConnectionsPer1_0Server]
Setting for Value Data: [0000000a]
Modify/Create DWORD Value of Data type REG_DWORD Named [MaxConnectionsPerServer]
Setting for Value Data: [0000000a]
Exit Registry / Reboot
11. Connected Web Files and Folders
Connecting web files and folders allows a primary .htm or .html file to be moved in conjunction with files associated with the primary document. Once the primary document has been defined, create a sub-folder using the same name as the primary document but assign it a .files extension. Whenever the primary file is moved, the sub-folder will also move and remain as a sub-folder of the primary.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorer
Modify/Create DWORD Value of Data type REG_DWORD Named [NoFileFolderConnection]
Setting for Value Data: [0 = Enabled (Default) / 1 = Disabled]
Exit Registry / Reboot
12. Hide/Show My Documents Folder on Desktop
By default, Windows XP does not show the My Documents folder on the Windows desktop. Using the registry tweak below allows you to control whether or not My Documents is displayed.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerCLSID{450D8FBA-AD25-11D0-98A8-0800361B1103}ShellFolder
Modify/Create DWORD Value of Data type REG_DWORD Named [Attributes]
Setting for Value Data: [Default = 0xf0400174 / Hidden = 0xf0500174]
Exit Registry / Reboot
13. Create a Hidden User Account
This tweak allows an account that is normally displayed on the Welcome screen to be hidden from view. To log on using the account it's necessary to use the Log On To Windows dialog box similar to the one in Windows 2000 i.e. press CTRL+ALT+DEL twice.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsNTCurrentVersionWinlogonSpecialAccountsUserList
Modify/Create DWORD Value of Data type REG_DWORD Named [Type Name of Account to be Hidden]
Setting for Value Data: [0 = Account is Hidden / 1 = Enabled]
Exit Registry / Reboot
While the account is hidden on the Welcome screen, note that the account profile will be visible in C:Documents and Settings or wherever user profiles are stored as well as in Local Users and Groups.
14. Create Legal Notice Logon Dialog Box
In situations where you need users to read a legal notice before logging on, this tweak will create the caption for the notice.
Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NTCurrentVersionWinlogon
Modify/Create String Value of Data type REG_SZ Named [LegalNoticeCaption]
Value Data for LegalNoticeCaption: [Type the Caption for the Dialog Box]
Modify/Create String Value of Data type REG_SZ Named [LegalNoticeText]
Value Data for LegalNoticeText: [Type the Data for the Legal Notice]
Exit Registry / Reboot
15. Manage Internet Explorer Error Reporting
This tweak removes the IE Error Reporting tool from appearing with the option to send browser debugging reports to Microsoft.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESoftwareMicrosoftInternet ExplorerMain
Note:- Create both values listed below and set according to the bold type for the tweak to function properly.
Modify/Create DWORD Value of Data type REG_DWORD Named [IEWatsonEnabled]
Value Data: [0 - Disabled / 1 - Enabled]
Modify/Create DWORD Value of Data type REG_DWORD Named [IEWatsonDisabled]
Value Data: [0 - Disabled / 1 - Enabled]
Exit Registry / Reboot
16. Customize Logon and Security Dialog Title
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NT CurrentVersionWinlogon
Modify/Create String Value of Data type REG_SZ Named [Welcome]
Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
17. Customize Logon Box Message
This is the message displayed on the Classic Logon box, not the XP ?Welcome? logon screen
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NT CurrentVersionWinlogon
Modify/Create String Value of Data type REG_SZ Named [LogonPrompt]
Value Data: [Enter the text of the message]
Exit Registry / Reboot
18. Welcome Screen Logon Vs Classic Logon
This tweak specifies whether the Welcome screen or the Classic logon will be used to access Windows XP.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NTCurrentVersionWinlogon
Modify/Create DWORD Value of Data type REG_DWORD Named [LogonType]
Value Data: [0 - Classic Mode / 1 - Welcome Screen]
Exit Registry / Reboot
19. QoS (Quality Of Service) Bandwidth Reserve Setting
By default, Windows XP reserves 20% of the connection bandwidth for QoS traffic. This tweak allows the setting to be altered to a different percentage of connection bandwidth. If the system uses more than a single adapter for network connections, each adapter may be set individually by navigating to:
HKEY_LOCAL_MACHINESYSTEMCurrentControlSetServicesPschedParametersAdapters{Adpater-ID} rather than HKEY_LOCAL_MACHINESOFTWAREPoliciesMicrosoftWindowsPsched
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREPoliciesMicrosoftWindowsPsched
Modify/Create DWORD Value of Data type REG_DWORD Named [NonBestEffortLimit]
Setting for Value Data: [Enter as a Percentage / Default Value = 20]
Exit Registry / Reboot
20. Enable/Disable Save Password in DUN
This tweak saves user passwords for Dial Up Networking so they do not have to be re-entered each session.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESYSTEMCurrentControlSetServicesRasManParameters
Modify/Create DWORD Value of Data type REG_DWORD Named [DisableSavePassword]
Setting for Value Data: [0 = Disabled (Passwords Saved) / 1 = Enabled (Passwords Not Saved)]
Exit Registry / Reboot
21. Change the Registered Organization/Owner of Windows XP
This tweak allows modification of the registered owner and organization of the Windows XP software.
