Talk:Compact disc/Archive 1

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Archive 1

Archive 2

I think the see also section is way too long. The linklist should be trimmed to a more managble size. I can take a look but other people should as well. Chipotlehero 16:02, 2 August 2007 (UTC)

This article asserts in several places that the capacity of a CD is 700 MB (or 80 Minutes of audio) - here in Britain, at least, 800 MB / 90 Minute CD-Rs are readily available - is this article wrong, or missing some information to clarify this discrepancy? --Zik-Zak 09:57, 1 November 2006 (UTC)

They exist as do even large 99 minuite ones but i'm pretty sure they violate the spec, also they go over the limit of the CD-R atip data spec so you have to use overburn options if you want to use the whole capacity. They are already mentioned over at CD-R but i don't think they are widespread enough (you don't see them in regular computer shops only places that specialise in CD media) to mention in the main CD article. Plugwash 02:57, 25 February 2007 (UTC)

For 90 and 99 minute CD-R, the ATIP has the correct time encoded in it. Going over the time value encoded in the ATIP is overburning. 90 and 99 minute CD-R discs aren't available in the USA on any store shelves I've seen.

I got to this article from this page, which mentions that CDs are limited to 99 tracks. But I can't find that fact anywhere on this page. I suspect it's true, but I hate to add it without actually knowing it for certain. Would someone that can verify that fact add it somewhere? Thanks. Rmarquet 00:16, 18 October 2006 (UTC)

If nothing else, the typical CD player cannot display a number larger than that.—überRegenbogen 02:48, 26 February 2007 (UTC)

"equivalent to approximately 500 rpm at the inside of the disc, and approximately 200 rpm at the outside edge." That would mean that the inside is spinning more times than the outside in a given timeframe, creating a spiral. Physically impossible, and yet it's in the main section of the wiki.

Please sign your comments using four tildes (~~~~) and please take a look at WP:CIVIL. In this case, the misunderstanding is yours. The article states that CDs are read at constant linear velocity, which logically requires a disc to spin more rapidly when it is being read near the center than when it is being read closer to the edge, where the circumference is greater. It does not say that it turns at these two rotational speeds at the same time.  ProhibitOnions  ^(T) 10:45, 15 October 2006 (UTC)

Also, headings should betray the content of the section. ツ —The preceding unsigned comment was added by Brian Patrie (talk • contribs) 05:58, 26 February 2007 (UTC).

Somebody needs to go through and fix the dozens of grammatical errors and cases of redundancy. Theswillman 15:40, 3 June 2006 (UTC)

• Oh, yeah? In that case, you are welcome to help. Along with all the other people who leave such messages on talk pages. vLaDsINgEr 02:15, 17 May 2007 (UTC)

What were the first album(s) released on cd, overall and in the USA? ---Scaryice 10:02, 9 August 2005 (UTC)

I hope to see the 1X unit of CD throughput defined here some day, also the 1X of DVD defined there. I'm guessing the "Google define: 1X" claims of 1X CD = 150,000 byte/s and 1X DVD = 1,380,000 byte/s are slightly incorrect, because seemingly imprecise, because rounded decimally. (Pat LaVarre, 21st September 2004)

CD audio has 176,400 bytes a second of data to be precise (44100 * 2 bytes (16 bits) * 2 channels (stereo)). The error correction overhead for a data CD is roughly 13% (derived by the number of bytes of data an 80 minute CD fits compared to the number of bytes of audio data if burned as an audio CD), so we get 153,333 bytes a second. Samboy 02:03, 10 Nov 2004 (UTC)

A CD sector has 2352 bytes (not counting elementary synchronization and error-correction info). In typical CD-ROM modes, 2048 bytes are used for data, the rest for error correction. You'll note that one second of audio data is stored in exactly 75 sectors, so the data transmission rate "1x" for CD-ROM data in typical modes is 75 * 2048 = 153,600 bytes per second. I'm saying typical modes because it's possible to use more or less than 2048 data bytes per sector, resulting in a different trade-off of capacity and speed vs. reliability. Aragorn2 12:07, 26 January 2006 (UTC)

CD (according to the article) can hold 650 MB or 74 minutes. So assuming that a cd drive can read 650 MB in 74 minutes at 1x, the 1x read speed of a 650MB data CD is 650MB / 74 min = 650MB / (74 x 60 sec.) = 146,396 B/s = 1.17 Mbit/s. If by MB the article was referring to 1024 KB (the article is unclear on this!), then multiplying by 1.024 x 1.024, the modified figures are 153,508 B/s = 1.23 Mbit/s. --Tokek 03:58, 29 Mar 2005 (UTC)

650MB is the capacity for data mode, which has more redundancy than audio mode. VCDs and audio CDs are written without the added redundancy, and have a max size of about 735MB on a "650MB" CD. So on a data CD, you're actually reading in the redundancy data along with the user data, which creates the 13% of overhead in Samboy's derivation. (I believe MB in this case does refer to the powers of two variety. Are we ever going to start using "Mebibyte"?) - mako 01:05, 30 Mar 2005 (UTC)

Right, audio is (176,400 B/s) * (74mins) = 783,216,000 B, data is 650 MiB = 681,574,400 B, data read speed is (176,400 B/s) * (681,574,400 B / 783,216,000 B) = 153,508 B/s = 1.228 Mbit/s. Different calculations (both took overhead into account btw), same results. --Tokek 07:16, 30 Mar 2005 (UTC)

I just wanted to point out that the CD drive reads in the same amount of raw data at 1x for audio as well as data. Perhaps the article could benefit from an overview of effective sector sizes in different data modes. - mako 21:13, 30 Mar 2005 (UTC)

Good work, but all this probably belongs on the CD-ROM page. --Dtcdthingy 00:40, 31 Mar 2005 (UTC)

Are we ever going to start using "Mebibyte"?

A vote has been started on whether Wikipedia should use these prefixes all the time, only in highly technical contexts, or never. - Omegatron 14:59, July 12, 2005 (UTC)

How about for articles on computer technology from before the (rather silly mebi/kibi etc retcon IMHO) "new wave" prefixes were invented, stick with the usage contemporary to the technology? Editing an article on the apple ][ to say it had 64 kibibytes of RAM is anachronistic, eh? Anyone who grew up with computers during the boomtime years of the lates 70's and 80's knows *exactly* what kilobyte, megabyte etc mean. They ARE NOT CONFUSED by them because they learned those numbers in school, in computer classes and from the people who invented digital electronics- who are the people who coined the original terms. Kibibyte etc is a slap to the faces of computer pioneers! "We know better and we're going to change these terms!"

I was under the impression 24 bit audio was in use, and I know higher mastering rates are used. Please explain how this relates to the cd (I know hard drives arent' limited for bit rate and are used for storage, is the cdabsolutely limited for bitrate in consumer audio?). thank you for sharing you knowledge!--Tednor 10:43, 5 December 2006 (UTC)

Audio CDs are and always have been 16 bit stereo at 44.1khz, no more and no less. A data CD can of course contain any format you like subject to capacity limitations.

Production is done in higher bit depths and frequencies than the final product in order to reduce the buildup of errors and artifacts. Plugwash 17:54, 5 December 2006 (UTC)

AFAIK, There is provision in the format for 1 and 4 channel, but it is rarely—if ever—used. And it would not surprise me if there are players that would grossly mishandle anything other than stereo. —überRegenbogen 05:40, 26 February 2007 (UTC)

Well doesn't "dithering" in itself introduce artifacts and require something called "noise shaping" and what the hell is "triangular distribution" anyway?

---

A 120mm disc can store about 74 minutes of music or about 650 megabytes of data.

Is it true that 74 minutes length was decided to have enough room for Beethoven's 9th symphony? I couldn't find any definitive reference.

Yes. The president of Sony at the time (some Japanenese guy whose name eludes me at the moment) was a huge Beethoven fan. He wanted the compact disc to be big enough to hold Beethoven's 9th symphony its entirety (so that he wouldn't have to change the disc), so he basically demanded that the engineers make it hold 74 minutes. →Raul654 03:23, Jul 1, 2004 (UTC)

There is a lot of urban legends about this entire thing, so I will point people to this page. The general impression I get is that, yes, the length of Beethoven's 9th did increase the diameter by one centimeter so that a CD could fit all fo the 9th (which usually doesn't need 74 minutes, but needs more than 60 minutes, which is how much time we would have gotten if we didn't increase the diameter by a centimeter). Samboy 01:57, 10 Nov 2004 (UTC)

Actually, you're wrong. The length of time is a function of the diameter of the CD. From http://www.exp-math.uni-essen.de/~immink/pdf/cdstory.pdf it can be seen that the diameter was derived from the diagonal length of the 1962 Cassette (11.5cm, +0.5cm due to a Phillip's executive decision).

History, please! When was the CD created, 1983? CD-R, early 1990s? And the CD-RW? And how about a link to a more generic entry on data storage? Further, how did the engineers decide on the diameter? Was it to match the 5.25" floppy disks common in the early 1980s? Or was it to have enough room for an hour of music or for Beethoven's 9th Symphony?

Please see above, I just answered this question. (10/10/06)

The CD was created in 1979. It was introduced to the U.S. in 1982. The first CD recorder was made by Yamaha and imported to the U.S. in 1988 (I was working for the company that imported it). CD-RW didn't come into being until about 1996.

In my opinion, the discussion about disc vs. disk is a moot point because "compact disc" is a tradename not a generic name.

What is with the disc vs. disk anyway? I have always used disk for a disk and disc when referring to something round. My spell checker seems to say that they can be both used for a tech disk though, odd. --Josquius 16:58, 20 May 2004 (UTC)

You're right - despite what any dictionary says, the inventors of teh compact disc named it disc. It's a brand name. You don't accept "cleanex" as a correct spelling for "Kleenex", or "zerocks" for "Xerox". Disc it is disc it always has been, and disc it always shall be. Don't believe me, go look at the logo. It's on every CD jewel case.

The Philips trademark may spell it "disc", but that's not itself definitive as to general usage. The current article text is needlessly prescriptive; newspaper style guides are poor sources on such matters, since their purpose is internal consistency, not to determine the "only correct usage". If a section like this is even appropriate, better that it mention the trademark and the history, not seek to provide "usage notes" as the current text does. Alai 03:25, 20 Mar 2005 (UTC)

It goes to show that some people consider the correct spelling to be very important. And from what I've seen, it's always been disc with a "c". I do agree that quoting the entire style guide entry is unnecessary; a small mention is sufficient. - mako 08:26, 21 Mar 2005 (UTC)

I have tended to see disc used for optical formats and disk for magnetic; where people distinguish between the two. However the OED only has the following to say on the matter:

The earlier and better spelling is disk, but disc is now the more usual form in British English, except in sense 2g, where disk is commoner as a result of US influence.

FOLDOC more or less agrees. belg4mit 2005-11-21

Although the general consensus seems to be that both terms (disc and disk) are acceptable, would it be possible to have some kind of consistency within this article? It does seem to change from one to other quite a bit? I would suggest using 'disc' thoughout (when refering to a CD) simply for a smoother flow. Either way, when the word 'compact' precedes it, it should be 'disc' in view of the reference being to the product rather than its use. Interestingly, I understand that the term 'disc' was in use for gramaphone records long before the launch of the CD.

The CD-ROM was pushed by Bill Gates? This needs a bit more info! - David Gerard 13:09, Jan 13, 2004 (UTC)

See Bill Gates Mikkalai 04:35, 27 Jan 2004 (UTC)

---

The advantage of MP3 is that it increases CD storage capacity by up to ten times without significant degradation in sound quality.

