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Tag: pcie

  • AnandTech – Computex 2011: OCZs RevoDrive 3

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    Theres a new PCIe SSD in town: the RevoDrive 3. Armed with two SF-2281 controllers and anywhere from 128 – 256GB of NAND 120/240GB capacities, the RevoDrive 3 is similar to its predecessors in that the two controllers are RAIDed on card. Heres where things start to change though.

    via AnandTech – Computex 2011: OCZs RevoDrive 3 & RevoDrive 3 X2, Now With TRIM.

    OCZ is back with a revision of its consumer grade PCIe SSD, the RevoDrive. This time out the SandForce SF-2281 makes an appearance and to great I/O effect. The bus interface is a true PCIe bridge chip as opposed to the last versions PCI-X to PCIe bridge. Also this device can be controlled completely through the OSes own drive utilities and TRIM support. All combined this is the most natively and well support PCIe SSD to hit the market. No benchmarks yet from a commercially shipping product. But my fingers are crossed that this thing is going to be faster than OCZ’s Vertex 3 and Vertex 3 Pro (I hope) while possibly holding more flash memory chips than those SATA 6 based SSDs.

    One other upshot of this revised product is full OS booting support. So not only will TRIM work but your motherboard and the PCIe’s card electronics will allow you to boot directly off of the card. So this is by far the most evolved and versatile PCIe based SSD drive to date. Pricing is the next big question on my mind after reading the specifications. Hopefully will not be Enterprise grade (greater than $1200). I’ve found most off the  prosumer and gamer market upgrade manufacturers are comfortable setting prices at the $1200 price point for these PCIe SSDs. And that trend has been pretty reliable going back to the original RevoDrive.

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  • EMC’s all-flash benediction: Turbulence ahead • The Register

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    A flash array controller needs: “An architecture built from the ground up around SSD technology that sizes cache, bandwidth, and processing power to match the IOPS that SSDs provide while extending their endurance. It requires an architecture designed to take advantage of SSDs unique properties in a way that makes a scalable all-SSD storage solution cost-effective today.”

    via EMC’s all-flash benediction: Turbulence ahead • The Register.

    I think that Storage Controllers are the point of differentiation now for the SSDs coming on the market today. Similarly the device that ties those SSDs into the comptuer and its OS are equally, nay more important. I’m thinking specifically about a product like the SandForce 2000 series SSD controllers. They more or less provide a SATA or SAS interface into a small array of flash memory chips that are made to look and act like a spinning hard drive. However, time is coming soon now where all those transitional conventions can just go away and a clean slate design can go forward. That’s why I’m such a big fan of the PCIe based flash storage products. I would love to see SandForce create a disk controller with one interface that speaks PCIe 2.0/3.0 and the other is just open to whatever technology Flash memory manufacturers are using today. Ideally then the Host Bus would always be a high speed PCI Express interface which could be licensed or designed from the ground up to speed I/O in and out of the Flash memory array. On the memory facing side it could be almost like an FPGA made to order according to the features, idiosyncrasies of any random Flash Memory architecture that is shipping at the time of manufacture. Same would apply for any type of error correction and over-provisioning for failed memory cells as the SSD ages through multiple read/write cycles.

    In this article I quoted at the top from The Register, the big storage array vendors are attempting to market new products by adding Flash memory to either one component of the whole array product or in the case off EMC the whole product uses Flash memory based SSDs throughout. That more aggressive approach has seemed to be overly cost prohibitive given the manufacturing cost of large capacity commodity hard drives. But they problem is, in the market where these vendors compete, everyone pays an enormous price premium for the hard drives, storage controllers, cabling and software that makes it all work. Though the hard drive might be cheaper to manufacture, the storage array is not and that margin is what makes Storage Vendors a very profitable business to be in. As stated last week in the benchmark comparisons of High Throughput storage arrays, Flash based arrays are ‘faster’ per dollar than a well designed, engineered top-of-the-line hard drive based storage array from IBM. So for the segment of the industry that needs the throughput more than the total space, EMC will likely win out. But Texas Memory Systems (TMS) is out there too attempting to sign up OEM contracts with folks attempting to sell into the Storage Array market. The Register does a very good job surveying the current field of vendors and manufacturers trying to look at which companies might buy a smaller company like TMS. But the more important trend being spotted throughout the survey is the decidedly strong move towards native Flash memory in the storage arrays being sold into the Enterprise market. EMC has a lead, that most will be following real soon now.

