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Category: science & technology

This is what I read to find out what else is going on, not just with the Internet and desktop computers

  • Which way the wind blows: Flash Memory in the Data Center

    STEC Zeus IOPs solid state disk (ssd)
    This hard drive with a Fibre Channel interface launched the flash revolution in the datacenter

    First let’s just take a quick look backwards to see what was considered state of the art a year ago. A company called STEC was making Flash-based hard drives and selling them to big players in the enterprise storage market like IBM and NetApp. I depends solely on The Register for this information as you can read here: STEC becalmed as Fusion-io streaks ahead

    STEC flooded the market according to The Register and subsequently the people using their product were suddenly left with a glut of product using these Fibre Channel based Flash Drives (Solid State Disk Drives – SSD). And the gains in storage array performance followed. However the supply exceeded the demand and EMC is stuck with a raft of last year’s product that it hasn’t marked up and re-sold to its current customers. Which created an opening for a similar but sexier product Fusion-io and it’s PCIe based Flash hard drive. Why sexy?

    The necessity of a Fibre Channel interface for the Enterprise Storage market has long been an accepted performance standard. You need at minimum the theoretical 6GB/sec of FC interfaces to compete. But for those in the middle levels of the Enterprise who don’t own the heavy iron of giant multi-terabyte storage arrays, there was/is now an entry point through the magic of the PCIe 2.0 interface. Any given PC whether a server or not will have open PCIe slots in which a

    Fusio-io duo PCIe Flash cache card
    This is Fusion-io's entry into the Flash cache competition

    Fusion-io SSD card could be installed. That lower threshold (though not a lower price necessarily) has made Fusion-io the new darling for anyone wanting to add SSD throughput to their servers and storage systems. And now everyone wants Fusion-io not the re-branded STEC Fibre Channel SSDs everyone was buying a year ago.

    Anyone who has studied history knows in the chain of human relations there’s always another competitor out there that wants to sit on your head. Enter LSI and Seagate with a new product for the wealthy, well-heeled purchasing agent at your local data center: LSI and Seagate take on Fusion-io with flash

    Rather than create a better/smarter Fibre Channel SSD, LSI and Seagate are assembling a card that plugs into PCIe slot of a storage array or server to act as a high speed cache to the slower spinning disks. The Register refers to three form factors in the market now RamSan, STEC and Fusion-io. Because Fusion-io seems to have moved into the market at the right time and is selling like hot cakes, LSI/Seagate are targeting that particular form factor with it’s SSS6200.

    LSI's PCIe Flash hard drive card
    This is LSI's entry into the Flash hard drive market

    STEC is also going to create a product with a PCIe interface and Micron is going to design a product too. LSI’s product will not be available to ship until the end of the year.  In terms of performance the speeds being target are comparable between the Fusion-io Duo and the LSI SSS6200 (both using single level cell memory). So let the price war begin! Once we finally get some competition in the market I would hope the entry level price of Fusion-io (~$35,000) finally erodes a bit. It is a premium product right now intended to help some folks do some heavy lifting.

    My hope for the future is we could see something comparable (though much less expensive and scaled down) available on desktop machines. I don’t care if it’s built-in to a spinning SATA hard drive (say as a high speed but very large cache) or some kind of card plugging into a bus on the motherboard (like the failed Intel Speed Boost cache). If a high speed flash cache could become part of the standard desktop PC architecture to sit in front of monstrous single hard drives (2TB or higher nowadays) we might get faster response from our OS of choice, and possible better optimization of reads/writes to fairly fast but incredibly dense and possibly more error prone HDDs. I say this after reading about the big charge by Western Digital to move from smaller blocks of data to the 4K block.

    Much wailing and gnashing of teeth has accompanied the move recently by WD to address the issue of error correcting Cycle Redundancy Check (CRC) algorithms on the hard drives. Because 2Terabyte drives have so many 512bit blocks more and more time and space is taken up doing the CRC check as data is read and written to the drive. A larger block made up of 4096 bits instead of 512 makes the whole thing 4x less wasteful and possibly more reliable even if some space is wasted to small text files or web pages. I understand completely the implication and even more so, old-timers like Steve Gibson at GRC.com understand the danger of ever larger single hard drives. The potential for catastrophic loss of data as more data blocks need to be audited can numerically become overwhelming to even the fastest CPU and SATA bus. I think I remember Steve Gibson expressing doubts as to how large hard drives could theoretically become.

