Blu-ray Disc

Blu-ray Disc
Blu-ray Disc.svg
Reverse side of a Blu-ray Disc
Media type High-density optical disc
Encoding MPEG-2, H.264/MPEG-4 AVC, and VC-1
Capacity 25 GB (single-layer)
50 GB (dual-layer)
100/128 GB (BDXL)
Block size 64 kb ECC
Read mechanism 405 nm laser:
1× @ 36 Mbit/s (4.5 MByte/s)
Developed by Blu-ray Disc Association[1]
Usage

Data storage
1080p High-definition video High-definition audio
stereoscopic 3D

Future possibility:
Quad HD
2160p
Ultra HD

Blu-ray Disc (official abbreviation BD) is an optical disc storage medium designed to supersede the standard DVD format. Its main uses are for storing high-definition video, PlayStation 3 video games, and other data, with up to 25 GB per single-layered, and 50 GB per dual-layered disc. Although these numbers represent the standard storage for Blu-ray Disc drives, the specification is open-ended, with the upper theoretical storage limit left unclear. The discs have the same physical dimensions as standard DVDs and CDs.

The name Blu-ray Disc derives from the "blue laser" used to read the disc. While a standard DVD uses a 650 nanometer red laser, Blu-ray Disc uses a shorter wavelength 405 nm laser, and allows for over five times more data storage on single-layer and over ten times on double-layer Blu-ray Disc than a standard DVD. The laser color is called "blue," but is violet to the eye, and is very close to ultraviolet ("blacklight").

During the high definition optical disc format war, Blu-ray Disc competed with the HD DVD format. Toshiba, the main company that supported HD DVD, conceded in February 2008, and the format war came to an end.[2] In late 2009, Toshiba released its own Blu-ray Disc player.[3]

Blu-ray Disc was developed by the Blu-ray Disc Association, a group representing makers of consumer electronics, computer hardware, and motion pictures. As of June 2009, more than 1,500 Blu-ray Disc titles were available in Australia and the United Kingdom, with 2,500 in the United States and Canada,[4]. In Japan as of July 2010 more than 3,300 titles were released.[5]

Blu-Ray Discs can be clustered together in systems such as optical jukeboxes to increase data storage. This increase of storage can span multiple terabytes and utilize hundreds of Blu-Ray Discs. These systems are currently the largest storage units using Blu-Ray technology.

Contents

History

Optical discs
  • Optical disc
  • Optical disc drive
  • Optical disc authoring
  • Authoring software
  • Recording technologies
    • Recording modes
    • Packet writing
Optical media types
  • Blu-ray Disc (BD): BD-R, BD-RE
  • DVD: DVD-R, DVD+R, DVD-R DL, DVD+R DL, DVD-R DS, DVD+R DS, DVD-RW, DVD+RW, DVD-RAM, DVD-D, HVD, EcoDisc
  • Compact Disc (CD): Red Book, CD-ROM, CD-R, CD-RW, 5.1 Music Disc, SACD, PhotoCD, CD Video (CDV), Video CD (VCD), SVCD, CD+G, CD-Text, CD-ROM XA, CD-i
  • Universal Media Disc (UMD)
  • Enhanced Versatile Disc (EVD)
  • Forward Versatile Disc (FVD)
  • Holographic Versatile Disc (HVD)
  • China Blue High-definition Disc (CBHD)
  • HD DVD: HD DVD-R, HD DVD-RW, HD DVD-RAM
  • High definition Versatile Multilayer Disc (HD VMD)
  • VCDHD
  • GD-ROM
  • MiniDisc (MD) (Hi-MD)
  • Laserdisc (LD)
  • Video Single Disc (VSD)
  • Ultra Density Optical (UDO)
  • Stacked Volumetric Optical Disk (SVOD)
  • Five dimensional discs (5D DVD)
  • Nintendo optical disc (NOD)
Standards
  • Rainbow Books
  • File systems
    • ISO 9660
      • Joliet
      • Rock Ridge / SUSP
      • El Torito
      • Apple ISO 9660 Extensions
    • Universal Disk Format (UDF)
      • Mount Rainier
See also
  • History of optical storage media
  • High definition optical disc format war
A blank rewritable Blu-ray Disc (BD-RE).

Commercial HDTV sets began to appear in the consumer market around 1998, but there was no commonly accepted, inexpensive way to record or play HD content. In fact, there was no medium with the storage required to accommodate HD codecs, except for JVC's Digital VHS and Sony's HDCAM.[6] Nevertheless, it was well known that using lasers with shorter wavelengths would enable optical storage with higher density. Shuji Nakamura invented the practical blue laser diode; it was a sensation among the computer storage-medium community, although a lengthy patent lawsuit delayed commercial introduction.[7]

Origins

Sony/Philips started two projects applying the new diodes: UDO (Ultra Density Optical), and DVR Blue (together with Pioneer), a format of rewritable discs that would eventually become Blu-ray Disc (more specifically, BD-RE).[8] The core technologies of the formats are essentially similar.

The first DVR Blue prototypes were unveiled at the CEATEC exhibition in October 2000.[9] On February 19, 2002, the project was officially announced as Blu-ray Disc,[10][11] and Blu-ray Disc Founders was founded by the nine initial members.

The first consumer device was in stores on April 10, 2003. This device was the Sony BDZ-S77, a BD-RE recorder that was made available only in Japan. The recommended price was US$3800;[12] however, there was no standard for prerecorded video, and no movies were released for this player. The Blu-ray Disc standard was still years away, as a newer, more secure Digital Rights Management (DRM) system was needed before Hollywood studios would accept it—not wanting to repeat the failure of the Content Scramble System used on standard DVDs. On October 4, 2004, the Blu-ray Disc Founders was officially changed to the Blu-ray Disc Association (BDA), and 20th Century Fox joined the BDA's Board of Directors.[13]

Technical problems with Blu-ray laser

Gallium arsenide (GaAs) is a semiconductor that is necessary to meet with a red laser requirements. It can be produced by methods similar to those developed previously for silicon. Tiles made from this material are the ideal substrate on which, with great precision, atoms can be placed to form the active part of the laser that generates light (from quantum wells) with a thickness of over a dozen layers of atoms. It is important that the substrate does not have defects, called dislocations, and that the distance between atoms making up the ground and those of the quantum wells are the same.

