DVD Frequently Asked Questions (with answers!)

This is the 8-Nov-96 revision of the FAQ for the alt.video.dvd Usenet newsgroup.
Please send corrections, additions, and new questions to Jim Taylor <mailto:jhtaylor@videodiscovery.com>.

Where can I get this FAQ?

- It will be posted periodically to alt.video.dvd and news.answers as "alt.video.dvd Frequently Asked Questions (FAQ)".
- The most current version is on the Web at <http://www.videodiscovery.com/vdyweb/dvd/dvdfaq.html>.

Contents


[1] General DVD

[1.1] What is DVD?

DVD, which stands for Digital Video Disc, Digital Versatile Disc, or nothing, depending on whom you ask, is the next generation of optical disc storage technology. It's essentially a bigger, faster CD that can hold video as well as audio and computer data. DVD aims to encompass home entertainment, computers, and business information with a single digital format, eventually replacing audio CD, videotape, laserdisc, CD-ROM, and perhaps even video game cartridges. DVD has widespread support from all major electronics companies, all major computer hardware companies, and most major movie and music studios, which is unprecedented and says much for its chances of success (or, pessimistically, the likelihood of it being forced down our throats).

It's important to understand the difference between DVD-Video and DVD-ROM. DVD-Video (often simply called DVD) holds video programs and is played in a DVD player hooked up to a TV. DVD-ROM holds computer data and is read by a DVD-ROM drive hooked up to a computer. The difference is similar to that between Audio CD and CD-ROM. DVD-ROM also includes future variations that are recordable one time (DVD-R) or many times (DVD-RAM). Most people expect DVD-ROM to be initially much more successful than DVD-Video.

There's also a DVD-Audio format. The technical specifications for DVD-Audio will not be finished for the first release of DVD.

[1.2] What are the features of DVD-Video?

- Over 2 hours of high-quality digital video.
- Support for widescreen movies and regular or widescreen TVs (4:3 and 16:9 aspect ratios).
- Up to 8 tracks of digital audio (for multiple languages), each with up to 8 surround channels.
- Up to 32 subtitle/karaoke tracks.
- Automatic "seamless" branching of video (for different story lines or ratings).
- Up to 9 viewer-selectable camera angles.
- Menus and simple interactive features (for games, quizzes, etc.).
- "Instant" rewind and fast forward, including search to title, chapter, or track.
- Durability (no wear from playing, only from scratching).
- Not susceptible to magnetic fields.

Most players include additional features:
- Language choice (for automatic selection of video scenes, audio tracks, subtitle tracks, and menus).
- Programmability (playback of selected sections in a desired sequence).
- Special effects playback (high speed, frame by frame, and slow motion).
- Parental lock (for denying playback of discs or scenes with objectionable material).
- Search to any frame (by entering a timecode).

[1.3] What's the quality of DVD-Video?

DVD has the capability to produce near-studio-quality video and better-than-CD-quality audio. DVD is vastly superior to videotape, and can be better than laserdisc (see 2.8.). However, quality depends on many production factors. Until compression knowledge and technology improves we will likely see DVDs which are inferior to laserdiscs. Also, since large amounts of video have already been encoded for VideoCD using MPEG-1, some early DVDs will use that format (which is no better than VHS) instead of higher-quality MPEG-2.

DVD video is compressed from studio CCIR-601 format to MPEG-2 format. This is a "lossy" compression which attempts to remove redundant information (such as sections of the picture that don't change) and information that's not readily perceptible by the human eye. The resulting video, especially when it is complex or changing quickly, may sometimes contain "artifacts" such as blockiness or fuzziness. It depends entirely on the quality of compression and how heavily the video is compressed. At average rates of 3.5 Mb/s (megabits/second), artifacts may be occasionally noticeable. Higher data rates result in higher quality, with almost no perceptible difference from the original master at rates above 6 Mb/s. As MPEG compression technology improves, better quality will be achieved at lower rates.

One of DVD's audio formats is LPCM (linear pulse code modulation) with sampling sizes and rates higher than audio CD. Audio can also be stored as discrete multi-channel surround sound using Dolby Digital or MPEG-2 audio compression. These are similar to the surround sound formats used in theaters but with higher compression. As with video, quality depends very much on how well the encoding was done.

[1.4] What are the disadvantages of DVD?

- It can't record (yet).
- It can't play in reverse.
- It uses digital compression. Poorly compressed audio or video may be blocky, fuzzy, harsh, or vague.
- It has built-in copy protection and regional lockout. (See 1.11 and 1.10)
- DVD players and drives may not be able to read CD-Rs. (See 2.4.3.)
- It will take years for movies and software to become widely available.

[1.5] When will DVD players and drives be available?

Some manufacturers, such as Thomson, originally announced that DVD players would be available as early as the 2nd or 3rd quarter of 1996. These predictions were woefully optimistic. Delivery has been held up mostly for "political" reasons of copy protection demanded by movie studios. The first players appeared from Matsushita (Panasonic) and Toshiba in Japan on November 1. Samsung and LG Electronics will launch DVD players in Korea in November. JVC, Philips, and Sony will not deliver at all until Spring 1997. JVC and Philips will release in Japan and Europe in Summer 1997. Mitsubishi, Panasonic, Pioneer, and Samsung players will not be available in the U.S. before early 1997. Toshiba says they will introduce players in the U.S. before 1997 only if there are enough DVD titles. Hitachi has delayed development and will sell Pioneer-built players in the interim (in Japan).

Fujitsu released the first DVD-ROM-equipped computer on Nov. 6 in Japan. Toshiba hopes to release a DVD-ROM-equipped computer and a DVD-ROM drive in Japan in December. Toshiba plans to release by Christmas a DVD upgrade kit in the U.S. for its Infinia line. Philips and Samsung have announced that their DVD-ROM drives will be available in the 2nd quarter of 1997.

[1.6] When will DVD titles be available, and how many?