    Steve Gibson's SpinRite 6
    Steve Gibson's data recovery product SpinRite

    As the creator of the SpinRite data recovery utility he knows fundamentally the limits to the design of the Parallel ATA interface. Despite advances in speeds, error-correcting hasn’t changed and neither has the quality of the magnetic medium used on the spinning disks. One thing that has changed is the physical size of the blocks of data. They have gotten infinitesimally smaller with each larger size of disk storage. The smaller the block of data the more error correcting must be done. The more error-correcting the more space to write the error-correcting information. Gibson himself observers something as random as cosmic rays can flip bits within a block of data at those incredibly small scales of the block of data on a 2TByte disk.

    So my hope for the future is a new look at the current state of the art motherboard, chipset, I/O bus architecture. Let’s find a middle level, safe area to store the data we’re working on, one that doesn’t spontaneously degrade or is too susceptible to random errors (ie cosmic rays). Let the Flash Cache’s flow, let’s get better throughput and let’s put disks into the class of reliable but slower backing stores for our SSDs.

  • Buzz Bombs in the News – Or the Wheel Reinvented

    Slashdot just posted this article for all to read on the Interwebs

    penguinrecorder writes“The Thunder Generator uses a mixture of liquefied petroleum, cooking gas, and air to create explosions, which in turn generate shock waves capable of stunning people from 30 to 100 meters away. At that range, the weapon is relatively harmless, making people run in panic when they feel the sonic blast hitting their bodies. However, at less than ten meters, the Thunder Generator is capable ofcausing permanent damage or killing people.”

    I went directly to the article itself and read the contents of it. And it was very straight forward, more or less indicating this new shockwave gun was an adaptation of the propane powered “scare crows” used to budge and shift birds from farm fields in Israel.

    http://www.defensenews.com/story.php?i=4447499&c=FEA&s=TEC

    TEL AVIV – An Israeli-developed shock wave cannon used by farmers to scare away crop-threatening birds could soon be available to police and homeland security forces around the world for nonlethal crowd control and perimeter defense.

    I think Mark Pauline and Survival Research Labs beat the Israeli’s to the punch inventing the so-called cannon:

    http://srl.org.nyud.net:8090/srlvideos/machinetests/bigpulsejetQT300.mov

    Prior to Mark Pauline and Survival Research Labs, the German military in WW2 adapted the pulse jet for the V-1 Buzz bomb. In short, a German terror weapon has indirectly become the product of an Israeli defense contractor. Irony Explodes. The V1 Buzz bomb was influenced by a French inventor Georges Marconnet. Everything Old is new again in the war on terror. Some good ideas never die, they just get re-invented like the wheel.

  • 64GBytes is the new normal (game change on the way)

    Panasonic SDXC flash memory card
    Flash memory chips are getting smaller and denser

    I remember reading announcements of the 64GB SDXC card format coming online from Toshiba. And just today Samsung has announced it’s making a single chip 64GB flash memory module with a built-in memory controller. Apple’s iPhone design group has been big fans of the single chip large footprint flash memory from Toshiba. They bought up all of Toshiba’s supply of 32GB modules before they released the iPhone 3GS last Summer. Samsung too was providing the 32GB modules to Apple prior to the launch. Each Summer newer bigger modules are making for insanely great things that the iPhone can do. Between the new flash memory recorders from Panasonic/JVC/Canon and the iPhone what will we do with the doubling of storage every year? Surely there will be a point of diminishing return, where the chips cannot be made any thinner and stacked higher in order to make these huge single chip modules. I think back to the slow evolution and radical incrementalism in the iPod’s history going from 5GB’s of storage to start, then moving to 30GB and video! Remember that? the Video iPod @ 30GBytes was dumbfounding at the time. Eventually it would top out at 120 and now 160GBytes total on the iPod classic. At the rate of change in the flash memory market, the memory modules will double in density again by this time next year, achieving 128GBytes for a single chip modules with embedded memory controller. At that density a single SDHC sized memory card will also be able to hold that amount of storage as well. We are fast approaching the optimal size for any amount of video recording we could ever want to do and still edit when we reach the 128 Gbyte mark. At that size we’ll be able to record 1080p video upwards of 20 hours or more on today’s video cameras. Who wants to edit much less watch 20 hours of 1080p video? But for the iPhone, things are different, more apps means more fun. And at 128GB of storage you never have to delete an app, or an single song from your iTunes or a single picture or video, just keep everything. Similarly for those folks using GPS, you could keep all the maps you ever wanted to use right onboard rather than download them all the time thus providing continuous navigation capabilities like you would get with a dedicated GPS unit. I can only imagine the functionality of the iPhone increasing as a result of the increased storage 64GB Flash memory modules would provide. Things can only get better. And speaking of better, The Register just reported today some future directions.