That statement is patently false. MP3 does not affect CD storage capacity at all. However, at 128kb/s, MP3 is very roughly 10× smaller than CD-audio and that is why you can fit 10× as many songs in MP3 as in CD-audio.--NRen2k5 16:25, 30 August 2006 (UTC)

That's likely to get an argument from some audiophiles! --Charles A. L. 16:46, Feb 15, 2004 (UTC)

Not to be pedantic, bu the statement is wrong in itself as well: the storage capacity is still the same (650 Mb of wav or 650 Mb of mp3 is still 650 Mb)

The statement is NOT wrong! What you have failed to notice is that cd's can store 80 minutes of music or HOURS of music, so the statement is correct if one is measuring minutes of music. Where it went wrong was in not defining what was being measured, but it is not patently false.--207.69.138.8 15:50, 7 December 2006 (UTC)

How about this: "Since MP3 files are much smaller, ten times more music can fit on a CD without significant degradation in sound quality ." --Calan 16:26, 18 December 2006 (UTC)

I have to take exception to "without significant degradation in sound quality". This is at best, highly debatable. At the cited level of compression significant loss above 16kHz occurs. Subjective remarks should be qualified. e.g. "Since MP3 audio is much more compact than PCM audio, much more audio can be fit on a disc (up to about 85 times as much, depending upon the quality needed—about 10 times for music, at quality acceptable to many listeners)." —überRegenbogen 06:30, 26 February 2007 (UTC)

That intro is a tangled mess and not at all a good encapsulated summary of what a CD is and is for - the sort of thing that would make a useful concise article in itself. Anyone want to try a rewrite? - David Gerard 16:08, Mar 10, 2004 (UTC)

Hmm, the business-end of the CD is not depicted in a photo yet. Kim Bruning 14:09, 5 Apr 2004 (UTC)

I'm about to buy a digital camera ... mind you, I'll be on holiday with it for three weeks! Anyone? Anyone? - David Gerard 14:18, Apr 5, 2004 (UTC)

Interwiki rules:

http://nl.wikipedia.org/wiki/Afbeelding:CompactDisc.jpg

have a nice day :-)

For drives installed in computers, all current CD-ROM and DVD-ROM drives can read and write CD-R and CD-RW discs.

This is nonsense. ALL is VERY false. Recordable drives are almost never called ROM drives. This implies that no more CD-ROM or DVD-ROM drives are made. Only CD-RW drives, DVD-ROM/CD-RW combo drives, Or DVD+/-R(W) (also DVD-ram) drives are made. Therefore I have removed this Statement from the main page. Feel free to correct it and place it back on the page. Tacvek 22:55, 15 Jun 2004 (UTC)

Statement was poorly clairfied. Windows operating system itself calls all such drives ROM's, so this person isn't too far off. To propose that no cd read only's are manufactured is a stretch though. The truth is that the overwhelming majority of newly marketed drives will at minimum write to a CDR/RW.--207.69.138.8 15:50, 7 December 2006 (UTC)

I realize that CDs are constant linear velocity, but what are the general maximum and minimum speeds for reading at 1X (CD audio)? Ckape 22:46, 22 Sep 2004 (UTC)

Red book standard is 125cm/sec with +-5 cm/sec tolerance. Thus the recording can be made to spin at track speed 120-130 cm/sec and CD-players have to be able to adust their speed accordingly. As the manufacturing process has matured it has become possible to use the red book tolerance values to an advantage by making the pits as small as possible, putting the traks closer to each other and making the disk spin as slow as possible, all within the red book tolerances. With these tweaks we can get more than 80 minutes out of 74 minute disk, without breaking Red Book rules. (Petrus)

Quoted from the current version:

Another copy protection method places a data track (usually containing bonus software for computer users) at the end of the disc and gives it an invalid size in the disc's table of contents. This is intended to prevent the data track from being ripped, but can be defeated by ignoring the table of contents and reading the disc sector by sector.

Isn't detailing circumvention measures to a copy protection scheme in violation of the DMCA unless for academic or virus scanning purposes? I'm specifically referring to the line:

but can be defeated by ignoring the table of contents and reading the disc sector by sector.

Could Wikipedia have any liability here?

Probably, but it's something very much worth fighting. The DMCA makes a joke of "Fair Use". Not to mention the part about detailing circumvention measures is clearly unconstitutional. But regardless, Wikipedia is most certainly "academic", so it should not be in violation of the letter of the law to begin with.--NRen2k5 16:36, 30 August 2006 (UTC)

I'm not sure of the exact language of the Dastardly Molestation of Consumers Act. But i think that such a crude "protection" measure (akin to locking a room by laying a 2x4 in front of the door) is beneath the level of its provisions. A user could easily clone a disc for backup (as i have done for some very hard to find discs) without ever noticing that there was any kind of protection mechanism—as easily as a person stepping over the 2x4, without ever knowing that they're meant not to. —überRegenbogen 06:49, 26 February 2007 (UTC)

Explain why CDs have a sampling frequency of precisely 44.1KHz

I have added the answer to the article:

The reason why the unusual sampling rate of 44.1kHz was chosen was because, at the time the CD specification was being developed, the only way to make a reasonably affordable digital audio recorder was to convert digital audio in to a video signal, which was then recorded to a VCR. A NTSC video signal has 245 lines of resolution, updated 60 times a second; a PAL video signal has 294 lines of resolution, updated 50 lines a second. The technology could store 3 samples in a single horizontal line, either at 14 bits with some error correction, or at 16 bits with almost no error correction. There was a debate over whether to use 14 or 16 bit samples when they designed the compact disc; 16 bits prevailed. Hence, the decision to use the 16-bit, 44.1kHz sampling rate. The Sony PCM-1630, an early CD mastering machine, was just a modified U-Matic VCR Samboy 02:04, 10 Nov 2004 (UTC)

Researching this a littlmore a raw NTSC signal has 525 lines of resolution, updated 30 times a second (the number is different above because of interlacing). Some of this signal is part of the vertical blank, but some of this signal is the invisible part used for storing closed captioning and what not. Everyone says that NTSC has 480 lines of visible resolution, but the people who made those old PCM encoders (mainly Sony) figured out some way to get another ten lines in there somehow. I can't find any details online, but I guess they used part of the signal made invisible for closed captioning purposes and what not. Samboy 13:39, 20 Dec 2004 (UTC)

The vertical sync signal between each field is quite complex, spread out over several lines. I presume 245 is the maximum number of lines that VCRs would reliably record; and that would leave enough room for a reasonably valid sync signal in between that would not confuse a VCR.

The 525 lines figure actually just means 1 line lasts 1/525th of 1/30th of a second, it doesn't account for blanking interval. I guess the 480 lines figure comes from digitizing NTSC video.

Dtcdthingy 19:53, 20 Dec 2004 (UTC)

I think the 480 line figure also comes from people being conservative about the number of scan lines in a NTSC signal that contain actual picture information. The people that say "480 lines" are usually making digital TVs and what not; they mean "480 lines of picture". I found something here which gives us the following numbers (this is for programming those old Atari 2600s):

• 192 visible lines
• 30 "overscan" lines (presumably visible to a VCR, but not visible to some TVs) 222 lines so far.
• 37 "vertical blank" lines. 259 lines so far.
• 3 lines during the actual vertical sync. 262 lines total. 262 * 2 = 524; this is as close to the 525 number possible because of interlacing.

Now, from this, I get the sense they could have maybe have gotten as many as as 259 lines from a single frame. They grabbed 245 lines; it may be that the rotary heads on the old U-Matic VCRs spun at a speed such that they didn't record during some of the V-Sync signal. The specs for these old VCRs publically released do not tell us how many scan lines they recorded in a second, alas. I looked over at this page and the manuals only discuss horizontal resolution; the big number at the time was how much horizontal resolution you could get; people didn't even think twice about the vertical resolution.

If different numbers of scan lines were chosen, here is the sampling rates we would have had:

• 240 ("480 lines" resolution): 43.2 kHz
• 245: 44.1 KHz (this was the one chosen)
• 250: 45 kHz
• 255: 45.9 kHz
• 259: 46.620 kHz (this would have been really pushing it)

Somebody in the 1970s decided that 245 lines in a single frame was the maximum number of scan lines they could safely use and we can only speculate about what factors they considered when making this decision. It's strange that something as universal as the 44.1kHz sampling rate is something whose origins we can't fully track down. And, oh, Merry Christmas! Samboy 12:52, 25 Dec 2004 (UTC)

I assume the "245 lines" thing is per field and not per frame. PAL and NTSC are interlaced video, meaning only every other horizontal line is updated every 1/50 or 1/60 of a second. Nearly all PAL/NTSC-based video recording formats utilise all 480/525 or 576/625 lines per frame - with exceptions of VCD and some early home video tape format that skipped every other field for long-play recording (I forget what it was), nothing reduces the vertical resolution. Also, sometimes I hear NTSC being quoted as having 483 lines of visible video. --Zilog Jones 16:54, 18 Jun 2005 (UTC)

NTSC (RS-170) video has 525½ interlaced lines of picture (525.5i, if you like). Sync does not subtract from this! VBI data does subtract from it—leaving about 490 lines of safe territory. (480 became the standard for NTSCoid digital video, because it was already a common digital resolution.) This translates into 245 safe lines per field. Accepting the above 3 samples per line, we get:
3 × 245 × 60 = 44100 samples per second. ☺

Okay then! Plug that data into the main article. Simple mundane technical limitations dictated the 44.1Khz sampling rate, not any of the technobabble many audiophiles like to recite when asked that question. :)

THe size of the center hole of the CD is the dutch equivilent of the penny. Phillips developed it there and they needed a size for the center, so I guess that just used a coin. If anyone knows the coin name please add it.

Yes, it appears to be more or less the same size as a Dutch 10 cent coin, which appears to be exactly 15mm. --Zilog Jones 01:29, 13 Jun 2005 (UTC)

Can it be comfirmed there is an actual relation between the two? I've added it to the article for now - previously there was no mention of the hole and its purpose at all so I said some stuff on that too. --Zilog Jones 17:57, 15 Jun 2005 (UTC)

The diameter of CD's center hole is irrelevant for Wikipedia. It has no effect on the playing time, capacity, or other key parameters of the CD and DVD. The possible relationship with the Dutch 10ct coin is coincidental. In the same way as you did, I could write that CD's outer diameter, 12 cm, is the same as that of the Heineken beermat (coaster). And as you may know, Philips and Heineken are Dutch companies! So my conclusion, let us stop listing (unproven) trivialties in wikipedia, so pls remove your contributions regarding the center hole and the Dutch coin. Dsc 14:31, 19 Jun 2005 (UTC)

OK, similarities with the coin have been removed, but the mention of the hole being there is by no means irrelevant - especially in the "physical details" section. It is a vital part to the functioning of the disc. --Zilog Jones 20:58, 20 Jun 2005 (UTC)

I have checked this at Philips Natlab, their R&D centre (my father-in-law works there). They did confirm that the 10 cent coin story is true. During a design meeting the engineers discussed the drive mechanism and one suggested it should be 'no larger than this' while tossing the coin on the table. This was actually used in their test setup and it was carried over during the development cycle. They also confirmed that the 12cm dimension had nothing to do with Beethoven, it was decided together with Sony to have similar physical dimension as a audio cassette tape - they reasoned that one of the failures of the laserdisc was the large size of the disc making it uneasy to carry around.

I added the info earlier but it was removed (because of its' urban legend status) so I asked at the Philips R&D center if they would confirm this. So 10 cent dimension: true, Beethoven: false. Felsir 08:44, 28 September 2005 (UTC)

Great, Felsir, but could you quote somebody directly? It would really help settle this to be able to say something like: "According to audio engineer XXX, who worked on the development of the CD format at Philips from 1979-1982, the size of the center hole...." ProhibitOnions 14:12, 28 September 2005 (UTC)

I'll ask if they recall who actually made the suggestion. They did mention the name of Kees Schouhamer Immink (not sure of spelling) as one of the chief engineers but I don't know if he had part in this particular thing. Felsir 17:41, 28 September 2005 (UTC)

Ah, after rereading the CD article, I noticed that Kees A. Schouhamer Immink even has a wiki article written about him. I'll ask if they can backup the centrehole story with a name. Felsir 17:47, 28 September 2005 (UTC)

Fortunately it has been verified by Felsir's Dutch uncle in law or nephew, who works at Philips' Research: Ohga's Beethoven's Ninth is out, and we agree that CD's outer diameter, 12 cm, is the same as that of the Heineken beermat (coaster). Philips and Heineken are well-known Dutch companies, so at last we agree, and have back up from the great Philips' Research employees! Dsc 19:15, 28 September 2005 (UTC)

My wife's father works at Philips Natlab (which is the R&D center in Eindhoven, the Netherlands) where the CD was co-developed. So it's not a just a Philips R&D department. I don't know where the Heineken beermat story comes from, it has nothing to do with the development of the CD. In fact, the first CD prototype was 11.5 cm in diameter. See [1] (page 3) with Kees Immink's explaination of disc parameters (unfortunately the centerhole is not discussed). I have no reason to doubt the 10 cent coin centerhole story since all the details they told me at Philips Natlab seem to match with info I checked in various documents I found spead across the web.

I understand that the user Dsc either doesn't believe me, or doesn't want the 10 cent coin story in the article (since he/she removed it twice even I provided info on the talk page and the message in this thread stating that the centerhole is irrelevant).