As with hardware, rosy predictions of hundreds of movie titles for Christmas of 1996 have failed to materialize. Time Warner originally announced they would have 250 titles available for the launch of DVD, but they now say only that they "hope" to have as many as 50 titles ready by the first quarter of 1997.

At the November 1 launch of DVD players in Japan only 15 or so titles were available. Toshiba EMI and Victor (JVC) delayed some DVD title releases in Japan until mid-November to ensure compatibility with various DVD players. Sony will release titles in the Spring when it launches its players.

The following are known to have been seen in demos, which may or may not have anything to do with them being released first or ever: Batman Forever, Cutthroat Island, Free Willy, The Fugitive, Grumpier Old Men, Hell Freezes Over (Eagles tour), Outbreak, The Shadow, and Unforgiven.

DVD-ROM titles may begin appearing in late 1996. Approximately 40% of CD-ROM producers have announced intentions to develop for DVD-ROM. As of Aug. 1996, 30 DVD-ROM titles are supposedly in development for early 1997 release.

The first DVD-ROMs will probably be "PhoneDisc PowerFinder USA One" (which filled 6 CD-ROMs) from Digital Directory Assistance Inc., and "Silent Steel" from Tsunami Media.

[1.7] How much do players and drives cost?

DVD movie players will initially cost $600 to $1,800. Within a few years they may approach VCR prices.

DVD-ROM drives for computers will sell for around $400. (Philips has announced an OEM price of $200 for Q2 1997). Prices will drop very quickly to current CD-ROM drive levels.

[1.8] How much do discs cost?

It will vary. Many studios have promised that DVDs will be as cheap or cheaper than videotapes (and much cheaper than laserdiscs). This remains to be seen, especially for special editions with supplemental material which cost much more to produce. Depending on how the DVD rental market develops, new releases may initially be priced for rental (traditionally around $80 for VHS). But existing titles, which have already made back money, are expected to be priced below $25 on DVD.

DVD-ROMs will initially be more expensive than CD-ROMs since there is more stored on them, they cost more to replicate, and the market is smaller. But as costs drop and the installed base of drives grow, DVD-ROMs will probably cost the same as CD-ROMs do today.

[1.9] How quickly will DVD become established?

Nobody knows. Here are a few predictions:
- Pioneer: 400,000 DVD-Video players in 1996, 11 million by 2000. 100,000 DVD-Audio players in 1996, 4 million by 2000.
- Time-Warner: 10 million DVD-Video players in the U.S. by 2002.
- C-Cube: 1 million players and drives in 1997.
- Dataquest: over 33 million shipments of DVD players and drives by 2000.
- Philips: 25 million DVD-ROM drives worldwide by 2000 (10% of projected 250 million optical drives).
- Pioneer: 500,000 DVD-ROM drives sold in 1997, 54 million sold in 2000.
- Toshiba: will no longer make CD-ROM drives in 2000.
- IDC: 10 million DVD-ROM drives sold in 1997, 70 million sold in 2000, 118 million sold in 2001.
- Intel: 70 million DVD-ROM drives by 1999 (sales will surpass CD-ROM drives in 1998).

For comparison, there are about 600 million audio CD players and 100 million CD-ROM drives worldwide. There are about 80 million VCRs in the U.S. [Anybody know how many worldwide?]

[1.10] What are "regional codes," "country codes," or "zone locks"?

Motion picture studios want to control the home release of movies in different countries because theater releases aren't simultaneous (a movie may come out on DVD in the U.S. when it's just hitting screens in Europe). Therefore they have required that the DVD standard include codes which can be used to prevent playback of certain discs in certain geographical regions. Players sold in each region will have that region's code built into the player. The player will refuse to play discs which are not allowed in the region. This means that discs bought in one country may not play on players bought in another country.

Regional codes are entirely optional. Discs without codes will play on any player in any country. It's not an encryption system, it's just one byte of information on the disc that the player checks. Some studios have already announced that only their new releases will have regional codes. Presumably, once a DVD movie has achieved worldwide release it could be re-released without encoding.

There are 6 regions:
- North America
- Europe
- Japan
- Australia & Far East (except Japan)
- Africa & Middle East
- Central & South America

These are apparently not completely finalized. Rumors are that Mexico is floating around.

Regional codes do not apply to DVD-ROMs or DVD-ROM drives. It's not yet known if regional codes will apply to DVD-Audio. Since there is no equivalent for CD Audio it's likely DVD-Audio will not use them

[1.11] What are the copy protection issues?

There are already two forms of copy protection specified by the DVD standard:
1) Videotape (analog) copying is prevented with a Macrovision (or equivalent) circuit in every player. Composite video output will have a rapidly modulated colorburst signal along with pulses in the vertical blanking signal to confuse the automatic-recording-level circuitry of VCRs. Unfortunately, this can degrade the picture, especially with old or nonstandard equipment. There are rumors that Macrovision can create problems for some line doublers. [Can anyone confirm this?] It's not clear if Macrovision will be used on component video output or S-video output. The discs themselves tell the player whether or not to enable Macrovision. So just as with videotapes now, some DVDs will be Macrovision-protected and some wont.
2) Digital copying is controlled by information on each disc specifying how many times (if any) the data can be copied. This is a "serial" copy generation management system (CGMS) designed to prevent copies of copies. Of course, the equipment making the copy has to abide by the rules.

A third form of copy protection was *tentatively* agreed to on Oct 29. Because of the potential to make perfect digital copies, paranoid movie studios want to force a deeper copy protection requirement into the DVD standard. Content Scrambling System (CSS) is a form of data encryption that prevents reading the media files directly from the disc. Most players will have a decryption circuit that decodes the data before displaying it. It's unclear yet if this will affect output to a digital screen (such as a DLP or plasma display). On the computer side, DVD-ROM drives and video display/decoder hardware or software will exchange encryption keys so that the video is decrypted just before display by the encoder.

