Holographic Data Storage – The Next Generation

By Jason Cole

All data storage in modern times are done on disc, be it a computer hard drive or a CD-R disc. Blu-ray and HD-DVD have upped the ante when it comes to the amount of data that you can hold on a disc, but at some time they will eventually become obsolete. Right now our data storage needs are currently met, but as the amount of data available continues to rise, storage technology must evolve with it. The next generation of storage technology is going to be holographic data storage. It sounds pretty futuristic, what is holographic storage?

With CD-R and DVD-R technology, data is stored on the surface of the disc as distinct magnetic or optical changes. With holographic data storage, an entire page of information is stored at once as an optical interference pattern within a thick, photosensitive optical material.

How do they do this?
This is done by intersecting two coherent laser beams, the object and reference beams, within the storage material. The object beam contains all the information needing to be stored, while the reference beam is designed to be simple to produce. The resulting interference between the beams causes chemical and/or physical changes in the photosensitive medium that the data is being stored on. Basically “burning” the information to the storage medium, this mark is called the grating. When the grating is illuminated by one of the two waves that were used to record the information, the light is refracted in a way that the other wave is reconstructed. These gratings can be stacked or superimposed in the same thick piece of media, as long as there is a distinguishing spacing or direction, allowing the stacked bits of data to be accessed independently. In addition to larger storage capabilities, holographic storage also boasts to accelerate data transfer rates to about one billion bits per second and reduce access times to just tens of microseconds.

The benefits

1. Larger storage capacity – Some companies are developing a technology that enables the storage of between 100GB and 1TB of data. Compare this to Blu-ray and HD-DVD, which max out at 50GB. Amazing leap in the amount of data you can store on one piece of media.

2. Accelerated data transfer – The holographic data storage medium in the works boasts data transmission speeds of 100Mbps to 1Gbps. The new HD-DVD and Blu-ray discs clock in at 36.55Mbps, which is only a fraction of the holographic data storage transfer rate.

Well, if you’re like me, you learned quite a bit about a new technology from this short article. This new technology is quite a ways off from being accessible to the common consumer, but some companies are in the process of developing holographic data storage for the corporate sector. Technology is a strange beast, always changing, always mutating. The sky is the limit, and only time will tell where we’ll be headed after the rise and fall of this yet-to-be-seen data technology.

Jason Cole and DiskFaktory offer great tips and information regarding CD Duplication. Get info about DVD Duplication as well by visiting http://www.diskfaktory.com/tips/CD-duplication-tutorials.asp Article Source: http://EzineArticles.com/?expert=Jason_Cole

Perpendicular Hard Disk Drives

By Sean Nicholls

What is a Hard Disk Drive?

A Hard Disk Drive (HDD) is a device used by modern computers to permanently store information. The Hard Disk Drive is arguable the most essential part of a computer system in that all the information that is permanently stored is contained within its enclosure, including your computer’s Operating System (OS). Thanks to Hard Disk Drives, long gone are the days when you would have had to keep all your programs and documents stored on removable media such as Floppy Disks or CD-ROMs.

Originally invented in the mid 1950’s and made commercially available in 1956 by International Business Machines (IBM). Called RAMAC (Random Access Method of Accounting and Control), the first Hard Disk Drives contained as much as 50 platters which were 24 inches in diameter and were computers in their own right albeit with a single purpose – to store data. The entire unit which housed the hard drive was the approximate size of two large refrigerators placed side by side. In the 50 or so years since their invention, Hard Disk Drives have steadily and aggressively far out paced Moore’s law. Which stipulates that memory in computers will increase by 100% approximately every 18 months. Hard Disk Drives on the other hand have increased capacity in the same period by approximately 130%, an increase of 100% every nine months in many cases. Such capacity increases are being threatened, however. I

n the years since the first Hard Disk Drive very little has changed apart from logical steps in technology such as the increased speed or improved interfaces, the basic technology has changed very little. There have been no technological leaps, as it were, for Hard Disk Drives beyond their increased miniaturisation. Apart from miniaturisation and recording media improvements the Hard Disk Drive as a device is almost identical technologically speaking, to the very first, the RAMAC.Hard Disk Drives use a similar technology as is employed in audio and video cassettes. Such audio and video cassettes use a magnetic ribbon wound around a two wheels to store data. To access a particular portion of the data contained on the magnetic ribbon, the device must wind the tape such that the beginning of the section containing the data is underneath the device that reads the data (the magnetic read/write head). This process is called sequential data retrieval because in the process of accessing the particular data, the device must sequentially read each piece of data until the data it’s looking for is found. This process is very time consuming and contributes to wear.

Hard Disks on the other hand use a circular disk-shaped platter upon which the magnetically sensitive compound is laid. Such platters are similar in concept to a Compact Disk (CD) in that the data they hold can be accessed randomly, that the recordable media is in a circular (disk) shape, and that the data is sectioned off into tracks and sectors. Data on a Hard Disk Drive can be accessed randomly because the recordable medium of Hard Disk Drives uses these separated tracks and sectors. By separating the data in such a way, it can be positioned at random intervals of the disk, depending upon the space requirements.

(more…)