by Anupum Pant
The present storage technology
Storage technology has come long way from the year 1956 when IBM, the massive corporation started pushing this technology. Its journey started with data storage densities of orders as low as 40 bits per square inch in 1956 (RAMAC 350). This effort from their side indeed brought in great results and IBM could set a record of density record of 14.3 billion bits per inch, by the year 2000.
Today, in the year 2013, most HDDs (Hard Disks Drives) are able to store with densities of around 500 Billion bits per square inch; technology at this level has brought Terabyte sized HDDs to our computers. The research being done on increasing density of data is still a bustling area. As a result, we often see news breaking in with breath-taking new storage technologies almost every month.
Just a few months back, using a technique called nanopatterning a team from Singapore was able to show 3300 billion bits per square inch. That is almost 6 times the density of a normal HDD. It means that a 1TB HDD of present size could hold 6TB if this could come to manufacturing units.
Seagate, in another story, promised data densities of the order 1TB per square inch (8000 billion bits per square inch) within the next decade. Which would enable hard drives of up to 60 TB in capacity.
A similar thing has happened to compact disks. From CDs to DVDs to Dual Layer DVDs to BluRays and several other storages that didn’t last – from zip drives to holographic storage. The data storage densities have improved dramatically.
Is it enough?
Although, our present ability to store a lot of data in small physical spaces is enough for now, to meet the future demands we will need to keep progressing with an unbelievable rate. The fact – physical storage is reaching its limit gradually, could bottleneck our progress in the future.
Biological Storage Devices
The exact storage concept used in amazing natural systems like the human brain and DNA has remained elusive for decades now. To keep up with the rapid pace of development it is important that we step up our work in this area. I think, the answer to our demands lies with the nature.
A brain, for instance, is estimated to be able to store something closer to 2.5 petabytes (or a million gigabytes). The sad part, we don’t exactly know how it stores. Moreover, we don’t even know how we could precisely calculate their storage limits. These estimates are just a theoretical calculation. We still have a long way to go.
The greatest storage device
Recent successful experiments with storage and retrieval of data in the human DNA has come with a new hope for the future. Teams at the EU Bioinformatics Institute and Harvard University have successfully stored famous speeches, photos, and entire books, and then retrieved them with 99.99% accuracy.
Being able to store data in the DNA will confer upon us three advantages. Firstly, it will be fast (very), yes, faster than the flash drive. Secondly, it won’t age with repeated storage cycles (around 10,000 years), at least not like HDDs which have moving parts. Finally, DNA will enable us to reach data densities of unimaginable levels. Imagine being able to store of half a million DVD disks in a single gram of DNA! Technically that would amount to 700 terabits per gram (measuring in area is difficult for an entity like this). Others have reached to densities as much as 2.2 petabytes per gram.
Bring DNA drives to our PCs I say!