Subject: General Tech | June 15, 2012 - 05:01 PM | Jeremy Hellstrom
Tagged: Hard Disk, Seagate, western digital, fud, hdd
There are quite a few things in the industry to speculate on, from Microsoft's intimating a 'big new thing' next Monday to AMD and the HSA's plans for the future of the industry, but if you want to go for the big one then it is the hard drive industry you should be following. The most recent sign that something big is going on would be the change in warranty length on consumer drives from the two remaining players, both of which now offer a 1yr warranty. That is a vast reduction from previous 3yr and 5yr warranties and while it does not necessarily imply these drives will fail any faster it does mean they offer shorter warranties than their competition, the SSD. This could convince a lot of people that paying $1/GB for an SSD is not really that bad of a deal and you can only expect that price to fall, especially on larger sized SSDs.
Also consider the fact that there are only two major HDD manufacturers left, Seagate and Western Digital. This defragmentation of the industry has been going on for quite a while now, resulting in those two manufacturers owning their competitions resources and IP and pretty much being able to determine what the market will provide and at what cost to the consumer. That has lead to the rather counter-intuitive profits that these two, especially Western Digital, made over the past year. You would not expect a company which lost its manufacturing capabilities to the Thai floods to see a 230% increase in profit, yet that is exactly what happened from March 2011 to March 2012. Seagate held their first place spot over the same time period, with higher volume sales contributing to that success with their prices only rising 20% instead of the 40% they threatened during the supposed supply difficulties.
The HDD market seems to be on its way out, not just because ultraportable devices chose SSDs over HDDs but also because the average consumer has come to the realization that while having a few terabytes of storage is nice for long term storage they really do not need it, especially on a device which does not have long term support. The Inquirer smells something foul in the air and comments on this topic here.
"Seagate, Western Digital and to a lesser extent Toshiba are starting to see free market economics - or as close as it gets - show their strategy of consolidation and profiteering. With the number of solid state disk (SSD) in the low teens, prices are falling steeply while hard drive makers rely on artificially high prices and shorter warranties to make a quick buck."
Here is some more Tech News from around the web:
- The other side of Computex @ The Tech Report
- Inside the “Card-That-Unlocks-All-Cable-Channels” Scam @ Hardware Secrets
- Microsoft's $1bn Yammer gobble gabble blabbed by insiders @ The Register
- Skype 4.0 For Linux Now Available @ Slashdot
- Intel to hold ultrabook cost-reduction meeting with Taiwan supply chain makers in July @ DigiTimes
Subject: General Tech, Storage | February 8, 2012 - 04:34 PM | Allyn Malventano
Tagged: laser, hdd, Hard Disk
The big hoopla as of late has been wrapped around SSD's and flash memory technology, with constant die shrinks promising cheaper and faster solid state storage for your PC. Everyone seems to be slowly forgetting about good old HDD's, but spinning rust may have some life left after all.
A team of scientists formed iron and gadolinium into a series of alloy 'nanoislands'. These are basically isolated mini magnets. Each one carries a magnetic charge. Normally you would write to materials like this by hitting them with a much larger magnetic field (i.e. from your HDD write head). This team had a different trick up their sleeve - don't bother with the bigger magnet, just hit it with a burst of heat and get it to change state on its own.
Magnetic nanoislands getting hit by a frickin' laser.
Picture a sling shot, stretched out, and frozen in a block of ice. If you melt the ice, the rubber band will just snap back to its unstretched state and stay there. The same kind of thing happens when you heat a magnet - it becomes demagnetized. Now imagine if you could melt the ice, but flash freeze it while the rubber band has extended in the opposite direction. You've reversed the direction of the sling shot. Pull off the same trick with a magnet, and you can flip its poles. The trick is finding just the right length of time to heat the magnet and catch the 'flip' on the other end of its resonance. This team appears to have figured it out, and the magic number (for their material) is 60 femtoseconds. They can heep hitting the same spot repeatedly, and each time causes another flip in the poles.
Each pulse flips the bit.
To back this down into typical computer terms. A 1GHz CPU clock triggers every 1.00000 nanosecond, and 60 femtoseconds is 0.00006 nanoseconds. Ultrashort Pulse lasers have been around for a while. One was even used on my eyeballs a few years back. These pulses are so fast that the biggest issue would be getting information to the laser fast enough. The straight line theoretical speed of this technique ranges in the Terabytes per second, with densities limited by the capabilities of the nanotech used to create the islands.
To be clear, this isn't the first time heat or lasers has been used in magnetic media. TDK pioneered Heat Assisted Magnetic Recording tech years ago, but that tech is only heat *assisted*. This new breakthrough is writing, with heat, without the magnet at all. Now the only trick is figuring out how to read such a high density of tiny written bits. Since the laser writes much smaller than a magnetic head could accomplish, we might see a reversion back to optics for the reads.We're not sure how long before this technology appears on your desktop, but what we can say is that magnetic storage is not dead yet.