The Story Of GMR Heads 114
lopati writes "The story of GMR heads, "the breakthrough that boosted the capacity of hard-drives from a few gigabytes to 100 gigabytes and more--came from chance observation, basic research and a vast, painstaking search for the right materials." Check out the helpful infographic." Background: This is a story, essentially, about how hard drives broke through some of the space limitations at the beginning of the 1990s - pretty cool background.
Hard drive size... (Score:1, Interesting)
Makes me wonder how long it will be before we have commercially available (~$200-$300) terabyte drives... And how long it will be before we have apps that require them...
Re:MY DAD?? (Score:1)
Well, untill I got a tape drive
Re:MY DAD?? (Score:1)
Re:MY DAD?? (Score:1, Interesting)
Speaking of the C=64... [6502.org]
My first PC (stiil works!) was an IBM PS/2 55SX with a 60MB hard drive. I bought it (with a student discount) in 1991 for about $3,000.
Re:MY DAD?? (Score:4, Interesting)
We were going through a surplus catalog that was trying to unload some 100M drive units. We would go on about how to cool those things in his room and just what kind of kick-butt BBS we could have with THAT much space. Assuming it was even possible to get the C=64 to talk to the HD unit.
Youngsters (was Re:MY DAD??) (Score:2)
For that matter, so did I until I discovered the campus time sharing system (supposedly for grad students and faculty only) and hacked myself an account on it... Of course that spoiled me on the microcomputers then becoming available (Kim-I, Altair etc) because my personal computer (well, in a way) was a Burroughs B6700. (Hey, I had the Burroughs MCP equivalent of root, I owned it
Just so this isn't totally off-topic, the 100-GB drives are a lifesaver. A few months ago I installed some systems that are running three (3) 75GB drives apiece just for data (video) storage. That's only about 15 hours of DV total. The limit now is tiny little 32-bit filesystems limiting you to 2GB (or 4GB) per file.
Re:MY DAD?? (Score:2)
I do remember that it cost $995, but we had the hottest C-Net BBS around!
(notice the sig \/>
.
Re:MY DAD?? (Score:1)
God I wanted one, almost as much as I want TiBook now...
No, sod it, give me a C64 harddisk!
Re:MY DAD?? (Score:1)
Re:MY DAD?? (Score:1)
Tape drive, two semi-reliable disk drives, and cartrages...
I just adjust better to the change than he does.
Re:MY DAD?? (Score:1)
Re:Hard drive size... (Score:1)
Mmmmm... A.I.
Re:Hard drive size... (Score:2, Funny)
Re:Hard drive size... (Score:2)
The problem is, some people will STILL find a way to fill THAT much space up with MP3s, warez and pr0n. *sigh* Oh well...
Re:Hard drive size... (Score:4, Interesting)
(For the pedantic, my argument rests on the fact that in 1992, a 100 megabyte HD cost about $200, and today, a 100 gigabyte HD costs about the same (give or take). At the same rate, we'll have 100,000 gigabyte in ten years, and 100,000,000 gigabyte in 20. Physics blah blah blah.)
At DVD-size of ~2.5 gigabytes per movie, uncompressed music at about 40 mb/song, and books at (generously) 20mb/pdf-book, this makes (in 20 years):
400,000 movies, -or-
2.5 billion (10^9) uncompressed songs
5 billion books.
(Please don't flame me if my math is wrong--just correct me politely). Unfortunately, I wouldn't be surprised if in 10 years, most people are still using 56k dialup and 4 gb? DVDs. Again, I ask you, how are you gonna fill up that disk?
But, I'm not good at predicting the future of hard drive storage. In 1989, I had a big argument with a buddy about hard drives. My contention was that nobody would be able to use more than 30 (well, maybe 40) megabytes of hard drive space.
