In-Depth

New Tech Bringing Larger Storage Capacity Options

From helium-filled drives to "pixie dust," here's some of the disk innovations that are bringing larger capacity drives for less money.

• By Scott D. Lowe
• 03/14/2014

The last 10 years have brought some tremendous advances in storage engineering and technology that have allowed manufacturers to release larger and cheaper capacity hard drives. Here's a look at some of the innovations that have made large-capacity storage options affordable and practical for enterprises:

'Pixie Dust'
The ability for disks to store more and more data is a direct result of major breakthroughs in chemistry and physics that enable manufacturers to increase what is known areal density or bit density.  This is a measurement of the number of gigabits per square in (Gb/in^2) that can be stored on a particular medium.  There has been continual increase in this figure over the years, but one of the biggest physical breakthroughs came when "pixie dust" hit the market.  This pixie dust is basically a microscopically thin layer of a material known as ruthenium, which is placed between two magnetic layers.  This achievement alone resulted in hard-drive manufacturers gaining the ability to quadruple the areal density of magnetic storage.  Later on, this technology was coupled with a smaller femto slider --  " the tiny flying wing supporting the read/write head above the surface of the disk" --  which further increased the areal density potential of magnetic media.

So, in the same amount of magnetic platter real estate, manufacturers could now place orders of more data than had been possible before.  As a result, in the same package -- the 3.5" hard disk package -- customers could get hard drives that had much more capacity while the real cost stayed about the same, meaning that customers paid less on a $/GB basis.

Perpendicular Storage
Think of a unit of storage on a disk as a Lego block.  Way back before 2006, hard disks laid individual data elements down just like you would build a wall with Legos.  Bricks were stacked lengthwise atop one another.  Of course, with a disk, the bits aren't completely on top of one another, but the tracks are laid down as a length of Lego bricks.

Perpendicular storage improves overall capacity density of hard drives by flipping these bits on their ends rather than on their bottoms.  If you have a Lego brick and you experiment with sitting it upright on its small side, you will see that is ends up using much less physical space on your desk.  The same is true for data bits.  Now imagine doing this with billions of bits of data on your disks and it becomes more obvious how this technology can improve the overall areal density of magnetic storage.

Shingled Hard Drives
When it comes to continuing to cram more data to disks, physics can get in the way.  As individual elements get smaller and as they get placed closer together, data integrity begins to be risked as the potential for flipped bits increases.  This means that, as manufacturers try to go smaller, things can get tough.  But, smaller is how drive sizes continue to increase. 

Rather than trying to make tracks on the disk super thin, which has its own physics-based challenges, singled hard drives take a different approach and write wider tracks, which are then overlapped with one another, obviating the need for smaller write heads while at the same time doubling areal data density to 3 trillion bits/sq. in.

Helium-Filled Hard Drives
Most recently, hard drive manufacturers have turned to helium to help continue to improve storage economics.  Until recently, hard drives all had regular, everyday air inside the enclosure. Today, some hard drives are actually filled with helium, which is much lighter than air.  As a result, as the disk spins and the heads are dragged through the enclosure, there is much less drag, which can mean better performance.

However, it also means that manufacturers have begun to release drives with seven platters rather than five.  As a result of having the ability to add almost 50 percent more platters, manufacturers are hard at work selling drives that sport a whopping 6 TB of capacity.