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Subject: Storage, Shows and Expos | September 16, 2014 - 02:29 PM | Allyn Malventano
Tagged: ssd, slc, sata, mlc, micron, M600, crucial
You may already be familiar with the Micron Crucial M550 line of SSDs (if not, familiarize yourself with our full capacity roundup here). Today Micron is pushing their tech further by releasing a new M600 line. The M600's are the first full lineup from Micron to use their 16nm flash (previously only in their MX100 line). Aside from the die shrink, Micron has addressed the glaring issue we noted in our M550 review - that issue being the sharp falloff in write speeds in lower capacities of that line. Their solution is rather innovative, to say the least.
Recall the Samsung 840 EVO's 'TurboWrite' cache, which gave that drive a burst of write speed during short sustained write periods. The 840 EVO accomplished this by each TLC die having a small SLC section of flash memory. All data written passed through this cache, and once full (a few GB, varying with drive capacity), write speed slowed to TLC levels until the host system stopped writing for long enough for the SSD to flush the cached data from SLC to TLC.
The Micron M600 SSD in 2.5" SATA, MSATA, and M.2 form factors.
Micron flips the 'typical' concept of caching methods on its head. It does employ two different types of flash writing (SLC and MLC), but the first big difference is that the SLC is not really cache at all - not in the traditional sense, at least. The M600 controller, coupled with some changes made to Micron's 16nm flash, is able to dynamically change the mode of each flash memory die *on the fly*. For example, the M600 can place most of the individual 16GB (MLC) dies into SLC mode when the SSD is empty. This halves the capacity of each die, but with the added benefit of much faster and more power efficient writes. This means the M600 would really perform more like an SLC-only SSD so long as it was kept less than half full.
As you fill the SSD towards (and beyond) half capacity, the controller incrementally clears the SLC-written data, moving that data onto dies configured to MLC mode. Once empty, the SLC die is switched over to MLC mode, effectively clearing more flash area for the increasing amount of user data to be stored on the SSD. This process repeats over time as the drive is filled, meaning you will see less SLC area available for accelerated writing (see chart above). Writing to the SLC area is also advantageous in mobile devices, as those writes not only occur more quickly, they consume less power in the process:
For those worst case / power user scenarios, here is a graph of what a sustained sequential write to the entire drive area would look like:
Realize this is not typical usage, but if it happened, you would see SLC speeds for the first ~45% of the drive, followed by MLC speeds for another 10%. After the 65% point, the drive is forced to initiate the process of clearing SLC and flipping dies over to MLC, doing so while the host write is still in progress, and therefore resulting in the relatively slow write speed (~50 MB/sec) seen above. Realize that in normal use (i.e. not filling the entire drive at full speed in one go), garbage collection would be able to rearrange data in the background during idle time, meaning write speeds should be near full SLC speed for the majority of the time. Even with the SSD nearly full, there should be at least a few GB of SLC-mode flash available for short bursts of SLC speed writes.
This caching has enabled some increased specs over the prior generation models:
Note the differences in write speeds, particularly in the lower capacity models. The 128GB M550 was limited to 190MB/sec, while the M600 can write at 400MB/sec in SLC mode (which is where it should sit most of the time).
We'll be testing the M600 shortly and will come back with a full evaluation of the SSD as a whole and more specifically how it handles this new tech under real usage scenarios.
