#Optical disk archive tv#
Other international companies include Beijing Television (China), Sun TV Network Limited (India), and more. A number of broadcasters and organizations have recently jumped on board including the NFL’s Carolina Panthers, Alabama Public TV, Capitol Broadcasting, KUAC-TV, Wells Fargo, and WRAL-TV here in the United States.
#Optical disk archive archive#
That said, Sony says the system is meant for deep archive storage, disaster recovery systems, and near-line applications. The scalable PetaSite Library system is for even more archive access on fiber-based and gigabit Ethernet networks.
![optical disk archive optical disk archive](https://www.bhphotovideo.com/images/images500x500/sony_ods_l100e_petasite_optical_disc_archive_1354440.jpg)
For larger access, client PCs within a business or institution connect to a bigger unit, such as the ODS-L10 “Library System,” that in turn is hooked up to a network server and an Ethernet switch.
#Optical disk archive Pc#
The stand-alone drive connects to a PC or Mac via a USB 3.0 port. The system is easily scalable: users can begin with a small archive stored on a few shelves, and expand into a large library as data accumulates.” “It also succeeds in keeping down total archiving costs, and has a very low environmental footprint. “Optical Disc Archive leverages the technologies and reliability of optical discs originally developed for commercial broadcast equipment,” the company explains. Needless to say, this archive solution really isn’t meant for a consumer-based desktop setup. However, when you perform a search on Google, you’ll find a first-generation cartridge costing $226 for the 300GB model and $750 for the 1.2TB model. Take a peek at Sony’s Optical Disc Archive section on its website and the drive pricing is only available upon request. The second-generation models have an 8-channel pickup head, supposedly doubling the first generation’s speed. The older generation also delivers a maximum data transfer rate of 1.1Gbps and are equipped with a 4-channel pickup head, providing read speeds four times faster than Blu-ray. The first-generation systems support data archiving for up to 50 years, so the new generation is quite a jump. Optical disc-based cartridges for these drives include both write-once and rewritable media, and range from 300GB to 1.5TB. Since then, there have been six drives released spanning a single-slot stand-alone drive to a model packed with 101 slots. Sony launched the first-generation Optical Disc Archive system back in 2013. The overall system doubles the read and write speeds compared to the previous generation, and is supposedly great for real-time 4K video recording. Sony is offering the new optical drive system in three components: a stand-alone USB-based unit, an 8GB fiber channel “library” unit, and the cartridges that actually contain the optical media. By comparison, a standard single-sided Blu-ray disc can store 25GB while a double-sided disc can hold twice that. Not only does the system’s new optical disc-based cartridges have a 100-year shelf life, but they can store up to 3.3 terabytes of data on each. Need to store large amounts of data quickly? Sony has the backup system you may be looking for with the introduction of its second-generation Optical Disc Archive system. The hardware is industry standard, ensuring low maintenance costs. The system is flexible since it can accept data from a variety of sources in any format it is also low cost and.
![optical disk archive optical disk archive](https://pics.computerbase.de/7/1/7/9/8/4-1080.2065372126.jpg)
floppy disk, which can then be used at the viewing station at the scanner. A sector copy is then made from the optical disk to the 8-in. floppy disk into the drive attached to the PC. Data retrieval involves entering the patient details into the data base and inserting a blank 8-in. The patient details (patient name, ID, date, etc.) are entered into a database program held on the PC and these are used to generate a reference pointer to the optical disk file through which the data can be retrieved. floppy disk drive and then transferred to the optical disk. floppy disks, and these are read into the PC using an attached 8-in. Image data are transferred from the scanner using 8-in. optical disk drive as a ‘stand-alone’ image store. We describe the use of an industry standard personal computer (PC) linked to a standard 5i-in.
![optical disk archive optical disk archive](https://www.digibroadcast.com/images/products/medium/1448365036-08516100.jpg)
Optical disk stores, when fitted retrospectively to scanners, are very expensive and may not be compatible with existing computer hardware. The paper describes an approach to solving (he problem of providing a large-capacity image archive for diagnostic imaging departments at reasonable cost.