Difference between revisions of "Error Correction Code"

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:All modern hard disk drives are ATA (Advanced Technology Attachment) compliant. Part of this compliancy means that drives must have the ability to detect errors while reading data from individual sectors on the drive. This is to prevent corrupted data from being propagated through to the operating system which would lead to system crashes.
 
:All modern hard disk drives are ATA (Advanced Technology Attachment) compliant. Part of this compliancy means that drives must have the ability to detect errors while reading data from individual sectors on the drive. This is to prevent corrupted data from being propagated through to the operating system which would lead to system crashes.
  
:In order to accomplish this, every sector has a built in checksum and error correction code that is written at the time that data is written to the sector. Upon reading the sector, the drive recalculates the checksum and compares it to the one previously written. If it does not match, the error correction code will attempt to correct the data. Every sector has a standard 512 bytes of user data. A typical ECC is capable of correcting between 10 and 12 bytes. If the repairing the corruption is beyond the capability of the ECC, the data will not be returned to the operating system. The drive will then return an error. This is typically a UNC (uncorrectable) error.
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:In order to accomplish this, every sector has a built in checksum and error correction code that is written at the time that data is written to the sector. Upon reading the sector, the drive recalculates the checksum and compares it to the one previously written. If it does not match, the error correction code will attempt to correct the data. Every sector has a standard 512 bytes of user data. A typical ECC is capable of correcting between 10 and 12 bytes. If repairing the corruption is beyond the capability of the ECC, the data will not be returned to the operating system. The drive will then return an error. This is typically a UNC (uncorrectable) error.
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:These types of errors occur when data is written to the sector improperly or inadvertently. Additionally, these errors can be due to read instability in the drive where the data itself is not actually corrupted but the drive is incapable of reading it correctly. This can be due to factors such as minute mechanical wear of the parts inside the head disk assembly.

Latest revision as of 13:20, 12 April 2007

Error Correction Code (ECC Errors)

All modern hard disk drives are ATA (Advanced Technology Attachment) compliant. Part of this compliancy means that drives must have the ability to detect errors while reading data from individual sectors on the drive. This is to prevent corrupted data from being propagated through to the operating system which would lead to system crashes.
In order to accomplish this, every sector has a built in checksum and error correction code that is written at the time that data is written to the sector. Upon reading the sector, the drive recalculates the checksum and compares it to the one previously written. If it does not match, the error correction code will attempt to correct the data. Every sector has a standard 512 bytes of user data. A typical ECC is capable of correcting between 10 and 12 bytes. If repairing the corruption is beyond the capability of the ECC, the data will not be returned to the operating system. The drive will then return an error. This is typically a UNC (uncorrectable) error.
These types of errors occur when data is written to the sector improperly or inadvertently. Additionally, these errors can be due to read instability in the drive where the data itself is not actually corrupted but the drive is incapable of reading it correctly. This can be due to factors such as minute mechanical wear of the parts inside the head disk assembly.