    There could be a die process shrink in the next gen flash memory products. There are also some opportunities to use slightly denser memory cells in the next gen modules. The combination of the two refinements might provide the research and design departments at Toshiba and Panasonic the ability to double the density of the SDXC and Flash memory modules to the point where we could see 128GBytes and 256GBytes in each successive revision of the technology. So don’t be surprised if you see a Flash memory module as standard equipment on every motherboard to hold the base Operating System with the option of a hard drive for backup or some kind of slower secondary storage. I would love to see that as a direction netbook or full-sized laptops might take.

    http://www.electronista.com/articles/09/04/27/toshiba.32nm.flash.early/ (Toshiba) Apr 27, 2009

    http://www.electronista.com/articles/09/05/12/samsung.32gb.movinand.ship/ (Samsung) May 13, 2009

    http://www.theregister.co.uk/2010/01/14/samsung_64gbmovinand/ (Samsung) Jan 14, 2010

  • Revolutionise computer memory – New Scientist

    So where is the technology that can store our high-definition home cinema collection on a single chip? Or every book we would ever want to read or refer to? Flash can’t do that. In labs across the world, though, an impressive array of technologies is lining up that could make such dreams achievable.

    via Five ways to revolutionise computer memory – tech – 07 December 2009 – New Scientist.

    Memory Chips on the decrease
    RAM memory used to reign supreme in Dual Inline Packages (DIPS)

    I used to follow news stories on new computer memory technology on the IEEE.com website. I didn’t always understand all the terms and technologies, but I did want to know what might be coming on the market in a couples of years. Magnetic RAM seemed like a game changer as did Ferro-Electric RAM. Both of them like Flash could hold their contents without the computer being turned on. And in some ways they were superior to Flash in that they read/write cycle didn’t destroy the memory over time. Flash is known to have a useful fixed lifespan before it wears out. According to the postscript in this article at New Scientist flash memory can sustain between 10,000 and 100,000 read/write cycles before it fails. Despite this, flash memory doesn’t seem to be going away anytime soon, and begs the question where are my MRAMs and FeRAM chips?

    Maybe my faith in MRAM or Magnetic RAM was misplaced. I had great hopes for it exactly because so much time had been spent working on it. Looks like they couldn’t break the 32MB barrier in terms of the effective density of the MRAM chips themselves. And FeRAM is also stuck at 128MB effectively for similar reasons. It’s very difficult to contain or restrict the area over which the magnetism acts on the bits running through the wires on the chip. It’s all about too much crosstalk on the wires.

    This article mentions something called Racetrack Memory. And what about Racetrack Memory so called RRAM? It reminds me a lot of what I read about the old Sperry Univac computers that used Mercury Delay Lines to store 512bits at a time. Only now instead of acoustic waves, it’s storing actual electrons and reading them in series as needed. Cool stuff, and if I had to vote for which one is going to win, obviously Phase Change and Racetrack look like good prospects right now. I hope both of them see the light of day real soon now.

