AVS4YOU Programs Help · Resources Documentation for your AVS4YOU software is available in a...
Transcript of AVS4YOU Programs Help · Resources Documentation for your AVS4YOU software is available in a...
AVS4YOU Help - AVS MP3 Disc Creator
AVS4YOU Programs Help
AVS MP3 Disc Creator
www.avs4you.com
© Online Media Technologies, Ltd., UK. 2004 - 2009 All rights reserved
Contact Us
If you have any comments, suggestions or questions regarding AVS4YOU programs or if you have a new feature that you feel can be added to improve our product, please feel free to contact us.
When you register your product, you may be entitled to technical support.
Technical Support
AVS4YOU programs do not require any professional knowledge. If you experience any problem or have a question, please refer to the AVS4YOU Programs Help. If you cannot find the solution, please contact our support staff.
Note: only registered users receive technical support.
AVS4YOU staff provides several forms of automated customer support:
AVS4YOU Support SystemYou can use the Support Form on our site to ask your questions.
E-mail SupportYou can also submit your technical questions and problems via e-mail to [email protected].
Note: for more effective and quick resolving of the difficulties we will need the following information:
Name and e-mail address used for registration
System parameters (CPU, hard drive space available, etc.)
Operating System
The information about the capture, video or audio devices, disc drives connected to your computer
(manufacturer and model)
Detailed step by step describing of your action
Please do NOT attach any other files to your e-mail message unless specifically requested by AVS4YOU.com support staff.
General information: [email protected]
Technical support: [email protected]
Sales: [email protected]
Help and other documentation: [email protected]
AVS4YOU Programs Help
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Resources
Documentation for your AVS4YOU software is available in a variety of formats:
In-product (.chm-file) and Online Help
To reduce the size of the downloaded software installation files the in-product help was excluded from the installation although you can always download it from our web-site for your convenience. Please, visit AVS4YOU web-site at http://www.avs4you.com/OnlineHelp/index.aspx to download the latest available version of the help executable, run it and install into the AVS4YOU programs folder. After that you will be able to use it through the Help menu of the installed AVS4YOU software.
Online Help include all the content from the In-product help file and updates and links to additional instructional content available on the web. You can find the Online Help at our web-site - http://www.avs4you.com/OnlineHelp/index.aspx. Please note, that the most complete and up-to-date version of AVS4YOU programs help is always on the web.
PDF Documentation
The offline help is also available as a pdf-file that is optimized for printing. All PDF help files are available for download at the programs pages at AVS4YOU web-site (both http://www.avs4you.com/index.aspx and http://www.avs4you.com/OnlineHelp/index.aspx). To be able to read and print AVS4YOU PDF help files you will need to have a PDF reading program installed.
User Guides
You have access to a wide variety of resources that help you make the most of your AVS4YOU software. The step-by-step user guides will be of help not only to the novice users but also to the users that face a certain task to be performed and look for a way to do it. Please, visit our User Guides section of AVS4YOU web-site at http://www.avs4you.com/Guides/index.aspxto read the detailed instructions for various software and tasks
Technical Support
Visit the AVS4YOU Support web-site at http://support.avs4you.com to ask your questions concerning AVS4YOU software installation, registration and use. Feel free to also use our e-mail address [email protected].
Downloads
Visit the Downloads section - http://www.avs4you.com/downloads.aspx - of our web-site to find free updates, tryouts, and other useful software. We constantly update the software, new versions of the most popular programs and new software are also frequently released.
AVS4YOU Programs Help
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Overview
AVS MP3 Disc Creator is a compact full-featured application, which allows you to easily create MP3, WMA and AAC audio CDs from
MP3, WAV, OGG and other digital music formats, so that you can listen to your favorite music at any MP3 CD-player such as hardware
CD player, musical centers, car audio.
It allows you to create MP3, WMA and AAC CDs for playing them with any MP3 compatible CD-player, record R/RW discs on-the-fly
without need to create intermediate uncompressed file at your hard drive, erase the information from a CD-RW and visually judge the
progress of the writing process.
To start AVS MP3 Disc Creator go to Start menu and choose All Programs -> AVS4YOU -> Burning -> AVS MP3 Disc
Creator.
Step 1: Getting Started
AVS MP3 Disc Creator wizard starts with the Step 1 window. Please select the CD-RW drive you are going to use for audio CD
creation. If you have only one CD-RW drive at your computer, it'll be chosen by default.
After that you will need to set the output file parameters.
Note: it's possible to change Bitrate of output MP3 files. See also Available MP3 Parameters
Combinations.
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You can also select to reconvert the source files with the parameters set above. It means, that all the files, even of the same type,
having bitrate different from the selected one will be converted so that their bitrate were equal to the set value.
When you are ready, please click the Next>> button to proceed to the next step.
Step 2: Adding Files and Burning Disc
At Step 2 AVS MP3 Disc Creator will suggest that you create file structure of your MP3 CD. In Directories part you can create
and rename directories, and in Name part you can see all of the files that the highlighted directory contains.
Note: you can add separate files as well as folders containing audio files.
