Disable Hardware Error Correction
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Audio CD leads to CD with gaps Started by dawell, April 22, 2011 1 post in this topic dawell Newbie Members 1 post Posted April 22, 2011 Using version 4.3.8.2523 - Audio CD with no gaps between tracks inserted - "Copy or grab disc" selected - "Disable hardware error correction" and "Finalize disc" cdburnerxp create bootable iso enabled, "Ignore unreadable data" disabled - Both source device and target device are the disc drive - After CD burning is finished, the new CD has gabs of 2 seconds between each track Share this post Link to post Share on other sites Create an account or sign in to comment You need to be a member in order to leave a comment Create an account Sign up for a new account in our community. It's easy! Register a new account Sign in Already have an account? Sign in here. Sign In Now Sign in to follow this Followers 0 Go To Topic Listing Bugs All Activity Home CDBurnerXP Bugs Copying of gapless Audio CD leads to CD with gaps Privacy Policy Canneverbe Limited Community Software by Invision Power Services, Inc. × Existing user? Sign In Sign Up Browse Back Browse Forums Staff Online Users Activity Back Activity All Activity My Activity Streams Unread Content Content I Started Search
correction Use the following procedure to create iso from cd disable FEC. ATTENTION Disabling FEC is disruptive to traffic. Connect to the switch and https://forum.cdburnerxp.se/topic/8213-copying-of-gapless-audio-cd-leads-to-cd-with-gaps/ log in using an account with admin permissions. Enter the portCfgFec --disable command, specifying the port or range of ports on which FEC is to be enabled. http://www.brocade.com/content/html/en/administration-guide/fos-741-adminguide/GUID-A6EC1701-6C10-435B-9469-8B64045F6322.html portcfgfec --disable -FEC slot/port Enter the portCfgFec --show command to display the current FEC configuration. portcfgfec --show slot/port Disabling FEC on a single port switch:admin> portcfgfec --disable -FEC 1 Warning : FEC changes will be disruptive to the traffic FEC has been disabled. switch:admin> portcfgfec --show 1 Port: 1 FEC Capable: YES FEC Configured: OFF FEC via TTS Configured: OFF FEC State: Inactive Previous Topic: Forward error correction Hide navigationPrevious topicNext topicToggle HighlightingPrintPrint AllEmail UsContentsIndexGlossarySearchNo search has been performed.
computer data storage that can detect and correct the most common kinds of internal data corruption. ECC memory https://en.wikipedia.org/wiki/ECC_memory is used in most computers where data corruption cannot be tolerated under any circumstances, such as for scientific or financial computing. Typically, ECC memory maintains a memory system immune to single-bit errors: the data that is read from each word is always the same as the data that had been written to it, even hardware error if one or more bits actually stored have been flipped to the wrong state. Most non-ECC memory cannot detect errors although some non-ECC memory with parity support allows detection but not correction. Contents 1 Problem background 2 Solutions 3 Implementations 4 Cache 5 Registered memory 6 Advantages and disadvantages 7 References 8 External links Problem a corrected hardware background[edit] Electrical or magnetic interference inside a computer system can cause a single bit of dynamic random-access memory (DRAM) to spontaneously flip to the opposite state. It was initially thought that this was mainly due to alpha particles emitted by contaminants in chip packaging material, but research has shown that the majority of one-off soft errors in DRAM chips occur as a result of background radiation, chiefly neutrons from cosmic ray secondaries, which may change the contents of one or more memory cells or interfere with the circuitry used to read or write to them.[2] Hence, the error rates increase rapidly with rising altitude; for example, compared to the sea level, the rate of neutron flux is 3.5 times higher at 1.5km and 300 times higher at 10–12km (the cruising altitude of commercial airplanes).[3] As a result, systems operating at high altitudes require special provision for reliability. As an example, the spacecraft Cassini–Huygens, launched in 1997, contains two identical flight recorders, each w