Re:Hard drive size... (Score:1)
Re:Hard drive size... (Score:2)
Re:Hard drive size... (Score:1)
~4.5 gigabytes =) (fight club was 7.38 gigabytes)
Re:Hard drive size... (Score:3, Interesting)
However, there's no guarantee that this will come to pass. You could make the same argument circa 1960 about airplanes: it was amazing how far they had progressed since 1903. As it happens, the exponential progress of aviation technology hit a limit about that time, and only linear improvements have occurred since. The same could happen at any time for any aspect of computer technology.
The real question for storage is can they come up with any new tricks to get 1000X more density in a hard drive, or will they have to switch to attempt new and untested concepts like 3D holographic crystal storage.
Re:Hard drive size... (Score:2)
Archive reality (Score:1)
By archiving reality.
Why should the data you store by limited to "properly" published materials? I currently have on my 2 GB hard drive every single email I've received or sent since 1998 (about 6,000), and it's my electronic memory. And it hardly makes a dent in the drive space.
So take all those cameras you bought (as instructed by the wonderful popup X10 ads :) and send the live video to be archived onto your hard drive. Months from now you can go look at any feed. So it's just like my email archive, only scaled up by a factor of 10^6 -- from 100 kB of emails a day to 100 GB of video per day (1 Mbps per camera, 10 cameras).
Still not enough? Consider the fact that video is just a tiny fraction of what you perceive as reality itself. Go for insane resolution, 360-degree field of view (or even better, 4-pi steradians :) , 5.1 surround sound, the other three senses, sixth and seventh senses ...
Now you've archived your own perceived reality (of your own space), how about experiencing someone else's? Think movies, incuding porn :)
Every advance is storage capacity is immediately filled by increased appetite for storage.
What is the bitrate of reality?
software bloat (Score:2)
No such luck
certain operating systems will likely beat you to the punch
;)
Actually thinking of software generated by genetic [geneticprogramming.com] programming [genetic-programming.com], etc. which produces code that obviously never passed through human fingers.
space (Score:1)
Re:Movies (Score:1)
Yes, you can never have enough (Score:1)
The data you consume just gets larger and at the same time your tidying up gets slacker. Sooner than you believed possible you are out of space. You may think that we've reached a limit where you can have more space than you could possibly ever need, but time will prove you wrong :-)
Re:Yes, you can never have enough (Score:3, Insightful)
Re:Yes, you can never have enough (Score:2)
that's a good question. i'm not insightful enough to guess what the Next Big Thing will be, but i do think we'll see the PC (at least in the hands of power users) getting more and more use as a PVR unit.
also, if hard drives continue to grow, i think you'll see people ripping large amounts of their OWN dvd's to the hard drives, for convenient viewing, much as many people (like me) have ripped most of their CD collection to mp3 for convenience's sake.
Re:Yes, you can never have enough (Score:1)
Someone will always come up with a way to use resources. The drive manufacturers know that.
Enough space? (Score:3, Insightful)
This always comes up in discussons about huge hard-drives. I've got a couple of hundred gigs on my desktop, and I'm currently going through and trying to clean the thing up to make some free space. Granted there is a lot of junk there, but I actually need the space for working with video files - I do graphic design and video editing and I can tell you that 100gb sounds great, but can fill up fairly fast when your working with uncompressed files.
Comment removed (Score:4, Informative)
economist???? (Score:1)
Still magnetic, still fault-prone (Score:2, Funny)
...and then IBM went bad (Score:5, Insightful)
IBM [ibm.com]'s major problem was that, although they were able to scale down the GMR head very easily, they had large stocks of old media that was not certified for use on GMR drives. (Incidentally, most of that media is in an enormous warehouse in Hungary, which is where most of their drives are produced now.) They designed a recertification process that was supposed to allow them to separate the media that would be suitable for the 75GXPs from the media that wasn't suitable, but that process was deeply flawed and this resulted in the high failure rates of their drives.
You may find it a bit odd to be hearing this from a former Maxtor employee. Well, the dirty little secret of storage companies is that reverse engineering is rampant. My colleagues at Maxtor probed, disassembled, and tested the IBM drives; indeed, they might have known what the bug was even before IBM did.