What do other people think, include or not? Felsir 08:13, 29 September 2005 (UTC)

I agree with User:ProhibitOnions, who likes to see a 'real' source, for example, a quotation from a member of the Philips/Sony CD taskforce. May be, Kees Immink. The Internet is an unreliable source, too many copiers. For example, many Internet sources quote the 'true story' of the CD's playing time and Beethoven's Ninth. But according to Kees Immink's 'The CD Story' in [2], we should not believe the Beethoven story. What now? At this moment, the relationship between the center hole and the Dutch coin has the status of a rumor, and should, I think, not be mentioned in the Wikipedia article, and I therefore agree with User:Dsc, who deleted it. And, in addition, to quote User:Dsc, June 2005, why is it relevant for our CD article? Poculum 09:38, 29 September 2005 (UTC)

Agreed. Mirror Vax 12:49, 29 September 2005 (UTC)

Relevant or not, the story is told numerous times so it is about time the myth is busted or confirmed. For that alone it is worth to include it in the article. Next month there is a Philips Natlab reunion with many of the engineers from the CD development team present (most are retired now). I will ask them if the story is true or not. I will also have access to the NatLab library in january, I will check if the coin story is present in the design documents or design meeting notes. One of the engineers told me that the very first proof-of-concept prototype didn't use the same dimensions but ran on parts made for laser disc (with a bigger center hole). Felsir 07:36, 12 December 2005 (UTC)

does anyone know if there is a unique number that differs manufactured compact disks.. like a MAC adress in network devices.. and if this unique number or ID exists.. why it is not used for copy protection.. and if this number does'nt exists why manufacturers dont adding it to there product for them it will be a simple to create a CD with uniq ID that can't be flashed or overwritened... and for software,game or audio developers it will be more easy to protect there product..

To my knowledge there isn't. All there is that could be used is that the TOC of a pre-recorded disk looks different to that of a CD-R.

CD-ROMs are mass-produced, "stamped" out from aluminum "masters". That makes all of them identical. I suspect that CD-ROM manufacturers don't add unique serial numbers because

• (a) Adding a unique serial number would definitely add cost.
• (b) Adding a unique serial number might bring in slightly more income from people who otherwise wouldn't have paid for the CD. Or it might not make any difference.

In other words, I suspect that the CD-ROM manufacturers don't add unique serial number because they think the (hypothetical) benefits are worth the (all-too-real) cost.

On the other hand, I've been told that CD-R and CD-RW disks are tested by writing some data and making sure that data can be read without error. It wouldn't cost anything (just a one-time change to the test software) to add a unique number to each of those disks.

No Unique Number

CD's don't contain an individal serial number. The stamper would have to be changed (ever-so-slightly) for each disc produced. While that may be true about the CD-R data test, the average single cavity replicator is capable of turning out 20,000 or so identical discs in a 24 hour period. The production time increase to burn that many discs in CD-R drives would be impractical.

There is a number that identifies the manufacturer of a replicated CD that should be printed in the "mirror band" of every disc. It is usually prefaced with the letters "IFPI". Some IFPI numbers are also injection molded into the bottom of the disc near the center hole.

The external links to overburning information, while useful, aren't really relevant here. I'm going to move them to overburning and place a reference to that article in the Recordability section. - mako 07:06, 2 Dec 2004 (UTC)

I remember something regarding cd-writers able to burn ~1 GB of data in 700-MB CDs.
I've searched, but I've only found news regarding Plextor GigaRec writers (which do what I remember, but aren't the ones I read about years ago).
Could someone, knowing|finding, write a paragraph about this?

I don't think such a thing exists. There are ways to burn a little more information, but a 45% increase...no. Unless you play the games marketeers played in the mid 90s where a given data tape would hold "750 megabytes" of data but only really stored 250 megabytes of uncompressed data. Samboy 03:16, 30 Mar 2005 (UTC)

• • • Such a technology *does* indeed exist although it never caught on. It's called HD-Burn and was developed by Sanyo. There was a brief period when MOST generic CD-Burners on the market licensed and included this technology from Sanyo.***

Sources: http://www.buildorbuy.org/burn-proof.html http://www.met.com.tw/download_file/cdrw/cyqve/3080/HD_BURN_CDR.pdf http://www.met.com.tw/eng/product/prointro/desktop/cyqve/dr3080.htm http://www.cdrfaq.org/faq02.html#S2-46 http://www.digital-sanyo.com/BURN-Proof/HD-BURN/

ScottyWH 18:15, 20 Jun 2006

I have a problem with the intro to this section:

"The Compact Disc is not an invention: it is the convergence of a series of enabling technologies, such as laser technology, mechanics, electronics, and coding technology. Therefore, nobody can claim that he or she is the inventor of the Compact Disc."

The same sort of argument could be made for just about any invention. Take the automobile - we couldn't have cars if someone hadn't invented the wheel, wagons, metalurgy, internal combustion engines, etc. And of course we never would have CDs if nobody had invented lasers, transistors, computers, digital audio formats, etc. But just because an invention builds on previous inventions doesn't mean that it's any less an invention in its own right.

Credit for the invention should be given to Philips and Sony and their "joint taskforce of engineers."

--4.245.5.118 23:05, 25 Apr 2005 (UTC)

Thank you for starting this discussion. I find it very interesting, but also extremely difficult, as one has to answer existential questions such as what is the Compact Disc? Is it just a digital version of the Videodisc developed in the 60s and 70s? What are the additional inventive steps? Taking 44.1 kHz as sampling frequency used in the prior art PCM adaptor? Is that a creative step? (':

In the (patent) literature one can find optical audio recorders/players developed in the 1930s. Of course the technology was analog as PCM was invented in 1937. Those machines could not be mass produced as the key components were not available. In the 1960s, pioneering experiments with optical recording have been made when the gas laser became available.

Digital audio and video optical recording became feasible for the consumer market after the invention and mass production of the solid-state laser and notably low-cost electronics. The ideas of optical recording have been around for a very long time, but could not be implemented in mass quantities without those key components. This is in sharp contrast with, for example, Edison's audio cylinder and Berliner's gramophone. The low-tech key components, wax, needle, and mechanics, were already available in the 16th century or earlier, but nobody came with the idea for the gramophone, or may be nobody had interest in it.

There is, I think, no doubt that there was a Sony/Philips task force of about eight top engineers who made the required choices and trade-offs based on joint experiments and discussions. I agree that those, mostly anonimous, engineers should receive more credit for doing an excellent job around 25 years ago.

I suggest that we delete the first sentence of the CD history section regarding the inventorship, and add the names of prominent members of the task force, such as Dr Toshi Doi (Sony) and Kees Immink (Philips).

---

I agree: The first two sentences of the History section come off sounding prematurely argumentative and not neutral. As 4.245.5.118 points out, applying the supplied logic everywhere would negate the vast majority of "inventions". I'm certain that plenty of people (but not all) would permit something that combines existing technologies in new, novel, and previously unforseen ways to be rightly called an "invention". Thus, the existing two sentences are simply one POV in an argument, so they should be either balanced or removed. --Ds13 16:42, 2005 Apr 30 (UTC)

---

The following paragraph is taken from the official Philips' history web site www.research.philips.com/newscenter/dossier/optrec/index.html

\begin{quote} Almost every week Philips receives a request for an interview with the inventor of the CD. That would undoubtedly make an interesting story. How do you put the gramophone record out of date in such a short space of time? And had the inventor already envisaged subsequent developments like the CD-ROM and the DVD? Unfortunately, the inventor of the CD does not exist. Nobody even invented one part of the technology alone. The CD was invented collectively by a large group of people working as a team. Emil Berliner, the founder of Deutsche Grammophon, might have been able to invent the gramophone record on his own in 1887, but the technology on which the CD is based is too complex for just one genius. \end{quote}

So the 'official' Philips' POV is that the CD is not invented. Or even 'Nobody even invented one part of the technology alone'. Why do they want the world to believe that?

---

Aren't you misinterpreting the quote. They never say that the CD wasn't invented, just that every part of it was invented by a team, not a single person.

I think it would be appropriate to add a longevity/lifespan/durability section in the article. With so much expensive audio and other data stored on CDs, it has become more common to discuss how long the data is expected to last and what can be done, if anything, to preserve or minimize degradation and/or to recover data from an aging CD. I'm no expert (thus, I'm on the talk page!), but related topics might be:

• lifespan under ideal circumstances
• normal wear and tear
• damage

There was something else i herd on the radio. Aperently if you expose an audio cd to mold for long periods of time, different effects can occour, almost like a Natural Remix (Echo, panning and interesting skips can occour). Maybe someone should check that out when listing durability. I dont remember the professor's name, but he was at an australian university

• Seconded - CD was presented to the world as an inert, effectively immortal storage medium which proves not to be the case. I am no expert either, but I do know that I own commercially manufactured music and data CDs from the early 1990s which have taken on a bronze tinge, and which are either unusable or unreliable now. Of course different manufacturers will have had varying manufacturing standards, but even the materials used are subject to deterioration. --Ndaisley 08:23, 11 April 2006 (UTC)

• CD: PLEASE FIND REFERENCES. As for CD-R: I added the PC-Activ magazine citation about CD-R "rot". They tested 30 brands for 2 years, and saw wide unreadable areas appear in as little as 18 months. I hope the info is not reverted out again. --Lexein 13:06, 11 February 2007 (UTC)

I found a CD-R FAQ, but before adding the link, should we advise the author?

http://www.cdrfaq.org/

Eptalon

You don't need to notify the author. Also, that link should go on the CD-R page. - mako 07:20, 27 May 2005 (UTC)

I've deleted the mention of the Abbey Road 'bonus track'. This is neither a hidden track, nor a bonus track, nor any other such thing that the article describes. It is a full-fledged track, fully intended that way and proceeds exactly the way the original LP does. --patton1138 1 July 2005 13:33 (UTC)

A good example of a hidden track would be on Rammstein's album "Reise Reise". It's a clip from the CVR from a commercial airline crash in 1985.--NRen2k5 17:10, 30 August 2006 (UTC)

"To hear the hidden track, the listener must usually "rewind" the player past the beginning of the first listed track. Not all players allow this."

Not all players have a seek-function, right? But do all players with seek buttons, including high-end models, allow for this

After adding the mention of Klass Compaan as the originator of the idea of the CD, user DSC posted the following to my talk:

"I have noticed your contribution to the Compact Disc article regarding Klaas (not Klass; it is the Dutch version of the German Claus, like in SantaClaus) Compaan. Your statement is false, see the laservision article, where you may read that Laserdisc technology was invented by David Paul Gregg in 1958, patented in 1961 and 1969, and first publicly demonstrated by Philips and MCA in 1972. It was first available on the market on December 15, 1978, two years after the VHS VCR and five years before the CD. So please delete your addition to the CD article. Dsc 10:54, 28 July 2005 (UTC)"

However CDs and laserdiscs are different and there are many [3] sites which attribute the idea of the CD to Klass so.....??--Deglr6328 02:49, 29 July 2005 (UTC)

Does all sites write his name as Klass or Klaas? As the sites that you refer to do not even correctly write this simple name, why do you think they are right regarding his invention. Yes, sure, CDs and Laserdiscs are different: they have have different disc diameters etc. BUT the essential physics, protective layer, objective lense, including tracking servos etc of a LaserDisc and CD are all exactly the same. The only difference is the addition of different (analog FM vs digital EFM) electronics for switching on/off the writing beam. The physics of the Laserdisc was invented by Gregg in 1958. Please take the time to read Gregg's and Compaan's (much later) patents, before you start copying data from web sites that copy it from other websites. So please delete 'your' addition to the CD article (that you copied from other websites). Dsc 14:25, 31 July 2005 (UTC)

I have deleted the remark regarding 'Klass' in the CD article. The reasons are as follows: it is utterly wrong despite the fact that one may find similar data on the web (all with 'Klass' instead of his correct first name Klaas). In the CD article it is mentioned that it is built on the technology of the optical Laserdisc, which is due to companies like MCA, Philips the French Thomson (see that Laserdisc article), and others. There is no need to copy all that stuff in the CD article. Just a reference to it seems to appropriate. The CD article continues around 1975 when laserdisc technology was mature, and digital audio became possible for mass fabrication. Dsc 07:43, 2 August 2005 (UTC)

The reason you only saw the Klass spelling is because that is what the search was done with! The fact remains that there are over 500 sites which mention his name as being integrally associated with the creation of the compact disc and his name obviously belongs in the article somewhere.--Deglr6328 06:25, 3 August 2005 (UTC)

In fact the only reasonable conclusion I can draw from the above is that apparently 500 web sites can be utterly wrong, as they all, note the wrong spelling of his name, Klass, copy. Optical recording, please believe me as I do not copy this from other web sites, was invented by a number of companies such as MCA, Philips, and Thomson in the late 70s. The intention was to develop a videodisc, and not an audio disc, so that the huge warehouses full of movies could be distributed. This was before the introduction of the (VHS and Betamax) video tape. Please read the videodisc article. Actually, Klaas (not Klass), Compaan started with a disc with microfiche-like pictures on a disc (read the Philips History web site). Much later, we may recognize his efforts as modern optical video recording. Nothing to do with audio. Dsc 18:35, 9 August 2005 (UTC)

"Recordable compact discs are injection molded with a "blank" data spiral." Could someone please describe the physcial details of the blank data spiral? --JWSchmidt 18:11, 2 October 2005 (UTC)

See the cd-R article. I agree it is a little bit thin on the 'pre-format' wobble, and additions are welcome. Dsc 19:01, 2 October 2005 (UTC)

The only reason I asked is because this is used on several wikipedia pages as an example of a diffraction grating. --JWSchmidt 23:42, 2 October 2005 (UTC)

"Many CDs, especially classical music, but also many popular recordings (especially on early CDs), come with a three letter code printed on the back, where "A" stands for analog and "D" stands for digital. The first letter represents how the album was recorded, the second how it was mixed, and the third how it was transferred (inevitably a D, as the CD is a digital medium). As a result, almost all early CDs are "AAD" (analog recording and mixing, digital transfer to CD). Often this code was accompanied by a short description such as "Full Digital Recording" for DDD and "Digitally Mixed Analog Recording" for ADD. The logo of record label 4AD is a spoof of this process designation."