Subject: Storage, Shows and Expos | September 16, 2014 - 12:49 PM | Allyn Malventano
Tagged: ram, NVMe, IOPS, idf 2014, idf, ddr4, DDR
The Intel Developer Forum was last week, and there were many things to be seen for sure. Mixed in with all of the wearable and miniature technology news, there was a sprinkling of storage goodness. Kicking off the show, we saw new cold storage announcements from both HGST and Western Digital, but that was about it for HDD news, as the growing trend these days is with solid state storage technologies. I'll start with RAM:
First up was ADATA, who were showing off 64GB DDR3 (!) DIMMs:
Next up were various manufacturers pushing DDR4 technology quite far. First was SK Hynix's TSV 128GB DIMMs (covered in much greater depth last week):
Next up is Kingston, who were showing a server chassis equipped with 256GB of DDR4:
If you look closer at the stats, you'll note there is more RAM in this system than flash:
Next up is IDT, who were showing off their LRDIMM technology:
This technology adds special data buffers to the DIMM modules, enabling significantly higher amounts of installed RAM into a single system, with a 1-2 step de-rating of clock speeds as you take capacities to the far extremes. The above server has 768GB of DDR4 installed and running!:
Moving onto flash memory type stuff, Scott covered Intel's new 40 Gbit Ethernet technology last week. At IDF, Intel had a demo showing off some of the potential of these new faster links:
This demo used a custom network stack that allowed a P3700 in a local system to be matched in IOPS by an identical P3700 *being accessed over the network*. Both local and networked storage turned in the same 450k IOPS, with the remote link adding only 8ms of latency. Here's a close-up of one of the SFF-8639 (2.5" PCIe 3.0 x4) SSDs and the 40 Gbit network card above it (low speed fans were installed in these demo systems to keep some air flowing across the cards):
Stepping up the IOPS a bit further, Microsoft was showing off the capabilities of their 'Inbox AHCI driver', shown here driving a pair of P3700's at a total of 1.5 million IOPS:
...for those who want to get their hands on this 'Inbox driver', guess what? You already have it! "Inbox" is Microsoft's way of saying the driver is 'in the box', meaning it comes with Windows 8. Bear in bind you may get better performance with manufacturer specific drivers, but it's still a decent showing for a default driver.
Now for even more IOPS:
Yes, you are reading that correctly. That screen is showing a system running over 11 million IOPS. Think it's RAM? Wrong. This is flash memory pulling those numbers. Remember the 2.5" P3700 from a few pics back? How about 24 of them:
The above photo shows three 2U systems (bottom), which are all connected to a single 2U flash memory chassis (top). The top chassis supports three submodules, each with eight SFF-8639 SSDs. The system, assembled by Newisys, demonstrates just how much high speed flash you can fit within an 8U space. The main reason for connecting three systems to one flash chassis is because it takes those three systems to process the full IOPS capability of 24 low latency NVMe SSDs (that's 96 total lanes of PCIe 3.0!)!
So there you have it, IDF storage tech in a nutshell. More to come as we follow these emerging technologies to their maturity.
Subject: Storage | September 12, 2014 - 05:30 PM | Jeremy Hellstrom
Tagged: SM2246EN, S3C, mlc, Apotop
The Apotop S3C SSD uses the same controller as the Angelbird drive Al reviewed recently. It uses synchronous MLC NAND with the 4 channel present on the Silicon Motion controller and is able to provide more than the specified 490 MB/s read and 275 MB/s write in some benchmarks. It can often read faster than the wrk SSD but the writes cannot always keep up though it is not something likely to be noticeable in real usage scenarios. The MSRP is very attractive with the 512GB model expected to be released at $200. Silicon Motion is likely to start appearing in a lot more SSDs in the near future with this mix of price and performance. Read the full review at Kitguru.
"The new Apotop S3C SSD features the Silicon Motion 2246EN controller which we first reviewed in the Angelbird 512GB wrk SSD back in August this year. The controller impressed us, so we have already high hopes for the Apotop S3C."
Here are some more Storage reviews from around the web:
- PNY XLR8 120 GiB SSD Review @ Hardware Secrets
- Plextor M6 Pro 256GB @ Kitguru
- Plextor M6 PRO 256GB @ eTeknix
- We lift the lid on Intel's Pro 2500 SSD. Shock, horror: It doesn't use its own NAND chips @ The Register
- HGST Ultrastar He6 6TB SAS HDD Review @ NikKTech
- TB (2.5-inch) Hard Drives @ SPCR
- SPYRUS WorkSafe Pro WTG Secure Flash Drive @ The SSD Review
- Synology DiskStaion DS115j @ Legion Hardware
- QNAP TurboNAS TS-451 NAS Server Review @ NikKTech
- Icy Box FlexCage MB973SP 2B Trayless 3-in-2 SATA Backplane @ Kitguru
- Thermaltake BlacX Urban Wi-Fi Edition HDD Docking Station Review @ TechwareLabs
- Angelbird SSD2go Pocket External SSD @ The SSD Review
Subject: General Tech, Storage | September 12, 2014 - 04:08 PM | Scott Michaud
Tagged: sandisk, sdxc, sdhc, sd card, 512GB
Assuming your camera, card reader, or other device fully conforms to the SDXC standard, Sandisk has developed a half-terabyte (512GB) memory card. Beyond being gigantic, it can be read at up to 95 MB/s and written at up to 90 MB/s, which should be enough to stream 4K video. Sandisk claims that it is temperature proof, shock proof, water proof, and x-ray proof. It also comes with a lifetime warranty and "RescuePRO Deluxe" recovery software but, honestly, I expect people would just use PhotoRec or something.