Movie studios also want to make it illegal to defeat copy protection. A co-chair of the legal group of the copy protection committee stated, "in the video context, the contemplated legislation should also provide some specific assurances that certain reasonable and customary home recording practices will be permitted, in addition to providing penalties for circumvention." It's not at all clear how this might be "permitted" by a player.

DVD-ROM will not use CSS for computer data. However, since DVD-ROM can hold any form of computer data, any desired encryption scheme can be implemented.

All three forms of copy protection are optional for the producer of a disc. Decryption is also optional for hardware and software playback manufacturers: a player or computer without decryption capability will not be able to play encrypted movies.

The copy protection schemes are designed to guard against casual copying (which the studios claim causes billions of dollars in lost revenue). Even the people who developed the copy protection standards admit that it won't stop well-eqipped pirates.

[1.12] What about DVD-Audio or Music DVD?

The DVD Consortium has decided to seek additional input from the music industry before defining the DVD-Audio format. If the final specification includes features or formats not present in the current DVD specification, then first-generation DVD players will not be able to play DVD-Audio discs.

Quotes from manufacturers indicate an odd separation of DVD-Video and DVD-Audio. Many apparently plan to introduce DVD-Audio players independent of DVD-Video players. Leaving out video circuitry results in slightly cheaper players, but there's no reason to have two separate DVD-format players in the same home setup. The separation makes more sense for audio-only portable players. It remains to be seen how this will turn out.

[1.13] Which studios are supporting DVD? Didn't some studios say they won't support it?

Time Warner, Sony (Columbia/Tristar), MCA, MGM, and Turner have announced intentions to release movies on DVD. Disney has expressed concerns over copying, but is closely involved in DVD development and will most likely jump in once copy protection is resolved (see 1.11). Paramount may hold back because of their connection to Blockbuster. Other studios may also hold back, but if DVD is a success no studio would be foolish enough to not jump on the bandwagon.

[1.14] Will DVD record from VCR/TV/etc?

Short Answer: No. (Not in this century.)

Long answer: The minimum requirement for reproducing audio and video on DVD is an MPEG video stream and a PCM audio track. (Other streams such as Dolby Digital audio, MPEG audio, and subpicture are not necessary for the simplest case.) Basic DVD control codes are also needed. At the moment it's difficult in real time to encode the video and audio, combine them with the control codes, and write the whole thing to DVD. Even if you could do all this in real time it would be too expensive. Prices for DVD production systems are dropping from millions of dollars to thousands of dollars, but they won't be in the <$500 range for home use for several years yet. It's possible the first home DVD recorders will require a digital source of already-compressed audio and video, such as DSS.

Don't be confused by DVD-R (write-once) systems, which will be available soon and will cost several thousand dollars. These can record DVD-ROM type data, but to create full-featured DVD-Videos would require additional hardware and software to do video encoding (MPEG-2), audio encoding (Dolby Digital or MPEG or LPCM), subpicture encoding (run-length-compressed bitmaps), still frame encoding (MPEG-1 or MPEG-2), control code generation, and multiplexing. And since this can't be done in real time, you'd also need a 5 to 9 GB hard drive to premaster the data to.

Some people believe that recordable DVD-Video will never be practical for consumers to record TV shows or home videos, since digital tape is more cost effective. On the other hand, digital tape lacks many of the advantages of DVD such as seamless branching, instant rewind/fast forward, instant search, and durability, not to mention the coolness of small shiny discs. So once the encoding technology is fast and cheap enough, and the blank discs are cheap enough, recordable DVD may be a reality.

[1.15] What happens if I scratch the disc? Aren't discs too fragile to be rented?

DVD includes a better error-correction system than CD. Most scratches will cause minor raw data errors that are easily corrected. Major scratches may cause unrecoverable errors that will show up as a momentary glitch in the picture. However, there are schemes for correcting errors in MPEG video that will probably be employed in players as they improve.

Consider that laserdiscs, music CDs, and CD-ROMs are likewise subject to scratches, but many video stores and libraries rent them.

[1.16] VHS is good enough, why should I care about DVD?

The primary advantages of DVD are quality and extra features (see 1.2). DVD will not degrade with age or after many playings like videotape will (which is an advantage for parents with kids who watch Disney videos twice a week!). This is the "collectability" factor present with CDs vs. cassette tapes.

If none of this matters to you, then VHS probably is good enough.

[1.17] Is the packaging different from CD?

Manufacturers are worried about customers assuming DVDs will play in their CD player. Time Warner is promoting a package (similar in form to the plastic and paper "eco" CD packages) which measures 14cm wide x 19cm high x 1.25cm thick (5.5" x 7.5" x 0.5"). [I measured it by hand, so this may not be exact.] This is about as wide as a CD jewel box and about as tall as a VHS cassette box. There is also a proposal from the Video Software Dealers Association for a package 5 5/8" wide, 7 3/8" high and between 3/8" and 5/8" deep. However, no one is being forced to use a larger package size. It remains to be seen what becomes standard, especially for DVD-ROM.

[1.18] When will double-sided or dual-layer discs appear? Will they work in all players?

Soon. Some replicators plan to produce double-sided discs, dual-layer discs, and double-dual discs from day one. Obviously the prices will be higher, but certain producers already require more space than is available on a single side or single layer. All players will play dual-layer discs -- it's required. All players will also play double-sided discs if you flip the discs over. No manufacturer has announced a player that will play both sides. (See 2.9 for note on reading both sides simultaneously.)

[1.19] Is DVD a worldwide standard? Does it work with NTSC, PAL and SECAM?

Not really. DVD supports two television systems: 525/60 (NTSC) and 625/50 (PAL). There are three differences between discs intended for different markets: picture size (720x480 vs. 720x576), frame rate (29.97 vs 25), and surround audio (Dolby Digital vs. MPEG-2). (See 3.3 and 3.5 for details.) However, a producer can choose to include additional video and audio --at the expense of playing time-- so that all formats are covered. It's unknown if players will be able to automatically recognize and play the correct format video in this case. It's rumored that some studios will include Dolby Digital tracks on their PAL releases.