Some clarification is needed here, ADD does not mean it digitaly mixed, but that the mixed down recording is/was digital - it could have been digitsed before or after mixdown. Is the former or the latter more common and which did George Martin use? The former is obviously obligitory if "tube production" is preferred.

The original sentence seems pretty clear to me. If analog signal sources are digitized before being mixed into a single stereo signal, it's ADD. If analog signal sources are mixed into a single stereo signal and *afterwards* digitized, it's AAD. What else could it possibly mean? --70.130.37.179 02:26, 28 August 2007 (UTC)

In the subcategory name in the CD article, it says that CDs are commonly spelled "disc" rather than "disk," because Philips has a copyright under that spelling. What spelling does Philips have a copyright under? I couldn't tell from the article. I am making a request that that section should be cleared up. Thanx. Bob the ducq 02:50, 26 November 2005 (UTC)

Someone made changes saying that the 125 nm depth was one-sixth of the wavelength of the light, not one-quarter. They are neglecting the fact that the laser wavelength is reduced by ~1.58 in the polycarbonate (its refractive index), and thus 125 nm is almost exactly λ/4. I removed this line:

The sixth, 125 nm, (and not a quarter) of the wavelength was chosen to have a good trade-off between the push-pull radial tracking signal and the full-aperture read-out signal

Since it makes no sense given that fact. --Bob Mellish 14:43, 5 December 2005 (UTC)

Dear Dr. Bobby, Please read the article on 'Physical Format of Read-Only Discs', which is taken from the official Pioneer website http://www.pioneer.co.jp/crdl/tech/dvd/2-e.html

The pits on CDs are typically about lambda/6 deep. This enables the use of both a push-pull tracking error scheme, which works best at a pit depth of lambda/8, and three-beam and differential phase tracking methods, which work best at a pit depth of lambda/4. Please revert your changes taking into account the above findings. Poculum 20:25, 5 December 2005 (UTC)

• Then someone has got something wrong somewhere. The wavelength used on CDs is 780 nm, and in a polycarbonate medium, that wavelength will be reduced to 780/1.58 ~= 493 nm, which divided by 4 is ~123 nm. Unless the pit depth is not 125 nm, then there's no way it's λ/6. I'll check for references to this. --Bob Mellish 20:45, 5 December 2005 (UTC)

• Unfortunately I can't get access to the Red Book specs, but Ken Pohlmann's The Compact Disc: a handbook of theory and use lists some of them. The material can be anything with a RI of 1.55, and the pit depth spec is 0.11 to 0.13 μm. So that's right on λ/4 and not anything like λ/6. Note: this is for standard read-only CDs. It's possible that there's differences in the structure for writable CDs, which that Pioneer page may be talking about. However, the section of the WP article is talking about standard CDs. --Bob Mellish 22:13, 5 December 2005 (UTC)

Dear Dr Bobby, I understand that you courageously think that the Pioneer web page is wrong regarding the pit depth equaling lambda/6. It is of interest that you mention the Red Book. I guess that you have never read it since the Red Book does not explicitly specify the pit depth (‘: .

Figure 1, page 8a, of the Red Book specifies many mechanical parameters including the pit depth. It specifies that the pit depth should be less than (and, thus, not equal) 130 nm. However, the Red Book implicitly specifies the pit depth by specifying the strength of both the push-pull radial tracking signal and full aperture detection signal. For a maximum full aperture signal, the optimum pit depth is lambda/4n = 130 nm (refractive index n=1.5, lambda=780 nm). For a maximum push-push radial tracking signal the best choice is lambda/8n = 65 nm. Most CD manufacturers, dependent on the exact pit geometry such as the slope of the pit edges etc, choose a pit depth of around 90 nm, (which is around lambda/6n) yielding a good trade-off between push-push radial tracking and full aperture detection signal. By the way, I do not understand your confusion with the Pioneer web site, since a (written) writable CD-R does not have ‘pits’. Poculum 11:50, 6 December 2005 (UTC)

• Well then, the original part of the article I changed was wrong, since it specified a pit depth of 125 nm (exactly), but a λ/6 phase difference, which is impossible given the 780 nm wavelength. Since you have access to the Red Book, feel free to update with the actual spec. (edit : as I see you have done.) --Bob Mellish 14:31, 6 December 2005 (UTC)

it has recently come to my attention that most every cd's in north america are manufactured in canada. is this true? i don't notice cause i live in the great white north.

there's nothing here about the music industry's push to make cd's [sic] more accepted and widen adoption by limiting the returnability of vinyl records in record stores. this page is mostly technical info. And what about how they have steadily increased the retail price of cd's while the manufacturing costs have steadily gone down?

Well, at this point, that would be a matter of historical trivia. A more current issue would be the deliberate bad mastering of audio-CDs so as to make the DVDA and SACD releases of the same recordings sound better. Er, could you please sign your messages? There's a button on the toolbar to do so. --NRen2k5 17:17, 30 August 2006 (UTC)

I would like to add some material about the current trend towards ever "hotter" recording levels, which, along with limiting and compression, is creating cd's which have clipping nearly throughout the entire disk. There has been some discussion about this among some old hands in the recording industry, I understand, so I would like to add it somewhere so people could be more aware of the issue.

But where does it go?

Here is the issue: CD's have a 16-bit or 96 db dynamic range, which is more than enough for any music (it is plenty for classical music, which generally has a much greater range of quiet to loud than anything else.) But recording engineers want to create "hotter" and louder cd's, so they set their recording levels so that the average recording level is close to the maximum permissible. When that input level exceeds the maximum permissible, you get clipping, a nasty kind of distortion. With current limiters and compressors, it is easy to make a cd in which clipping is occurring nearly throughout the entire cd. That makes the cd harsh and fatiguing to listen to, particularly with high quality equipment. Apparently this problem is getting more and more common.

Any suggestions on where to put this stuff?

Here are some links:

http://www.audioholics.com/techtips/specsformats/currentrecordingtrendsP1.php

http://www.mindspring.com/~mrichter/dynamics/dynamics.htm

Some guys are even trying to put together a petition to get the Red Hot Chili Peppers to rerelease some recent albums so they don't have digital clipping. http://forum.doom9.org/showthread.php?t=103702

I suggest starting a new article - maybe Loudness war? Mirror Vax 05:50, 31 December 2005 (UTC)

Cool. Bear with me, I am new to this wiki stuff. Karl

Since you created a new article as I suggested, there's no need to have a lengthly section about it here. You can place a link in the "see also" section. Mirror Vax 07:09, 31 December 2005 (UTC)

I will do as you suggest. Karl

As it is now, the pictures of a smaller-size 8mm CD and of normal 12cm CDs are nearly identical at a glance. I think it would be useful to have a picture of one of each side-by-side.

I agree. There is a ruler showing that the 8cm (not 8mm :) ) CD is 8cm long.... well, we don't need a ruler to explain that. The two together, along with a ballpoint pen (or possibly audio cassette) for scale would be more useful. (Note: U.S. coins are not a particularly great indication of scale for those of us who don't live there). Fourohfour 10:52, 9 January 2006 (UTC)

The article completely lacks information about DTS-CDs. While they are not very common, they still exist and should be mentioned. For those who haven't heard of them, instead of 16-bit PCM at 44.1 kHz these CDs contain DTS encoded audio at 1411.2 kbit/s (ie the same bitrate as 'normal' CD audio). Those can be played by most normal CD players if they are linked digitally to a DTS capable surround decoder. This may sound hackish, but is a standard. Maybe in this context Dolby Digital CDs sholud be mentioned also which is the same principle used with AC3 encoded audio, but as far as I know this is really a hack and not a standard. Belgabor 80.129.94.211 19:01, 2 May 2006 (UTC)

Good point. I see that DTS-CD doesn't seem to have its own article, nor is it included in the general DTS article. --NRen2k5 17:24, 30 August 2006 (UTC)

I created a stub for DTS-CD and added a link under 'See Also' Edokter 22:35, 15 October 2006 (UTC)

1: there are many other variants of the compact disc logo other than the traditional digital audio one (digital video, digital data,recordable,no subtext at all). Does anyone know what the status of theese is.

2: are the rules different for embossing the logo into the boxes different from those for putting it on the CD, I often see CD-ROMs sold by large companies in boxes with the digital audio logo (less so than they used to as lots of software vendors have moved to using bare DVD cases as the entire package rather than CD boxes as one item in a large cardboard box). Plugwash 11:34, 22 May 2006 (UTC)

I know this is a really minor point, but I just can't get used to seeing "Philips's" with that "s" plonked on the end. I've tried to find some rationale for why it should go, but haven't succeeded yet; quite the opposite, in fact. Can anybody out there think of a good reason to get rid of it?
—Chris (blather • contribs • e) 15:45, 11 September 2006 (UTC)

I looked into this recently. Some style guides allow you to drop the second 's' but all I checked prefer leaving it in. I couldn't find anything in the Wikipedia style guide about it. Rees11 15:19, 11 June 2007 (UTC)

Wouldn't the correct grammar be " Philips' " when using the word as a plural?Arendedwinter 06:04, 30 June 2007 (UTC)

The History section appears to by copied directly from [4]. It should be rewritten to avoid copyright trouble. Furthermore, the section is just a profile of J T Russell, not a history of the Compact Disc. In particular, it should probably mention early work on digital audio recording done at Bell Labs in the 1950s, Tom Stockham's work on high-quality optical/digital sound recording in the 1970s and work by many people on coding theory, in addition to the massive quantities of important engineering work that went on at Philips, Sony and elsewhere. Tom Duff 21:52, 12 October 2006 (UTC)

Looking over the history, I see that starting about Oct 7 anonymous editors have deleted what was an adequate historical section (and some other stuff) and replaced it with the J T Russell bio. Someone with better editing chops than mine should back those changes out Tom Duff 03:39, 13 October 2006 (UTC)

I've restored the previous History section. The article on James Russell is clear in that it states that Russell's work was independent of the work at Philips and Sony. Ergo, Russell is not the inventor of the standard digital audio medium we know as the CD. -Scipius

J T Russell invented the overall concept of optical digital recording and playback in 1965, under the auspices of Battelle Memorial Institute. The concept encompassed stereo, software distribution, recordable records and multi-layer video. The first patent (of 26) issued in 1970. He built prototypes, the first was operating in 1973. In 1973, 1974, 1975 his prototype was viewed by about 100 companies, and more than 1500 descriptive brochures were sent out to various interested parties. The concept was picked up by many technical and media magazines beginning in 1972.

Corporate visitors to Russell's Battelle lab in that time period included Philips and Sony engineers. And a representative visited Philips in Eindhoven in 1974 and explained Russell's system to the Audio/Video/LP/VLP groups there. This was about 6 months to a year before Philips began to work on digital optical.