To add files or folders or remove them from the list please use Add file(s), Add Folder and Remove buttons accordingly. To create
a new folder in Directories part please use Create Folder button. If you right click the Directories list you can find an additional
menu, which allows you to perform the following operations:
AVS4YOU Programs Help - AVS MP3 Disc Creator
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Operation Keyboard Shortcut
Add Files... Ins
Add Folder... Shift+Ins
Remove Del
Remove all Shift+Del
Rename F2
Right click menu at the Name part differs from the one described above. It allows you to:
Operation Keyboard Shortcut
Add Files... Ins
Add Folder... Shift+Ins
Remove Del
Remove all Shift+Del
Select All Ctrl+A
File Info.. Ctrl+F
Rename F2
Selecting File Info... item from this menu allows you to call up the Information window where you can add extra text information
about the highlighted file, such as Track number, Artist, Title, Comments and others. To save the entered information click the
Save button, to load the extra text information contained in the existing file use Reload button.
You can also control the size of added files with the help of Size Control Bar:
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To make sure you've chosen the correct file you can play it directly from AVS MP3 Disc Creator. In order to do that highlight the
necessary file in the Name list and use the following buttons:
To play the selected file
To pause the selected file
To stop the selected file
To go to the previous file
To go to the next file
It is also possible to rewind or fast-forward the selected file using Seeking Bar. Just click the Seeking Bar cursor and drag it.
The writing process will start after clicking the Burn>> button. You can visually judge the completion of writing process with the
Progress Bar.
You can also cancel writing process by clicking the Cancel button.
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Bitrate
Bitrate is defined as the number of data points used to approximate the true wave form. Obviously, the higher the number, the more
accurately the wave form is approximated.
For example, the current de facto standard is to encode MP3 at 192 kbps, or 192,000 bits per second. The CODEC takes the bitrate
into consideration as it writes each frame to the bitstream. If the bitrate is low, the irrelevancy and redundancy criteria will be
measured harshly, and more subtlety will be stripped out, resulting in a lower-quality product. If the bitrate is high, the codec will be
applied with leniency, and the end result will sound better. Of course, the file size of the end product corresponds directly with the
bitrate.
192 kbps is an example of a constant bitrate (CBR) mode. Constant Bit Rate (CBR) encoding maintains the same bitrate
throughout an encoded file. All that means is no matter what, there will always be 192 kbps written into the bitstream. If your audio
has moments of silence, it is captured and encoded at that rate, as are areas of very diverse frequencies (that might sound better if
encoded to a higher bitrate).
Variable Bit Rate (VBR) is an MP3 encoding method that's used when file size is not an issue. As it's name implies, the bitrate is
varied throughout the file. The codec guesses which parts could benefit from more bits per second, and which can use less. The
result is a much higher quality file.
Frequency
Sampling frequency also impacts fidelity. The sampling frequency is essentially the number of times the sound event is quantized
within a given time period. Sampling frequencies are specified in KiloHertz (KHz), a term meaning samples per second. The key in
understanding how sampling frequency affects fidelity is the Nyquist sampling theorem. Basically, when applied to audio signals the
Nyquist theorem states that the highest possible pitch in the sound is one-half that of the sampling frequency.
For example, "CD-quality" sound requires 16-bit words sampled at 44.1 KHz. Essentially this means 44,100 16-bit words (705,600
bits) are used to digitally describe each second of sound on a compact disc. The highest pitch possible is 22.05 KHz (approximately
the top of human hearing range), which is half of 44.1 KHz.
MP3 Advanced
MP3 Advanced window contains 4 tabs, which are:
General
Filtering
VBR
Expert
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General
At the General tab you can select the necessary Channels. The suggested choice includes the following variants: Stereo, Joint
Stereo, Forced Joint Stereo, Dual Channels and Mono. See the description of each mode in the table below:
Channel Description
Stereo
In this mode, the encoder makes no use of potentially existing correlations between the two input
channels. It can, however, negotiate the bit demand between both channels, i.e. give one channel
more bits if the other contains silence.
Joint stereo
In this mode, the encoder will make use of a correlation between both channels. The signal will be
matrixed into a sum ("mid") and difference ("side") signal. For quasi-mono signals, this will give a
significant gain in encoding quality. This mode does not destroy phase information like IS stereo that
may be used by other encoders. This setting can be used to encode DOLBY ProLogic surround
signals.
Forced Joint StereoThis mode will force MS joint stereo on all frames. It's faster and it uses some special mid and side
masking threshold.
Dual Channels
In this mode, the 2 channels will be totally independently encoded. Each channel will have exactly half
of the bitrate. This mode is designed for applications like dual languages encoding (for example:
English in one channel and French in the other). Using this encoding mode for regular stereo files will
result in a lower quality encoding.
MonoThis option will generate a mono file, if the input file is a stereo file, the input stream will be
downsampled to a mono file by averaging the left and right channel.
