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Abideen claims to have placed a 45 second video clip on a single sheet of paper, with the possibility of up to 450GB on the horizon - Image courtesy Arab News
Rainbow technology still in the works but holds promise

According to a report from the Arab News, a university technology student named Sainul Abideen has invented a method of storing massive amounts of digital data on a plain piece of paper that he claims could store many times the capacity of the best Blu-ray or HD-DVD discs. In fact, Abideen says that his Rainbow technology can enable him to store from 90 to 450GB on a piece of paper. As far as a real life demonstration of a 450GB paper goes, the technology still needs development.

Abideen, who hails from the Kerala, India, claims that that his Rainbow system is better than a binary storage because instead of using ones and zeros to represent data, Abideen uses geometric shapes such as squares and hexagons to represent data patterns. Color is also used in the system to represent other data elements. According to Abideen, all that's required to read the Rainbow prints is a scanner and specialized software.

The reporter at Arab News claims to have seen 450 pages of fully printed foolscap being stored on a 4-square inch piece of Rainbow paper. The reporter also claimed that he was shown a 45-second video clip that was stored using the Rainbow system on a plain piece of paper. Interestingly, 45-seconds of video isn't a lot, and if the Rainbow system can store up to 450GB, then we need to be watching full length high-definition videos from a piece of paper.

One of the major advantages of the Rainbow system is the fact that it should cost a lot less to produce than typical polycarbonate DVD and CD discs. Abideen claims that huge databanks can be constructed out of Rainbow-based storage mediums. Although the main attraction is cheap paper right now, other media can use the Rainbow system too.

As of right now, Abideen's system is still under research at the Muslim Educational Society Engineering College and although no major companies have expressed interest, Abideen is confident of the system's future. According to the report, Aibdeen is hard at work at developing a Rainbow scanner that would be small enough for integration into notebook computers. If developed, a Rainbow printer will likely be next up.

In other high-capacity storage news, DailyTech previously reported that Hitachi-Maxell is in the progress of producing holographic media for shipment this year. Holographic storage is one of the biggest forward-looking storage technologies and holds a great deal of promise -- as well as data.


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RE: Sure
By PrinceGaz on 11/25/2006 11:47:02 AM , Rating: 0
quote:
Then compare 2^10 (binary) and 19^10 (rainbow) and thats how many bits of information each would have with equivalent space.


Incorrect.

In your example you have binary having 2 possibilities per unit of information and rainbow having 19. Assuming each take the same amount of space (I imagine binary would actually be smaller but that's not relevant here), the number of bits of information each could store would be 2 x 10^n (binary) and 19 x 10^n (rainbow).

Rainbow in this case would always store only about nine or ten times the total amount of information.

Given that in any practical implementation, rainbow (shape and colour) would by necessity need to occupy a larger space per unit of information than binary (dor or no dot), the advantage of rainbow is negated.

In fact I fail to see how storing the information as coloured shapes could possibly have a higher data-density than simply using coloured dots, as the data must be read as dots by the scanner before it is interpreted as being a particular shape, and the number of dot combinations has to be greater than the number of shapes they can represent.

In short, this rainbow storage breakthrough is bogus. The way to store the maximum amount of information on paper would be to use coloured dots of as high a resolution and number of colours as can be reliably read, not by using coloured shapes.


RE: Sure
By Shining Arcanine on 11/25/2006 12:18:20 PM , Rating: 2
PrinceGaz, your calculations are incorrect. The amount of data any amount of bits can hold is 2^n. For example, with two bits, you can have 4 different combinations of data (i.e. 00, 01, 10, 11) and 2^2 = 4. Your 2 x 10^n formula predicts 200 different pieces of information for two bits, which is wrong as there are only four different ways that you can utilize two bits.

Can you find any other combinations that two bits can form other than 00, 01, 10 and 11? If you cannot, then it stands to reason that the formula for a base-19 encoding scheme would be 19^n.


RE: Sure
By robbie1687 on 11/25/2006 12:25:38 PM , Rating: 2
quote:
In fact I fail to see how storing the information as coloured shapes could possibly have a higher data-density than simply using coloured dots...

You're right, it doesn't. The data capacity is the number of bits. The fact that the bits can be viewed in different ways (as composing symbols) is irrelevant.

Think of it this way. Eight bits can be permuted in 256 ways. That's why a byte (which is made of 8 bits) has 256 possible values.

Now we can think of a byte as a hex number. Or we can think of a byte as a color. Or we can think of a byte as a code for "circle", "square", "triangle", etc. But no matter how we think of that byte, it still contains only 8 bits, and it still can encode only 256 possibilities.


RE: Sure
By aGreenAgent on 11/29/06, Rating: 0
"Paying an extra $500 for a computer in this environment -- same piece of hardware -- paying $500 more to get a logo on it? I think that's a more challenging proposition for the average person than it used to be." -- Steve Ballmer

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