Russell's optical digital inventions and development work preceded that at Philips by about 12 years, and were available publicly from 1970. It is fair to say that Russell's concepts, patents, prototypes, and literature instigated and in some measure guided the optical digital revolution. -[User:RealStory]

Many times in this article we see "compact disc" with lower-case initials, and many times (including in the title) we see two capital initials. Which should it be? If the former, the article title needs to get changed accordingly. Michael Hardy 03:42, 14 November 2006 (UTC)

The name of the format should always be uppercase (and thus the name of the article should be in uppercase). When talking about the actual physical disc, there doesn't seem to be consensus one way or the other. --- RockMFR 22:57, 19 November 2006 (UTC)

I, hereby, assert that it should be "compact disk". It is my impression that the word is "disk". Please do note: "doughnut", not "donut"; if doo is formed as a nut, then there could be "doonut".

Thank You.

[[ hopiakuta | [[ [[%c2%a1]] [[%c2%bf]] [[ %7e%7e%7e%7e ]] -]] 00:09, 2 December 2006 (UTC)

Which way do the disks spin? Clockwise or countercloskwise? Am I missing something? 71.102.186.234 11:43, 9 December 2006 (UTC)

[(Temporary note, from a volunteer editor:) The paragraph above seems to have been written to describe laserdisc manufacture, and edited somewhat to describe CD manufacture. A 12-inch/30cm glass master is not for CDs, and the mention of foil doesn't look correct. Noted in the Edit summary. Apologies for the informal format!] —The preceding unsigned comment was added by 66.92.74.189 (talk • contribs) 17:40, February 5, 2007.

Is there a reason why we're using a vector image representation of a CD in the infobox? Isn't there a clean, hi-res photograph of an actual CD we could use instead? Pele Merengue 22:52, 22 March 2007 (UTC)

No good reason for it. I've replaced it with a real Commons image. ProhibitOnions ^(T) 20:49, 30 March 2007 (UTC)

The source for the information appears to be a video here: http://dabble.com/node/11373553 (I believe it's in German). I really do not think that one Mario Koss with a little side business hacking CDs into works of art (which I assume that they are, since it's doubtful they are playable in that condition) is significant enough to have a mention on an article about general technology standards. Therefore, I have moved the content here for now. If anyone disagrees, just tell me why I'm wrong, and put it back. vLaDsINgEr 02:31, 17 May 2007 (UTC) Also, the contributor who added this might have some non academic motives, seeing as how he (User:Chernavsky George Yury) is the songwriter (Yury Chernavsky) on the CD pictured, and has collaborated on records for the company Pikosso Records (makers of the "Shape CD"). I suggest that the information be rewritten from a nonpartisan standpoint.

File:Yury Chernavsky Only you-COVER 1a.jpg

Shape CD – is a type of CD-Rom or audio-format, but comparing with the usual round compact disk it has outlined as a contour of the objects like a cars, artist’s portraits, stars, heart-sign, Disney characters, credit cards and etc. (Shape CD was patented by German producer Mario Koss in 1995). Shape CDs are very popular mostly in the entertainment industry,

Preston + Steve did a Science Day, and they put a CD in a Microwave, and it glowed purple. --66.218.11.201 00:07, 25 June 2007 (UTC)

This topic is in need of attention from an expert on the subject. The section or sections that need attention may be noted in a message below.

In section 3.1 Data Structure the term 'frame' is described, and it amounts to 588 bits. This threw me at first, because I'm familiar with CUE sheets from CD extraction applications such as Exact Audio Copy (EAC), which, just like a CD track index can denote track marks (INDEX points) to 1/75 second accuracy, because CD audio data is divided into 588-sample chunks (=44100/75). With stereo, 16-bit, that's 2352 bytes of payload (=18816 bits of payload) and certainly not as little as 588 bits of anything! Confusingly, in most references such as the EAC FAQ and hydrogenaudio.org Wiki, especially when referring to CUE sheets in EAC, these 588-sample, 1/75 s chunks are called 'frames', and obviously these differ from the tiny 588-bit (not 588-sample) data frames referred to in this Wikipedia article, about which I know nothing and can only accept what I read here or follow up the references. Might the 1/75s chunks be called 'sectors' in this article and 'frames' elsewhere? Well no, I don't think so.

The CUE sheet frames are in my experience definitely 588 samples wide, and therefore must contain 2352 bytes of PCM audio payload at 16-bit depth, 2 channels. Yet section 3.1 of this article states:

Data on a CD-ROM are organized in both frames and sectors, where a CD-ROM sector contains 98 frames, and holds 98×24 = 2352 (user) bytes, of which 304 bytes are normally used for sector IDs and an additional layer of error correction, leaving 2048 bytes for payload data.

I take issue on a couple of points. Firstly, the paragraph to which this belongs is clearly supposed to still be about CD audio (red book) with EFM and CIRC codes, while CD-ROM (mentioned twice in the quote above) is talked about in section 4, which happens to be the next paragraph. Secondly, it's CD-ROM data not CD audio that has the additional third layer of error correction and proper sector identification that both reduce its data payload capacity compared to red book audio CD's payload.

I'm tempted to think some info about CD-ROMs has been incorrectly presented as CD audio data structure, and that frames in red book are actually much larger, containing 2352 bytes (588 samples, 1/75 sec) of user PCM payload, with additional overhead for error correction bits and the like, and possibly some type of synchronisation sequence that uniquely identifies frame boundaries to aid random access based on the table of contents (analogous to the CUE sheet) that may define up to 99 tracks.

If anyone has verifiable sources or personal knowledge enough to remove the fallacies and correctly name and describe the data structure on an audio CD, please edit the Wiki, crediting any sources quoted and possibly indicating very clearly that this section covers the data structure of audio CDs (red book) only and not that of data CD-ROMs, which ought to be covered in the CD-ROM article. With apologies for verbosity, but I feel I need to specifically point out the flaws--Dynamicimanyd 22:18, 2 August 2007 (UTC)

Well, if your are confident that your knowledge is correct, you are welcome to edit the article yourself. In any case, I tagged the section asking for expert input. --Edokter (Talk) 23:23, 2 August 2007 (UTC)

Thank you for tagging it, Edokter. I'm only confident that it's wrongly talking about CD-ROM data structure in a section about audio CDs. I don't have confidence in technical details of the whole data red-book structure, only fairly firm knowledge of the 1/75sec = 588 sample-pair indexing resolution, so I'm unable to add much of use. I'll check the Red Book (audio CD standard) article for further info, though I don't remember seeing this sort of detail.--Dynamicimanyd 20:05, 3 August 2007 (UTC)

Further to checking the Red Book article, it is disputed. It does mention 588-sample sectors read at 75 sectors per second, but not any frames of 588 bits each.--Dynamicimanyd 20:19, 3 August 2007 (UTC)

Biggest problem seems to be the meaning of a frame and a sector. The red book article states that sectors hold 2352 bytes of music (x 75 = 176,400 bytes / 2 tracks / 16 bits = 44100 samples). Also, look what I found on an old wikpedia mirror (meaning it was here once):

A CD-ROM sector contains 98 frames, and holds 98×24 = 2352 bytes. The CD-ROM is in essence a data disc, which cannot rely on error concealment, and it requires therefore a higher reliability of the retrieved data. In order to achieve improved error correction and detection, a CD-ROM has a third layer of Reed-Solomon error correction. Note that the CIRC error correction system used in the CD audio format has two interleaved layers. A Mode-1 CD-ROM, which has the full third layer error correction capability, contains a net 2048 bytes of the available 2352 per sector. In a Mode-2 CD-ROM, which is mostly used for video files, there are 2336 user-available bytes per sector. The net byte rate of a Mode-1 CD-ROM is 44.1k×2048/(6×98) = 153.6 kB/s. The playing time is 74 minutes, or 4440 seconds, so that the net capacity of a Mode-1 CD-ROM is 682 MB.

I wouldn't actually mind getting rid or simplyfying the Data structure section alltogether, as it is overly technical anyway. — Edokter • Talk • 10:47, 8 August 2007 (UTC)

Thanks for this detective work, Edokter. A Google search for 2352 bytes 75 CD revealed links to Wikipedia, of course, numerous forum posts and a few patent texts. A couple of them mentioned the concept of A-Time (absolute time since the start of the CD album) versus TR-Time (relative time since the start of the current track). And US patent 6119116 from an IBM inventor in Sept 2000 in particular verifies this and explains that both of these time formats are...

...expressed in minutes, seconds and frames, mm:ss.fff. Each frame corresponds to one sector which is 1/75 second. One sector or frame, it will be recalled, is equivalent to 2352 bytes of user data in Red Book format.

(emphasis mine)

The same information is present in an earlier patent from 1995 too, and tends to back up the accuracy, which in any case, a patent applicant is likely to be careful about, especially one from any of the major technology companies, including IBM.
Additionally, the further info regarding CD-ROM structure is exactly of the sort of magnitude that made sense when I read all this in the past, and the reduced payload in the same frame size makes sense, and I remember it was a power of 2 (2048 bytes for Mode-1 CD-ROM).
I'm confident enough that I'm going to simplify things and make an edit to the main article which was clearly wrong or misleading before. I'll leave the expert help tag on. --Dynamicimanyd 21:10, 15 August 2007 (UTC)

I have tried to rewrite the CD data structure, but I am afraid that Edoktor does not allow me to do so. Edoktor does not understand the difference between a sector and a frame (he apparently does not have a copy of the red book). He discusses C2 errors, while this is not the place to do so. I leave it in this messy state as I have no interest to see my work being ruined by a non-specialist. Izab1 16:04, 16 August 2007 (UTC)

I welcome any action that clarifies the technical aspects of the CD, but you removed an entire chunk of information (added by Dynamicimanyd btw.) that was at least a considerable improvement of what was there before. As explained above, in the music domain, one second of music constitutes 75 frames, not sectors. And as far as I know, one frame occupies one sector. Please tell us what the Reb Book says, and I'm sure we can come to the right defenition for all the terms. — Edokter • Talk • 17:11, 16 August 2007 (UTC)

What do you mean by "in the music domain"? You said: "And as far as I know, one frame occupies one sector." Do you know anything about this topic? Do you have a copy of the Red Book? Pls reverse this article to the state before you and Dynamicimanyd ruined it. Izab1 19:04, 16 August 2007 (UTC)

We "ruined" it? Did you actually read the entire discussion above? The problem is we have to go with whatever sources we can find, and the sources mentioned above say 1 sector = 1 frame. If we are wrong, the please prove us wrong and tell us what the Red Book says about sectors and frames. — Edokter • Talk • 19:15, 16 August 2007 (UTC)

Yes, I read it. It reads for example and obviously these differ from the tiny 588-bit (not 588-sample) data frames referred to in this Wikipedia article, about which I know nothing So he honestly states that he does not know, and also you, I infer, have not the slightest idea what you are doing. So pls reverse it to the state before you both started to ruin it. It was just fine, and in line with the red book, which, btw, is the only reliable source. The rest is "music domain", what ever that means.Izab1 19:41, 16 August 2007 (UTC)

You're not much help. I'll have to research it myself then. But I think I laready see the confusion: you are refering to s physical (288 bits) frame, while we have the logical (288 samples) frame/sector in mind. When I'm done, I'll try incorporating it into the article. — Edokter • Talk • 20:02, 16 August 2007 (UTC)

Izab1, I'm sorry that you feel I have ruined it. However, the previous state did include information about data CD-ROM structure in the same paragraph as discussion of audio CD structure, which was a best confusing. It also contained no citations or references. I was careful enough to look for confirming information, and I believe that Patents tend to have to be worded carefully enough with accurate information about the background art to be trustworthy sources, and if they're old enough they won't be quoting sources like Wikipedia and private web pages that may contain suspect information. I also found the same information in 2 patents (though I only cited the clearest) and it backed up by previous knowledge of the subject (which was second-hand, not direct from the Red Book). If you can find good references to cite for the previous assertion that Red Book frames are 588 bits, not samples, and differ from sectors, then I'd be only too happy to learn something and improve my knowledge (and printed sources, such as the expensive Red Book itself, would be fine - just cite the source and page/section number as you would in a scientific journal and anyone with the will can verify the facts). My understanding reflects terminology and numbers that are widely quoted on the web and in some printed sources like patents and accords with the structure of CD-derived lossless audio files with which I am familiar.

I'd be delighted if User:Edokter can discover whether his hunch is right, and if so, whether the word frame is used for two different entities, one in the physical structure and one in the logical structure, or some other word is used or a combination such as physical frame versus logical frame.

I'd be happy to have the C2 error passage cleaned up or removed, though I believe it adds some background to the difference between audio CD and CD-ROM storage capacity and error correction layers.