These conditions are relatively easy to produce in case of red lasers. In the case of blue semiconductor lasers the best ground is another semiconductor - gallium nitride (GaN). The process of producing single crystals of GaN is much harder than GaAs. It is similar to the process of manufacturing synthetic diamonds, since both diamonds and GaN are formed at very high pressures and temperatures. Many technical challenges make it difficult to manufacture GaN, one of which is the need to use high-pressure nitrogen gas.

The process of high-pressure crystallization of GaN seemed to be impractical and since the 1960s attempts to replace the surface of the GaN substrates with readily available sapphire have not worked. Mismatch between sapphires structure and Gallium Nitride created a large number of structural defects (dislocation), which prevented the implementation of efficient blue light-generating devices.

In 1992, the Japanese inventor Shuji Nakamura invented the first efficient blue LED, and four years later, the first blue laser. Nakamura used the material deposited on the sapphire substrate, although the number of defects remained high (106-1010/cm2). The presence of defects in the structure of the laser made it difficult to build a high-power laser.

In the early 90s the Institute of High Pressure Physics at the Polish Academy of Sciences in Warsaw (Poland), under the leadership of Dr. Sylwester Porowski was developing technology to create gallium nitride crystals.[5] Those crystals had very high structural quality and the number of defects did not exceed 100/cm2. It was at least 10 000 times less than in the case of the best material deposit on sapphire.

In 1999, Shuji Nakamura tried to use Polish crystals to see how defects in this crystal affected the properties of lasers. Laser built on Polish crystal have proved repeatedly to be better than previously constructed, both in terms of lifetime and efficiency. The lifetime at a power of 30 mW has increased 10-fold (from 300 to 3 000 hours), and the yield more than twice.

A further development of the technology has led to the launch of the first mass production of the device. Today - blue lasers utilize sapphire surface covered with layer of gallium nitride (this technology is used by Japanese company Nichia, which has an agreement with Sony), and blue semiconductor lasers utilize a gallium nitride mono-crystal surface (Polish company TopGaN [14]).

After 10 years in Japan it was possible to master the production of a blue laser with 60 mW of power, making them applicable in reading a dense high-speed stream of data from Blu-ray, BD-R, and BD-RE. Polish technology is cheaper than Japanese but has a smaller share of the market. There is one more Polish high-tech company which creates gallium nitride crystal - Ammono[15][16], but this company does not produce blue lasers.

Nakamura's technological success, which created the basis for a new field of blue-laser utilization in the electronics industry, has been honored with the Millennium Technology Prize awarded in 2006 year. [6]

Blu-ray Disc format finalized

The Blu-ray Disc physical specifications were completed in 2004.[17] In January 2005, TDK announced that they had developed a hard coating polymer for Blu-ray Discs.[18] Cartridges, originally used for scratch protection, were no longer necessary and were scrapped. The BD-ROM specifications were finalized in early 2006.[19] AACS LA, a consortium founded in 2004,[20] had been developing the DRM platform that could be used to securely distribute movies to consumers. However, the final AACS standard was delayed,[21] and then delayed again when an important member of the Blu-ray Disc group voiced concerns.[22] At the request of the initial hardware manufacturers, including Toshiba, Pioneer, and Samsung, an interim standard was published that did not include some features, such as managed copy.[23]

Launch and sales developments

The first BD-ROM players were shipped in mid-June 2006, though HD DVD players beat them to market by a few months.[24][25]

The first Blu-ray Disc titles were released on June 20, 2006: 50 First Dates, The Fifth Element, Hitch, House of Flying Daggers, Underworld: Evolution, xXx (all Sony), and MGM's The Terminator.[26] The earliest releases used MPEG-2 video compression, the same method used on standard DVDs. The first releases using the newer VC-1 and AVC codecs were introduced in September 2006.[27] The first movies using 50 GB dual-layer discs were introduced in October 2006.[28] The first audio-only release was made in March 2008.[29]

The first mass-market Blu-ray Disc rewritable drive for the PC was the BWU-100A, released by Sony on July 18, 2006.[30] It recorded both single and dual-layer BD-Rs as well as BD-REs and had a suggested retail price of US $699.

Competition from HD DVD

The DVD Forum, chaired by Toshiba, was deeply split over whether to develop the more expensive blue laser technology or not. In March 2002, the forum voted to approve a proposal endorsed by Warner Bros. and other motion picture studios that involved compressing HD content onto dual-layer standard DVD-9 discs.[31][32] In spite of this decision, however, the DVD Forum's Steering Committee announced in April that it was pursuing its own blue-laser high-definition solution. In August, Toshiba and NEC announced their competing standard, Advanced Optical Disc.[33] It was finally adopted by the DVD Forum and renamed HD DVD the next year,[34] after being voted down twice by DVD Forum members who were also Blu-ray Disc Association members—prompting the U.S. Department of Justice to make preliminary investigations into the situation.[35][36]

HD DVD had a head start in the high definition video market, as Blu-ray Disc sales were slow to gain market share. The first Blu-ray Disc player was perceived as expensive and "buggy", and there were few titles available.[37] This changed when the PlayStation 3 was launched, since every PS3 unit also functioned as a Blu-ray Disc player. At CES 2007, Warner proposed Total Hi Def—a hybrid disc containing Blu-ray on one side and HD DVD on the other—but it was never released. By January 2007, Blu-ray Discs had outsold HD DVDs,[38] and during the first three quarters of 2007, BD outsold HD DVDs by about two to one. In a June 28, 2007 press release, Twentieth Century Fox cited Blu-ray Disc's adoption of the BD+ anticopying system as a key factor in their decision to support the Blu-ray Disc format.[39][40] In February 2008, Toshiba withdrew its support for the HD DVD format, leaving Blu-ray Disc as the victor.[41]

Some analysts believe that Sony's PlayStation 3 video game console played an important role in the format war, believing that it acted as a catalyst for Blu-ray Disc, as the PlayStation 3 used a Blu-ray Disc drive as its primary information storage medium.[42] They also credited Sony's more thorough and influential marketing campaign.[43] It is also worth noting that AVCHD camcorders, first appeared in 2006, produce recordings that can be played back on many Blu-ray Disc players without re-encoding, but not on HD DVD players.

