This article needs additional citations for verification .(December 2009) |
Calimetrics was an American technology company founded in 1994 by Terrence Wong, Michael O'Neill, and Thomas Burke. Based on Dr. Wong and Dr. O'Neill's UC Berkeley research, the company received startup funding of $1.8M from an Advanced Technology Program grant to conduct research and development on pit-depth modulated optical data storage systems. [1] Over the years, Calimetrics raised approximately $50M from government, venture, angel, and corporate sources. Calimetrics was acquired in 2003 by LSI Logic and ceased operations in 2004.
Pit depth modulation, which the company later branded MultiLevel Recording (ML), is one of many techniques to increase recording densities on conventional CD-optical media. Calimetrics' implementation of pit depth modulation, using modified CD drive electronics but no changes to the pickup-head, increased the quantity of distinguishable recording-marks from 2-levels (used by EFM in CD) to 8 levels. The increase in bit-density had a side benefit of increasing data-transfer rate (at the same rotational-velocity of the disc.) MultiLevel, like most of the other strategies proposed for extending CD capacity, was not backward compatible with CD-ROM technology: 2GB ML R, RW, and ROM disc playing and recording required ML-capable writers and special ML-CD compatible media. However, the cost to build CD rewriters with both ML and CD support was less than that of DVD-recordable technology.
Calimetrics's commercialization partners included Iomega, Texas Instruments, TDK, Mitsubishi Chemical, Matsushita Kotobuki Electronics (Panasonic), Sanyo Electric, and Shinano Kenshi (Plextor).
In 2001, Calimetrics demonstrated hardware prototypes for a 2GB ML-CD reader/writer, using blank-media that was very similar to CD. By the time the ML-CD system was ready to enter consumer production (late 2001), CD-R/RW drives had dropped significantly in price due to the entry of Taiwanese producers and industry backing behind the various DVD recordable formats had become significant. In addition, the ill-fated Sony double-density CD format (DDCD) had already come and gone without any lasting impact on the market. This left ML-CD, another offshoot of the CD, with an uncertain outlook. Suffice it to say, without a launch commitment from drive and blank-media industry, ML-CD drives never reached the consumer-market.
When the company was acquired by LSI Logic in 2003, it had already begun work on ML-DVD. Like ML-CD, ML-DVD required new drive electronics and special ML media, but no change to the optical pickup-head. In terms of capacity, both ML-DVD-R (recordable) and ML-DVD-ROM discs were specified at 16GB for dual-layer, and 8GB for single-layer. Rewritable media (ML-DVD-RW) offered 8GB (single-layer.) Because of the shared physical characteristics with DVD-ROM pickups, the ML controller-chip was anticipated as a drop-in replacement for existing DVD-drives, greatly reducing cost of ML-DVD capable drives.
This time, Calimetrics faced competition from both above and below. From above, there were the two blue-laser formats - the Philips/Sony backed Blu-ray, and the Toshiba/NEC Advanced Optical Disc (AOD.) Both blue-laser formats were more costly, but offered greater storage (and industry backing.) From below, Taiwan's home-grown DVD-spinoff (called FVD: Forward Versatile Disc) offered less capacity than ML-DVD, but enjoyed the backing of Taiwan's governmental research agency as well as Taiwan's semiconductor industry.
The DVD Forum later approved the AOD proposal, which was officially in 2006 as the HD DVD format. The Blu-ray Consortium quickly followed and released their own players and movie titles to compete head-to-head against HD DVD. Meanwhile, China, the consumer market most likely to accept ML-DVD for domestic-use, instead chose Taiwan's FVD. Faced with dwindling opportunities to launch ML-DVD, LSI suspended research and development on MultiLevel Recording.
The compact disc (CD) is a digital optical disc data storage format that was co-developed by Philips and Sony to store and play digital audio recordings. In August 1982, the first compact disc was manufactured. It was then released in October 1982 in Japan and branded as Digital Audio Compact Disc. It was released on March 2, 1983 in North America and Europe.
CD-R is a digital optical disc storage format. A CD-R disc is a compact disc that can be written once and read arbitrarily many times.
An optical disc is a flat, usually disc-shaped object that stores information in the form of physical variations on its surface that can be read with the aid of a beam of light. Optical discs can be reflective, where the light source and detector are on the same side of the disc, or transmissive, where light shines through the disc to the be detected on the other side.
In computing, an optical disc drive is a disc drive that uses laser light or electromagnetic waves within or near the visible light spectrum as part of the process of reading or writing data to or from optical discs. Some drives can only read from certain discs, but recent drives can both read and record, also called burners or writers. Compact discs, DVDs, and Blu-ray discs are common types of optical media which can be read and recorded by such drives.
A magneto-optical drive is a kind of optical disc drive capable of writing and rewriting data upon a magneto-optical disc. Both 130 mm (5.25 in) and 90 mm (3.5 in) form factors exist. In 1983, just a year after the introduction of the Compact Disc, Kees Schouhamer Immink and Joseph Braat presented the first experiments with erasable magneto-optical Compact Discs during the 73rd AES Convention in Eindhoven. The technology was introduced commercially in 1985. Although optical, they normally appear as hard disk drives to an operating system and can be formatted with any file system. Magneto-optical drives were common in some countries, such as Japan, but have fallen into disuse.
