Secure ripping: Difference between revisions
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==EAC and dBPowerAMP== | ==EAC and dBPowerAMP== | ||
[[EAC]] and [[dbPowerAMP]] both feature powerful correction mechanisms that works with your CD-ROM drive. Some of these features include AccurateStream, Caching, C2 error pointers, and AccurateRip. | [[EAC]] and [[dbPowerAMP]] both feature powerful correction mechanisms that works with your CD-ROM drive. Some of these features include AccurateStream, Caching, C2 error pointers, and AccurateRip. | ||
===Accurate Stream=== | ===Accurate Stream=== | ||
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===Caching=== | ===Caching=== | ||
Question: Do EAC and dbPowerAMP work on drives that support | Question: Do EAC and dbPowerAMP work on drives that support caching? <br> | ||
Yes: EAC and dbPowerAMP work on drives that support | Yes: EAC and dbPowerAMP work on drives that support caching | ||
===C2 Error Pointers=== | ===C2 Error Pointers=== | ||
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<b>Note: AccurateRip due to it's liscensing agreement only works with EAC and dbPowerAMP.</b> | <b>Note: AccurateRip due to it's liscensing agreement only works with EAC and dbPowerAMP.</b> | ||
==Ripping Modes== | |||
[[EAC]] has two additional modes that can be configured. One is known as "Secure Mode" and the other is known as "Burst Mode". Secure Mode is the recommended mode to use as it goes through the pain staking process of over-anaylzing CD's that may have scratches on them and correcting any bad sectors of audio data. Burst Mode is used for CD's that either have "copy protection" on them or are extremely scratched. It's considered a last ditch effort to recover the audio data from your CD's. | |||
==CDex== | ==CDex== | ||
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Question: Does cdparanoia work on drives that utilize C2 error pointers? <br> | Question: Does cdparanoia work on drives that utilize C2 error pointers? <br> | ||
No: The current existing libraries do not utilize or support C2 error pointers | No: The current existing libraries do not utilize or support C2 error pointers | ||
===Ripping Modes=== | |||
==Max== | ==Max== | ||
Max externally uses the [[cdparanoia]] libraries in conjunction with it's own secure ripping algorithm. | |||
===Accurate Stream=== | |||
Question: Does Max work on drives that support AccurateStream? <br> | |||
Yes: Max works on drive that support AccurateStream | |||
===Caching=== | |||
Question: Does Max work on drives that support caching? <br> | |||
No: Max works best on drives that don't support caching. | |||
===C2 error pointers=== | |||
Question: Does Max work on drives that utilize C2 error pointers? <br> | |||
Yes: Max The current existing libraries in Max support C2 error pointers | |||
==Rubyripper== | ==Rubyripper== | ||
Rubyripper externally uses the [[cdparanoia]] libraries in conjunction with it's own secure ripping algorithm. | |||
===Accurate Stream=== | |||
Question: Does Rubyripper work on drives that support AccurateStream? <br> | |||
Yes: Rubyripper works on drive that support AccurateStream | |||
===Caching=== | |||
Question: Does Rubyripper work on drives that support caching? <br> | |||
No: Rubyripper works best on drives that don't support caching. | |||
===C2 error pointers=== | |||
Question: Does Rubyripper work on drives that utilize C2 error pointers? <br> | |||
No: Rubyripper and the current existing libraries do not support C2 error pointers | |||
==External links== | ==External links== |
Revision as of 22:28, 12 August 2008
This article is a stub. You can help the Hydrogenaudio Knowledgebase by expanding it.
Secure Ripping
What is Secure Ripping?
Secure ripping is the process of making sure there were no errors during the extraction of audio from a CD. Popular Windows CD rippers, such as CDex and EAC try to ensure a bit-perfect rip for every track by checking the results, and re-reading any bad areas (from scratches) as many times as needed using read offsets, etc. Max and Rubyripper provide similiar results as alternative secure rippers for Mac OS/X and Linux/BSD respectively using their own effective correction mechanisms.
A bit-perfect rip may not always be possible, and so these programs (EAC especially) will report on any errors that could not be corrected for various reasons, allowing you to examine or attempt to correct the problems by analyzing a log file, using AccurateRip, or by looking at other drive databases.