It's possible to make a multi-standard player that will output NTSC from a 525/60 disc and PAL from a 625/50 disc. This requires a multi-standard TV that can display both. It's also possible to make a standards-converting player that will output NTSC from a 625/50 disc or PAL from a 525/60 disc. No manufacturer has yet announced a player of either kind.


[2] DVD's relationship to other products

[2.1] Will DVD replace VCRs?

Not any time soon. DVD is not yet recordable (see 1.14) and it will take a while before the size of the market drives costs down to VCR levels. However, DVD has many advantages over VCRs, including fundamentally lower technology cost for hardware and disc production (which is appealing to manufacturers), so if DVD is a commercial success it might replace VCRs in fifteen to twenty years.

[2.2] Will DVD replace CD-ROM?

Yes. Some CD-ROM drive manufacturers have announced that they expect to cease CD-ROM drive production after a few years in favor of DVD-ROM drives. Because DVD-ROM drives can read CD-ROMs, there is a forward migration path.

[2.3] Can CD-R writers create DVDs?

No. DVD uses a smaller wavelength of laser to allow smaller pits in tracks that are closer together. The DVD laser must also focus tighter and at a different level. In fact, a disc made on a current CD-R writer may not be readable by a DVD-ROM drive (see 2.4.3). It's unlikely there will be "upgrades" to convert CD-R drives to DVD-R, since this would probably cost more than purchasing a new DVD-R drive.

[2.4] Is CD compatible with DVD?

This is actually many questions with many answers:
[Note the differentiation between DVD (general case) and DVD-ROM (computer data).]

[2.4.1] Is CD audio (CD-DA) compatible with DVD?

Yes. All DVD players and drives will read audio CDs (Red Book). This is not actually required by the DVD spec, but so far all manufacturers have stated that their DVD hardware will read CDs. On the other hand, you can't play a DVD in a CD player.

[2.4.2] Is CD-ROM compatible with DVD-ROM?

Yes. All DVD-ROM drives will read CD-ROMs (Yellow Book). However, DVD-ROMs are not readable by CD-ROM drives.

[2.4.3] Is CD-R compatible with DVD-ROM?

Maybe. The problem is that CD-Rs (Orange Book Part II) are "invisible" to the wavelength of laser required by DVD, because the dye used in CD-Rs doesn't reflect the laser beam. Supposedly there will be new CD-R2 blanks that will work with CD-ROM and DVD. A better solution, announced by Sony, is a twin-laser pickup in which one laser is used for reading DVDs and the other for reading CDs and CD-Rs. This provides complete backwards compatibility with millions of CD-R discs. Philips has also stated that its DVD-ROM drives will read CD-Rs.

[2.4.4] Is CD-RW compatible with DVD?

Partly. CD-Rewritable (Orange Book Part III) discs can not be read by existing CD-ROM drives and CD players or first-generation DVD-ROM drives and DVD players. CD-RW has a lower reflectivity difference, requiring automatic-gain-control (AGC) circuitry. The new "MultiRead" standard addresses this and some DVD manufacturers have already suggested they will support it. CD-RW does not have the "invisibility" problem of CD-R (see 2.4.3).

[2.4.5] Is VideoCD compatible with DVD?

Probably. It's not required by the DVD spec, but it's trivial to support the White Book standard since any MPEG-2 decoder can also decode MPEG-1 from a VideoCD. Most [?] manufacturers have announced that their DVD players will play VideoCDs.

[2.4.6] Is Photo CD compatible with DVD?

Not yet. Since Photo CDs are usually on CD-R media, they may suffer from the CD-R problem (see 2.4.3). That aside, DVD players could support Photo CD with a few extra chips and a license from Kodak. No one has announced such a player. Most likely all DVD-ROM drives will read Photo CDs since it's trivial to support the Orange Book standard. The more important question is, "Does the OS or application support Photo CD?" but that's beyond the scope of this FAQ.

[2.4.7] Is CD-I compatible with DVD?

In general, no. Most DVD players will not play CD-I (Green Book) discs. However, Philips, the inventor of CD-I, has announced that it will make a DVD player that supports CD-I. Some people expect Philips to create a "DVD-I" format in attempt to breathe a little more life into CD-I (and recover a bit more of the billion or so dollars they've invested in it).

[2.4.8] Is Enhanced CD (CD Plus) compatible with DVD?

Yes. DVD players will play music from Enhanced CDs, and DVD-ROM drives will play music and read data from Enhanced CDs.

[2.4.9] Is CD+G compatible with DVD?

No DVD-Video players claim to support CD+G. Toshiba has announced that its DVD-ROM drive supports CD+G, and it's likely that most other DVD-ROM drives also will.

[2.4.10] Is CDV compatible with DVD?

Sort of. CDV, sometimes called Video Single, is actually a weird combination of CD and laserdisc. Part of it contains 20 minutes of digital audio playable on any CD or DVD player. The other part of it contains 5 minutes of analog video (and digital audio) in laserdisc format, playable only on a CDV-compatible system. However, Pioneer has announced combi players that will play DVDs, laserdiscs, and CDVs.

[2.5] Is laserdisc compatible with DVD?

No. Most DVD players will not play laserdiscs, and you can't play a DVD disc on any existing laserdisc player. (Laserdisc uses analog video, DVD uses digital video; they are very different formats.) However, Pioneer has announced combi players that will play DVDs and laserdiscs (and also CDVs and Audio CDs).

[2.6] Will DVD replace laserdisc?

Probably, but not for a very long time. Laserdisc is well established as a videophile format. There are over 9,000 laserdisc titles in the US and over 30,000 [?] worldwide that can be played on over 3 million laserdisc players. It will take DVD many years to reach this point. Until then laserdisc has the superiority of tenure. Pioneer and other laserdisc companies have committed to supporting it for years to come. There's no reason to stop buying laserdiscs, especially rare titles that may not appear on DVD for a long while if ever.