In the right part you will find the opportunity to set Encoder Quality. You can specify the output quality; thus you can trade off
encoding time against sound quality. The default (normal) is recommended for the lower bitrates (<160 kbps), high quality for
bitrates >160 kbps. The voice quality is more or less optimized to generate the best quality for voice
There are some built-in presets you can use. They have for the most part been subject to and tuned via rigorous double blind listening
tests to verify and achieve this objective. These are continually updated to coincide with the latest developments that occur and as a
result should provide you with nearly the best quality currently possible. You can find them in Preset and Alt-Preset lists.
Presets available:
Phone, SW, AM, FM, Voice, Radio, Tape, HiFi, CD, Studio, R3Mix.
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Alt-Presets available:
Preset Description
None Do not use any alt-presets
Fast Standard
VBR mode preset. It should generally be understandable to most people with most music and is
already quite high in quality. The resulting bitrate should be within the 170-210 kbps range, according
to music complexity. Enables the new fast VBR method for a Standard preset. Its disadvantage is that
often the bitrate will be slightly higher than with the normal mode and quality may be slightly lower
also.
Standard
VBR mode preset. It should generally be understandable to most people with most music and is
already quite high in quality. The resulting bitrate should be within the 170-210kbps range, according
to music complexity.
Fast Extreme
VBR mode preset. If you have extremely good hearing and similar equipment, this preset will provide
slightly higher quality than the "standard" mode. The resulting bitrate should be within the 200-240
kbps range, according to music complexity. The "fast"-option increases speed significantly but may
give a tiny bit lower quality.
Extreme
VBR mode preset. If you have extremely good hearing and similar equipment, this preset will provide
slightly higher quality than the "standard" mode. The resulting bitrate should be within the 200-240
kbps range, according to music complexity.
Insane
CBR mode preset. The "insane"-option gives you the current theoretical maximum quality possible.
The output files are flat 320 kbps. Using this may be a little insane, since the difference in quality in
between "extreme" and "insane" is minimal. However, if you simply don't care about file size, want
maximum quality, or you have hardware that can't handle VBR files, then you could use this option.
You can also select Mpeg Tag Version out of ID3 Ver.1 or ID3 Ver.2.
ID3 Ver.1
The audio format MPEG layer I, layer II and layer III (MP3) has no native way of saving information about the contents, except for
some simple yes/no parameters like "private", "copyrighted" and "original home" (meaning this is the original file and not a copy). A
solution to this problem was introduced with the program "Studio3" by Eric Kemp alias NamkraD in 1996. By adding a small chunk of
extra data in the end of the file one could get the MP3 file to carry information about the audio and not just the audio itself.
The placement of the tag, as the data was called, was probably chosen as there were little chance that it should disturb decoders. In
order to make it easy to detect a fixed size of 128 bytes was chosen. The tag has the following layout (as hinted by the scheme to the
right):
Song title 30 characters
Artist 30 characters
Album 30 characters
Year 4 characters
Comment 30 characters
Genre 1 byte
If one sums the size of all these fields we see that 30+30+30+4+30+1 equals 125 bytes and not 128 bytes. The missing three bytes
can be found at the very beginning of the tag, before the song title. These three bytes are always "TAG" and is the identification that
this is indeed an ID3 tag. The easiest way to find a ID3v1/1.1 tag is to look for the word "TAG" 128 bytes from the end of a file.
As all artists doesn't have a 30 character name it is said that if there is some bytes left after the information is entered in the field,
those bytes should be file with the binary value 0. You might also think that you cannot write that much in the genre field, being one
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byte big, but it is more clever than that. The byte value you enter in the genre field corresponds to a value in a predefined list. The
list that Eric Kemp created had 80 entries, ranging from 0 to 79.
ID3 Ver.2
ID3v2 is a new tagging system that lets you put enriching and relevant information about your audio files within them. In more down
to earth terms, ID3v2 is a chunk of data prepended to the binary audio data. Each ID3v2 tag holds one or more smaller chunks of
information, called frames. These frames can contain any kind of information and data you could think of such as title, album,
performer, website, lyrics, equalizer presets, pictures etc. The block scheme to the right is an example of how the layout of a typical
ID3v2 tagged audio file may look like.
One of the design goals were that the ID3v2 should be very flexible and expandable. It is very easy to add new functions to the
ID3v2 tag, because, just like in HTML, all parsers will ignore any information they don't recognize. Since each frame can be 16MB and
the entire tag can be 256MB you'll probably never again be in the same situation as when you tried to write a useful comment in the
old ID3 being limited to 30 characters.
Speaking of characters, the ID3v2 supports Unicode so even if you use the Bopomofo character set you'll be able to write in your
native language. You can also include in which language you're writing so that one file might contain e.g. the same lyrics but in
different languages.
Even though the tag supports a lot of byte consuming capabilities like inline pictures and even the possibility to include any other file,
ID3v2 still tries to use the bytes as efficient as possibly. If you convert an ID3v1 tag to an ID3v2 tag it is even likely that the new tag
will be smaller. If you convert an ID3v1 tag where all fields are full (that is, all 30 characters are used in every field) to an ID3v2 tag
it will be 56 bytes bigger. This is the worst case scenario for ID3v1 to ID3v2 conversion.
Since it's so easy to implement new functionality into ID3v2, one can hope that we'll see a lot of creative uses for ID3v2 in the future.