Note:- This tweak has nothing to do with Windows Product Activation (WPA) and will not allow you to register illegal XP software.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindows NTCurrentVersion
Modify/Create String Value of Data type REG_SZ Named [RegisteredOrganization] or [RegisteredOwner]
Setting for Value Data: [Modify the Values to Reflect Current Information]
Exit Registry / Reboot
22. Remove Links Folder in Favorites
The Links folder is part of Favorites whether it's being accessed through Internet Explorer or the Favorites menu in the Start Menu. This tweak will remove it from those locations.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftInternet ExplorerToolbar
Modify/Create String Value of Data type REG_SZ Named [LinksFolderName]
Value Data: [Set the String Value to a blank string]
Open Internet Explorer and manually delete the Links folder from Favorites Menu.
The Links folder will not be recreated.
Exit Registry / Reboot
23. Enable/Disable Active Window Tracking to Mouse Movements
When the mouse is moved over an open window it automatically sets the focus to that particular window. It does not bring the window to the foreground of the open windows.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERControl PanelMouse
Modify/Create DWORD Value of Data type REG_DWORD Named [ActiveWindowTracking]
Setting for Value Data: [0 = ActiveWindowTracking Disabled / 1 = ActiveWindowTracking Enabled]
Exit Registry / Reboot
24. Auto Disconnect for Internet Explorer
Use this edit to automatically disconnect from Internet Explorer after a specified length of time has elapsed. Use this trick on anyone whom you don?t like using your computer with net J
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESystemCurrentControlSetServicesLanmanServerParameters
Modify/Create DWORD Value of Data type REG_DWORD Named [Autodisconnect]
Value Data: [Enter a new disconnect time. Use Hexadecimal if you are unfamiliar with Binary]
Exit Registry / Reboot
25. Auto Reboot on System Crash
By default, when the Windows XP operating system crashes an automatic reboot of the system occurs. While this behavior can be convenient, the downside is the error message accompanying the crash is not visible. Often times this information can be a great help in troubleshooting the source of the crash. This behavior can be modified in two ways; via the registry or using the System Properties property sheet.
[Start] [Run] [Regedit]
Registry Key: HKEY_LOCAL_MACHINESYSTEMCurrentControlSetControlCrashControl
Modify/Create DWORD Value of Data type REG_DWORD Named [AutoReboot]
Setting for Value Data: [0 = AutoReboot Disabled / 1 = AutoReboot Enabled]
Exit Registry / Reboot
Open System Properties via Start > Control Panel > Performance and Maintenance > System
[System Properties may also be opened using the WinKey+Pause key combination]
Select the Advanced tab and then click Settings in the Startup and Recovery section
In System Failure section, clear the checkbox next to Automatically Restart
Click OK and OK to exit
26. Modify Control Panel Categories
Even if you like the new style for Control Panel, you might at times wish you could shift some items around into a different category. It's possible.
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsCurrentVersionControl PanelExtended Properties{305CA226-D286-468e-B848-2B2E8E697B74} 2
Modify/Create DWORD Value of Data type REG_DWORD Named [Choose one of the applets with .cpl extension]
Setting for Value Data: [Select the value from table below]
Other Control Panel Options 0
Appearance and Themes 1
Printers and Other Hardware 2
Network and Internet Connections 3
Sounds, Speed, and Audio Devices 4
Performance and Maintenance 5
Date, Time, Language, and Regional Options 6
Accessibility Options 7
Add or Remove Programs 8
User Accounts 9
Exit Registry / Reboot
To further customize the items that appear in the new Control Panel, do a search of your system for all files that end in .cpl extension. If they aren't already listed, you can add them with a new DWORD value and then assign them to a category of your choosing.