I hope we can enjoy a civil discussion and get some good sources to firm up the quality and clarity of information presented--Dynamicimanyd 20:22, 16 August 2007 (UTC)

Several online sources confirm the 588-bit frames, so I did a major rewrite. I also removed some information that is beyond the scope of the article and made it more readable for the average reader. I hope it meets everyone's approval. — Edokter • Talk • 11:00, 17 August 2007 (UTC)

I am glad that you have rewritten the section to essentially the state before it was improved a few days ago. The original text was just fine. I have edited your text, since at places it was false, as for example, mode II does not have any 3rd layer ECC. It would be nice if you could read the literature prior to imroving the text. The section on timing is false, but I have no time to rewrite it. I do hope that you will study this topic, and revert or remove the text. Izab1 14:44, 17 August 2007 (UTC)

First, I only edited what was already there (or in the history), so I can't be blamed for the mistakes regarding the mode II error corection. Second, I do think you use to many 'scholary' words. This is an encyclodepia article, not a research paper. And like I said, I can't read the literature, and have to make due with what's online. Regarding the timing section, I ask you again to quote the relevant text from the red book. I do know that 99% of all editing applications do refer to the 1/75th timing as a frame, and I have indicated it as such. — Edokter • Talk • 15:09, 17 August 2007 (UTC)

Thank you both for the great improvement in clarity that has resulted from this extra research and rewriting. I'm sorry that my discovery of sources with the wrong use of frame led me to confuse things in the meantime. The subsection "Frame" is particularly useful in disambiguating the two kinds of usage, both of which feature the magic number of 588.--Dynamicimanyd 19:44, 21 August 2007 (UTC)

Anyone know where that 30 billion number in the introduction comes from?

That's a HUGE number... I'd love to see how that number was reached.

I have been hunting for similar data on floppy disks, too... if anyone knows.

--Beagley 18:42, 27 August 2007 (UTC)

Removed "anual". More likely the total sales since it's introduction. — Edokter • Talk • 21:39, 3 September 2007 (UTC)

Yesterday I wrote, quoting the BBC (and thus Philips) that 200 billion CD audio discs have been sold in 25 years. Ignoring the relatively low sales in the first 10 years, we estimate in 2007 a sales of around 20 billion audio discs. So adding sales of Cd-R and CD-ROM it is very likely that much more than 30 billion discs are sold in 2007. So it seems like a good idea to revert the edit.Sabbah67 14:31, 5 September 2007 (UTC)

I am interested in the size of the data-holes (the binary is stored in various small holes) and cannot find any info on the topic. Any of you know the radius of the holes? --Shivaya4 (talk) 09:16, 8 February 2010 (UTC)

The term I searched for was q=compact+disc+pit+radius; from which the seventh and eighth results gave values of:

Source	Pit depth	Width	Length
[5]	100 nm	500 nm	850–3,500 nm

The first of those gives reasonable explanations for two of the values (subdivision of the wavelength of the light used) and lengths being 3–11 times bit rate (at 1.2–1.4 m/s), but perhaps you can investigate further (eg. the Patents) and come back with what you've found. The first also points out the length varies depending on the linear velocity across the CD.

I note that this is your first contribution to Wikipedia (welcome), so I really hope I didn't just do your homework for you. —Sladen (talk) 09:51, 8 February 2010 (UTC)

I am confused by the various dates given for the release dates of the CD onto the general market, Some dates show 1980 some 1982, however, I have handled and listened to a CD in 1977/8. Also, Philips claims to have invented the CD in order to replace their Cassette Tape invention, but a Mr Russell claims to have invented the CD around 1965. What's correct? Barry. —Preceding unsigned comment added by 203.129.146.52 (talk) 07:12, 26 February 2010 (UTC)

Barry, you are absolutely right. I brought this error in the wiki page up a number of years ago, but it was decided by...someone who wasn't alive in 1970 and held a CD in their hands...to maintain that the compact disc was invented in the 80's by Philips. James Russell did, in fact, invent the compact disc in 1965. This is a perfect case in point why Wikipedia cannot be used as a reference in legitimate historical discourse.

Phearox (talk) 17:37, 4 July 2011 (UTC)

Guys, this has been discussed multiple times. There are links to the archives closer to the top of this page. Click on them and use your browser to search for "russell".

Wikipedia would be a worse resource if it relied on "I was there" or "I am an expert" kinds of unsubstantiated claims, no matter how true or plausible they may be. If Russell invented the CD as we know it, surely there will be some historical, citable published somewhere about it. If there is a noteworthy debate on the subject, surely the debate itself has been covered in a newspaper, journal, conference paper, or thesis. Otherwise it's just folklore. Familiarize yourself with the Wikipedia policies WP:V and WP:RS and come back with things we can cite. —mjb (talk) 18:39, 4 July 2011 (UTC)

Well, There are patents in his name on the subject (yes, the original purpose was video and audio together, but the technology is unarguably covered by the patents): http://www.google.com/patents?vid=3501586, http://www.google.com/patents?vid=3795902 (Ironically, I found these right on his Wikipedia entry...) There are meeting minutes from live discussions with the man himself: http://www.aes.org/sections/pnw/pnwrecaps/2005/russell/. You could also tell the Massachusetts Institute of Technology they are wrong if you like: http://web.mit.edu/invent/iow/russell.html.

I don't mean to sound combative, but this is something that has frustrated me for years - the presence of such an overabundance of evidence (patents, live presentations and meetings, even research by respected educational institutions), and yet there is not even the slightest mention of Russell in the compact disc entry of Wikipedia. An absolutely essential piece of the compact disc's history has been omitted from a resource some children in school often take as gospel.

I wouldn't defend this point so vehemently except that I /held a CD in my hands/ prior to the supposed invention by Philips. The stance that Sony/Philips invented the CD is preposterous on its face. Phearox (talk) 19:34, 4 July 2011 (UTC)

Naturally, there is always prior art that contributes to aspects of a given technology. When writing the history of pretty much anything, one must make editorial decisions on where to start telling the story. How far back do you reach? How much of the technology that predated and/or was built upon to create what we know today as the Compact Disc needs to be mentioned in the article on the Compact Disc? There's already an optical disc article linked to from the lead, and a videodisc one as well. Those have their own histories which overlap some with the CD history. I mean, I don't doubt that you held in your hands an early optical disc that maybe contained audio and/or video data in some pre-Red Book format. Was it all-digital? Was it referred to as a Compact Disc, the name Philips came up with in 1977–1979, as reported by the BBC? I'm guessing no and no. So if you held something more aptly described as CD-like, is it not an overstatement to say Sony & Philips are wrongfully claiming to have created the CD? Compact Disc is a specific name for a specific combination of technologies and standards. It's not a generic name for all small audio optical discs ever invented or demonstrated. So lines have to be drawn.

I hope I don't sound intractable; there's always room for improvement in any article, and this one is no exception. Others may disagree, but I personally don't think it would hurt the article to make some mention of Russell's work, using whatever good sources we can find. But we do have to avoid characterizing it in the way some seem to be advocating, which is along the lines of "Sony and Philips have perpetrated a great fraud, lo and behold the CD was actually invented by someone else, as shown by these patents." You'll have more success if you try not to focus on debunking; the article has to focus on how the CD as we now know it came into existence, without reaching too far into the history of all optical discs or placing undue importance on dead-end branches of digital audio disc research. —mjb (talk) 23:12, 4 July 2011 (UTC)

I would suggest that the information you present about James Russell could help improve Optical_disc#History. Be careful about using primary sources they're useful in some technical contexts but using them to try and demonstrate who was first would probably constitute original research. --Kvng (talk) 19:53, 6 July 2011 (UTC)

The year 1980 is usually referenced as the published date of the RED book, which later became the first standard for CD Audio format (IEC 908). Could you kindly point out where in the main page 1980 is referred as the first year compact disks were released? —冷雾 (talk) 06:24, 3 May 2016 (UTC)

Unfortunately for Mr Russell, in 1965 lasers were large and incapable of being incorporated into a disc player of usable size. The Compact Disc had to wait for the mass production of small gallium arsenide laser diodes small enough to be mass produced and of long enough service life to be saleable to the general public.

In addition, would one of Mr Russell's 1965's discs be playable on a modern CD player - no. So he didn't invent the Compact Disc. In addition, AFAIK, neither Philips nor Sony have any reputation for intellectual property theft and so if Mr Russell had made any contribution to Philips' or Sony's work on the CD system it is very likely they would have paid him for it.

The OP may well have handled a Compact Disc in 1977-8, as the system was at an advanced state of development by then, and early test examples of both discs and players may well have been available to selected organisations/publications. Fairly detailed descriptions of the Compact Disc system were published in the UK Hi-Fi press (e.g., Hi-Fi Answers) by around April 1979, although I don't think the 'Compact Disc' name itself had been revealed. — Preceding unsigned comment added by 95.149.55.0 (talk) 08:49, 16 August 2017 (UTC)

After reading this article, I am left unclear on the manufacturing process. In the Manufacturing section, does the initial disc formation from plastic granules introduce a spiral into the resulting surface? Later, does the data die press the data into the metalic layer alone? Is the thin, metal coating thick enough to hold the data or is the plastic substrate involved? Without clarity on these areas, I am left unable to think clearly about the physics of what happens when a disc degrades. Of course, commercially recorded discs, writable discs, re-writable discs, etc. are all different. My hope is that this article will be updated with greater detail in the Manufacturing section. Ideally, a disc diagram clearly showing the location(s) of the spiral and data will be provided. I suspect that the data reside in two places: in the metalic layer and in the plastic substrate upon which the metalic layer has been coated. However, it isn't clear to me how data could be introduced into the plactic substrate without the use of heat. Heat is not mentioned in the data impression step. --JimOfCR (talk) 15:37, 13 April 2010 (UTC)

It would be great to have this information added to the article (eg. with a diagram showing the construction at each stage of manufacture). Could you possible assist in researching it (eg. the best place to start is probably the original Philips patents). —Sladen (talk) 17:05, 13 April 2010 (UTC)

I too found the manufacture section lacking, specifically with "After a metallic reflecting layer […] is applied to the clear blank substrate…" but no mention of how this seemingly magical process is accomplished. I will continue my search as to how a metal so finicky as Aluminum can be deposited over 100-500µm "pits" and "lands" of polycarbonate plastic without destroying it. Hopefully someone more knowledgeable will be able to expound the article to include a more detailed explanation of this extremely interesting part of the process. —98.210.138.200 (talk) 05:02, 21 December 2010 (UTC)

The longest known single compact-disc is The Rest of New Order by New Order, which lasts exactly 80 minutes (80:02 with pregap), which is the longest a single CD album can go. Maybe this should be mentioned in the article. —Preceding unsigned comment added by 213.83.125.225 (talk) 09:00, 24 June 2010 (UTC)

The same sentence above was inserted[6] verbatium today on the Album article, also without citation. —Sladen (talk) 09:11, 24 June 2010 (UTC)

This says that the speed is different from the edge to the middle. OK. But it also says the RPM is different from edge to middle! That's literally impossible! What the heck is going on here? --Jtle515 (talk) 17:22, 14 July 2010 (UTC)

Speed and rpm are the same thing—rpm is spinning speed—and the spinning speed lowers as the CD plays. It starts revolving fast at 495 rpm at where the laser is reading a short inner track near the middle, then gradually and smoothly reduces in rpm (spinning speed) until the laser is near the outside edge and the rpm is about 212, for a maximum length CD that has data all the way out to the outside edge. The laser reading speed is constant, called a constant linear velocity (CLV)—it reads about 1.2 meters (47 inches) worth of pits and lands every second for a 1x speed realtime player. To me, the article is quite clear and I don't see the need to modify it. Binksternet (talk) 18:27, 14 July 2010 (UTC)

Speed and RPM are two different things- Speed is linear, and because of the increased radius near the edge, would be higher than closer to the center on a CD. RPM is the same no matter what- the 'top' point of a disc on the outside and on the inner part will always reach the 'top' at the same time. Think of it this way, if you spin the disc 360 degrees in one minute, you are spinning every point on that disc 360 degrees in one minute. RPM is the same, in this case 1 RPM, while speed is different, as the point on the outside has to cover more distance than the inner point in the same amount of time. 66.143.200.27 (talk) 05:30, 11 December 2010 (UTC)

I noticed that reference 36 (website) is now down. — Preceding unsigned comment added by 69.204.43.162 (talk) 03:24, 31 May 2015 (UTC)

Hi, 69.204.43.162 (Your name please?) Reference number changes all the time. Did you mark it as Dead Link? —冷雾 (talk) 06:32, 3 May 2016 (UTC)

Hans B.Peek, "The Emergence of the Compact Disc", IEEE Communications Magazine, Jan. 2010, pp.10-17. —Preceding unsigned comment added by Peek (talk • contribs) 11:04, 25 July 2010 (UTC)