E.g. there is a built-in system for rating the music and counting how often you listen to a file, just to mention some brainstorm results
that are included. This feature can be used to build playlists that play your favorite songs more often than others.
Filtering
Highpass Filter cuts the lowest frequencies and passes the highest. The Lowpass Filter allows only the lower frequencies to be
present into the output signal; it will cut the beautiful crystal sound of a violin (frequencies over 10 KHz), but if it could amplify rather
than just pass the low frequencies, than it would enhance your favorite disco music with lots of percussions and bass.
Highpass filtering frequency (in kHz): Frequencies below the specified one will be cut off.
Width of Highpass filter (in kHz): The width of the highpass filter. The default is 15% of the highpass frequency.
Lowpass filtering frequency (in kHz): Frequencies above the specified one will be cut off.
Width of Lowpass filter (in kHz): The width of the lowpass filter. The default is 15% of the lowpass frequency.
Regarding to the Nyquist Sampling Theorem the sample rate have to be at least two times higher than the highest frequency of analog
audio signal. For example, the human ear can detect sound across the frequency range of 20 Hz to 20 kHz. According to the sampling
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theorem, one should sample sound signals at least at 40 kHz in order for the reconstructed sound signal to be acceptable to the
human ear.
So applying the low-pass analog filter to a file with sample rate of 8kHz you should take into consideration that the frequency
parameter of this method have to be at least two times less ( < 4 kHz) than the file's sample rate.
VBR
At VBR tab you should select Coding Method first. The description of each method can be found in the table below:
Coding Method Description
None Don't use VBR, instead it is encoding with a Constant Bit Rate (CBR)
Default Use the default VBR method (currently set to VBR-MTRH )
Old The functional approach, based on maskings, bisection in the bit domain
New The approach, based on maskings and direct noise allocation
MTRH A merger of old and new (VBR) routine
ABRThe Average Bit Rate (ABR) setting, the encoding principle is based on perceptual entropy, but more like
CBR than VBR
Maximum VBR Bitrate: Allows to specify an maximum bitrate when using VBR (Variable Bit Rate), this selecting depends on what
base bitrate you have chosen in the main encoder tab. It's recommended to leave this set to 320 kbit/s unless you want low quality
VBR files.
VBR Quality: In VBR mode, you are able to specify a quality setting which will affect encoding bitrate allocation. If you use quality 0,
the max bitrate will be reached easily, while using quality 9 the bitrate usually will be around the base bitrate. The lower the VBR
quality value, the better the audio quality, but also the bigger the output file. Recommended setting for high quality VBR encoding is
1 or 0.
Write VBR Header: This tag is embedded in frame 0 of the MP3 file. It lets VBR aware players correctly seek and calculate playing
times of VBR files.
Target bitrate for ABR: The allowed range of the ABR bitrate is 4 - 310 kbit/s, you can use any integer value within that range.
Expert
At Expert tab you can find the opportunity to set the following options:
include CRC-Checksum
When enabled, the encoder will calculate the cyclic redundancy check (CRC) for the MP3 frames, and will add the CRC value
to the MP3 stream.
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comply as much as possible to ISO MPEG spec
With this option, the encoder will enforce the 7680 bit limitation on total frame size. This results in many wasted bits for high
bitrate encodings.
allow block types to differ between channels
Allows the left and right channels to use different block types. Normally this is not allowed, only because the FhG encoder does
not seem to allow it either.
short blocks
Encode all frames using short blocks.
bit reservoir
Enable bit reservoir.
You can also set ATH Control function, useful for low volume. ATH is used to approximate an equal loudness curve. Select one of
the suggested modes:
ATH Control Mode Description
Default
OnlyThis option ignores the output of the psy-model and only use masking from the ATH. Might be useful
at very high bitrates or for testing the ATH.
DisabledDisable any use of the ATH (absolute threshold of hearing) for masking. Normally, humans are unable
to hear any sound below this threshold.
Only for short blocks Ignore psychoacoustic model for short blocks, use ATH only.
There are also three De-emphasis options: default, 0/15 microseconds and citt j.17.