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  • LSI Launches $11,500 SSD, Crushes Other SSDs

    Tuesday LSI Corp announced the WarpDrive SLP-300 PCIe-based acceleration card, offering 300 GB of SLC solid state storage and performance up to 240,000 sustained IOPS. It also delivers I/O performance equal to hundreds of mechanical hard drives while consuming less than 25W of power–all for a meaty $11,500 USD.

    via LSI Launches $11,500 SSD, Crushes Other SSDs.

    This is the cost of entry for anyone working on an Enterprise Level project. You cannot participate unless you can cross the threshold of a PCIe card costing $11,500 USD. This is the first time I have seen an actual price quote on one of these cards that swims in the Data center consulting and provisioning market. Fusion-io cannot be too far off of this price when it’s not sold as a full package as part of a larger project RFP. I am somewhat stunned at the price premium, but LSI is a top engineering firm and they definitely can design their own custom silicon to get the top speed out of just about any commercial off the shelf Flash memory chips. I am impressed they went with the PCI Express (8X) 8 lane interface. I’m guessing that’s a requirement for more server owners whereas 4X is for the desktop market. Still I don’t see any 16X interfaces as of yet (that’s the interface most desktops use for their graphics cards from AMD and nVidia). One more part that makes this a premium offering is the choice of Single Level Cell Flash memory chips for the ultimate in speed and reliability along with the Serial Attached Storage interface onboard the PCIe card itself. Desktop models opt for SATA to PCI-X to PCI-e bridge chips forcing you to translate and re-order your data multiple times. I have a feel SAS bridges to PCI-e at the full 8X interface speeds and that is the key to getting faster than 1,000 MB/sec. speeds for write and reads. This part is quoted as getting in the range of ~1,400 MB/sec. and other than some very expensive turnkey boxes from manufacturers like Violin, this is a great user installable part to get the benefit of a really fast SSD drive array on a PCIe card.

  • Intel forms flash gang of five • The Register

    Intel, Dell, EMC, Fujitsu and IBM are forming a working group to standardise PCIe-based solid state drives SSD, and have a webcast coming out today to discuss it.

    via Intel forms flash gang of five • The Register.

    Now this is interesting in that just two weeks after Angelbird pre-announces its own PCIe flash based SSD product, now Intel is forming a consortium. Things are heating up, this is now a hot new category and I want to draw your attention to a sentence in this Register article:

    By connecting to a server’s PCIe bus, SSDs can pour out their contents faster to the server than by using Fibre Channel or SAS connectivity. The flash is used as a tier of memory below DRAM and cuts out drive array latency when reading and writing data.

    This is without a doubt the first instance I have read that there is a belief, even just in the minds of the author of this article, that Fibre Channel and Serial Attached SCSI aren’t fast enough. Who knew PCI Express would be preferable to an old storage interface when it comes to enterprise computing? Lookout world, there’s a new sheriff in town and his name is PCIe SSD. This product category though will be not for the consumer end of the market at least not for this consortium. It is targeting the high margin, high end, data center market where interoperability keeps vendor lock-in from occurring. By choosing interoperability everyone has to gain an advantage not through engineering necessarily but through firmware most likely. If that’s the differentiator than whomever has the best embedded programming team will have the best throughput and the highest rated product. Let’s hope this all eventually finds a market saturation point driving the technology down into the consumer desktop, thus enabling a next big burst in desktop computer performance. I hope PCIe SSD’s become the next storage of choice and that motherboards can be rid of all SATA disk I/O ports and firmware in the near future. We don’t need SATA SSDs, we do need PCIe SSDs.