27. Enable/Disable Run Commands Specific to the Registry
This tweak controls the use of the Run command on the local machine
[Start] [Run] [Regedit]
Go to: HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersion PoliciesExplorer
Create a DWORD value of Data Type REG_DWORD for each Run function that will be disabled.
Modify/Create the Value Name [DisableLocalMachineRun]
Modify/Create the Value Name [DisableLocalMachineRunOnce]
Modify/Create the Value Name [DisableCurrentUserRun]
Modify/Create the Value Name [DisableCurrentUserRunOnce]
Setting for Value Data: [0 = Disabled / 1 = Enabled]
Exit Registry / Reboot
28. Enable/Disable System Properties Access from My Computer
This tweak removes access to System Properties via My Computer as well as via Control Panel.
[Start] [Run] [Regedit]
Go to: HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
Modify/Create DWORD Value of Data type REG_DWORD Named [NoPropertiesMyComputer]
Value Data: [0 - Display Properties / 1 - Hide Properties]
Exit Registry / Reboot
29. Uninstall Programs Manually
Just because Windows XP has the Add/Remove Programs feature it doesn't mean your application will appear in the list. Furthermore, even if it does appear, it's no guarantee that the uninstall feature will work. When you run across one of these situations the items listed below will help in getting rid of the application. Be aware that these steps may not remove everything associated with the application and can impact other applications on the computer. Have a backup or restore point and use caution.
Find the directory for the application and delete all the files in the directory. Delete the directory.
Open regedit and navigate to HKEY_LOCAL_MACHINESOFTWARE and find the folder for the application. Delete the folder.
Open regedit and navigate to HKEY_CURRENT_USERSOFTWARE and find the folder for the application. Delete the folder.
To remove the application entry from Add/Remove Programs (if present) open regedit and navigate to HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsCurrentVersionUninstall and find the folder for the application. Delete the folder.
Some applications have Services attached to them. If this is the case, navigate to HKEY_LOCAL_MACHINESystemCurrentControlSetServices, locate and delete the service.
In Windows Explorer, navigate to the individual user settings and delete program references. Common places to check would be:
C:Documents and SettingsAll UsersStart MenuPrograms and delete relevant entries.
C:Documents and SettingsAll UsersStart MenuProgramsStartup and delete relevant entries.
C:Documents and Settings%YourUserID%Start MenuPrograms and delete relevant entries.
[Do this for each User ID listed]
C:Documents and Settings%YourUserID%Start MenuProgramsStartup and delete relevant entries.
[Do this for each User ID listed]
If no entries were found in the previous step and the application launches automatically, navigate to
HKEY_CURRENT_USERSoftwareMicrosoftWindows NTCurrentVersionWindows
and delete the entry.
30. Create a right-click command prompt option
You can right-click a folder to get a list of actions you can apply to it. Here?s a way to create an action on that right-click menu that opens a command prompt window with that folder as the current directory. In a text editor such as Notepad, type the following exactly:
Windows Registry Editor Version 5.00
[HKEY_CLASSES_ROOTFoldershellCmd Here]
@=?Command &Prompt Here?
[HKEY_CLASSES-ROOTFoldershellCmd Herecommand]
@=?cmd.exe /k pushd %L?
Save the file with any name you want, with a .reg extension. Then double-click the saved file and choose Yes to merge the file?s information into the Registry. You can delete the file. Right-click any folder and you?ll see the CommandPrompt Here option.
31. Adjusting System Restore values
The new System Restore feature in Windows XP automatically backs up a snapshot of your system, including your Registry, every 24 hours. It also saves restore points for 90 days. Neither of these values is directly editable in the System Restore program, but you can change them in the Registry. Go to:
HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsNTCurrentVersionSystemRestore
You?ll find an assortment of settings here. To change the interval between automatically created restore points, change the RPGlobalInterval setting. To change the number of days that a restore point is retained, change the RPLifeInterval setting.
System Restore time intervals are measured in seconds, not days, so you must convert the number of days you want into seconds. There are 86,400 seconds in a day, so multiply 86,400 by the number of days you want to determine the value. (There are 3,600 seconds in an hour, I hope you know)
32. Erase the swap file at shutdown
You might be concerned about someone browsing your users? swap files and gathering up little bits of their sensitive data. A remote possibility, to be sure, but it could happen. For that extra measure of security, go to:
HKEY_LOCAL_MACHINESystemCurrentControlSetControlSession ManagerMemory Management
Set the ClearPageFileAtShutdown DWORD to 1. This will make shutdowns take longer, because it overwrites everything in the swap file with zeroes. Don?t turn this feature on unless you have a serious security threat.