It should be noted that the SDXC standard covers memory cards up to 2TB so it will probably not be too long before we see another standard get ratified. What is next? SDUC? SDYC? SDALLTHEC? Blah! This is why IEEE assigns names sequentially.
The SanDisk Extreme PRO UHS-I SDHC/SDXC 512GB memory card should be available now, although I cannot yet find them online, for $799.99 MSRP.
Subject: Storage, Shows and Expos | September 10, 2014 - 03:34 PM | Allyn Malventano
Tagged: TSV, Through Silicon Via, memory, idf 2014, idf
If you're a general computer user, you might have never heard the term "Through Silicon Via". If you geek out on photos of chip dies and wafers, and how chips are assembled and packaged, you might have heard about it. Regardless of your current knowledge of TSV, it's about to be a thing that impacts all of you in the near future.
Let's go into a bit of background first. We're going to talk about how chips are packaged. Micron has an excellent video on the process here:
The part we are going to focus on appears at 1:31 in the above video:
This is how chip dies are currently connected to the outside world. The dies are stacked (four high in the above pic) and a machine has to individually wire them to a substrate, which in turn communicates with the rest of the system. As you might imagine, things get more complex with this process as you stack more and more dies on top of each other:
16 layer die stack, pic courtesy NovaChips
...so we have these microchips with extremely small features, but to connect them we are limited to a relatively bulky process (called package-on-package). Stacking these flat planes of storage is a tricky thing to do, and one would naturally want to limit how many of those wires you need to connect. The catch is that those wires also equate to available throughput from the device (i.e. one wire per bit of a data bus). So, just how can we improve this method and increase data bus widths, throughput, etc?
Before I answer that, let me lead up to it by showing how flash memory has just taken a leap in performance. Samsung has recently made the jump to VNAND:
By stacking flash memory cells vertically within a die, Samsung was able to make many advances in flash memory, simply because they had more room within each die. Because of the complexity of the process, they also had to revert back to an older (larger) feature size. That compromise meant that the capacity of each die is similar to current 2D NAND tech, but the bonus is speed, longevity, and power reduction advantages by using this new process.
I showed you the VNAND example because it bears a striking resemblance to what is now happening in the area of die stacking and packaging. Imagine if you could stack dies by punching holes straight through them and making the connections directly through the bottom of each die. As it turns out, that's actually a thing:
Subject: Storage, Shows and Expos | September 9, 2014 - 04:51 PM | Allyn Malventano
Tagged: WDC< Western Digital, WD, idf 2014, idf, hdd, Cold, Archival, Ae
We talked about helium filled, shingled HDD's from HGST earlier today. Helium may give you reduced power demands, but at the added expensive of hermetically sealed enclosures over conventional HDD's. Shingling may give added capacity, but at the expense of being forced into specific writing methods. Now we know Western Digital's angle into archival / cold storage:
..so instead of going with higher cost newer technologies, WD is taking their consumer products and making them more robust. They are also getting rid of the conventional thinking of capacity increments and are moving to 100GB increments. The idea is that once a large company or distributor has qualified a specific HDD model on their hardware, that model will stick around for a while, but be continued at an increased capacity as platter density yields increase over time. WD has also told me that capacities may even be mixed an matched within a 20-box of drives, so long as the average capacity matches the box label. This works in the field of archival / cold storage for a few reasons:
- Archival storage systems generally do not use conventional RAID (where an entire array of matching capacity disks are spinning simultaneously). Drives are spun up and written to individually, or spun up individually to service the occasional read request. This saves power overall, and it also means the individual drives can vary in capacity with no ill effects.