End of the format war and future prospects

On January 4, 2008, a day before CES 2008, Warner Bros. (the only major studio still releasing movies in both HD DVD and Blu-ray Disc format) announced that it would release only in Blu-ray Disc after May 2008. This effectively included other studios that came under the Warner umbrella, such as New Line Cinema and HBO—though in Europe, HBO distribution partner, the BBC, announced it would, while keeping an eye on market forces, continue to release product on both formats. This led to a chain reaction in the industry, with major U.S. retailers such as Best Buy, Wal-Mart, and Circuit City and Canadian chains such as Future Shop dropping HD DVD in their stores. A former major European retailer, Woolworths, dropped HD DVD from its inventory. Netflix and Blockbuster—major DVD rental companies—said they would no longer carry HD DVDs. Following these new developments, on February 19, 2008, Toshiba announced it would end production of HD DVD devices,[44] allowing Blu-ray Disc to become the industry standard for high-density optical discs. Universal Studios, the sole major movie studio to back HD DVD since its inception, said shortly after Toshiba's announcement, "While Universal values the close partnership we have shared with Toshiba, it is time to turn our focus to releasing new and catalog titles on Blu-ray Disc."[45] Paramount Studios, which started releasing movies only in HD DVD format during late 2007, also said it would start releasing in Blu-ray Disc. Both studios announced initial Blu-ray lineups in May 2008. With this, all major Hollywood studios now support Blu-ray.[46]

According to Adams Media Research, high-definition software sales were slower in the first two years than standard DVD software sales.[47] 16.3 million standard DVD software units were sold in the first two years (1997–98) compared to 8.3 million high-definition software units (2006–07).[47][48] One reason given for this difference was the smaller marketplace (26.5 million HDTVs in 2007 compared to 100 million SDTVs in 1998).[47][48] Former HD DVD supporter Microsoft has stated that they are not planning to make a Blu-ray Disc drive for the Xbox 360.[49]

Blu-ray Disc began making serious strides as soon as the format war ended. Nielsen VideoScan sales numbers showed that with some titles, such as 20th Century Fox's Hitman, up to 14% of total disc sales were from Blu-ray, although the average for the first half of the year was around 5%. Shortly after the format war ended, a study by The NPD Group found that awareness of Blu-ray Disc had reached 60% of U.S. households. In December 2008, the Blu-ray Disc of The Dark Knight sold 600,000 copies on the first day of its launch in the United States, Canada, and the United Kingdom.[50] A week after launch, The Dark Knight BD had sold over 1.7 million copies worldwide, making it the first Blu-ray Disc title to sell over a million copies in the first week of release.[51]

According to Singulus Technologies AG, Blu-ray is being adopted faster than the DVD format was at a similar period in its development. This conclusion was based on the fact that Singulus Technologies has received orders for 21 Blu-ray dual-layer machines during the first quarter of 2008, while 17 DVD machines of this type were made in the same period in 1997.[52] And the other key equipment supplier for optical disc Anwell Technologies Limited had shipped its Blu-ray Disc production equipment to Frankfurt for the largest trade show in the world — MEDIA-TECH Expo in May 2008 and they received new order for the Blu-ray production line also.[53] According to GfK Retail and Technology, in the first week of November 2008, sales of Blu-ray recorders surpassed DVD recorders in Japan.[54] According to the Digital Entertainment Group, the total number of Blu-ray Disc playback devices (both set-top box and game console) had reached 17.3 millions by the end of 2009.[55] According to Swicker & Associates, Blu-ray Disc software sales in the United States and Canada were 1.2 millions in 2006, 19.2 millions in 2007, 82.4 millions in 2008, and 177.2 millions in 2009.[55] Some commentators have suggested that renting Blu-ray will play a vital part in keeping the technology affordable while allowing it to move forward.[56] In an effort to increase sales, studios are releasing movies in combo packs with Blu-ray Discs and DVDs as well as "digital copies" which can be played on computers and iPods. Some are released on "flipper" discs with Blu-ray on one side and DVD on the other. Other strategies are to release movies with the special features only on Blu-ray Discs and none on DVDs.

Blu-ray faces competition from video on demand[57] and from new technologies that allow access to movies on any format or device, such as Digital Entertainment Content Ecosystem or Disney's Keychest.[58]

Technical specifications

Type Physical size Single layer capacity Dual layer capacity
Standard disc size 12 cm 25 GB / 23866 MiB / 25025314816 B 50 GB / 47732 MiB / 50050629632 B
Mini disc size  8 cm 7.8 GB / 7430 MiB / 7791181824 B 15.6 GB / 14860 MiB / 15582363648 B

High-definition video may be stored on BD-ROMs with up to 1920×1080 pixel resolution at up to 59.94 fields per second, if interlaced. Alternatively, progressive scan can go up to 1920×1080 pixel resolution at 24 frames per second, or up to 1280x720 at up to 59.94 frames per second:[59]

Resolution Frame rate1 Aspect ratio Video format restrictions
1920×1080 59.94-i 16:9   2D encodes only
1920×1080 50-i 16:9   2D encodes only
1920×1080 24-p 16:9  
1920×1080 23.976-p 16:9  
1440×1080 59.94-i 16:9 (anamorphic) MPEG-4 AVC / SMPTE VC-1 only
1440×1080 50-i 16:9 (anamorphic) MPEG-4 AVC / SMPTE VC-1 only
1440×1080 24-p 16:9 (anamorphic) MPEG-4 AVC / SMPTE VC-1 only
1440×1080 23.976-p 16:9 (anamorphic) MPEG-4 AVC / SMPTE VC-1 only
1280×720 59.94-p 16:9  
1280×720 50-p 16:9  
1280×720 24-p 16:9  
1280×720 23.976-p 16:9  
720×480 59.94-i 4:3/16:9 (anamorphic)  
720×576 50-i 4:3/16:9 (anamorphic)  

Notes: 1 The interlaced (i) frame rates are marked as fields per second while progressive (p) frame rates are in frames per second.

