Seagate Unveils 10 TB Helium-Filled Hard Disk Drive for Cloud Datacentersby Anton Shilov on January 13, 2016 8:00 AM EST
- Posted in
- Helium HDD
- Enterprise Capacity
- 10 TB
Seagate Technology on Wednesday introduced its first helium-filled hard disk drive. The novelty is designed for cloud datacenters that require maximum amount of storage and enhanced reliability. By filling its HDDs with helium, Seagate can substantially increase their capacity and lower power consumption while using current magnetic recording technologies. At present, two major customers of the company are already evaluating the new hard drives. Volume shipments of the HDDs will start later.
The helium-filled Seagate Enterprise Capacity 3.5-inch HDD with 10 TB capacity incorporates seven perpendicular magnetic recording (PMR) platters with 1.43 TB capacity each as well as 14 heads. The manufacturer claims that the new drive features an advanced caching sub-system to increase performance. In addition, the new helium-filled Enterprise Capacity 3.5 HDD sports the company’s PowerChoice technology, which helps to manage power consumption during idle time, as well as PowerBalance technology, which enables operators of datacenters to balance power consumption and IOPS (input/output operations per second) performance of hard drives. Seagate claims 2.5 million hours MTBF for its helium-filled HDD, which is significantly higher compared to traditional enterprise-class drives.
Typically, Seagate’s Enterprise Capacity HDDs feature 7200 revolutions per minute (RPM) spindle speed as well as special top and bottom attached motors (in a bid to reduce vibration), but the manufacturer did not confirm such details about its 10 TB helium-filled hard disk drive. Since hermetically sealed HDDs feature significantly different internal architecture, many actual specs of the Seagate Enterprise Capacity 10 TB may differ from predecessors.
The new hermetically sealed helium-filled hard drives from Seagate use either Serial ATA-6 Gb/s or SAS-12 Gb/s interfaces and can be installed into various environments. The manufacturer did not reveal sector sizes of the new HDDs, but typically modern high-capacity hard drives have 4 KB sectors and can support 512-byte sectors via emulation. Typically, enterprise-class hard drives also optionally support data security features, such as self-encryption, secure erase and so on. Unfortunately, Seagate did not reveal exact feature-set of the helium-filled 10 TB HDDs, possibly because customers are only evaluating them at the moment and commercial drives may be different from today’s.
The density of helium is one-seventh that of air, which reduces drag force acting on the spinning disk stack and lowers fluid flow forces affecting the disks and the heads. By filling hard drives with helium, makers of HDDs can install up to seven platters into one industry-standard 3.5/1-inch hard drive, reduce power consumption of HDD motors and improve accuracy of arm’s positioning. All three benefits are crucial for modern datacenters.
By expanding capacity of its top-of-the-range Enterprise Capacity 3.5-inch HDD to 10 TB (up 2 TB from 8 TB, or by 25%), Seagate increases capacity per rack to 2400 TB (up from 1920 TB), which significantly bolsters storage density in a datacenter while decreasing power consumption per terabyte. For datacenter owners such changes reduce total cost of ownership (TCO) and help to maximize their storage capabilities without expanding area of their facilities.
Seagate said last year that it had experimented with helium-filled hard disk drives for about 12 years. While the company is several generations behind HGST with its hermetically sealed commercial HDDs, the company’s helium platform should be rather robust in terms of both reliability and performance.
At present, Alibaba and Huawei, who both said that the new hard drives help them to reduce their costs, evaluate Seagate’s Enterprise Capacity 10 TB HDDs. Some other companies have also received Seagate's new HDDs. HGST’s 10 TB helium-filled hard disk drives are already deployed by companies like Netflix, which need maximum amount of storage.
Seagate itself predicted recently that in 2016 its 8 TB hard drives would be its most popular high-capacity models. The company did not announce high-volume availability timeframe of its 10 TB HDDs, but it is unlikely that Seagate will ship a lot of such products this year. Pricing of Seagate’s Enterprise Capacity 10 TB HDD is unknown.
Mobile devices, Big Data analytics, 4K ultra-high-definition video, modern workloads and emerging devices generate tremendous amounts of data, which greatly increases storage requirements for datacenters. Since technologies like two-dimensional magnetic recording (TDMR) and heat-assisted magnetic recording (HAMR) are not ready for commercial hard drives just not, helium-filled HDDs will gradually gain importance for companies like Alibaba or Netflix. So far, HGST has shipped over four million helium-filled hard drives and in in the recent quarters adoption of such HDDs intensified among its customers.
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baobrain - Wednesday, January 13, 2016 - linkI'm more concerned about running out of helium than I am with improving capacity.
pedjache - Wednesday, January 13, 2016 - linkRunning out of helium? You mean like, on a global level?
CaedenV - Wednesday, January 13, 2016 - linkYa, it's a real problem. Helium is artificially cheap and we are running out at an alarming rate. We throw tons of the stuff away every year in party baloons and other silly things when we need to save it for future use in medical equipment and HDDs.
In 50 years we are really going to kick ourselves for our collective short-sightedness on such things.
SirMaster - Wednesday, January 13, 2016 - linkI feel like if it was really a problem then they wouldn't just sell loads of helium to anyone who walks into a party store.
Shouldn't something that is actually at risk of running out be regulated and/or expensive?
Something just doesn't add up to me.
icrf - Wednesday, January 13, 2016 - linkThe US used to hoard it until about 20 years ago, then decided to liquidate their stockpile which artificially drove down prices.
ingwe - Wednesday, January 13, 2016 - linkMy understanding is that the US is selling off their reserve and so the market price is artificially lowered. The problem with He is that it escapes the atmosphere so it is the one truly non-renewable resource.
dullard - Wednesday, January 13, 2016 - linkIt is because there isn't a real helium shortage.
The US had a strategic helium reserve that it is shutting down (Federal Helium Reserve) due to a law passed in 1996. In doing so, they are selling off their excess helium. In response, helium producers slashed production rather than face low prices. So, there was a temporary artificial helium shortage.
In the mean time, Qatar tripled production and the problem is starting to go away.
A5 - Wednesday, January 13, 2016 - linkThe shortage isn't quite as dire as these guys are saying, but is an exhaustible resource on a long-term scale: https://en.wikipedia.org/wiki/Helium#Occurrence_an...
There about 40B m^3 of He in the world, and we use 180M m^3 per year. At the current rate of use, that gives us 222 years, assuming it is all exploitable, etc.
Guspaz - Wednesday, January 13, 2016 - linkMeh, Jupiter is roughly 10% helium, and Neptune is 19%. By the time we run out of helium here on earth, the cost of space access should be low enough to make mining that practical.
Even if it's very expensive to mine, we won't ever run out of it (Jupiter is very big). It would just be stupid expensive and as such reserved for important things.
ddriver - Wednesday, January 13, 2016 - linkBy the time we run out of helium, we would long have ran out a number of cheap abundant resources, without which space travel will be considerably less affordable than it is today. Nations will be too invested in war over the last bits of clean water and fertile land to devote resources to space mining.
Jupiter is very, very far, Neptune - ever further. Harvesting it in orbit of such massive planets will require massive and immensely durable and thus heavy spacecraft, which would be immensely more expensive to build, and exponentially more expensive than that to run.
It will cost trillions to just put a harvester/tanker in operation, and it will only deliver one load in a decade or so, and it is not clear how many loads it will deliver before it breaks.