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Available MP3 Parameters Combinations
You can find the available MP3 parameters combinations in the table below:
FrequencyMono Stereo
Minimum Maximum Minimum Maximum
48 KHz 64 Kbps 320 Kbps 128 Kbps 320 Kbps
44 KHz 56 Kbps 320 Kbps 112 Kbps 320 Kbps
32 KHz 40 Kbps 320 Kbps 80 Kbps 320 Kbps
24 KHz 32 Kbps 160 Kbps 64 Kbps 160 Kbps
22 KHz 32 Kbps 160 Kbps 56 Kbps 160 Kbps
16 KHz 32 Kbps 160 Kbps 40 Kbps 160 Kbps
12 KHz 24 Kbps 160 Kbps 32 Kbps 160 Kbps
11 KHz 16 Kbps 160 Kbps 32 Kbps 160 Kbps
8 KHz 8 Kbps 160 Kbps 8 Kbps 160 Kbps
Freque
ncy8 KHz 11.025 KHz 16 KHz 22.05 KHz 24 KHz 32 KHz 44.1 KHz 48 KHz
Bitratemon
o
ster
eo
mon
o
ster
eo
mon
o
ster
eo
mon
o
ster
eo
mon
o
ster
eo
mon
o
ster
eo
mon
o
ster
eo
mon
o
stere
o
8 + + +
16 + + + + + + + + +
24 + + + + + + + + + +
32 + + + + + + + + + + + + + + + +
40 + + + + + + + + + + + + + + + +
48 + + + + + + + + + + + + + + + +
56 + + + + + + + + + + + + + + + +
64 + + + + + + + + + + + + + + + +
80 + + + + + + + + + + + +
96 + + + + + + + + + + + +
112 + + + + + + + + + + + +
128 + + + + + + + + + + + +
144 + + + + + + + + + + + +
160 + + + + + + + + + + + +
192 + + + + + +
224 + + + + + +
256 + + + + + +
320 + + + + + +
384
MP3 supports all the combinations of the frequency and bitrate if the bitrate varies from Minimum to Maximum values for the current
supported frequency.
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Available MP2 Parameters Combinations
You can find the available MP2 parameters combinations in the table below:
Frequency 16 KHz 22.05 KHz 24 KHz 32 KHz 44.1 KHz 48 KHz
Bitrate mono stereo mono stereo mono stereo mono stereo mono stereo mono stereo
8 + + +
16 + + + + + +
24 + + + + + +
32 + + + + + + + + +
40 + + + + + + + + +
48 + + + + + + + + + + + +
56 + + + + + + + + + + + +
64 + + + + + + + + + + + +
80 + + + + + + + + + + + +
96 + + + + + + + + + + + +
112 + + + + + + + + + + + +
128 + + + + + + + + + + + +
144 + + + + + + + + + + + +
160 + + + + + + + + + + + +
192 + + + + + +
224 + + + + + +
256 + + + + + +
320 + + + + + +
384 + + + + + +
BitrateMONO and STEREO
Minimum Maximum
48 - 320 Kbps 22 KHz 48 KHz
40 Kbps 22 KHz 24 KHz
32 Kbps 22 KHz 48 KHz
8 - 24 Kbps 22 KHz 24 KHz
MP2 supports all the combinations of the frequency and bitrate if the frequency varies from Minimum to Maximum values for the
current supported bitrate.
OGG Vorbis Options
In OGG Vorbis Options window you will be able to set the advanced options of your output file format.
Note: you can select either VBR Enabled or Quality Enabled parameter.
VBR Enabled
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In case you enabled VBR by checking the VBR Enabled check-box, you will find the opportunity to set Current nominal bitrate,
Current minimum bitrate and Current maximum bitrate.
Quality Enabled
In case the Quality Enabled check-box is checked, you can increase or decrease the quality of compression.
Available OGG Vorbis Parameters Combinations
You can find the available Ogg Vorbis parameters combinations in the table below:
FrequencyMono Stereo
Minimum Maximum Minimum Maximum
48 KHz 48 Kbps 192 Kbps 48 Kbps 320 Kbps
44 KHz 48 Kbps 128 Kbps 48 Kbps 256 Kbps
32 KHz 48 Kbps 112 Kbps 48 Kbps 192 Kbps
24 KHz 32 Kbps 56 Kbps 48 Kbps 160 Kbps
22 KHz 32 Kbps 56 Kbps 48 Kbps 160 Kbps
16 KHz 48 Kbps 96 Kbps 48 Kbps 192 Kbps
12 KHz 32 Kbps 48 Kbps 48 Kbps 96 Kbps
11 KHz 48 Kbps 48 Kbps 48 Kbps 64 Kbps
8 KHz 8 Kbps 24 Kbps 16 Kbps 48 Kbps
Ogg Vorbis supports all the combinations of the frequency and bitrate if the bitrate varies from Minimum to Maximum values for the
current supported frequency.
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Enabling the DMA Mode
DMA mode - Direct Memory Access - allows certain hardware subsystems within a computer to access system memory for reading
and/or writing independently of the CPU. Many hardware systems use DMA including disk drive controllers, graphics cards, network
cards, and sound cards.
DMA is an essential feature of all modern computers, as it allows devices of different speeds to communicate without subjecting the
CPU to a massive interrupt load. Otherwise, the CPU would have to copy each piece of data from the source to one of its registers,
and then write it back again to the new location. During this time the CPU would be unavailable for other tasks.
A DMA transfer essentially copies a block of memory from one device to another. While the CPU initiates the transfer, the transfer
itself is performed by the DMA Controller. A typical example is moving a block of memory from external memory to faster, internal
(on-chip) memory. Such an operation does not stall the processor, which as a result can be scheduled to perform other tasks. It is
essential in providing so-called zero-copy implementations of peripheral device drivers as well as functionalities such as network packet
routing, file copy, streaming video over a network, etc.
To enable the DMA mode you should do the following:
1. Go to the Windows Start menu and select Control Panel;
2. In the Control Panel window choose the System icon, double-click it to open the system properties window;
3. In the Hardware tab there is a Device Manager button:
You should click it to open the Device Manager window:
AVS4YOU Programs Help - Appendix
Here you should find IDE ATA/ATAPI controllers among the other devices and click the "+" in front of it to open the list of
available IDE channels that the controller has.