Laser and optics

Blu-ray Disc uses a "blue" laser, operating at a wavelength of 405 nm, to read and write data. The diodes are GaN (gallium nitride) lasers that produce 405 nm photons directly, that is, without frequency doubling or other nonlinear optical mechanisms.[60] Conventional DVDs and CDs use red and near-infrared lasers, at 650 nm and 780 nm, respectively.

Panasonic Internal Blu-ray ROM notebook drive

The blue-violet laser's shorter wavelength makes it possible to store more information on a 12 cm CD/DVD-size disc. The minimum "spot size" on which a laser can be focused is limited by diffraction, and depends on the wavelength of the light and the numerical aperture of the lens used to focus it. By decreasing the wavelength, increasing the numerical aperture from 0.60 to 0.85, and making the cover layer thinner to avoid unwanted optical effects, the laser beam can be focused to a smaller spot. This allows more information to be stored in the same area. For Blu-ray Disc, the spot size is 580 nm. In addition to the optical improvements, Blu-ray Discs feature improvements in data encoding that further increase the capacity. (See Compact Disc for information on optical discs' physical structure.)

Hard-coating technology

Since the Blu-ray Disc data layer is closer to the surface of the disc compared to the DVD standard, it was at first more vulnerable to scratches.[61] The first discs were housed in cartridges for protection, resembling Professional Discs introduced by Sony in 2003.

Using a cartridge would increase the price of an already expensive medium, so hard-coating of the pickup surface was chosen instead. TDK was the first company to develop a working scratch-protection coating for Blu-ray Discs. It was named Durabis. In addition, both Sony and Panasonic's replication methods include proprietary hard-coat technologies. Sony's rewritable media are spin-coated, using a scratch-resistant and antistatic coating. Verbatim's recordable and rewritable Blu-ray Discs use their own proprietary hard-coat technology, called ScratchGuard.

Blu-ray Disc specification allows the use of such a layer to meet the required scratch resistance.[62] DVD media are not required to be scratch-resistant, but since development of the technology, some companies, such as Verbatim, implemented hard-coating for more expensive lineups of recordable DVDs.

Recording speed

Drive speed Data rate Theoretical Write time for Blu-ray Disc (minutes)
Mbit/s MB/s Single-Layer Dual-Layer
36 4.5 90 180
72 9 45 90
144 18 22.5 45
216 27 15 30
288 36 11.25 22.5
10× 360 45 9 18
12×[63] 432 54 7.5 15

Comparison to other video formats

Below is a list of modern, digital-style resolutions (and traditional analog "TV lines per picture height" measurements) for various media. The list only includes popular formats.

Analog formats:

Digital formats:

Software standards

Codecs

The BD-ROM specification mandates certain codec compatibilities for both hardware decoders (players) and movie software (content).[64][65]

Video

For video, all players are required to support MPEG-2 Part 2, H.264/MPEG-4 AVC, and SMPTE VC-1.[66] MPEG-2 is the codec used on regular DVDs, which allows backwards compatibility. MPEG-4 AVC was developed by MPEG, Sony, and VCEG. VC-1 is a codec that was mainly developed by Microsoft. BD-ROM titles with video must store video using one of the three mandatory codecs; multiple codecs on a single title are allowed.

The choice of codecs affects the producer's licensing/royalty costs as well as the title's maximum run time, due to differences in compression efficiency. Discs encoded in MPEG-2 video typically limit content producers to around two hours of high-definition content on a single-layer (25 GB) BD-ROM. The more-advanced video codecs (VC-1 and MPEG-4 AVC) typically achieve a video run time twice that of MPEG-2, with comparable quality.

MPEG-2 was used by many studios (including Paramount Pictures, which initially used the VC-1 codec for HD DVD releases) for the first series of Blu-ray Discs, which were launched throughout 2006.[67] Modern releases are now often encoded in either MPEG-4 AVC or VC-1, allowing film studios to place all content on one disc, reducing costs and improving ease of use. Using these codecs also frees a lot of space for storage of bonus content in HD (1080i/p), as opposed to the SD (480i/p) typically used for most titles. Some studios, such as Warner Bros., have released bonus content on discs encoded in a different codec than the main feature title. For example, the Blu-ray Disc release of Superman Returns uses VC-1 for the feature film and MPEG-2 for bonus content. Today, Warner and other studios typically provide bonus content in the video codec that matches the feature.

Audio

For audio, BD-ROM players are required to support Dolby Digital (AC-3), DTS, and linear PCM. Players may optionally support Dolby Digital Plus and DTS-HD High Resolution Audio as well as lossless formats Dolby TrueHD and DTS-HD Master Audio.[68] BD-ROM titles must use one of the mandatory schemes for the primary soundtrack. A secondary audiotrack, if present, may use any of the mandatory or optional codecs.

Specification of BD-ROM Primary audio streams:[69]
LPCM Dolby Digital Dolby Digital Plus Dolby TrueHD (Lossless) DTS digital surround DTS-HD (Lossless) DRA DRA Extension
Max. Bitrate 27.648Mbps 640kbps 4.736Mbps 18.64Mbps 1.524Mbps 24.5Mbps 1.5Mbps 3.0Mbps
Max. Channel 8(48 kHz, 96 kHz), 6(192 kHz) 5.1 7.1 8(48 kHz, 96 kHz), 6(192 kHz) 5.1 8(48 kHz, 96 kHz), 6(192 kHz) 5.1 7.1
Bits/sample 16, 20, 24 16-24 16-24 16-24 16, 20, 24 16-24 16 16
Sample frequency 48 kHz, 96 kHz, 192 kHz 48 kHz 48 kHz 48 kHz, 96 kHz, 192 kHz 48 kHz 48 kHz, 96 kHz, 192 kHz 48 kHz 48 kHz, 96 kHz