33. Delete the Files Stored on This Computer category in the My Computer window
In Windows XP, the My Computer window?s listing is broken down by categories: Hard Disk Drives, Devices with Removable Storage, and so on. One of these categories is Files Stored on This Computer, which appears at the top of the My Computer window. If a user doesn?t need it , you can get rid of it. To do so, go to:
HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersionExplorerMyComputer
NameSpaceDelegate Folders
Delete the {59031a47-3f72-44a7-89c55595fe6b30ee} subkey to remove the category.
34. Change the desktop cleanup frequency
Through Display Properties (Desktop tab, Customize Desktop button, General tab), you can turn on and off a feature that runs the Desktop Cleanup Wizard every 60 days. You don?t have an option to set a different interval there, but you can change the interval in the Registry. To do so, go to:
HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerDesktopCleanupWiz
Change the Days Between Clean Up Value to some other number of days (in decimal format).
35. Sort menus alphabetically
When you install a new program for a user, it doesn?t find its place in the alphabetical Start menu hierarchy right away; it hangs out at the bottom for a little while. If your users employ the Classic Start menu, they can re-alphabetize it manually by right-clicking the taskbar and choosing Properties, clicking the Customize button next to the Classic Start Menu, and clicking the Sort button. With the Windows XP style of Start menu, however, you don?t have an equivalent button. To make Windows always alphabetize the list, remove the permissions from the Registry key that controls the sort order for the Start menu. To do so, go to:
HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerMenuOrder
Choose Edit | Permissions and click the Advanced button. Deselect the Inherit From Parent The Permission Entries That Apply To Child Objects check box and then click Copy when the Security dialog box pops up. Click OK and clear the Full Control entry for your account and all security groups you are a member of. Leave only Read permission.
36. Prevent programs from loading at startup
Remember back in the good old days of Windows 3.1 when you could open up the Win.ini file in a text editor and remove an item from the RUN= line to disable it from running at startup? With Windows 9x and above, the Win.ini file became less useful because 32-bit programs were set to run at startup from within the Registry instead.
One way to selectively disable programs from loading at startup is to use MSCONFIG (from the Run command) to deselect certain items. Another way to remove them is to edit the Registry directly. Consider the following locations:
HKEY_LOCAL_MACHINESoftwareMicrosoftWindowsCurrentVersionRun
for applications that start up for all users
HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionRun
for applications that start up when the current user logs on
Remove the entry for a program by right-clicking it and selecting Delete to prevent it from loading.
37. Change categories in the Control Panel
Windows XP?s Control Panel is broken down by category in the default Category view, but the group to which an item belongs is not always obvious. If you disagree with Microsoft?s assignments, you can switch them around. To assign a different category to an item, go to:
HKEY_LOCAL_MACHINESOFTWAREMicrosoftWindowsCurrentVersionControl PanelExtended Properties
{305CA226-D286-468e-B848-2B2E8E697B74} 2
Find the item you want to change and double-click it to bring up a dialog box. Change the item?s DWORD value to your preference. Use the Table given below as a guide (shown with decimal numbers, which is the way you should enter them).
DWORD value to set
Other Control Panel Options 0
Appearance and Themes 1
Printers and Other Hardware 2
Network and Internet Connections 3
Sounds, Speed, and Audio Devices 4
Performance and Maintenance 5
Date, Time, Language, and Regional Options 6
Accessibility Options 7
Add or Remove Programs 8
User Accounts 9
38. Grouping multiple open windows
Windows XP will group multiple open windows (IE windows for example) into one group on the task bar to keep the taskbar clear. This can be annoying at times - especially when comparing different web pages because you have to go back to the task bar, click on the group and then click on the page you want and then you only get one page because you have to click on each one separately. I think the default for this is 8 windows - any combination of apps or utilities open.
You can modify this behavior by adding this registry key at:
HKEY_CURRRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerAdvanced
add a Dword value of type REG_DWORD named [TaskbarGroupSize]
modify "TaskbarGroupSize" entry to be the number of windows you want open before XP starts to group them on the task bar.
A value of 2 will cause the Taskbar buttons to always group
Another tweak is to disable or enable recent documents history. This can be done at:
HKEY_CURRRENT_USERSoftwareMicrosoftWindowsCurrentVersionPoliciesExplorer
this key should already be present - if it isn't you'll need to add it:
Add a Binary value of type REG_BINARY named [NoRecentDocsHistory]
modify it so that value reads 01 00 00 00
39. Disable Tips
To disable Ballon tips in Windows XP do this registry tweak
Go to : HKEY_CURRENT_USERSoftwareMicrosoftWindowsCurrentVersionExplorerAdvanced
Create a new DWORD value, name it EnableBalloonTips, and set it equal to 0. If EnableBalloonTips is already there and equal to 1, set it equal to 0. Quit the registry editor, log off, and log back on. Voila! Your computer will stop talking down to you.