Unfortunately, anticipation of DVD is already hurting laserdisc. In 1996 laserdisc sales were down 36% even though sales of VCRs and hi-fi/surround systems were up.

[2.7] How does DVD compare to laserdisc?

This is a dangerous question to answer, given the legions of laserdisc fanatics who would rather have their laserdiscs pried from their cold dead fingers than switch! But since I'm a bit fanatical myself, having used laserdiscs since 1979 and currently working for a company whose major product is laserdiscs, I'll give it a shot. <Putting on flameproof suit....>

DVD improves on laserdisc in almost every aspect:
- Price: DVD hardware and discs are (or will be) cheaper. Studio representatives have promised they will make DVDs as cheap or cheaper than videotape.
- Features: DVD has the same basic features as laserdisc (scan, slow, still, search) but adds branching, multiple camera angles, video menus, interactivity, etc. But unlike laserdisc, DVD can't play backwards.
- Convenience: DVD players can be portable -- similar to CD players. Discs can be easily and cheaply sent through the mail.
- Audio: DVD has better audio. Laserdisc has 3 audio tracks: analog, digital, and surround (AC-3 steals one channel of analog). DVD has up to 8 audio tracks. Laserdisc uses LPCM audio sampled with 16 bits at 44 kHz. DVD LPCM audio can use 16, 20, or 24 bit samples at 48 or 96 kHz. Laserdisc has surround audio in Dolby Digital (AC-3) and DTS formats. DVD uses the same Dolby Digital surround sound, but can actually go to a higher data rate for better quality (448 Kb/s instead of 384).
- Video: DVD has the potential for better video. Laserdisc suffers from degradation inherent in analog recording and in the composite NTSC or PAL video signal. DVD uses digital video, and even though it's heavily compressed, hundreds of video professionals have seen demos of MPEG-2 video and concluded that properly and carefully encoded it's indistinguishable from studio D-1 masters. Nevertheless, this doesn't mean that the video quality of DVD, especially at first, WILL be better than laserdisc. Only that it CAN be better. Also keep in mind that the average television is of insufficient quality to show much difference between laserdisc and DVD. Home theater systems are needed to take advantage of the improved quality.
- Support: There are more announced DVD players than there are laserdisc players. Studios have said they will release more DVD titles than laserdisc titles. Many new computers will be able to play DVD-Videos.

There are concerns that regional coding (see 1.10) and Macrovision copy protection (see 1.11) will make DVD less usable than laserdisc. This can't be confirmed until DVD is in the hands of consumers.

[2.8] Can I modify or upgrade my laserdisc player to play DVD?

It's not likely. DVD circuitry is completely different, the pickup laser is a different wavelength, the tracking control is more precise, etc. No hardware upgrades have been announced, and in any case they would probably be more expensive than buying a DVD player to put next to the laserdisc player.

[2.9] Will DVD support Digital TV (HDTV)?

HTDV is not supported by DVD, but the designers have it in mind. Since HDTV uses MPEG-2 it will be easy to "upgrade" the DVD format. The limited data rate of DVD may make it difficult to support high-quality HDTV, but this can be solved by either increasing the spin rate (as with multi-speed CD-ROM drives) or using higher-capacity blue lasers.

Some have speculated that a "double-headed" player reading both sides of the disc at the same time could double the data rate. This is impossible since the track spirals go in opposite directions. The DVD specs would have to be changed to allow reverse spirals on the second side.


[3] DVD technical details

[3.1] What are the outputs of a DVD player?

Most DVD players will have the following output connections:
Video:
- RCA composite video (NTSC or PAL)
- S-video (NTSC or PAL)
Audio:
- Dual RCA stereo analog audio (with Pro Logic)
- Digital audio (coaxial FM and/or IEC-958 optical). Requires an external decoder or an amplifier/receiver with built-in Dolby Digital or MPEG-2 audio or PCM (stereo) support.

Some players may have additional connections:
- Component (YCrCb; NTSC or PAL)
- RF video output for connecting to TV without direct input. (Panasonic DVD-A300)
- 6 RCA jacks for surround sound output from built-in decoder. (Panasonic DVD-A300, RCA.)

No player has been announced with digital video output, but it's expected that at some point DVD players will include FireWire (IEEE 1394) connectors (see <http://www.firewire.com>).

[3.2] What are the sizes and capacities of DVD?

There are many variations on the DVD theme. There are two physical sizes: 12 cm (4.7 inches) and 8 cm (3.1 inches), both 1.2 mm thick. This is the same form factor as CD. A disc can be single-sided or double-sided. Each side can have one or two layers of data. The amount of video a disc can hold depends on how much audio accompanies it and how heavily the video and audio are compressed. The oft-quoted figure of 133 minutes is apocryphal: a standard DVD can actually hold up to 6 hours of video and audio if it's heavily compressed (which reduces the quality).

DVD-ROM, DVD-Video, DVD-Audio:

For reference, a CD-ROM holds about 650 MB (megabytes), which is 0.63 GB (gigabytes).
- DVD-5 (12cm, single-layer) : 4.7 GB of data, over 2 hours of video
- DVD-9 (12cm, dual-layer): 8.54 GB, about 4 hours of video
- DVD-10 (12cm, double-sided, single-layer): 9.4 GB, about 4.5 hours of video
- DVD-18 (12cm, double-sided, dual-layer): 17 GB, about 8 hours of video
- DVD-1? (8cm, single-layer) : 1.46 GB of data, about half an hour of video
- DVD-2? (8cm, dual-layer): 2.66 GB, about 1.5 hours of video
- DVD-3? (8cm, double-sided, single-layer): 2.92 GB, about 1.5 hours of video
- DVD-4? (8cm, double-sided, dual-layer): 5.32 GB, about 2.5 hours of video

Tip: It takes about two gigabytes to store one hour of average video.