4. Double-click the Primary IDE Channel caption to open the controller properties window:
AVS4YOU Programs Help - Appendix
In the Advanced Settings tab you will see the Transfer Mode drop-down box where the current transfer mode is displayed. To
change the transfer mode and enable DMA you should open the drop-down box and choose DMA if available option:
After that click OK to accept the changes you have made. The same can be done for the Secondary IDE Channel. After you
enabled DMA modes for the IDE channels you can close the device manager window. Sometimes the reboot might be needed to apply
all the changes.
Note: not all the controllers allow the user to change the transfer mode. If you install the third party driver for
your computer IDE controller see the instructions that go along with the driver software. Usually when the
special driver for the controller is installed the DMA mode is enabled automatically by the driver software.
AVS4YOU Programs Help - Appendix
Disc Types
AVS4YOU programs currently support three types of optical disc formats that are available for consumer use. This section will better
explain the purpose of these formats and their place in history. With the support of other disc types and formats the corresponding
information will be added.
Compact Discs
Digital Versatile Discs
DVDs of different capacities
DVDs of different medium type
Blu-Ray Discs
Compact Discs
Digital Audio Compact Discs (CD-DA) were first introduced to the consumer audio market in 1980 by Philips and Sony as an alternative
to vinyl records and magnetic tape cassettes. In 1984, Philips and Sony extended the technology to include data storage and retrieval
and introduced a new format: the Data Compact Disc (CD-ROM).
Since then, the Compact Disc has dramatically changed the way that we listen music and handle electronic information. With a
capacity of up to 700 megabytes of computer data or 80 minutes of high quality audio, the Compact Disc has revolutionized the
distribution of every kind of electronic information.
In 1990, Philips and Sony extended the technology again and the Compact Disc became recordable (CD-R). Before the introduction of
the CD-R technology, compact discs were produced in commercial replication plants by stamping the media with a pre-recorded
master. Today, discs are produced in replication plants where large quantities are required. For small production volumes (up to 500
copies or more, depending on your location and manufacturers in your market), it can be significantly less expensive to master your
own discs using commercially available Compact Disc writing drives.
Whether a Compact Disc was stamped at a replication facility or "burned" using a compact disc recorder, it can theoretically be read by
any available CD-ROM drive. In reality, some inexpensive media and CD players do not work very well together. Only the physical
composition of a commercially replicated disc and a CD-R disc are different. The former is coated with a reflective layer of aluminum
resulting in a typical silver color. The latter is coated with a reflective layer behind a thin layer of dye (colors can range from blue,
silver, green, and others).
In 1997 Compact Disc ReWritable (CD-RW) - a rewritable optical disc format - was introduced. While a prerecorded compact disc has
its information permanently stamped into its polycarbonate plastic substrate, a CD-RW disc contains a phase-change alloy recording
layer composed of silver, indium, antimony and tellurium. An infra-red laser beam is employed to selectively heat and melt the
crystallized recording layer into an amorphous state or to anneal it at a lower temperature back to its crystalline state. The different
reflectance of the resulting areas make them appear like the pits and lands of a prerecorded CD. A CD-RW recorder can rewrite 700
MB of data to a CD-RW disc roughly 1000 times.
A Compact Disc contain blocks (or sectors) of 2352 bytes each, going from the center hole to the outer diameter. The block at logical
address 0 (beginning of the disc) is located near the center of the disc; the last addressable block (end of the disc) is located near the
outer edge of the disc.
Blank discs are usually available in the following sizes (block sizes approximated).
21 minutes = 94500 blocks
63 minutes = 283500 blocks
74 minutes = 333000 blocks
80 minutes = 360000 blocks
AVS4YOU Programs Help - Appendix
Digital Versatile Discs
In January of 1995, Sony was the first to showcase Digital Versatile Disc technology after having announced co-development six
months earlier. Three weeks later, Pioneer, Time Warner, and Toshiba announced their own version of DVD, which had major
differences from the format developed by Philips and Sony. Immediately disputes started over which format should be used, since
each had their own advantages and disadvantages.
The disputes did not stop until May of 1995, when a major report was released by leading hardware and software manufacturers
(Apple, Compaq, Fujitsu, HP, IBM, and Microsoft), stating that the two formats were not going to be supported by the industry when
there were clear advantages in using one format. The result was a mix of the two formats and the formation of the DVD Forum by all
companies involved in the two original formats (Matsushita, Mitsubishi, Pioneer, Philips, Hitachi, JVC, Sony, Thompson, Toshiba, and
Time Warner).
In 1996, the specifications for DVD-ROM and DVD-Video were finalized and DVD players began to ship to market. One year later, the
DVD Forum worked on the specifications for the first recordable (DVD-R) implementation of DVD. In November of 1997, Pioneer
announced the first DVD-R drives, while Matsushita and Toshiba released the first DVD erasable (DVD-RAM) drives.