40. Add/Remove optional features of Windows XP
To dramatically expand the list of applications you can remove from Windows XP after installation, navigate to C:WINDOWSinf and open the sysoc.inf file. {Opps , if you didn?t find the inf directory, you are right. It?s a hidden folder, so go to Tools>Folder Options> View , enable Show Hidden Files & Folders.}
[Version]
Signature = "$Windows NT$"
DriverVer=07/01/2001,5.1.2600.0
[Components]
NtComponents=ntoc.dll,NtOcSetupProc,,4
WBEM=ocgen.dll,OcEntry,wbemoc.inf,hide,7
Display=desk.cpl,DisplayOcSetupProc,,7
Fax=fxsocm.dll,FaxOcmSetupProc,fxsocm.inf,,7
NetOC=netoc.dll,NetOcSetupProc,netoc.inf,,7
iis=iis.dll,OcEntry,iis.inf,,7
com=comsetup.dll,OcEntry,comnt5.inf,hide,7
dtc=msdtcstp.dll,OcEntry,dtcnt5.inf,hide,7
IndexSrv_System = setupqry.dll,IndexSrv,setupqry.inf,,7
TerminalServer=TsOc.dll, HydraOc, TsOc.inf,hide,2
msmq=msmqocm.dll,MsmqOcm,msmqocm.inf,,6
ims=imsinsnt.dll,OcEntry,ims.inf,,7
fp_extensions=fp40ext.dll,FrontPage4Extensions,fp40ext.inf,,7
AutoUpdate=ocgen.dll,OcEntry,au.inf,hide,7
msmsgs=msgrocm.dll,OcEntry,msmsgs.inf,hide,7
RootAutoUpdate=ocgen.dll,OcEntry,rootau.inf,,7
IEAccess=ocgen.dll,OcEntry,ieaccess.inf,,7
Games=ocgen.dll,OcEntry,games.inf,,7
AccessUtil=ocgen.dll,OcEntry,accessor.inf,,7
CommApps=ocgen.dll,OcEntry,communic.inf,HIDE,7
MultiM=ocgen.dll,OcEntry,multimed.inf,HIDE,7
AccessOpt=ocgen.dll,OcEntry,optional.inf,HIDE,7
Pinball=ocgen.dll,OcEntry,pinball.inf,HIDE,7
MSWordPad=ocgen.dll,OcEntry,wordpad.inf,HIDE,7
ZoneGames=zoneoc.dll,ZoneSetupProc,igames.inf,,7
[Global]
WindowTitle=%WindowTitle%
WindowTitle.StandAlone="*"
The entries that include the text hide or HIDE will not show up in Add/Remove Windows Components by default. To fix this, do a global search and replace for ,hide and change each instance of this to , (a comma). Then, save the file, re launch Add/Remove Windows Components,
41. Remove Windows Messenger
It seems that a lot of people are interested in removing Windows Messenger for some reason, though I strongly recommend against this: In Windows XP, Windows Messenger will be the hub of your connection to the .NET world, and now that this feature is part of Windows, I think we're going to see a lot of .NET Passport-enabled Web sites appearing as well. But if you can't stand the little app, there are a couple of ways to get rid of it, and ensure that it doesn't pop up every time you boot into XP. The best way simply utilizes the previous tip:
If you'd like Windows Messenger to show up in the list of programs you can add and remove from Windows, navigate to C:WINDOWSinf and open sysoc.inf (see the previous tip for more information about this file). You'll see a line that reads:
msmsgs=msgrocm.dll,OcEntry,msmsgs.inf,hide,7
Change this to the following and Windows Messenger will appear in Add or Remove Programs, then Add/Remove Windows Components, then , and you can remove it for good:
msmsgs=msgrocm.dll,OcEntry,msmsgs.inf,7
42. Rename multiple files ( it is not a Registry tweak though. I thought this to be really cool, so I have put it here)
A new, small, neat feature for Windows XP deals with renaming files. I personally have always wanted the OS to include a way to do a mass file renaming on a bunch of files. You can now rename multiple files at once .Its really simple:
Select several files in Explorer, press F2 and rename one of those files to something else. All the selected files get renamed to the new file name (plus a number added to the end). Simple J
I hope you enjoyed the above Registry tricks ! May be next time I?ll come up with more. That's all for now .