DVD-RAM is a DVD-based disc specification presented in 1996 by the DVD Forum, which specifies rewritable DVD-RAM media and the appropriate DVD writers. DVD-RAM media have been used in computers as well as camcorders and personal video recorders since 1998.
DVD+R DL also called DVD+R9, is a derivative of the DVD+R format created by the DVD+RW Alliance. Its use was first demonstrated in October 2003. DVD+R DL discs employ two recordable dye layers, each capable of storing nearly the 4.7 GB capacity of a single-layer disc, almost doubling the total disc capacity to 8.5 GB. Discs can be read in many DVD devices and can only be created using DVD+R DL and Super Multi drives. DL drives started appearing on the market during mid-2004, at prices comparable to those of existing single-layer drives. As of March 2011 DL media is up to twice as expensive as single-layer media. The latest DL drives write double layer discs at a slower rate than current single-layer discs.
The Holographic Versatile Disc (HVD) is an optical disc technology that was expected to store up to several terabytes of data on an optical disc 10 cm or 12 cm in diameter. Its development commenced in April 2004, but it never arrived due to lack of funding. The company responsible for HVD went bankrupt in 2010.
MultiLevel Recording was a technology originally developed by Optex Corporation and promoted by Calimetrics to increase the storage capacity of optical discs. It failed to establish itself on the market. Through a combination of proprietary media, recorder, reader and player modifications, Calimetrics proposed that ML could increase the capacity of a CD-ROM, CD-R or CD-RW to 2 GB, a single-layer DVD, DVD-R, DVD+R, DVD-RW, DVD+RW or DVD-RAM to 7.1 to 10 GB and a single-layer Blu-ray Disc (BD) to as much as 60 GB. An optionally integrated Digital Rights Management (DRM) system entitled MovieGuard was also suggested. An industry group called the ML Alliance was formed in 2000 to help commercialize ML technology. Members eventually included Calimetrics, TDK, Sanyo Semiconductor, Plextor, Matsushita Kotobuki Electronics, Mitsubishi Chemical Corporation, Verbatim, Teac and Yamaha.
The double-density compact disc (DDCD) is an optical disc technology developed by Sony using the same laser wavelength as a compact disc, namely 780 nm. The format is defined by the Purple Book standard document. Unlike the compact-disc technology it is based on, DDCD was designed exclusively for data, with no audio capabilities.
DVD formats describe the physical properties of the optical disc and how data is stored and manipulated on the disc. The formats are varied according to use, with the largest differences being whether or not the disc is written to. Within each use category, there are often competing formats or implementations.
DVD-R DL, also called DVD-R9, is a derivative of the DVD-R format standard. DVD-R DL discs hold 8.5 GB by utilizing two recordable dye layers, each capable of storing a little less than the 4.7 gigabyte (GB) of a single layer disc, almost doubling the total disc capacity. Discs can be read in many DVD devices and can only be written using DVD-R DL compatible recorders. It is part of optical disc recording technologies for digital recording to optical disc.
DVD recordable and DVD rewritable are optical disc recording technologies. Both terms describe DVD optical discs that can be written to by a DVD recorder, whereas only 'rewritable' discs are able to erase and rewrite data. Data is written ('burned') to the disc by a laser, rather than the data being 'pressed' onto the disc during manufacture, like a DVD-ROM. Pressing is used in mass production, primarily for the distribution of home video.
Forward Versatile Disc (FVD) is an offshoot of DVD developed in Taiwan jointly by the Advanced Optical Storage Research Alliance (AOSRA) and the Industrial Technology Research Institute (ITRI) as a less expensive alternative for high-definition content. The disc is similar in structure to a DVD, in that pit length is the same and a red laser is used to read it, but the track width has been shortened slightly to allow the disc to have 5.4 GB of storage per layer as opposed to 4.7 GB for a standard DVD. The specification allows up to three layers for total of 15 GB in storage. WMV9 is used as the video codec allowing for 135 minutes of 720p video on a dual layer disc, and 135 minutes of 1080i video on a three-layer disc. FVD uses AACS copy protection which is one of the schemes used in both HD DVD and Blu-ray Discs.
Optical disc authoring requires a number of different optical disc recorder technologies working in tandem, from the optical disc media to the firmware to the control electronics of the optical disc drive.
CD-RW is a digital optical disc storage format introduced in 1997. A CD-RW compact disc (CD-RWs) can be written, read, erased, and re-written.
The DVD is a digital optical disc data storage format. It was invented and developed in 1995 and first released on November 1, 1996, in Japan. The medium can store any kind of digital data and has been widely used for video programs or formerly for storing software and other computer files as well. DVDs offer significantly higher storage capacity than compact discs (CD) while having the same dimensions. A standard DVD can store up to 4.7 GB of storage, while variants can store up to a maximum of 17.08 GB.
As of 2021, multiple consumer-oriented, optical-disk media formats are or were available:
The preservation of optical media is essential because it is a resource in libraries, and stores audio, video, and computer data to be accessed by patrons. While optical discs are generally more reliable and durable than older media types, environmental conditions and/or poor handling can result in lost information.
A CD-ROM is a type of read-only memory consisting of a pre-pressed optical compact disc that contains data. Computers can read—but not write or erase—CD-ROMs. Some CDs, called enhanced CDs, hold both computer data and audio with the latter capable of being played on a CD player, while data is only usable on a computer.