Bit rate

For users recording digital television programming, the recordable Blu-ray Disc standard's initial data rate of 36 Mbit/s is more than adequate to record high-definition broadcasts from any source (IPTV, cable/satellite, or terrestrial). BD Video movies have a maximum data transfer rate of 54 Mbit/s, a maximum AV bitrate of 48 Mbit/s (for both audio and video data), and a maximum video bit rate of 40 Mbit/s. This compares to HD DVD movies, which have a maximum data transfer rate of 36 Mbit/s, a maximum AV bitrate of 30.24 Mbit/s, and a maximum video bitrate of 29.4 Mbit/s.[70]

Container format

Audio, video and other streams are multiplexed and stored on Blu-ray Discs in a container format based on the MPEG transport stream. It is also known as BDAV MPEG-2 transport stream and can use filename extension .m2ts.[64][71] Blu-ray Disc titles authored with menu support are in the BDMV (Blu-ray Disc Movie) format and contain audio, video, and other streams in BDAV container.[72][73] There is also the BDAV (Blu-ray Disc Audio/Visual) format, the consumer oriented alternative to the BDMV format used for movie releases. The BDAV format is used on BD-REs and BD-Rs for audio/video recording.[73] BDMV format was later defined also for BD-RE and BD-R (in September 2006, in the third revision of BD-RE specification and second revision of BD-R specification).[74][75] Blu-ray Disc employs the MPEG transport stream recording method. That enables transport streams of digital broadcasts to be recorded as they are without altering the format.[76] It also enables flexible editing of a digital broadcast that is recorded as is and where the data can be edited just by rewriting the playback stream. Although it is quite natural, a function for high-speed and easy-to use retrieval is built in.[76][77] Blu-ray Disc Video use MPEG transport streams, compared to DVD's MPEG program streams. This allows multiple video programs to be stored in the same file so they can be played back simultaneously (e.g., with "Picture in picture" effect).

Application format

Directory and file structure

BD-ROM

All BD-ROM application files are stored under a “BDMV” directory.[71][84][85][86]

Filesystem

Blu-ray Disc specifies the use of Universal Disk Format (UDF) 2.5 as a convergent friendly format for both PC and consumer electronics environments.[79] It is used in latest specifications of BD-ROM, BD-RE and BD-R.[74][75][80]

In the first BD-RE specification (defined in 2002), the BDFS (Blu-ray Disc File System) was used. The BD-RE 1.0 specification was defined mainly for broadcast recording of High Definition TV. The BDFS was replaced by UDF 2.5 in the second BD-RE specification in 2005, in order to enable interoperability among consumer electronics Blu-ray recorders and personal computer systems. This enabled PC recording and playback of BD-RE.[80][87][88] BD-R can use UDF 2.5/2.6.[89]

The Blu-ray Disc application (BDAV application) for recording of digital broadcasting has been developed as System Description Blu-ray Rewritable Disc Format part 3 Audio Visual Basic Specifications. The requirements related with file system have been specified in System Description Blu-ray Rewritable Disc Format part 2 File System Specifications version 1.0 (BDFS).[79]

Initially, the BD-RE version 1.0 (BDFS) was specifically developed for recording of digital broadcasting using the Blu-ray Disc application (BDAV application). To support UDF, these requirements are superseded by the Blu-ray Rewritable Disc File System Specifications version 2.0 (UDF) (a.k.a. RE 2.0) and Blu-ray Recordable Disc File System Specifications version 1.0 (UDF) (a.k.a. R 1.0). Additionally, a new application format, BDMV (System Description Blu-ray Disc Prerecorded Format part 3 Audio Visual Basic Specifications) for High Definition Content Distribution was developed for BD-ROM. The only file system developed for BDMV is the System Description Blu-ray Read-Only Disc Format part 2 File System Specifications version 1.0 (UDF) which defines the requirements for UDF 2.5.[79][80]

Java software support

At the 2005 JavaOne trade show, it was announced that Sun Microsystems' Java cross-platform software environment would be included in all Blu-ray Disc players as a mandatory part of the standard. Java is used to implement interactive menus on Blu-ray Discs, as opposed to the method used on DVD video discs. DVDs use pre-rendered MPEG segments and selectable subtitle pictures, which are considerably more primitive and rarely seamless. At the conference, Java creator James Gosling suggested that the inclusion of a Java Virtual Machine, as well as network connectivity in some BD devices, will allow updates to Blu-ray Discs via the Internet, adding content such as additional subtitle languages and promotional features not included on the disc at pressing time. This Java Version is called BD-J and is a subset of the Globally Executable MHP (GEM) standard; GEM is the worldwide version of the Multimedia Home Platform standard. Most Blu-ray Discs that have BD-J menus do not allow a Blu-ray Disc player to automatically resume a movie from the point at which it was stopped.

Region codes

Regions for the Blu-ray standard:[90]
     A/1: The Americas, and their dependencies, East Asia (except China and Mongolia), and Southeast Asia.      B/2: Africa, Middle East, Southwest Asia, Europe (except Belarus, Russia and Ukraine), Australia, New Zealand, and their dependencies.      C/3: Central Asia, East Asia (China and Mongolia only), South Asia, Eastern Europe, and their dependencies.

As with the implementation of region codes for DVDs, Blu-ray Disc players sold in a specific geographical region are designed to play only discs authorized by the content provider for that region. This is intended to permit content providers (motion picture studios, etc.) the ability to support product differences in content, price, release date, etc., by region. According to the Blu-ray Disc Association, "all Blu-ray Disc players...(and) Blu-ray Disc-equipped computer systems are required to support regional coding." However, "Use of region playback codes is optional for content providers..."[91] Some current estimates suggest 70% of available [movie] Blu-ray Discs from the major studios are region-code-free and can therefore be played on any Blu-ray Disc player, in any region.[92]

Movie studios have different region coding policies. Among major U.S. studios, Paramount Pictures and Universal Studios have released all of their titles region-free.[93][94] Sony Pictures and Warner Bros. have released most of their titles region-free.[95][96][97] Lionsgate and Walt Disney Pictures have released a mix of region-free and region-coded titles.[98][99] 20th Century Fox and MGM have released most of their titles region-coded.[100][101]

The Blu-ray Disc region coding scheme divides the world into 3 regions, labeled A, B, and C.