DVD-R (recordable) and DVD-RAM (erasable):

Most likely will only be available as 12cm, single-layer. The standards aren't finalized and there will initially be different sizes varying from 2.5 to 3.8 gigabytes. The technology will improve to eventually support 4.7 gigabytes, which is crucial for desktop DVD production. Pioneer has been showing working prototypes of DVD-R. Toshiba claims DVD-R will be ready in Spring 1997 and DVD-RAM will be available in Fall 1997. (Don't hold your breath.)

[3.3] What are the video details?

A disc has one track (stream) of MPEG-2 constant bitrate (CBR) or variable bitrate (VBR) compressed digital video. A limited version of MPEG-2 Main Profile at Main Level (MP@ML) is used. MPEG-1 CBR video is also supported. 525/60 (NTSC, 29.97 frames/sec) and 625/50 (PAL, 25 frames/sec) video systems are supported.

Picture dimensions are max 720x480 (29.97 frames/sec) or 720x576 (25 frames/sec).

Maximum bitrate is 9.8 Mb/s (but will always be less to allow for audio). The "average" bitrate is 3.5 but depends entirely on the length, quality, amount of audio, etc. This is approximately a 70:1 reduction from original 243 Mb/s CCIR 601 source. (But note that MPEG uses 4:2:0 format, which is a 75% reduction from 4:2:2 before compression)
Raw channel data is read off the disc at a constant 26.16 Mb/s. After demodulation it's down to 13.08 Mb/s. After error correction, the user data stream goes into the track buffer at a constant 11.08 Mb/s. The track buffer feeds system stream data out at a variable rate of up to 10.08 Mb/s. After system overhead, the maximum rate of combined elementary streams (audio + video + subpicture) is 9.8.

Still frames (encoded as MPEG-2 I-frames) are supported and can be displayed indefinitely. These are generally used for menus. Still frames can be accompanied by audio [is this confirmed?].

A disc also can have up to 32 subpicture streams that overlay the video for subtitles, karaoke, menus, simple animation, etc. These are full-screen, run-length-encoded bitmaps limited to four contrast values and four colors per pixel (contrast and color are selected for a group of subpictures from palettes of 16). Subpicture includes built-in effects such as scroll and fade.

[3.4] How do the aspect ratios work?

Video can be stored on a DVD in 4:3 format (standard TV shape) or 16:9 (widescreen). The 16:9 format is "anamorphic," meaning the picture is squeezed horizontally to fit a 4:3 rectangle then unsqueezed during playback. DVD players output widescreen video in three different ways:
- letterbox (for 4:3 screens)
- pan & scan (for 4:3 screens)
- anamorphic or unchanged (for wide screens)

Note: Some 16:9 discs are playable in widescreen and letterbox modes only, if the producer chooses.

For letterbox mode the player uses a "letterbox filter" that creates black bars at the top and the bottom of the picture (60 lines each for NTSC, 72 for PAL). This leaves 3/4 of the height remaining, creating a shorter but wider rectangle. In order to fit this shorter rectangle, the picture is squeezed vertically by combining every 4 lines into 3. This compensates for the original horizontal squeezing, resulting in the movie being shown in its full width.

For pan & scan mode the video is unsqueezed to 16:9 and a portion of the image is shown at full height on a 4:3 screen by following "center of interest" coordinates that are encoded in the video stream according to the preferences of the people who transferred the film to video.

For anamorphic mode the video is stretched back out by widescreen equipment to its original width.

In widescreen or letterbox mode if a movie is wider than 16:9 (and most are), additional thin black bars will be added to the top and bottom at production time or the sides may be cropped (possibly with a small amount of additional panning).

Video stored in 4:3 format is not changed by the player. It will appear normally on a 4:3 screen. Widescreen systems will either stretch it horizontally or add black bars to the sides.

Some producers may put 16:9 source on one side of the disc and 4:3 source on the other, since "full-frame" 4:3 movies have additional picture at the top and bottom rather than panning and scanning. (The cinematographer has two sets of frame marks in his viewfinder, one for 4:3 and one for 1.85, so he can allow for both formats).

The 16:9 anamorphic format causes no problems with line doublers, since they simply double the lines on their way to the widescreen display which then stretches out the lines.

[3.5] What are the audio details?

The DVD-Audio format is not yet specified. These details are for audio tracks on DVD-Video.

A disc can have up to 8 audio tracks (streams). Each track can be in one of three formats:
- Dolby Digital (AC-3): 1 to 5.1 channels
- MPEG-2 audio: 1 to 7.1 channels
- LPCM: 1 to 8 channels.

This is extensible in the future to other formats such as DTS or Sony SDDS/DSD.

The ".1" refers to a low-frequency effects (LFE) channel that connects to a subwoofer.

All three audio formats support karaoke mode, which has two channels for stereo (L and R) plus an optional melody channel (M) and two optional vocal channels (V1 and V2).

Discs containing 525/60 (NTSC) video must use LPCM or Dolby Digital on at least one track. Discs containing 625/50 (PAL) video must use LPCM or MPEG-2 audio on at least one track. Additional tracks may be in any format.

For stereo output, all players will do a downmix from 5.1 or 7.1 surround sound (if present) to Dolby Pro Logic stereo. Both Dolby Digital and MPEG support 2-channel Dolby Pro Logic as the source (for cases where the original is in Pro Logic format and the producer can't or doesn't want to remix with surround channels.)

LPCM is uncompressed (lossless) digital audio. It can be sampled at 48 or 96 kHz with 16, 20, or 24 bits/sample. (Audio CD is 44.1 kHz at 16 bits.) There can be 1, 2, 5, or 8 channels. The maximum bitrate is 6.0 Mb/s (not 6.144), which limits sample rates and bit sizes with 5 or 8 channels. It's generally felt that the 96 dB dynamic range of 16 bits or even the 120 dB range of 20 bits combined with a frequency response of up to 22,000 Hz from 48 kHz sampling is more than adequate for high-fidelity sound reproduction. 24 bits and 96 kHz will probably be used only for "studio" archiving.