So, the obvious RISK of GMR technology is: do not use platters that are not certified for use with the new heads. Those who disregard this creed are certain to meet with a nasty public relations disaster in due time.
freebsd guy
Spintronics (and GMR) (Score:4, Interesting)
Here's a link [slashdot.org] to one of my posts on the Spintronics slashdot article a few weeks ago. I think I posted it a few hours too late for most people (moderators included) to notice it.
Explains basics of GMR, which is based on magnetoelectronics, or it's catchier nickname Spintronics. Also related to GMR are the non-volatile RAM's commercially available now.
Cool part is that GMR devices were commercially available only a few years after discovery in the lab. That's an accomplishment usually reserved for potentially ground-breaking devices (ie, transistors). T'will be very interesting to see how this field progresses in the future.
Re:...and then IBM went bad (Score:1, Informative)
Re:...and then IBM went bad (Score:1)
bull$%#@ (Score:1)
I highly doubt they are trying to use media left over from pre-GMR days...May as well be a century in disk drive years... Maybe they were having screening issues, but it has nothing to do with GMR heads!!
seibed
Re:...and then IBM went bad (Score:1)
w00t! Cheap storage! (Score:1)
Re:w00t! Cheap storage! (Score:1)
Yup.. (Score:4, Funny)
In summary, the guys at IBM ran out of HD space for their um, 'special files'?
Big storage (Score:1)
IBM and basic research, the Free Market in action (Score:3, Insightful)
It's since been my "case in point" in any argument that there is no market for "basic research" and therefore government, taxes, theft, must be used in order to better the human condition.
Fulton, Bell, Edison, Tesla, and a host of for-profit universities all doing basic research not withstanding, some people just love using guns to force others to support their theory of "good".
IBM didn't keep their basic research secret then, and even with something as impossibly profitable as keeping GMR secret now might have been, the article notes that the highest density drive on the market isn't even made by IBM. They're not keeping it secret now, either.
Bravo.
Bob-
Re:IBM and basic research, the Free Market in acti (Score:2)
That surprises you? That is the reason guns were invented, and it is their primary purpose. The government has always had and is always going to have more and better guns than you. That's why they collect taxes and you don't.
Anyway, if IBM and other private research institutions didn't already have a cozy relationship with the government, they'd use their large budgets to buy their own guns and collect taxes from you themselves.
last resorts (Score:1)
To paraphrase, "The gun, the picket line, the lawsuit. Each are the last resort. No one wants to go on strike, sue someone, or shoot an attacker, but real problems are happening when there is effort to take those options away."
Bob-
Capacity way back when... (Score:1)
5 megabytes. $5,000.00. That just makes my head hurt now. Each single one of my self-ripped MP3's comes in at more space than that!
And then it occurred to me on this trip down memory lane that the real danger in the science (fiction for now) of time travel is getting ourselves killed by taking our relatively awe-striking hardware back in time and gloating to our younger selves.
Re:Capacity way back when... (Score:2, Funny)
/quickly builds a time machine
/takes a 1.6Ghz Althon with 512MB of ram to 1990, installs DOS (5.5 was the top version in '90 right?)
/gives it to a magazine to review, but doesn't give them any clue to the specifications
muhahahaha
Re:Capacity way back when... (Score:1)
Amazing how quickly we forget thoes silly litttle things we had to deal with back then.
Re:Capacity way back when... (Score:2)
>
Just for shits and giggles, I tried running an old benchmark on a P3-800. Here's what I got.
SI-System Information, Advanced Edition 4.50, (C) Copr 1987-88, Peter Norton
Computer Name: IBM AT
Operating System: DOS 7.10
Built-in BIOS dated: Thursday, April 26, 1900
Main Processor: Intel 80386 Serial Ports: 2
Co-Processor: Intel 80387 Parallel Ports: 3
Video Display Adapter: Video Graphics Array (VGA)
Current Video Mode: Text, 80 x 25 Color
Available Disk Drives: 6, A: - F:
DOS reports 640 K-bytes of memory:
80 K-bytes used by DOS and resident programs
560 K-bytes available for application programs
[
Computing Index (CI), relative to IBM/XT: Not computed. Clock inactive.