  • Lithium-Air Battery interest increasing

    PolyPlus aqeuous lithium air battery
    PolyPlus aqeuous lithium air battery

    Back on July 8th I posted an article talking about the benefits of a new battery technology I had read about on weblog called Technology Review (originally published on June 26th from MIT). It think it may have originally been linked to either Slashdot or The Register. The blog entry was essentially like a press release from a company in California named PolyPlus. They had just announced the project to create single use high energy density Lithium-Air batteries for the military (most likely for radio communications in the field). The key technology was a new way to wrap the lithium cathode in a waterproof seal while still exposing it to the surrounding air encapsulated in the battery. It seems now some other big monied interests have caught onto this new battery chemistry and are going to produce it as well, but maybe not as a single use battery but instead as a rechargeable battery.

    IBM is in the news touting the promise of the lithium-air technology as a potential technological nirvana for autmobile drive trains. Estimates are a 10X increase in energy density per kilogram of battery electrolyte material. If this can be achieved, watch out electric vehicles here we come.

    Lithium-ion batteries have the potential to deliver about 585 watt-hours of electricity per kilogram, while lithium-sulfur has a theoretical potential of about 2,600 watt-hours, and lithium-air batteries might reach targets well above 5,000 watt-hours.

    If they can be perfected, lithium-air batteries would be ideal for transportation applications, given their potential for high energy capacity and low weight. And, unlike zinc-air batteries, it should be possible to make them rechargeable.

    via Lithium-Air Batteries Seen as Hope for Electric Cars – NYTimes.com.

  • Acrossair on the iPhone

    It looks like the iPhone OS 3.1 is going to do nothing more the open up the video feed on the camera so that you can overlay data on top of that video. In essence, the Augmented Reality is using your iPhone’s video as a “desktop” picture and placing items on top of that. Acrossair’s iPhone App, Nearest Tube uses the OpenGL libraries to skew and distort that data as you point the camera in different directions, thus providing a little more of a 3D perspective than say something like Layar which I have talked about previously on this blog. Chetan Demani, one of the founders of Acrossair also points out going forward any company making AR type apps will need to utilize existing location information and pre-load all the data they want to display. So the nirvana of just-in-time downloads of location data to overlay on your iPhone video image is not here,… and may not be for a while. What will differentiate the software producers though is the relevancy, and accuracy of their location information. So there will be some room for competition for a quite some time.

    He went on to say that it’s pretty simple to do AR applications using the new 3.1 APIs, due out in September. ” It’s a pretty straightforward API. There’s no complexity in there. All it does is it just switches on the video feed at the background. That’s the only API that’s published. All we’re doing is using that video feed at the back. It just displays the video feed as if it’s a live camera feed.

    via Augmenting Reality with the iPhone – O’Reilly Broadcast.

  • If You’re Not Seeing Data, You’re Not Seeing | Wired.com

    Wired has an interesting survey of current state of the art in Augmented Reality. They are finally taking notice of this killer app for Smartphones. Let’s hope location data becomes useful worldwide. And let’s hope some enterprising iPhone developers create the Killer App for the iPhone as soon as humanly possible.  There needs to be a mashup with the iPhone video camera, Google Maps and Google Search. All done in a nice seamless iPhone App interface.

    Smartphone Augmented Reality - Simlar to Layar
    What if you could see data?

    Already, developers are creating augmented reality applications and games for a variety of smartphones, so your phone’s screen shows the real world overlaid with additional information such as the location of subway entrances, the price of houses, or Twitter messages that have been posted nearby.

    via If You’re Not Seeing Data, You’re Not Seeing | Gadget Lab | Wired.com.

  • Toshiba Announces World’s Largest SD Card – Gadgetwise Blog – NYTimes.com

    SDXC is yet another memory format all manufacturers will have to adopt. Isn’t it frightening how much the removable memory market has fractured into mico-formats for memory cards. About a week ago I was playing with an Olympus voice recorder at work. It had it’s own funny shaped memory cards you had to buy from Olympus if you wanted to increase the storage size. One positive thing I will say though is this. SDHC at least has consolidated some of the mindshare around a commonly supported form factor for removable storage. Compact Flash once enjoyed a similar amount of support. But nowadays you cannot even find a laptop with CardBus slots anymore. Many add-ons for laptops are installed on internal PCIe busses now.

    I hope all the device manufacturers get onboard with the SDXC format only because of the limits on the FileSystem on these cards has needed to adapt to the vagaries of long form video shooting. I remember the painful days of 4GB file size limits for video. That took a long time to dissapate on the desktop computer. It’s high time it disappeared on digital video cameras as well.