- Allowing for variable capacity binning helps WD ship more usable platters/drives overall (i.e. not rejecting drives that can't meet 6TB). This should drive overall costs down.
- Increasing capacity by only a few hundred GB per drive turns into *huge* differences in cost when you scale that difference up to the number of drives you would need to handle a very large total capacity (i.e. Exabytes).
So the idea here is that WD is choosing to stick with what they do best, which they can potentially do for even cheaper than their consumer products. That said, this is really meant for enterprise use and not as a way for a home power user to save a few bucks on a half-dozen drives for their home NAS. You really need an infrastructure in place that can handle variable capacity drives seamlessly. While these drives do not employ SMR to get greater capacity, that may work out as a bonus, as writes can be performed in a way that all systems are currently compatible with (even though I suspect they will be tuned more for sequential write workloads).
Here's an illustration of this difference:
The 'old' method meant that drives on the left half of the above bell curve would have to be sold as 5TB units.
With the 'new' method, drives can be sold based on a spec closer to their actual capacity yield. For a given model, shipping capacities would increase as time goes on (top to bottom of the above graphic).
To further clarify what is meant by the term 'cold storage' - the data itself is cold, as in rarely if ever accessed:
Examples of this would be Facebook posts / images from months or years ago. That data may be rarely touched, but it needs to be accessible enough to be browsed to via the internet. The few second archival HDD spinup can handle this sort of thing, while a tape system would take far too long and would likely timeout that data request.
Subject: Storage, Shows and Expos | September 9, 2014 - 02:00 PM | Allyn Malventano
Tagged: ssd, SMR, pcie, NVMe, idf 2014, idf, hgst, hdd, 10TB
It's the first day of IDF, so it's only natural that we see a bunch of non-IDF news start pouring out :). I'll kick them off with a few announcements from HGST. First item up is their new SN100 line of PCIe SSDs:
These are NVMe capable PCIe SSDs, available from 800GB to 3.2TB capacities and in (PCI-based - not SATA) 2.5" as well as half-height PCIe cards.
Next up is an expansion of their HelioSeal (Helium filled) drive line:
Through the use of Shingled Magnetic Recording (SMR), HGST can make an even bigger improvement in storage densities. This does not come completely free, as due to the way SMR writes to the disk, it is primarily meant to be a sequential write / random access read storage device. Picture roofing shingles, but for hard drives. The tracks are slightly overlapped as they are written to disk. This increases density greatly, but writting to the middle of a shingled section is not possible without potentially overwriting two shingled tracks simultaneously. Think of it as CD-RW writing, but for hard disks. This tech is primarily geared towards 'cold storage', or data that is not actively being written. Think archival data. The ability to still read that data randomly and on demand makes these drives more appealing than retrieving that same data from tape-based archival methods.
Further details on the above releases is scarce at present, but we will keep you posted on further details as they develop.
Subject: Storage | September 5, 2014 - 03:06 PM | Jeremy Hellstrom
Tagged: roundup, ssd
The SSD Review has put a quick overview of what they feel are the best SSDs released this summer in several classes, though picking the Intel P3700 PCIe SSD which is not slated for release until the end of September might be considered cheating a bit. It is no surprise that the Samsung 850 Pro is the Enthusiast recommendation or the Crucial MX100 being recommended for those with a tight budget. They also list M.2, mSATA and even USB recommendations so head on over to see the full round up.
"Summer has come and gone, and over the past few months, there have been quite a few SSDs released into the market, and the question of, "Which SSD should I buy?" seems to still come up a lot around forums. Usually, there are some predetermined recommended favorite in each."