  • Angelbird to Bring PCIe SSD on the Cheap and Iomega has a USB 3 external SSD

     

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    From Tom’s Hardware:

    Extreme SSD performance over PCI-Express on the cheap? There’s hope!

    A company called Angelbird is working on bringing high-performance SSD solutions to the masses, specifically, user upgradeable PCI-Express SSD solution.

    via Angelbird to Bring PCIe SSD on the Cheap.

    This is one of a pair of SSD announcements that came in on Tuesday. SSDs are all around us now and the product announcements are coming in faster and harder. The first one, is from a British company named Angelbird. Looking at the website announcing the specs of their product, it is on paper a very fast PCIe based SSD drive. Right up there with Fusion-io in terms of what you get for the dollars spent. I’m a little concerned however due to the reliance of an OS hosted in the firmware of the PCIe card. I would prefer something a little more peripheral like that the OS supports natively, rather than have the card become the OS. But this is all speculative until actual production or test samples hit the review websites and we see some kind of benchmarks from the likes of Tom’s Hardware or Anandtech.

    From MacNN|Electronista:

    Iomega threw itself into external solid-state drives today through the External SSD Flash Drive. The storage uses a 1.8-inch SSD that lets it occupy a very small footprint but still outperform a rotating hard drive:

    Read more: http://www.electronista.com/articles/10/10/15/iomega.outs.external.usb.30.ssd/

    The second story covers a new product from Iomega where we have for the first time an external SSD from a mainstream manufacturer. Price is at premium compared to the performance, but if you like the looks you’ll be willing to pay. It’s not bad speeds for reading and writing, but it’s not the best compared to the amount of money you’re paying. And why do they still use a 2.5″ external case if it’s internally a 1.8″ drive? Couldn’t they shrink it down to the old Firefly HDD size from back in the day? It should be the smaller.

  • OCZ’s RevoDrive Preview: An Affordable PCIe SSD – AnandTech

    We have seen a turnaround however. At last year’s IDF Intel showed off a proof of concept PCIe SSD that could push 1 million IOPS. And with the consumer SSD market dominated by a few companies, the smaller players turned to building their own PCIe SSDs to go after the higher margin enterprise market. Enterprise customers had the budget and the desire to push even more bandwidth. Throw a handful of Indilinx controllers on a PCB, give it a good warranty and you had something you could sell to customers for over a thousand dollars.

    via OCZ’s RevoDrive Preview: An Affordable PCIe SSD – AnandTech :: Your Source for Hardware Analysis and News.

    Anandtech does a review of the OCZ RevoDrive. A PCIe SSD for the consumer market. It’s not as fast as a Fusion-io, but then it isn’t nearly as expensive either. How fast is it say compared to a typical SATA SSD? Based on the benchmarks in this review it seems as though the RevoDrive is a little faster than most SATA SSDs, but it also costs about $20 more than a really good 120GB SSD. Be warned that this is the Suggest Retail price, and no shipping product yet exists. Prices may vary once this PCIe card finally hits the market. But I agree 100% with this quote from the end of the review:

    “If OCZ is able to deliver a single 120GB RevoDrive at $369.99 this is going to be a very tempting value.”

    Indeed, much more reasonable than a low end Fusion-io priced closer to $700+, but not as fast either. You picks your products, you pays yer money.

  • Disk I/O: PCI Based SSDs (via makeitfaster)

    Great article and lots of hardcore important details like drivers and throughput. It’s early days yet for the PCI based SSDs, so there’s going to be lots of changes and architectures until a great design or a cheap design begins to dominate the market. And while some PCIe cards may not be ready for the Enterprise Data Center, there may be a market in the high end gamer fanboy product segment. Stay Tuned!

    Disk I/O: PCI Based SSDs The next step up from a regular sata based Solid State Disk is the PCIe based solid state disk. They bypass the SATA bottleneck and go straight through the PCI-Express bus, and are able to achieve better throughput. The access time is similar to a normal SSD, as that limit is imposed by the NAND chips themselves, and not the controller. So how is this different than taking a high end raid controller in a PCIe slot and slapping 8 or 12 good SSDs o … Read More

    via makeitfaster