In circumvention of region coding restrictions, stand-alone Blu-ray Disc players are sometimes modified by third parties to allow for playback of Blu-ray Discs (and DVDs) with any region code.[102] Instructions ('hacks') describing how to reset the Blu-ray region counter of computer player applications to make them multi-region indefinitely are also regularly posted to video enthusiast websites and forums. Unlike DVD region codes, Blu-ray region codes are verified only by the player software, not by the optical drive's firmware.

Digital rights management

The Blu-ray Disc format employs several layers of digital rights management.[103][104]

The AACS decryption process.

AACS

The Advanced Access Content System (AACS) is a standard for content distribution and digital rights management. It was developed by AS Licensing Administrator, LLC (AACS LA), a consortium that includes Disney, Intel, Microsoft, Panasonic, Warner Bros., IBM, Toshiba, and Sony.

Since appearing in devices in 2006, several successful attacks have been made on the format. The first known attack relied on the trusted client problem. In addition, decryption keys have been extracted from a weakly protected player (WinDVD). Since keys can be revoked in newer releases,[105] this is only a temporary attack, and new keys must continually be discovered in order to decrypt the latest discs. This cat-and-mouse game has gone through several cycles.

BD+

BD+ was developed by Cryptography Research Inc. and is based on their concept of Self-Protecting Digital Content.[106] BD+, effectively a small virtual machine embedded in authorized players, allows content providers to include executable programs on Blu-ray Discs. Such programs can:[103]

If a playback device manufacturer finds that its devices have been hacked, it can potentially release BD+ code that detects and circumvents the vulnerability. These programs can then be included in all new content releases.[107]

The specifications of the BD+ virtual machine are available only to licensed device manufacturers. A list of licensed commercial adopters is available from the BD+ website.

The first titles using BD+ were released in October 2007. Since November 2007, versions of BD+ protection have been circumvented by various versions of the AnyDVD HD program[108][109]. Other programs known to be capable of circumventing BD+ protection are DumpHD (versions 0.6 and above, along with some supporting software)[110], MakeMKV[111], and two applications from DVDFab (Passkey and HD Decrypter[112]).

BD-ROM Mark

BD-ROM Mark is a small amount of cryptographic data that is stored separately from normal Blu-ray Disc data. Bit-by-bit copies that do not replicate the BD-ROM Mark have no known decoding method. A specially licensed piece of hardware is required to insert the ROM-mark into the media during replication. Through licensing of the special hardware element, the BDA believes that it can eliminate the possibility of mass producing BD-ROMs without authorization.

Criticism

The massive use of data protection systems such as DRM has led the Free Software Foundation to criticise the Blu-Ray Disc, claiming that it constitutes "an outrageous attack on your freedom"[113]. The FSF further considers the Blu-Ray Disk "an attack on free software, since free software may never be able to read these disks"[114], referring to the licensing royalties that FOSS projects would have to pay to integrate the technology for encoding/decoding in their applications. For these and other reasons, the FSF promotes boycotting the Blu-Ray Disc[115].

Player profiles

The BD-ROM specification defines four Blu-ray Disc player profiles, including an audio-only player profile (BD-Audio) that does not require video decoding or BD-J. All three of the video-based player profiles (BD-Video) are required to have a full implementation of BD-J, with varying levels of hardware support.

Feature BD-Audio BD-Video
Grace Period [d] Bonus View BD-Live[e]
Profile 3.0 [c] Profile 1.0 Profile 1.1 Profile 2.0
Built-in persistent memory No 64 KB 64 KB 64 KB
Local storage capability[a] No Optional 256 MB 1 GB
Secondary video decoder (PiP) No Optional Mandatory Mandatory
Secondary audio decoder[b] No Optional Mandatory Mandatory
Virtual file system No Optional Mandatory Mandatory
Internet connection capability No No No Mandatory

^ a This is used for storing audio/video and title updates. It can either be built-in memory or removable media, such as a memory card or USB flash memory.
^ b A secondary audio decoder is typically used for interactive audio and commentary.
^ c Profile 3.0 is a separate audio-only player profile. The first Blu-ray Disc album to be released was Divertimenti, by record label Lindberg Lyd, and it has been confirmed to work on the PS3.[116][117]
^ d Also known as Initial Standard profile.
^ e Also known as Final Standard profile.

On November 1, 2007, the Grace Period Profile was superseded by Bonus View as the minimum profile for new BD-Video players released to the market.[118] When Blu-ray Disc software not authored with interactive features dependent on Bonus View or BD-Live hardware capabilities is played on Profile 1.0 players, it is able to play the main feature of the disc, but some extra features may not be available or will have limited capability.[119]

BD-Live

The biggest difference between Bonus View and BD-Live is that BD-Live requires the Blu-ray Disc player to have an Internet connection to access Internet-based content. BD-Live features have included automatic firmware updates, transmission of all usage data to the manufacturers (including all Blu-ray Discs played), checking each time the device is switched on to see if it has been tampered with and report the same, Internet chats, scheduled chats with the director, Internet games, downloadable featurettes, downloadable quizzes, and downloadable movie trailers.[120][121][122] Note that while some Bonus View players may have an Ethernet port, these are used for firmware updates and are not used for Internet-based content. In addition, Profile 2.0 also requires more local storage in order to handle this content.

With the exception of the latest players and the PlayStation 3, Profile 1.0 players cannot be upgraded to be Bonus View or BD-Live compliant.[123][124][125]

Backward compatibility

Though not compulsory, the Blu-ray Disc Association recommends that Blu-ray Disc drives be capable of reading standard DVDs and CDs, for backward compatibility.[126] A few early Blu-ray Disc players released in 2006 could play standard DVDs but not CDs.[127][128][129]

Ongoing development

Front of an experimental 200GB rewritable Blu-ray Disc.