    Toshiba says all three new cards will bring a maximum write speed of 35 megabytes per second and a read speed of 60 megabytes per second. For videophiles, the new SDXC format will enable video files to extend beyond the current limit of 4 gigabytes.

    via Toshiba Announces World’s Largest SD Card – Gadgetwise Blog – NYTimes.com.

  • AppleInsider | Augmented reality in iPhone 3.1; new Snow Leopard build

    It appears Apple is on board for fully pushing through the whole Augmented Reality capability of the iPhone. Follow the link below:

    Apple promises that its upcoming iPhone 3.1 release will be the first to officially support augmented reality apps that support the iPhone 3GS’ camera. Also, a new seed of Mac OS X Snow Leopard has been handed to developers.

    iPhone 3.1 needed for augmented reality

    via AppleInsider | Augmented reality in iPhone 3.1; new Snow Leopard build.

  • Augmented Reality – NYTimes.com

    The Good Ol Days of Virtual Reality
    The Good Ol' Days of Virtual Reality

    I can think of a hundred different pre-cursors to the golden Nirvana of Augmented Reality. Howard Rheingold set the bar pretty high in his catalog of the state of the art called “Virtual Reality”. Everyone from the pre-history of VR to the then present day had their say of what the future should look like. Enter now, the future as it is. Cell Phones! That’s what we got, so that’s what we’re going to use right? Sure enough if you know your own coordinates using the GPS chip in a cell phone and you know the orientation of the camera in that cell phone, you can overlay data one what ‘should be’ in the field of view in that camera viewfinder, right? Well sometimes good is not the enemy of perfect and a company in Amsterdam has created a smartphone app that combines these required features to present a ‘good’ version of augmented reality. As this article in the NYTimes below states it’s called Layar.

    Previously in the field of Virtual Reality everyone attempted to provide near perfect reality. Using magnetic trackers from Polhemus to be calibrated up to some kind of goggles or head mounted visual display. At MIT’s Media Lab the project called “Put That There” was originally for commanders in the Navy trying to assess and react to battle conditions on the seas.

    The next revision came in the early 1990s at Boeing where they tried using headmounted computer displays. The display with fit over one eye leaving the other eye open to focus on work being done within the fuselage of an airliner being built. The worker could see displayed in realtime information about what they were touching and moving wires and cabling through. Access to information like that without having to stop, look at blueprints, read computer documentation or find spec books would save inordinate amounts of time and prevent mistakes in the routing of wires and cables. Fast forward to today and now you have the ubiquitious cell phone, with camera and GPS chip and a little bit of mathematics and algorithms. A programmer can determine the field of view from the GPS coordinates, get the cell phone’s orientation, map out what should be in the field of view and overlay that information on the LCD viewfinder as you point the cell phone in all directions. It may not be smooth or realtime, but it may be ‘good enough’.

    Personally I think GPS should also be paired with a laser range finder so that the field of view can be further refined. That way when you point the camera at a building or a river, you can ascertain the GPS coordinates of the thing at which you are pointing. Once the solution is calculated you look it up in your points of interest database, voila, that’s so and so church, that’s so and so river. That quickly. Some have decried this tendency in usage of navigation devices. Once you fully empower the autonomy and self-sufficiency of a stranger in strange land, you rob him of the benefit of ‘local knowledge’. In that sense Augmented Reality will make us all dumber the more technology enables us to find out own way or learn landmarks without interacting with people. I say to those people I respond with this flip remark: “Bring it on!” If it means being stupid, losing local knowledge, alienating myself from my surrounds then by all means I would rather have that autonomy and self sufficiency wherever I travel. That’s the kind of guy I am.

    Layar - Augumented Reality smartphone app
    Augmented reality courtesy a smartphone

    Augmented reality will “reinvent” many industries, including health care and training, Mr. Inbar predicted. Already, researchers at the Technical University of Munich are looking at ways to display X-ray and ultrasound readings directly on a patient’s body. A research project at BMW is exploring how an augmented-reality view under the hood might help auto mechanics with diagnostic and repair work.

    via Prototype – Kicking Reality Up a Notch – NYTimes.com.