During 1998, a new coalition was formed to develop re-writable discs specifically for storage of data based on 25-year-old CD patents.
This format was initially called DVD+RW and was not allowed to use the DVD logo after the DVD Forum ruled that it could not be
used in the branch technology. While the technologies between the two formats are similar, licensing rules dictate differences, some of
which can be witnessed in the logo branding of devices and media.
Much like Compact Discs, Digital Versatile Discs are comprised of a continuous spiral of blocks (or sectors) starting from the center
hole ending at the outer rim of the disc. The blocks are only of size 2048 bytes, making the format less complicated.
There are several types of DVD discs depending on their capacity and on the medium type.
The main types of DVDs that differ as to their capacity are:
DVD disc
types
First side Second side
Total
capacityFirst layer
capacity
Second layer
capacity
First layer
capacity
Second layer
capacity
DVD-5 4.7 Gb - - - 4.7 Gb
DVD-9 4.3 Gb 4.3 Gb - - 8.6 Gb
DVD-10 4.7 Gb - 4.7 Gb - 9.4 Gb
DVD-14 4.3 Gb 4.3 Gb 4.7 Gb - 13.3 Gb
DVD-18 4.3 Gb 4.3 Gb 4.3 Gb 4.3 Gb 17.2 Gb
DVD-5 - single sided, single layer (disc capacity about 4.7 Gb, the working surface of such a disc is situated on one side of it and
consists of one layer only);
DVD-9 - single sided, double layer (disc capacity about 8.6 Gb, the working surface of such a disc is situated on one side of it and
consists of two layers about 4.3 Gb each);
DVD-10 - double sided, single layer on both sides (disc capacity about 9.4 Gb, the working surfaces of such a disc are situated on
both its sides and either consists of one layer about 4.7 Gb);
DVD-14 - double sided, double layer on one side and single layer on the other side (disc capacity about 13.3 Gb, the working
surfaces of such a disc are situated on both its sides and consist of two layers about 4.3 Gb each on one side and one layer about 4.7
Gb on the other side);
DVD-18 - double sided, double layer on both sides (disc capacity about 17.2 Gb, the working surfaces of such a disc are situated on
both its sides and either consists of two layers about 4.3 Gb each).
AVS4YOU Programs Help - Appendix
Note: the DVD capacity is measured in the so called decimal gigabytes (one gigabyte is equal to 1000
megabytes). The real size of the DVDs is smaller when measured in the so called computer gigabytes or
gibibytes (one gigabyte is equal to 1024 megabytes).
The disc medium can be:
DVD-ROM (read only, industrially manufactured)
A factory-made DVD that is manufactured by a press. The DVD specification Version 1.0 was announced in 1995 and finalized in
September 1996. "DVD" was originally an acronym for "digital video disc"; some members of the DVD Forum believe that it should
stand for "digital versatile disc", to indicate its potential for non-video applications. Toshiba adheres to the interpretation of "digital
versatile disc". The DVD Forum never reached a consensus on the matter, however, and so today the official name of the format is
simply "DVD"; the letters do not "officially" stand for anything.
DVD-R (R = Recordable once)
A DVD-Recordable or DVD-R is an optical disc with a larger storage capacity than a CD-R, typically 4.7 GB instead of 700 Mb, although
the capacity of the original standard was 3.95 Gb. The DVD-R format was developed by Pioneer in autumn of 1997. It is supported by
most DVD players, and is approved by the DVD Forum. A DVD-R can be written to only once.
DVD-RW (RW = ReWritable)
A DVD-RW is a rewritable optical disc with equal storage capacity to a DVD-R, typically 4.7 GB. The format was developed by Pioneer
in November 1999 and has been approved by the DVD Forum. Unlike DVD-RAM, it is playable in about 75% of conventional DVD
players. The primary advantage of DVD-RW over DVD-R is the ability to erase and rewrite to a DVD-RW disc. According to Pioneer,
DVD-RW discs may be written to about 1,000 times before needing replacement, making them comparable with the CD-RW standard.
DVD-RW discs are commonly used for volatile data, such as backups or collections of files. They are also increasingly used for home
DVD video recorders.
DVD-R DL (double layer)
DVD-R DL (Dual Layer) (Also Known as DVD-R9) is a derivative of the DVD-R format standard. DVD-R DL discs employ two
recordable dye layers, each capable of storing nearly the 4.7 GB of a single-layer disc, almost doubling the total disc capacity to 8.54
GB. Discs can be read in many DVD devices (older units are less compatible) and can only be written using DVD±RW DL burners.
DVD+R (R = Recordable once)
A DVD+R is a writable optical disc with 4.7 GB of storage capacity. The format was developed by a coalition of corporations, known as
the DVD+RW Alliance, in mid 2002. Since the DVD+R format is a competing format to the DVD-R format, which is developed by the
DVD Forum, it has not been approved by the DVD Forum, which claims that the DVD+R format is not an official DVD format. The
DVD+R format is divergent from the DVD-R format. Hybrid drives that can handle both, often labeled "DVD±RW", are very popular
since there is not yet a single standard for recordable DVDs. There are a number of significant technical differences between the dash
and plus formats, and although most consumers would not notice the difference, the plus format is considered by some to be better
engineered.