Dolby Digital is multi-channel digital audio, compressed using AC-3 coding technology from original PCM with a sample rate of 48 kHz at 16 bits. The bitrate is 64 Kb/s to 448 Kb/s, with 384 being the normal rate for 5.1 channels and 192 being the normal rate for stereo (Dolby Pro Logic). The channel combinations are (front/surround): 1/0, 1+1/0 (dual mono), 2/0, 3/0, 2/1, 3/1, 2/2, and 3/2. The LFE channel is optional with all 8 combinations. For details see ATSC document A/52 <http://www.atsc.org/document.html>.

MPEG audio is multi-channel digital audio, compressed from original PCM format with sample rate of 48 kHz at 16 bits. Both MPEG-1 and MPEG-2 formats are supported. The bitrate is 32 Kb/s to 912 Kb/s, with 384 being the normal rate. There can be 1, 2, 5.1 or 7.1 channels [any more?]. The 7.1 channel format adds left-center and right-center channels. MPEG-2 surround channels are in an extension stream which is matrixed onto the MPEG-1 stereo channels, which makes MPEG-2 audio backwards compatible with MPEG-1 hardware (the MPEG-1 system will only see the two stereo channels.)

A DVD-5 with only one stereo ProLogic audio stream (at 192 Kb/s) can hold over 55 hours of audio. A DVD-18 can hold over 200 hours!


[4] DVD and computers

[4.1] Can I play DVD movies on my computer?

Only if your computer has the right stuff. In addition to a DVD-ROM drive, you must have extra hardware to decode MPEG-2 video and Dolby Digital/MPEG-2/LPCM audio. You may also need software that can read the MicroUDF format used to store DVD data files and interpret the DVD control codes. It's estimated that 10-30% of new computers with DVD-ROM drives will include decoder hardware. It can also be purchased separately for about $900.

Some DVD-Videos will be encoded using MPEG-1 instead of MPEG-2. Many existing computers have MPEG-1 hardware built in or will be able to decode MPEG-1 with software.

CompCore Multimedia <http://www.compcore.com> and Mediamatics <http://www.mediamatics.com> make software that can play DVD movies but both require at least a 200MHz Pentium MMX to achieve film frame rates (24/sec) but not full video frame rates. It's unknown if these software decoders will be able to decrypt copy-protected movies (see 1.11).

Mediamatics is promoting a new standard called Motion Video Collaborative Compression Architecture (MVCCA) which allows certain MPEG decompression tasks to be performed by hardware on a video card and the remainder by software. Video graphics controllers with this feature are being called "DVD MPEG-2 accelerated."


[5] DVD production

[5.1] How much does it cost to produce a DVD? Isn't DVD much more expensive than videotape, laserdisc, and CD-ROM?

These can't be compared in a straightforward manner. There are basically three stages of costs: production, pre-mastering, and mastering/replication.

Production costs are not much more than for existing media, unless the extra features of DVD-Video such as multiple sound tracks, camera angles, etc. are employed.

Pre-mastering costs are proportionately the most expensive part of DVD. Video and audio must be encoded, menus and control information have to be authored and encoded, it all has to be multiplexed into a single data stream, and finally encoded in low level format. Authoring and encoding systems currently cost from $100,000 to over $2 million. These prices will drop very rapidly in the next few years to where DVDs can be produced on desktop computer systems using additional hardware costing less than $20,000. The current estimate for producing a two-hour DVD movie is about $25,000.

Videotapes don't really have a mastering cost, and they run about $2.40 for replication. CDs cost about $1,000 to master and $0.50 to replicate. Laserdiscs cost about $1,800 to master, and about $12 to replicate. DVD currently costs a few thousand dollars to master and $2.50 to replicate. Since DVD production equipment is very similar or the same as CD production equipment, mastering and replication costs will quickly drop to CD levels. Soon it will be cheaper to produce video titles on DVD than on videotape.

[5.2] What DVD authoring systems are available and how much do they cost?

- DVD Creator (encoding) and Scenarist DVD (authoring) by Sonic Solutions. $180,000 (full cost is about $250,000 with hard disks, DLT drive, PowerPC (for Creator), SGI (for Scenarist), etc.) <http://www.sonic.com/html/dvd/products_dvd.html>
- Compressionist 250 from Minerva. $99,000. <http://www.minervasys.com>
- Panasonic, JVC, Toshiba, and Pioneer all have authoring systems under development but nothing available at the moment.

[5.3] Who can produce a DVD for me?

- [A] CRUSH Digital Video* (NY), <mailto:info@CrushDV.com> 212-965-1501.
- [A] Digital Video Compression Corporation (CA), 818-777-5185.
- [R] Imation (formerly 3M) (WI), 612-704-4898.
- [A] KAO Infosystems* (CA), <www.kaoinfo.com> 510-657-8425.
- [R] LaserPacific (CA), <http://www.laserpacific.com> 213-462-6266.
- [A] NB Digital Solutions*, <http://www.nbeng.com/dvd.htm>
- [R] Nimbus Manufacturing. 804-985-1100.
- [R] Optical Disc Corporation, 310-946-3050. (Makes the LaserWave DirectCut DVD recorder for creating single copies.)
- [R] Pacific Video Resources (CA), <http://www.pvr.inter.net> 415-864-5679.
- [R] Pioneer Video Manufacturing, Inc., 310-518-0710.
- [A] Rainmaker* (BC), 604-874-8700.
- [R] Warner Advanced Media Operations, 717-383-3291.

[A] Authoring (including compression and premastering).
[R] Replication (mastering and/or one-offs).
* Use Sonic Solutions' authoring system.

See Robert's DVD Info page <http://www.unik.no/~robert/hifi/dvd/> for more pointers.


[6] Miscellaneous

[6.1] Who invented DVD and who owns it?