Dear Mr Peek, does any of your papers contain the precise physical parameters of the compact disks? See this section. —冷雾 (talk) 06:38, 3 May 2016 (UTC)

A careful read on this article http://www.exp-math.uni-essen.de/~immink/pdf/beethoven.htm will reveal that the cd playing time of 74 minutes is more of a competition thing between Sony and Phillips than the usual story about Beethoven'w 9th. I would suggest reading the article and maybe correct the wikipedia article. —Preceding unsigned comment added by 88.218.48.34 (talk) 19:18, 27 November 2010 (UTC)

A Feb. 22, 1986 article in Billboard repeated a claim from Qualiton Imports that the BIS Records label was going to release CDs which, due to their mono content, had 2-hour playing time per disc, breaking the (then-) 75-minute barrier. The actual CDs that got released were nothing special: Gould Plays the Piano in Stockholm, 1958 2-CD set and Nicolai Gedda: Verdi 2-CD set, naturally both just containing mono content mastered in 2 channels. Apparently the Billboard article was a gross misinterpretation of the actual release announcement, whatever it was. Red Book doesn't allow for a 1-channel audio stream, does it? And the subcode can't theoretically address more than 99 minutes, anyway, right? Or was such a thing actually possible? —mjb (talk) 07:45, 28 January 2011 (UTC)

I recall that the disappointment of twin mono CDs was that the hardware vendors did not offer a CD player to address the format. No CD player I ever saw was able to play one channel and direct its sound to both Left and Right output jacks, then start over at the other channel and do the same thing. Binksternet (talk) 13:36, 28 January 2011 (UTC)

One of the major errors of the Red Book spec is that it assumes all recordings will be two-channel. (Hey, who wants to listen to mono?) Oddly, a quadraphonic format was spec'd, but it wasn't playable on two-channel machines. Duh. WilliamSommerwerck (talk) 14:03, 16 February 2011 (UTC)

My very belated informational two cents: While browsing in the big San Francisco Tower Records store sometime around 1988, I was pleasantly surprised to see a CD set of a vintage mono recording of, IIRC, Wagner's Ring cycle (which normally requires around ten CDs) packaged with a simple little passive mixer unit -- pairs of RCA jacks in and out and a L-stereo-R selector on the input side -- that allowed the number of discs to be halved. About time, I thought, as most of my listening in all genres is to pre-stereo-era recordings. The gizmo appeared to add not more than twenty dollars to the cost of the set, more than offset by the halved disc cost. The same thing can be done less neatly and conveniently with a "Y" splitter cable, by plugging the single end into the CD player's left or right output jack as needed. The problem then becomes one of indexing the tracks for normal access. Rashly assuming that, as with floppies and hard disks, a CD's index table can point to start bytes anywhere on the disk, allowing overlapping areas to be specified, the user would still be obliged to remember to switch from one channel to the other to select from the corresponding group of tracks; otherwise, they would hear the alternate-channel material, almost certainly "joined already in progress" at some awkward and jarring point. 66.81.220.42 (talk) 13:01, 23 August 2016 (UTC)

Techmoan has a video about the mono idea on his youtube channel. I'll refer you to the New York Times piece he used: https://www.nytimes.com/1988/06/05/arts/sound-and-recordings-the-best-ring-issued-on-just-7-compact-disks.html

So, apparently, the BIS CDs that you mention were never made. BIS would have needed to have the CDs manufactured in a factory partially owned by Philips, and Philips (as "guardians" of the CD standard) refused. Philips regarded this new idea as a risk that could confuse and alienate consumers, making it harder for CDs to become a widely accepted medium.

A few years later, Rodolphe (the label discussed in the article) revived the idea, and they had their CDs manufactured in Germany by Bertelsmann/RCA Victor. Philips could not block this move.

These CDs by Rodolphe, which could hold nearly 2.5 hours of music, are marked "long durée", "double durée", or "monophonique".

Technically, the idea made sense in a time when it was still expensive to manufacture a CD and having just one disc (instead of two in a set) was a genuine economical advantage. The idea was used for historically recordings of classical music, which were in mono anyway, and which were often very long (like operas). Otto von B. (talk) 21:47, 24 March 2019 (UTC)

Firstly, would there be any value in updating the stated maximum write speed of CDRs to 52x as these are now widely available? Secondly, how about mentioning CDRs with a capacity of 90mins/800MB and 100mins/900MB? They're available at various online stores in the UK and I imagine elsewhere, too. (One site picked at random: www.digitalpromo.co.uk) SP1R1TM4N (talk) 18:15, 10 February 2011 (UTC)

The History section is badly over-written. It can be cleaned up without removing useful content. I'll take a crack at it later today, or tomorrow, unless someone objects. WilliamSommerwerck (talk) 14:06, 16 February 2011 (UTC)

Edokter (talk · contribs) has suggested a merge of Blu-spec CD into this article. We might want to also consider a few other similar techniques as part of this proposal.

• DSD-CD (Sony)
• K2 High Definition (JVC)
• XRCD (JVC)
• HDCD (Pacific Microsonics/Microsoft)
• SHM-CD

I oppose this proposal. I could not find a good place to work in this material. It looks like Compact Disc manufacturing might be a more workable merge destination but I am reluctant to clutter that article with these marketed refinements to the basic process. --Kvng (talk) 13:36, 8 May 2011 (UTC)

I support this proposal As the Two formats are compatible and the Blue-spec CD is playable on any CD player, I think it would make for a noteworthy section in the Compact Disk article. z'Comandif l'Statentaru l'Zeklingtonum! (talk) 22:24, 9 November 2011 (UTC)

I support this proposal Unless someone is planning a large increase in the size of the Blu-spec CD article, it makes an ideal subheading in this page, and unified information about, as pointed out above, a backward compatible formatTim bates (talk) 11:02, 16 December 2012 (UTC)

It would be good to have the article improved to meet WP:Featured article standards in the next few months so that it can be featured on the main page on the 30th birthday of the CD: 17 August 2012. Binksternet (talk) 02:51, 11 December 2011 (UTC)

This article is a key reference work for humanity. It is too vague and ambiguous to say the standard data capacity of a CD-R is "700MB", even with the explicit binary qualifier. We need and deserve an exact number of stated data bytes of capacity, with whatever qualfiers are needed, about being nominal and varying with the phase of the moon... WHAT IS THE ACTUAL NUMBER OF BYTES OF DATA CAPACITY ON A STANDARD 700MB CD? The CD-R article says 737,280,000 bytes -- maybe that number should be in this main article? -96.233.20.116 (talk) 22:45, 3 June 2012 (UTC)

Any precise figure is somewhat irrelevant as there's a tolerance range on many of the parameters for one thing (track spacing, pit and land sizes), and there's a difference between red book CD audio (with two layers of error correction) and CD-R data discs with a third layer reducing capacity to improve error-recovery. A further problem is that the data storage and data communications and telecoms industries tend to refer to bit rate (sometimes symbol rate) or capacity with decimal prefixes (kilo=1000) while the software industry tends to use binary prefixes (kibi=1024) or out of tradition treat use the symbol of the decimal prefix with the value of the binary one. CD users will often have binary capacities reported as if decimal by their computer, but the media will often use the decimal prefix on its packaging and may refer for its red book capacity, not its data capacity.

This article is talking about the CD from both the physical and the software sides, so putting a precise and unambiguous number in the panel isn't simple. A compromise that alerts the user to the difference might be to specify capacity of a CD as typically up to ~700 MiB (CD-ROM), or 80 mins audio (~800 MiB of red book audio data) and leave it at 1 significant figure of precision. The body of the article gives more precise details of the differences.

We need not provide or suggest unwarranted precision and in such figures and should rise above our personal preference for decimal or binary prefixes (Mega or Mebi) and not try to impose them on the article or get into an edit war. I reverted an edit by an unregistered IP address a short while ago, not because I'm taking sides on the Mega/Mebi issue but because the kilobit/s kilobyte/s was confused B is for Byte, b is for bit, by convention. Dynamicimanyd (talk) 10:50, 29 August 2013 (UTC)

{{help me}}

Dear editor, My name is Hans Peek and am indeed, as you presumed, the author of the article mentioned in the history under [3]. Thank you for accepting my recent text proposals. I do not know if you can access my article. If not, I can send you a copy of this article.. This article, also describes briefly, the reason of the long period, 1974-1978, it took Philips 'audio' to switch from analog registration to digital. In the period 1969-1987, I was a department head at the Philips research laboratory in Eindhoven. From 1974 on, I and two of my department members got involved in the project group installed by L. Ottens. For me and my department member L. Vries, there was an important reason to choose digital registration instead of analogue. In that case most errors on an optical audio disc could be corrected or masked. However, it took four years for 'audio' to accept this. If you think it is useful for the history of the CD to mention this I can write a brief text proposal?

Best regards,

Hans Peek— Preceding unsigned comment added by Peek (talk • contribs) 15:23, 15 July 2012 (UTC)

Welcome to Wikipedia. I have seen your additions to the article and I have helped them fit into the general style and format of Wikipedia. Thank you for bringing the reference here; it is good information.

What is your concern? Are you worried about this note on your talk page? That sort of note is standard boilerplate for an author who adds his own work to Wikipedia. The conflict of interest in this case is very mild, not worrisome. Your paper that was published by the IEEE is a fine source for this topic.

If you have a specific question to ask, please ask it here. Binksternet (talk) 12:28, 16 July 2012 (UTC)

'A small amount of lacquer is applied as a ring around the center of the disc, and rapid spinning spreads it evenly over the surface.'

Centripetal force will vary widely from centre to outer edge at any given spin speed, and lacquer viscosity is constant, so the lacquer layer will be far from even Tabby (talk) 15:34, 17 April 2013 (UTC)

I always thought so, but it is used in the semiconductor industry to put photoresist on wafers, and comes out uniform enough. Gah4 (talk) 08:26, 23 February 2020 (UTC)

Yeah, I used to spin photoresist onto things in grad school. I always wondered why that worked at all, but I never tried to analyze it. Spiel496 (talk) 02:28, 25 February 2020 (UTC)

I have included a citation for a website list of known Copy Protected CDs (mainly found in the UK, but some elsewhere which I remember reading at the time) as this was the only thing a very quick scholar.google.com search ignoring patents, brought up to verify the previous early-2002 information (with citation-needed remark). The original link is now dead but it's available on archive.org's Wayback Machine from 5th December 2012 - I found the link in one of the academic paper's references sections.

There were academic discussions of Sony/BMG copy-protection and root-kit techniques by Halderman/Felten then of Princeton, including a 15th USENIX Security Symposium paper but these did not mention earlier copy protection schemes dating back to 2001. I believe there were reasonably erudite forum discussions on hydrogenaudio.org soon after many of the bad CDs were discovered in the wild, though I haven't yet checked the archives.

Dynamicimanyd (talk) 18:31, 22 July 2013 (UTC)

A note

A relatively recent book (2009, I don't expect to see much more recent ones about this technology) by Philips authors uses "Compact Disc" to refer to the technology but "compact disc" to refer to an individual disc [7] (they also use the abbreviation CD aplenty for that matter). Someone not using his real name (talk) 08:31, 14 December 2013 (UTC)

In the Manufacture section, there is an AFM image of the compact disc data surface. The upper half uses color to indicate surface height. Unfortunately, whereas the article describes the surface to have just two types of region -- "pits" and "land" -- there are three distinct colors in the image. If the black color represent pits and the orange color represents the virgin (unexposed, unwritten) surface, what are the white regions along the track between pits? They should be the same shade as the space between tracks. Perhaps some data-processing step caused the white regions, I don't know. The bottom half is difficult to interpret. I think the image should be replaced. Spiel496 (talk) 19:15, 7 July 2014 (UTC)

I like the article, still have to read over it.Peas345 (talk) 15:30, 13 February 2015 (UTC)

The Red Book CD-DA standard was published in 1980. The article originally stated that this was "available" in 1979. This is not true. The standard was finalized and published in 1980.

(86.170.95.234 (talk) 01:02, 10 July 2015 (UTC))

Finalized by who? The people who were looking at it in 1979. The proposed standard was being passed around to engineers and executives in the industry, those who would certify it. Binksternet (talk) 02:36, 10 July 2015 (UTC)

Yes, and the fact that the collaboration between Sony and Philips began in 1979 is clear in the text. The standard was PUBLISHED in 1980, and not formally accepted until 1987! The text also reveals that details of the standard were still being worked out in May 1980. Please read the full article. My insert was based on detail further on in the text:

As a result, in 1979, Sony and Philips set up a joint task force of engineers to design a new digital audio disc. Led by engineers Kees Schouhamer Immink and Toshitada Doi, the research pushed forward laser and optical disc technology that began independently by the two companies.[14] After a year of experimentation and discussion, the task force produced the Red Book CD-DA standard. First published in 1980, the standard was formally adopted by the IEC as an international standard in 1987, with various amendments becoming part of the standard in 1996.