DVD+RW (RW = ReWritable)
A DVD+RW is a rewritable optical disc with equal storage capacity to a DVD+R, typically 4.7 GB (interpreted as 4.7 � 109, actually
2295104 sectors of 2048 bytes each). The format was developed by a coalition of corporations, known as the DVD+RW Alliance, in
late 1997, although the standard was abandoned until 2001, when it was heavily revised and the capacity increased from 2.8 GB to
4.7 GB. Credit for developing the standard is often attributed unilaterally to Philips, one of the members of the DVD+RW Alliance.
Although DVD+RW has not yet been approved by the DVD Forum, the format is too popular for manufacturers to ignore, and as such,
DVD+RW discs are playable in 3/4 of today's DVD players. Unlike the DVD-RW format, DVD+RW was made a standard earlier than
DVD+R.
DVD+R DL (double layer)
DVD+R DL (Double Layer), also known as DVD+R9, is a derivative of the DVD+R format created by the DVD+RW Alliance. Its use
was first demonstrated in October 2003. DVD+R DL discs employ two recordable dye layers, each capable of storing nearly the 4.7 GB
of a single-layer disc, almost doubling the total disc capacity to 8.55 GB. Discs can be read in many DVD devices (older units are less
compatible) and can only be created using DVD+RW DL and Super Multi drives. The latest DL drives write double layer discs slower
AVS4YOU Programs Help - Appendix
(2.4x to 8x) than single-layer media (8x-16x). A double layer rewritable version called DVD+RW DL is also in development but is
expected to be incompatible with existing DVD devices.
DVD-RAM (random access rewritable)
DVD-RAM (DVD–Random Access Memory) is a disc specification presented in 1996 by the DVD Forum, which specifies rewritable DVD-
RAM media and the appropriate DVD writers. DVD-RAM media are used in computers as well as camcorders and personal video
recorders since 1998. You can identify a DVD-RAM disc due to lots of little rectangles distributed on the surface of the data carrier.
Compared with other writeable DVDs, DVD-RAM is more closely related to hard disk technology, as it has concentric tracks instead of
one long spiral track. Unlike the competing formats DVD+R, DVD-R, DVD+RW and DVD-RW, you do not need special DVD burning
software to write or read DVD-RAMs on a computer. DVD-RAMs can be accessed like a usual floppy disk or hard drive. DVD-RAM is
more suited to data backups and use in camcorders than DVD±RW. The advantages of DVD-RAM discs are the following: long
durability of minimum 30 years and they can be rewritten more than 100,000 times, and also the fact that no DVD burning software
required in computers as the discs can be used and accessed like a removable hard disk.
Blu-Ray Discs
Blu-ray Disc (BD) is a next-generation optical disc format meant for storage of high-definition video and high-density data. The Blu-ray
standard was jointly developed by a group of leading consumer electronics and PC companies called the Blu-ray Disc Association (BDA)
, led by Sony and Philips. Blu-ray has information capacity per layer of 25 gigabytes.
Blu-ray gets its name from the shorter wavelength (405 nm) of a "blue" (technically blue-violet) laser that allows it to store
substantially more data than a DVD, which has the same physical dimensions but uses a longer wavelength (650 nm) red laser.
BD-R (R = Recordable once)
A single-layer Blu-ray disc (BD) can fit 23.3, 25, or 27 GB; this is enough for approximately four hours of high-definition video with
audio. A dual-layer BD can fit 46.6, 50, or 54 GB, enough for approximately eight hours of HD video. Capacities of 100 GB and 200
GB, using four and eight layers respectively, are currently being researched; TDK has already announced a four-layer 100 GB disc.
BD-RE (RE = REwritable)
The BD-RE (rewritable) standard is available, along with the BD-R (recordable) and BD-ROM formats, which became available in
mid-2004, as part of version 2.0 of the Blu-ray specifications. BD-ROM pre-recorded media are to be available by early 2006.
In addition to 12 cm discs, an 8 cm variation for use with camcorders is planned that will have a capacity of 15 GB.
To ensure that the Blu-ray Disc format is easily extendable (future-proof) it also includes support for multi-layer discs, which should
allow the storage capacity to be increased to 100GB/200GB (25GB per layer) in the future simply by adding more layers to the discs.
Blu-ray drives currently in production can transfer approximately 36 Mbit/s (54 Mbit/s for BD-ROM), but 2x speed prototypes with a 72
Mbit/s transfer rate are in development. Rates of 8x or more are planned for the future.
Because the Blu-ray standard places data so close to the surface of the disc, early discs were susceptible to dust and scratches and
had to be enclosed in plastic caddies for protection. The solution to this problem arrived in January 2004 with the introduction of a
clear polymer that gives Blu-ray discs unprecedented scratch resistance. The coating, developed by TDK Corporation under the name
"Durabis," allows BDs to be cleaned safely with only a tissue - a procedure that can damage CDs, DVDs. Bare BDs with the coating are
reportedly able to withstand attack by a screwdriver.
AVS4YOU Programs Help - Appendix