Sunday, 12 March 2017

The Future of Storage Devices

   Until now, people have managed to make a storage devices that have up to 50 petabytes of storage. Doesn't look that many to you? Let me express it in a numerical form .50000000000000000 bytes of data. That's a lot of data if you ask me.
  All of you who are reading this are probably thinking, what does the future hold for the development of storage devices? Smaller size? Maybe bigger capacity?

With the human race creating and saving an exponential amount of data, this is a great thing and the future of data storage is pretty exciting. Here are a few of the emerging storage technologies that may be signs of what’s on the horizon.

1. Helium Drives

Helium-filled hard drives have lately been pushing the capacity boundaries of hard drives, which are typically filled with air. Last September, Western Digital announced the world’s first 10TB hard drive, just a few weeks after Seagate announced its 8TB air-filled hard drive (the largest hard drive at the time). By using helium instead of air, helium-filled drives use less power to spin the disks (which spin more easily thanks to less resistance compared to air), they run cooler, and they can pack in more disks.


The technology is still expensive. Still, these high performance drives will likely only get cheaper and even more expansive–perhaps affordable enough even for consumer use.

2.Shingled Magnetic Recording (SMR)

SMR is a new hard drive recording technology. As with helium-filled drives, SMR technology allows for higher capacity on hard drives than traditional storage methods. As Seagate explains it:

SMR achieves higher areal densities by squeezing tracks closer together. Tracks overlap one another, like shingles on a roof, allowing more data to be written to the same space. As new data is written, the drive tracks are trimmed, or shingled. Because the reader element on the drive head is smaller than the writer, all data can still be read off the trimmed track without compromise to data integrity or reliability. In addition, traditional reader and writer elements can be used for SMR. This does not require significant new production capital to be used in a product, and will enable SMR-enabled HDDs to help keep costs low.

In 2014, Seagate introduced the first SMR hard drive, which improved hard drive density by 25%. At $260 for 8TB (three cents per GB), it’s a cost-effective drive for backups and archiving–though not necessarily performance , since the drive only has a 5,900 rpm spindle speed. 


Will all of the current storage devices be irrelevant in the future?


3.DNA

Perhaps the strangest new storage technology of the future is DNA. Yes, the molecule that stores biological information could be used to store other kinds of data. Harvard researchers in 2012 were able to encode DNA with digital information, including a 53,400-word book in HTML, eleven JPEG images, and one JavaScript program. DNA offers incredible storage density, 2.2 petabytes per gram, which means that a DNA hard drive about the size of a teaspoon could fit all of the world’s data on it–every song ever composed, book ever written, video ever shared. Besides the space savings, DNA is ideal for long-term storage: While you’re lucky if your hard drive lasts four years and optical disks are susceptible to heat and humidity, lead Harvard researcher George Church says “You can drop DNA wherever you want, in the desert or your backyard, and it will be there 400,000 years later.”

Bye-bye Blu-ray, and hello DNA movies. 

DNA takes a long time to read and write to and, as you might imagine, the technology is still too expensive to be usable now. According to New Scientist, in one recent study the cost to encode 83 kilobytes was £1000 (about $1,500 US dollars). Still, scientists are encoding information into artificial DNA and adding it to bacteria. It’s like a sci-fi novel that’s currently being written and lived. DNA could be the ultimate eternal drive one day.

4. Other Futuristic Storage Technologies

Not all innovative storage technologies end up becoming mainstream or widely used beyond just research, of course.

Scientists and tech companies have been working on holographic data storage for at least a decade. In 2011, GE demonstrated its holographic discs storage: DVD-sized disks that could store 500GB thanks to cramming the data onto layers of tiny holograms (unlike Blu-Ray discs, which store data just on the surface). These discs also had a relatively long lifespan prediction of 30 or more years. Not much has been said about the Holographic Virtual Disc (HVD) lately, though, and one of the biggest developers of the holographic drives, InPhase Technologies, went bankrupt in 2010. That’s not to say the technology won’t be a prominent storage technology in the future (what says “future” more than “holographic” anyway?).

Well, maybe quantum storage. Scientists are currently investigating ways to store data using quantum physics-e.g., a bit of data attached to the spin of an electron. Right now this technology can only store tiny amounts of data for a very short amount of time (not even a day yet), but if it works and takes off, we could see instant data syncing between two points anywhere, thanks to quantum entanglement.



No comments:

Post a Comment