Disk Index (DI), relative to IBM/XT: Only hard disks can be tested.
Performance Index (PI), relative to IBM/XT: Not computed.
So it looks like they'd say
"For a '386 without a clock, it suuuuuuuure is fast! Dunno where it puts all that data, though, must be some sort of solid-state RAMdrive, 'cuz there ain't no way it fits all that into 640K, and Norton sez it ain't got no hard drive!"
Analysis:
CPU: Looks like it finished the busy-wait-with-some-x87-instructions used to evalute the "computing index" in less than 1/18 of a second from the internal system clock, and concluded there was no clock, rather than trying to divide by zero. Mad propz to Peter Norton for thinking ahead.)
Hard Drive: it probably looked at the partition table, saw how many gigs it was, or that it was FAT32, and said "Fucked if I know! Hard drives aren't supposed to be over 30M per partition!" (So I guess we know that GMR wasn't that great an innovation, 'cuz, hey, all these gigabytes, and I don't have a hard drive
I ran it a few times and finally got "lucky" and got a number for "computing index" - 62,910 on an 800 MHz P3. (The whole benchmark fits in cache, so it's not surprising that it's over 60000 times faster than a 4.77 MHz XT. I suppose I'd have to run the benchmark 100 times and figure out how many of those runs straddled a 1/18th of a second boundary to derive, statistically, just how much faster than "60000 times faster than an XT" it is...
Thanks for the walk down memory lane, dude. Running old benchmarks on new hardware is fun!
Edison? (Score:1, Interesting)
Sounds like the light bulb.
Reminds me of college... (Score:5, Interesting)
must be magic (Score:4, Funny)
I suppose this means that GMR technology is "sufficiently advanced."
Re:Reminds me of college... (Score:3, Insightful)
Corporate sponsored story? (Score:2, Insightful)
But get to the final step, and you'll see that "this translates into very large capacity hard drives that can be made cheaper and more reliable for our IBM customers." It's marketing fluff for IBM!
It looks like The Economist was happy to be given this material, since it probably looked so snazzy. But I think at best they'll be embarrassed by their lack of (online) journalistic savvy, and at worst it's the start of a new world of checkbook journalism.
Basic research to market in record time?! (Score:3, Funny)
How much space does it take to store a word? (Score:2, Funny)
The present record holder, a pocket-sized 120 gigabyte hard-drive from
Western Digital, can store the equivalent of a stack of double-spaced
typewritten pages taller than an 18-storey building.
Assume that one story is 10 feet
Assume that 300 pages stack 1" high.
Assume 250 words per typewritten page.
120,000,000,000 / (18 * 10 * 12 * 300 * 250) = ~740 bytes per word!
If an word averages 6 characters, then they are using over 100 bytes to
represent each word!
Re:How much space does it take to store a word? (Score:2, Funny)
represent each word!
I guess they are using MS Word
Re:How much space does it take to store a word? (Score:1)
So what happened to SCSI? (Score:4, Insightful)
It seems to me, SCSI drive capacities used to outstrip IDE by quite a bit, and the price penalty wasn't all that much (~$200). Lately, all I see in the catalogs for SCSI is 18GB or 36GB, while IDE is at 80GB, 120GB, and even 160GB.
Is there something about this technology that isn't compatible with SCSI, or does SCSI not scale well, or what?
Re:So what happened to SCSI? (Score:2, Informative)
They just aren't really priced with home users in mind. Pricewatch has 'em though, if you got the spare cash.
Re:So what happened to SCSI? (Score:2)
This means that the absolute least configuration I've seen in a "server" configuration is 2 HDDs in mirroring, with the most usiual (for an x86-class "server" - let's try and compare apples to pears at least) being 3-5 HDDs in RAID5.