Although the Blu-ray Disc specification has been finalized, engineers continue to work on advancing the technology. Quad-layer (100 GB) discs have been demonstrated on a drive with modified optics[130] and standard unaltered optics.[131] Hitachi stated that such a disc could be used to store 7 hours of 32 Mbit/s video (HDTV) or 3 hours and 30 minutes of 64 Mbit/s video (Cinema 4K). In August 2006, TDK announced that they have created a working experimental Blu-ray Disc capable of holding 200 GB of data on a single side, using six 33 GB data layers.[132]

Also, behind closed doors at CES 2007, Ritek revealed that they had successfully developed a High Definition optical disc process that extends the disc capacity to ten layers, which increases the capacity of the discs to 250 GB. However, they noted that the major obstacle is that current read/write technology does not support the additional layers.[133]

JVC has developed a three-layer technology that allows putting both standard-definition DVD data and HD data on a BD/(standard) DVD combination. If successfully commercialized, this would enable the consumer to purchase a disc that can be played on current DVD players and can also reveal its HD version when played on a BD player.[134] Japanese optical disc manufacturer Infinity announced the first "hybrid" Blu-ray Disc/(standard) DVD combo, to be released February 18, 2009. "Code Blue" will feature four hybrid discs containing a single Blu-ray Disc layer (25 GB) and two standard DVD layers (9 GB) on the same side of the disc.[135]

In January 2007, Hitachi showcased a 100 GB Blu-ray Disc, consisting of four layers containing 25 GB each.[136] Unlike TDK and Panasonic's 100 GB discs, they claim this disc is readable on standard Blu-ray Disc drives that are currently in circulation, and it is believed that a firmware update is the only requirement to make it readable to current players and drives.[137]

In December 2008, Pioneer Corporation unveiled a 400 GB Blu-ray Disc (containing 16 data layers, 25 GB each) that will be compatible with current players after a firmware update. Its planned launch is in the 2009–10 time frame for ROM and 2010–13 for rewritable discs. Ongoing development is under way to create a 1 TB Blu-ray Disc as soon as 2013.[138]

At CES 2009, Panasonic unveiled the DMP-B15, the first portable Blu-ray Disc player, and Sharp introduced the LC-BD60U and LC-BD80U series, the first LCD HDTVs with integrated Blu-ray Disc players. Sharp has also announced that they will sell HDTVs with integrated Blu-ray Disc recorders in the United States by the end of 2009.

As of April 2008, a joint licensing agreement for Blu-ray Disc has not yet been finalized.[139] A joint licensing agreement would make it easier for companies to get a license for Blu-ray Disc without having to go to each individual company that owns a Blu-ray Disc patent. For this reason, a joint licensing agreement was eventually made for DVD by the DVD6C Licensing Agency.[140]

On Jan. 1, 2010, Sony, in association with Panasonic, announced plans to increase the storage capacity on their Blu-ray Discs from 25GB to 33.4GB via a technology called i-MLSE (Maximum Likelihood Sequence Estimation). The higher-capacity discs, according to Sony, will be readable on current Blu-ray Disc players with a firmware upgrade. No date has been set to include the increased space, but according to Blu-ray.com "it will likely happen sometime later this year."[141]

On July 20, 2010, the research team of Sony and Japanese Tohoku University announced the joint development of a blue-violet laser[142], which will help in creating Blu-ray discs with a capacity of 1 TB (dual layer).

3D Blu-ray Disc

Blu-ray 3D logo.

The Blu-ray Disc Association created a task force made up of executives from the film industry and the consumer electronics and IT sectors to help define standards for putting 3D film and 3D television content on a Blu-ray Disc.[143] On Dec. 17, 2009 the BDA officially announced 3D specs for Blu-ray Disc, allowing backward compatibility with current 2D Blu-ray players.[144] "The Blu-ray 3D specification calls for encoding 3D video using the "Stereo High" profile defined by Multiview Video Coding (MVC), an extension to the ITU-T H.264 Advanced Video Coding (AVC) codec currently supported by all Blu-ray Disc players. MPEG4-MVC compresses both left and right eye views with a typical 50% overhead compared to equivalent 2D content, and can provide full 1080p resolution backward compatibility with current 2D Blu-ray Disc players."[145] This means the MVC (3D) stream is backward compatible with H.264/AVC (2D) stream, allowing older 2D devices and software to decode stereoscopic video streams, ignoring additional information for the second view.

Also, Sony has stated that they will release a firmware upgrade for PlayStation 3 consoles to enable 3D Blu-ray Disc playback before the end of 2010 [146], having already released support for 3D gaming content on April 21, 2010 [147] (followed by availability of 3D games).

Variants

Mini Blu-ray Disc

The "Mini Blu-ray Disc" (also, "Mini-BD" and "Mini Blu-ray") is a compact 8 cm (~3 in)-diameter variant of the Blu-ray Disc that can store approximately 7.5 GB of data. It is similar in concept to the MiniDVD and MiniCD. Recordable (BD-R) and rewritable (BD-RE) versions of Mini Blu-ray Disc have been developed specifically for compact camcorders and other compact recording devices.[148]

Blu-ray Disc recordable

"Blu-ray Disc recordable" refers to two optical disc formats that can be recorded with an optical disc recorder. BD-Rs can be written to once, whereas BD-REs can be erased and re-recorded multiple times. The current practical maximum speed for Blu-ray Discs is about 12×. Higher speeds of rotation (10,000+ rpm) cause too much wobble for the discs to be read properly, as with the 20× and 52× maximum speeds, respectively, of standard DVDs and CDs.

Since September 2007, BD-RE is also available in the smaller 8 cm Mini Blu-ray Disc size.[148][149]

On September 18, 2007, Pioneer and Mitsubishi codeveloped BD-R LTH ("Low to High" in groove recording), which features an organic dye recording layer that can be manufactured by modifying existing CD-R and DVD-R production equipment, significantly reducing manufacturing costs.[150] In February 2008, Taiyo Yuden, Mitsubishi, and Maxell released the first BD-R LTH Discs,[151] and in March 2008, Sony's PlayStation 3 gained official support for BD-R LTH Discs with the 2.20 firmware update.[152] In May 2009 Verbatim/Mitsubishi announced the industry's first 6X BD-R LTH media, which allows recording a 25 GB disc in about 16 minutes.[153]

Unlike the previous releases of 120 mm optical discs (i.e., CDs and standard DVDs), Blu-ray recorders hit the market almost simultaneously with Blu-ray's debut.