Please excuse different IP - I have a "floating" IP address.

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I did some calculations to see how many bytes 80 minutes of uncompressed PCM uses:

(16*2*44100*60*80)/(8*1024*1024) = 807.5 MiB

16 bits per sample, there are 2 channels, there are 44100 samples per second, each minute has 60 seconds, CD holds 80 minutes, 1 byte= 8 bits, 1MiB = 1024 KiB and 1KiB = 1 byte

As you can see I arrived at a value different than the 700 MiB that Wikipedia says. Is it because audio CDs have to worry less about redundancy, so they can hold more data? Did I make a mistake in my calculations? Or is the explanation another entirely? Can anyone clarify?

Adonis_DS (talk) 18:25, 4 January 2016 (UTC)

Yes, audio CDs have one less "layer" of error correction, so they hold 2352 bytes of end-use audio data per sector instead of 2048 bytes as in data CD. In addition the "80 minute" and "700 MB" figures are approximations, and both are actually outside the standards, which call for 650 MiB or about 74 minutes. The "80 minutes" and "700 MiB" are achieved by using a slightly tighter track pitch than the standard allows. Jeh (talk) 19:47, 4 January 2016 (UTC)

Thanks! Adonis_DS (talk) 7:47, 5 January 2016 (UTC)

As well a I know it, it isn't that the track pitch is non-standard, but that the tolerance is tighter. That is, they are within the original pitch +/- margin. But I didn't look it up. Gah4 (talk) 00:20, 14 December 2021 (UTC)

"Each pit is approximately 100 nm deep by 500 nm wide, and varies from 850 nm to 3.5 µm in length""

Where do these numbers come from? In EFM scheme, for example, where pit lengths are between 3S-11S and the single-bit length S=0.278µm, the aforementioned values are NOT true.

See Introduction to CD and CD-ROM and web article: CD, CD audio and CD-ROM.

冷雾 (talk) 07:16, 3 May 2016 (UTC)

Pit depth is supposed to be 1/4 wavelength in polycarbonate, n=1.585, at 780nm. 780nm/4/1.585=123nm. 100nm sounds a little off. Gah4 (talk) 08:32, 23 February 2020 (UTC)

If I recall correctly, the 1/4 wavelength depth would give the greatest contrast. But there is a tracking method which worked by sensing an imbalance on the left and right halves of the detector, which is essentially at the lens pupil. That signal (called push-pull for some reason) is maximized at 1/8 wavelength depth. So there was a compromise. Spiel496 (talk) 02:25, 25 February 2020 (UTC)

The capitalization in the article name indicates compact disc is not a proper noun. The lead uses title case and so presumably believes otherwise. Capitalization is inconsistent throughout the rest of the article. Which is it? I'd do something WP:BOLD but I don't have a good track record making these calls. ~Kvng (talk) 15:59, 9 August 2016 (UTC)

Imho, it's a proper noun and should be capitalized. A "compact disc" is just about any flat, circular object that can be described as compact. The "Compact Disc" standard is what this page is about. --Zac67 (talk) 17:00, 9 August 2016 (UTC)

I've always seen "compact disc" written in lowercase. It's written in lowercase on this CD player https://en.wikipedia.org/wiki/CD_player#/media/File:CDP101a.jpg 2602:306:3653:8920:8845:B1A5:A7FD:157F (talk) 19:25, 9 August 2016 (UTC)

Actually, it's spelled "COMPACT disc DIGITAL AUDIO" on the CDP-101... --Zac67 (talk) 19:57, 9 August 2016 (UTC)

For our purposes here, it doesn't matter how others style it, it just matters what kind of noun it is. See Wikipedia:Manual_of_Style/Titles#Capital_letters. ~Kvng (talk) 21:09, 9 August 2016 (UTC)

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---

Wonder

Apologies for the poor presentation, I'm new to this and will appreciate any corrections in format. 

Please see this image here - https://commons.wikimedia.org/wiki/File:First_cd_played_on_BBC_Radio_and_Independent_radio_in_the_uk.jpg Not sure whether it should be linked to this page, or how best to do it? This does show some social history in that the heavy soiling all occurred in 1982, when the BBC radio and independent radio presenters wanted to see it scratched and covered in jam to 'prove', Philips advertising claim of "perfect sound forever".Supermack01 (talk) 12:32, 17 October 2017 (UTC)

There have been a bunch of edits in the past few weeks, most by Pent112, and I am just getting to reviewing them. I do not see any clear net improvements and I see some potential regressions. And per WP:BRD I have reverted the whole lot of them. Examples of issues include replacing an archived link with a live link without archive. Unformatting a reference. Confusion between 'die' and 'dye' that I'm not confident has been sorted out. Quiet removal (marked minor) of a low-quality reference. Replacement of {{by whom?}} with unreliable reference and no commentary in the article. ~Kvng (talk) 16:06, 9 November 2017 (UTC)

The question should be asked of industry of music why CD's are so prone to easily damage. Creating a metal layer on the top without any protective layer will easily get damaged.--2605:6000:3D11:3200:211A:8044:929B:34D1 (talk) 00:03, 13 November 2017 (UTC)

Sorry, but demanding answers from Sony and Philips about design decisions is not what Wikipedia does. And talk pages are for discussing improvements to the article, not for discussing the article's subject. See WP:TALKNO, WP:NOTFORUM. If you can find reliable sources for the reason for the decision to put only a thin layer of shellac or paint on the data layer, please be WP:BOLD and add the info (with references) to the article. Jeh (talk) 05:01, 13 November 2017 (UTC)

The unsourced first three paragraphs in the Manufacture section are wrong. It's got the steps more or less correct but in the wrong order. The process is described correctly at Compact Disc manufacturing, but I can't just summarize that because it's unsourced too. I tried searching for sources online but couldn't find any. Kendall-K1 (talk) 01:27, 3 April 2018 (UTC)

Try the magazine archives at http://www.americanradiohistory.com . Jeh (talk) 01:43, 15 April 2018 (UTC)

I did that earlier but couldn't find what I needed. There are a few articles that come close, but I couldn't find one that describes all the steps in the proper order. Kendall-K1 (talk) 00:17, 10 October 2018 (UTC)

The article says: This continued from vinyl to CDs but was broken when Apple marketed MP3s regarding apparent value. Does this mean that the apparent value of MP3 is higher than CD? How do we measure apparent value? Is there a WP:RS for it? Gah4 (talk) 16:26, 11 March 2020 (UTC)

The cited NYT article does support the historic price increases with new formats and notes MP3 as the possible end of the trend. Apparent value is not a term that appears in the article, however. What our article text is trying to say is that consumers were sold on advantages of new formats - mobile use for 8-track and cassette, digital fidelity for CD - and so a higher price was successfully charged by record companies. With MP3 we also arguably got advantages - more capacity and freedom from physical media - but the price went down, not up. The reasons for this are explored in the source. ~Kvng (talk) 14:23, 14 March 2020 (UTC)

Yes. I was wondering if the apparent value really went up with MP3. There is also the cost to make, where tapes tend to cost more than vinyl disks to make, and also take longer. I am pretty sure that 8 tracks are lower audio quality than disks, I am not so sure either way about cassettes. Tapes and vinyl disks need to be kept clean, which is more work, and so decreases apparent (or real) value. CDs are meant to have higher audio quality, which contributes to apparent value. But MP3s have lower audio quality than CDs, might be easier to lose, and such. But MP3s have the convenience that you don't have to buy a whole album, so pricing by the song is easier. So, I am not so convinced that MP3s have a higher apparent value than CDs. Gah4 (talk) 01:12, 15 March 2020 (UTC)

The source makes a case that the reason the MP3 price went down WRT CD is because record companies did not have control of MP3. This was controlled by pirates and tech companies. The second half of the article does talk about some advantages of internet vs. CDs so at least partially supports an increased apparent value. Our article doesn't actually say apparent value increased with MP3 just that apparent value and price had increased for previous format introductions and that prices decreased with MP3. ~Kvng (talk) 14:56, 17 March 2020 (UTC)

The article makes mention of the playing surface as comprising 'pits'. This is indeed the common description. What I think is not clear from the text yet is that the surface modulation is pressed into the Compact Disc as pits but that the pressing side of the disc is not the playing side. What gets played are, well, the opposite of pits - what we might call bumps. The level known as lands are at the base of, and not the top of, the modulated surface. — Preceding unsigned comment added by InMyHO (talk • contribs) 18:39, 8 May 2020 (UTC)

Actually not. The pits are edged into the glass master. Then PC is molded over the master flowing into the pits. The PC is separated and the "bumps" are covered by lacquer. Data is read through the PC where the pits are – pits. --Zac67 (talk) 20:15, 8 May 2020 (UTC)

As far as I know, Zac67 is correct, but it doesn't matter either way. It is read by the 1/4 wavelength (in polycarbonate) difference, such that the reflection from the pit (or anti-pit) is 180 degrees out of phase, resulting in destructive interference. That works with either sign. Oh, and Zac67 forgot the metalization step between molding and lacquer, but I am pretty sure he knows about it. Gah4 (talk) 20:21, 8 May 2020 (UTC)

This one seems to agree with InMyHO, but not for the reason mentioned. The reason is that the original glass master (father) is used to make a complementary (mother) that is used for the actual stamping. But it might depend on production volume. Gah4 (talk) 20:30, 8 May 2020 (UTC)

OK, it seems that there is much more detail in Compact_Disc_manufacturing, some of which sounds familiar from the above link. This one does say, though, that PC molding works better when it goes around bumps, instead of into pits. It seems, though, that one can use from one to three generations off the glass master (father, mother, sons), where each one changes between pits and bumps. Sometimes the intermediates are played (maybe for quality, and not necessarily to audio). It explains, which it almost has to be, is that the metal is taken off the glass master before being used. (The pits would not be sharp enough from the back after the 0.3mm electroplating.) Small production runs are directly off the father, medium from mothers, and large runs from sons. As I noted above, the signal coming off is the same either way. Gah4 (talk) 22:48, 8 May 2020 (UTC)

More details are in The Compact Disk Handbook.^[1] Gah4 (talk) 00:57, 9 May 2020 (UTC)

In the master/stamp hierarchy, females have pits and males have bumps. We may make a simple assumption why these specific gendered titles were used. Pressing with bumps creates pits in the Polycarbonate which, when played, appear as bumps. The Glass Master, despite its epithet, is female and in the page on CD manufacturing is therefore also referred to as the 'mistress'. The Glass Master cannot be used for manufacture. Instead, it is used to make a father. A father can be used to make CDs or to make a mother. A mother cannot be used to make CDs (see later). The mother can be used to make sons. Sons can be used to make CDs. All CDs therefore are only ever made from male (i.e. bumpy, not pitted) parents. To quote from that page: 'This time the metal part that is grown is the mirror image of the father and is called a "mother"; as this is now pits, it cannot be used for moulding.'

The image used on the page entitled 'Compact disk data layer 2d 3d.PNG' does show that the playing surface as photographed comprises bumps and not pits. InMyHO (talk) 05:29, 9 May 2020 (UTC)InMyHO

I don't see that they can't be used, but it does seem rare. It is harder to get plastic to go into holes than around them, due to surface tension. Funny, though, I didn't get the male/female connection to father/mother/sons until you mentioned it. In any case, the WP:COMMONNAME is pits. Gah4 (talk) 05:44, 9 May 2020 (UTC)

I've always heard that the first compact disc was a Billy Joel CD.

I found an article that mentions it here...

The CD turns 30: The first player and album were released today in 1982

...and that page references this source (at the Internet Archive)...

Sony Global - Sony History

Wkrick (talk) 15:56, 12 September 2015 (UTC)

It's a myth. There were 50 titles released simultaneously on October 1st, 1982. 52nd Street just had the lowest catalog number. —Torc. ^(Talk.) 23:11, 2 June 2016 (UTC)

Here are some additional sources about the first batch of commercial CDs: a list of the first 50 titles, all realeased on Oct 1, 1982, "Sony" by John Nathan, PC World article, and Independent UK article. The Billy Joel 52nd Street myth frequently reappears, especially in the Billy Joel and 52nd Street (album) articles, so we need to keep an eye on those so we can finally kill this piece of fiction. —Torc. ^(Talk.) 19:29, 13 June 2016 (UTC)