18Gb is the low-end cut for SCSI drives now, which makes the "standard" storage size for a server anywhere between 36 and 72 Gb.
High-end dedicated storage appliances have LOTS of drives. A fully-loaded NetApp F840 (I'm not sure about the model number though) can use up to a full 42U rack, with 5 units or so going to the appliance proper, and everything else only holding disks (active or hot-standby) and power supply units.
Re:So what happened to SCSI? (Score:1, Insightful)
These large drives are mainly used by home users for their porn/mp3 stuff. Capacity is everything, performance is unimportant. It's all driven by the Wintel market, where SCSI never caught on.
Re:So what happened to SCSI? (Score:3, Informative)
JOhn
Re:So what happened to SCSI? (Score:2)
Tell me about it.
I had a dual P3 with SCSI drives, but these drives were so noisy that one day I got fed up with the noise and sold them off and bought 7200 rpm ATA100 IDE drives instead.
For a while I enjoyed the near silence of the new drives but soon the disappointing performance hit home. The computer simply choked on the heavy I/O during compilation.
Now I'm back with a single 18 GB 15 krpm SCSI drive. Yeah, it's small and rather noisy and but at least the I/O isn't a performance bottleneck anymore.
Re:So what happened to SCSI? (Score:1)
Keep in mind that since SCSI is aimed at a higher speed, there are other problems to deal with, things like disk flutter (caused by the high speed) which casues the designers of high speed drives to use smaller disks (3.5 inch form factor, 2.5" disks)... to fit the same capacity in the drive, you need to stack the disks higher and higher, this gets expensive, as does going to to a full-height form factor instead of a half height. Of course there is more to it than that...
seibed
30,000 combinations (Score:1)
Re:30,000 combinations (Score:5, Interesting)
But this isn't just chemistry either - the material is nonuniform, layered. Each layer can be composed of some different magnetic or non-magnetic alloy, and each layer can have a different thickness, and the number of layers is itself a variable. The combinatorial possibilities are in the billions! Obviously they narrowed it down considerably to find what they needed in just 30,000 samples - but there may be something even more spectacular out there among the billions of other possibilities, just waiting to be found.
That's what makes science these days so interesting
Use Buckingham Pi theorem (Score:1)
Supposedly it can be used to fully characterize the solution space without having to try all those billions of combinations of different alloys and thicknesses.
Would it apply in this situation? Does anyone have a link that explains how it works?
GMR made the substrate the bottleneck (Score:4, Interesting)
My family's been in MR tech (well, magnetic storage) for over 30 years now. I worked 3 years in IBM's MR head manufacturing facility in San Jose (Cottle Rd.). It used to be that the substrate people (the ones who made the actual disks) didn't have much to do because the MR heads could not write small enough to pressure them.
GMR heads caused quite the stir because they could write smaller than the substrate had resolution.
Now IBM's "pixie dust" has swung the pendulum the other way, as the head is once again the bottleneck.
An interesting tid-bit is how many production managers were hired away from IBM soon after GMR heads were released.
Did IBM invent the wheel as well? (Score:1)
While I am prepared to believe that the company are behind GMR (I remember the original announcement), it seems a bit implausible that they invented all other forms of magnetic mass storage as well - something that this article implies.
Remington Rand bought up the ENIAC in the early 1960s and tried to make a commercial proposition of it. They must have used some form of mass storage apart from 12" floppies.
This sounds a bit like Al Gore inventing the Internet (which he apparently never actually claimed anyway).
this article is crap (Score:1)
It is written so that it seems like it may be informative, but for anyone with a brain it is clear that it is a mish-mash of facts that when put together make little sense.
This is the worst kind of obfuscation, but calling it obfuscation implies the writer knows what he/she is talking about, and this I doubt.
Thankfully, the slashdot crowd can make up for this sorry lakuna of an article, with several coherent (not this one!) comments, that actually make me think.
Now, how do we tap into this wealth of knowledge and experience without having to read crap economist no-brain articles like this?