BD9 and BD5

The BD9 format was proposed to the Blu-ray Disc Association by Warner Home Video as a cost-effective alternative to the 25/50 GB BD-ROM discs. The format was supposed to use the same codecs and program structure as Blu-ray Disc video, but recorded onto less expensive 8.5 GB dual-layer DVD. This red-laser media could be manufactured on existing DVD production lines with lower costs of production than the 25/50 GB Blu-ray media.[154]

Usage of BD9 for releasing content on "pressed" discs has never caught on. After the end of the format war, major producers ramped up the production of Blu-ray Discs and lowered their prices to the level of DVDs. On the other hand, the idea of using inexpensive DVD media became popular among individual users. A lower-capacity version of this format that uses single-layer 4.7 GB DVDs has been unofficially called BD5. Both formats are being used by individual users for recording high definition content in Blu-ray format onto recordable DVD media.[155][156]

Despite the fact that the BD9 format has been adopted as part of the BD-ROM basic format, none of the existing Blu-ray player models supports it explicitly. As such, the discs recorded in BD9 and BD5 formats are not guaranteed to play on standard Blu-ray Disc players.

AVCHD and AVCREC also use inexpensive media like DVDs, but unlike BD9 and BD5 these formats have limited interactivity, codec types, and data rates.

BDXL

The BDXL format supports 100GB and 128GB write-once discs[157][158] and 100GB rewritable discs for commercial applications. It was defined in June 2010.

BD-R 3.0 Format Specification (BDXL) defined a multi-layered recordable in BDAV format with the speed of 2X and 4X, capable of 100/128GB and usage of UDF2.5/2.6.[159]

BD-RE 4.0 Format Specification (BDXL) defined a multi-layered rewritable in BDAV with the speed of 2X and 4X, capable of 100GB and usage of UDF2.5 as file system.[160]

IH-BD

The IH-BD (Intra-Hybrid Blu-Ray) format includes a 25GB write-once layer (BD-R) and a 25GB read-only layer (BD-ROM), designed to work with existing Blu-Ray Discs.[157][158]

AVCHD

AVCHD was originally developed as a high definition format for consumer tapeless camcorders. Derived from the Blu-ray Disc specification, AVCHD uses lower data rate, simpler interactivity and cheaper media. AVCHD specification allows recording AVC-encoded video onto DVDs, as well as onto other types of random access media like SD/SDHC memory cards, "Memory Stick" cards and hard disk drives.[161]

Being primarily an acquisition format, AVCHD can also be used for distribution of high definition video using inexpensive media like conventional DVDs and flash memory cards. Many Blu-Ray Disc players support AVCHD playback from DVDs. Many Panasonic and JVC HD television sets and Blu-Ray Disc players support AVCHD playback from SDHC memory cards.

AVCREC

AVCREC uses BDAV container to record high definition content on conventional DVDs.[162] Presently AVCREC is tightly integrated with Japanese ISDB broadcast standard and is not marketed outside of Japan. AVCREC is used primarily in set-top digital video recorders and in this regard is comparable to HD REC.

See also

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External links

Audio recording formats
Analog

Phonautogram (1857) · Phonograph cylinder (1877) · Gramophone record (1894) · Wire recording (1898) · Reel-to-reel tape (1940s) · SoundScriber (1945) · Gray Audograph (1945) · Dictabelt (1947) · LP record (1948) · 45 rpm record (1949) · RCA tape cartridge (1958) · Fidelipac (1959) · Stereo-Pak (1962) · Compact Cassette (1963) · 8-track (1964) · PlayTape (1966) · Mini Cassette (1967) · Microcassette (1969) · Steno-Cassette (1971) · Elcaset (1976) · Cassette single (1980) · Picocassette (1985)
Digital

Soundstream (1976) · 3M (1979) · X80/ProDigi (1980) · DASH (1982) · Compact Disc (1982) · Digital Audio Tape (1987) · ADAT (1991) · MiniDisc (1992) · NT (1992) · Digital Compact Cassette (1992) · High Definition Compatible Digital (1995) · 5.1 Music Disc (1997) · Super Audio CD (1999) · DVD-Audio (2000) · USB flash drive (as audio format) (2004) · Hi-MD (2004) · slotMusic (2008)
High definition media
Media formats
Blu-ray Disc  · HD DVD  · China Blue High-Definition (CBHD)  · Holographic Versatile Disc  · D-VHS
Promoter
Blu-ray Disc Association · HD DVD Promotion Group  · HVD Forum  · China High-definition DVD Industry Association
Interactivity
BD-Java · Advanced Content
Recordable formats
BD-R · BD-RE · HD DVD-R · HD DVD-RW · HD DVD-RAM
Comparison
Comparison of high definition optical disc formats
Copy prevention
AACS (BD, FVD, and HD DVD) · HDCP (BD and HD DVD) · BD+ (BD) · ROM-Mark (BD)
Blu-ray Disc players
CyberLink PowerDVD · PlayStation 3 · Sony BDP-S1 · Panasonic DMP-BD10
HD DVD players
Xbox 360 HD DVD Drive · Toshiba HD-A1 · Toshiba HD-XA1
High-definition (HD)
Concepts

High-definition video · High-definition television · Ultra High-definition television · High-definition audio
Analog broadcast

(All defunct): 819 line system · HD MAC · MUSE (Hi-Vision)
Digital broadcast

ATSC · DVB · ISDB · SBTVD · DMB-T/H
Audio

Dolby Digital (5.1) · MPEG-1 Layer II · PCM · LPCM · DXD · DSD · AAC
Filming and storage

HDV · DCI
HD media and
compression

Blu-ray Disc · CBHD · HD DVD · HD VMD · D-VHS · Super Audio CD · DVD-Audio · MPEG-2 · H.264 · VC-1 · MVC
Connectors

Component · HDMI · DVI · DisplayPort · VGA · HDBaseT
Deployments

List of digital television deployments by country
Resolutions
2K · 4K · 6K · 8K