DVD is primarily the work of Toshiba, Philips, and Sony. There were originally two next-generation standards for DVD. The MMCD format was backed Sony, Philips, and others. The competing SD format was backed by Toshiba, Time Warner, and others. A group of computer companies led by IBM insisted that the DVD proponents agree on single standard. The combined DVD standard was announced in September of 1995, avoiding a confusing and costly repeat of the VHS vs. BetaMax videotape battle (or the quadraphonic sound battle of the 1970s).

No single company "owns" DVD. The DVD Licensor Consortium now comprises Hitachi, JVC, Matsushita, Mitsubishi, Philips, Pioneer, Sony, Thomson, Time Warner, and Toshiba. (Visit Robert's DVD Info page <http://www.unik.no/~robert/hifi/dvd/> for links to company Web pages.)

Any company making DVD products must license the technology, mostly from a pool administered by Philips but also separately from Thomson. Matsushita is licensing copy-protection encryption technology.

[6.2] Who is making or supporting DVD products?

The following companies have made official statements of products designed to support the DVD format.

Consumer electronics:

Akai
Hitachi
JVC
LG Electronics
Matsushita (Panasonic/National/Technics/Quasar)
Mitsubishi
Philips (Magnavox)
Pioneer
Samsung
Sharp
Sony
Thomson (RCA/GE/Proscan/Ferguson/Nordmende/Telefunken/Saba/Brandt)
Time Warner (Warner Bros./Turner Broadcasting/HBO/CNN/Warner Music)
Toshiba
Zenith

Studios:

MCA
MGM
Pony Canyon
Sony (Columbia/Tristar)
Time Warner
Toshiba EMI
Turner
Victor Entertainment

Computer hardware/software:

Apple: DVD-ROM computers, drivers, and playback hardware and software (QuickTime)
AST: DVD-ROM computers (with MMX-based playback software)
ATI Technologies: DVD-accelerated video audio/video cards
Creative Multimedia: DVD-accelerated audio/video cards
Fujitsu: DVD-ROM computers
Hitachi: DVD-ROM drives
JVC: DVD-ROM drives
Matsushita (Panasonic): DVD-ROM drives
Mediamatics: DVD playback software
Microsoft: DVD drivers and playback software (ActiveMovie)
Mitsubishi: DVD-ROM drives
Philips: DVD-ROM drives
Pioneer: DVD-ROM drives
S3: DVD-accelerated video controller chips
Sony: DVD-ROM computers and drives
Toshiba: DVD-ROM computers and drives
Trident Microsystems: DVD-accelerated video controller chips

Computer software on DVD-ROM:

Digital Directory Assistance: PhoneDisc PowerFinder USA One
Interactual Technologies: Star Trek VideoSaver
Tsunami Media: Silent Steel
Warner Advanced Media

[6.3] Where can I get more information about DVD?

Here are a few of the top DVD info pages. For more extensive pointers go to Robert's page, which has all the links you will ever need.
- Robert's DVD Info: <http://www.unik.no/~robert/hifi/dvd/>
- Kilroy's DVD FAQs: <http://www.cd-info.com> (technical) and <http://www.icdia.org/dvdfaq02.html> (oriented toward CD-I)
- Chad Fogg's technical notes: <http://www.mpeg.org/~tristan/MPEG/DVD/>
- NB Digital's DVD FAQ: <http://www.nbeng.com/html/dvd.htm>
- IMA DVD SIG: <http://www.ima.org/forums/imf/dvd>
- Compuserve Multimedia Forum, DVD Section (Go MMFORUM)


[7] Leftovers

[7.1] What's new in this FAQ?

Significant changes since Oct. 20.

- New questions: [1.18] When will double-sided or dual-layer discs appear? Will they work in all players? [1.19] Is DVD a worldwide standard? Does it work with NTSC, PAL and SECAM? [2.6] Will DVD replace laserdisc? [2.9] Will DVD support Digital TV (HDTV)? [6.2] Who is making or supporting DVD products?
- Better answers: [1.4] What are the disadvantages of DVD? [1.11] What are the copy protection issues? [1.6] When will DVD titles be available, and how many? [2.4.4] Is CD-RW compatible with DVD? [2.4.10] Is CDV compatible with DVD? [3.4] How do the aspect ratios work? [4.1] Can I play DVD movies on my computer?
- Listed the six geographical regions (1.10). Thanks, Dirk!
- Added brief explanation of streams and bitrates to video details (3.3).
- Added "panning & scanning" speculation to last section of aspect ratios (3.4)
- Added CD+G compatibility information (2.4.9)
- Added a number of companies to section 5.3.
- Updated info about Sonic Solutions DVD authoring. Added info about Minerva system. (5.2.)

[7.2] Remaining unanswered questions

(If you know the answer to any of these, please speak up!)

- How exactly will copy protection encryption work? Is audio encrypted?
- Will CompCore's and Mediamatic's software DVD players play encrypted movies?
- It would be nice if an expert made sure I got the streams and rates right in 3.3.
- How will copy-protection affect digital video output?
- Does Macrovision cause problems with line doublers?
- Will Macrovision be used on component and s-video outputs (as opposed to composite output only)?
- Will regional codes apply to DVD-Audio?
- Do any DVD players support CD+G?
- What are the digital audio outputs of DVD players?
- How are languages (of subtitle and audio streams) identified? ISO XXX?
- Display frame rates are 29.97 and 25. What internal frame rates (i.e. for 3:2 pulldown) are allowed? The same as MP@ML or a subset?
- Are there official designations for 8 cm discs (DVD-1, DVD-2, etc.?)

[7.3] Acknowledgments

This FAQ is written and maintained by Jim Taylor. The following people have contributed to the FAQ (either directly, by posting to alt.video.dvd, or by me borrowing from their writing :-). Their contributions are deeply appreciated. Information has also been taken from material distributed at the April 1996 DVD Forum.

Robert Aas
Wayne Bundrick
Roger Dressler
Chad Fogg
Kilroy Hughes
Ralph LaBarge
Martin Leese
Dana Parker
Geoffrey Tully

----

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