Secure Ripping Comparison
Defintions
Accurate Stream
Accurate Stream is the ability to avoid jitter. Each CD drive reads audio discs slightly out (a number of samples), if your CD drive supports 'Accurate Stream' it will be a constant value, this should be the same for each particular make and model of CD-ROM Drive
Caching
Caching is the ability of the CD-ROM drive to hold a certain amount of samples in a buffer. Every CD-ROM cache can be "flushed".
C2 Error Pointers
CD-ROM's have differing levels or error recognition and correction. C2 error pointers are read errors by a compact disc that can usually be detected by error detecting and correction scheme.
EAC and dBPowerAMP
EAC and dbPowerAMP both feature powerful correction mechanisms that works with your CD-ROM drive. Some of these features include AccurateStream, Caching, C2 error pointers, and AccurateRip.
Accurate Stream
Question: Do EAC and dbPowerAMP work on drives that support AccurateStream?
Yes: EAC Do EAC and dbPowerAMP work on drives that support AccurateStream
Caching
Question: Do EAC and dbPowerAMP work on drives that support caching?
Yes: EAC and dbPowerAMP work on drives that support caching
C2 Error Pointers
Question: Do EAC and dbPowerAMP work on drives that utilize C2 error pointers?
Yes: EAC and dbPowerAMP work on drives that utilize C2 error pointers
AccurateRip
AccurateRip is a drive database that stores read offsets for a number of user submitted drives that allows you compare your CD rips to other people's. You can anaylze offset corrections on each drive and discover how it varies from drive to drive. AccurateRip database also lists what drives have AccurateStream, cache audio data, and use C2 error pointers.
Note: AccurateRip due to it's liscensing agreement only works with EAC and dbPowerAMP.
Ripping Modes
EAC has two additional modes that can be configured. One is known as "Secure Mode" and the other is known as "Burst Mode". Secure Mode is the recommended mode to use as it goes through the pain staking process of over-anaylzing CD's that may have scratches on them and correcting any bad sectors of audio data. Burst Mode is used for CD's that either have "copy protection" on them or are extremely scratched. It's considered a last ditch effort to recover the audio data from your CD's.
CDex
CDex externally uses the cdparanoia libraries. It is a bit different than most other CD-DA extration tools. It contains few-to-no extra features ("Too many features spoil the broth"), concentrating only on the ripping process and knowing as much as possible about the hardware performing it. cdparanoia will read correct, rock-solid audio data from inexpensive drives prone to misalignment, frame jitter, and loss of streaming during atomic reads. cdparanoia will also read and repair data from CDs that have been damaged in some way using interpolation and padding sectors with silence or 0 bytes.
Accurate Stream
Question: Does cdparanoia work on drives that support AccurateStream?
Yes: cdparanoia works on drive that support AccurateStream
Caching
Question: Does cdparanoia work on drives that support caching?
No: cdparanoia works best on drives that don't support caching.
C2 error pointers
Question: Does cdparanoia work on drives that utilize C2 error pointers?
No: The current existing libraries do not utilize or support C2 error pointers
Ripping Modes
Max
Max externally uses the cdparanoia libraries in conjunction with it's own secure ripping algorithm.
Accurate Stream
Question: Does Max work on drives that support AccurateStream?
Yes: Max works on drive that support AccurateStream
Caching
Question: Does Max work on drives that support caching?
No: Max works best on drives that don't support caching.
C2 error pointers
Question: Does Max work on drives that utilize C2 error pointers?
Yes: Max The current existing libraries in Max support C2 error pointers
Rubyripper
Rubyripper externally uses the cdparanoia libraries in conjunction with it's own secure ripping algorithm.
Accurate Stream
Question: Does Rubyripper work on drives that support AccurateStream?
Yes: Rubyripper works on drive that support AccurateStream
Caching
Question: Does Rubyripper work on drives that support caching?
No: Rubyripper works best on drives that don't support caching.
C2 error pointers
Question: Does Rubyripper work on drives that utilize C2 error pointers?
No: Rubyripper and the current existing libraries do not support C2 error pointers
External links
- AccurateRip Database a large database that works with EAC and DBpowerAMP
- DAE Drive Database a large database that lists CD/DVD-ROM drives and there digital audio extraction features.