Here are some more Storage reviews from around the web:
- Crucial MX100 256 GB @ techPowerUp
- Plextor M6S 256GB @ eTeknix
- Plextor M6M 128GB mSATA @ eTeknix
- Transcend SSD370 SSD @ The SSD Review
- Samsung 850 Pro 512GB SSD Review @ NikKTech
- MyDigitalSSD Super Cache 2 128GB SATA III M.2 Drive Review @ Legit Reviews
- ioSafe 214 Fire and WaterProof NAS Video Review @ Madshrimps
- Synology DS115j @ HardwareHeaven
- QNAP TurboNAS TS-470 Pro NAS Server Review @ NikKTech
- WD My Passport Wireless 1TB Storage Drive Review @ Legit Reviews
- Western Digital My Passport Ultra Review @ TechwareLab
- WD My Passport Wireless Review – Your Own Hand-Held Personal Cloud @ Techgage
- Corsair Voyager Air 2 1TB Wireless Hard Drive @ eTeknix
- Western DIgital My Cloud EX2 Review @ TechwareLabs
- Silicon Power Armor A60 2TB USB 3.0 Portable Hard Drive Review @ NikKTech
- Corsair Flash Voyager GTX USB 3.0 128GB Flash Drive Review @ Madshrimps
Subject: Motherboards, Processors, Chipsets, Memory, Storage | September 5, 2014 - 01:21 PM | Ryan Shrout
Tagged: X99-Deluxe, SSD 730, Intel, Haswell-E, ddr4, asus, 5960X
Okay, I'll be the first to admit that I didn't know what I was getting into. When a couple of packages showed up at our office from Intel with claims that they wanted to showcase the new Haswell-E platform...I was confused. The setup was simple: turn on cameras and watch what happens.
So out of the box comes...a containment chamber. A carefully crafted, wood+paint concoction that includes lights, beeps, motors and platforms.
Want to see how Intel promotes the Core i7-5960X and X99 platform? Check out this video below.
Our reviews of products included in this video:
Subject: Storage | August 27, 2014 - 04:09 PM | Jeremy Hellstrom
Tagged: Sandforce SF2281, kingston, hyper x fury, 240gb
The Kingston Hyper X Fury 240GB is a slim SSD able to fit in the anemic ultrabooks though it does ship with a 2.5mm adapter for systems which are a little more meaty. It uses the familiar Sandforce SF2281 controller and has changed to 128GBit ONFi 3 NAND from the previous ONFi 1 and 2 found in the V300 and the first Fury models. This NAND is slower at reads but at the same time it is also significantly more rugged, with a endurance rating of 641TB worth of writes. Hopefully Kingston learned from the reaction to its previous release of the V300 where review models were sent out with Toggle Mode NAND which was then switched for ONFi in the retail models. Hardware Canucks saw decent performance at a price in line with the market, but it is up to you to decide if you are willing to forgive Kingston and purchase this new SSD.
"Kingston has long been known as a company that caters to budget-minded buyers and that's exactly what their new HyperX Fury SSD does. However, this time performance is also a priority."
Here are some more Storage reviews from around the web:
- SanDisk Extreme PRO 480GB SSD Review @ OCC
- Silicon Power Slim S70 240GB SSD Review @ NikKTech
- Plextor M6 Pro SSD @ HardwareHeaven
- Kingston V310 SSD @ HardwareHeaven
- Crucial MX100 256GB Solid State Drive Review @ Madshrimps
- Kingston SSDNow V310 @ The SSD Review
- AMD Radeon R7 240GB @ eTeknix
- Angelbird SSD wrk 256GB @ eTeknix
- Seagate Wireless Plus 2TB Mobile Device Storage Review @ NikKTech
- Synology DiskStation DS415play @ Legion Hardware
Subject: Storage | August 26, 2014 - 01:18 PM | Jeremy Hellstrom
Tagged: Seagate, hdd, 8TB, Cleversafe
Sometime in the next quarter you will be able to pick up a 3.5" Seagate HDD with 8TB of storage on it. These are aimed at data centres so they will have reduced power usage and are likely to have an impressive warranty attached, though that along with the high storage density will cost you a bit to purchase. They do not offer much in the way of specifics, no platter count or cache size are listed in the PR but you can expect to find out more about them in the very near future.
CUPERTINO, Calif.--(BUSINESS WIRE)-- Seagate Technology plc (NASDAQ:STX), a world leader in storage solutions, today announced it is shipping the world’s first 8TB hard disk drive. An important step forward in storage, the 8TB hard disk drive provides scale-out data infrastructures with supersized-capacity, energy-efficiency and the lowest total cost of ownership (TCO) in the industry for cloud content, object storage and back-up disaster recovery storage.
“As our world becomes more mobile, the number of devices we use to create and consume data is driving an explosive growth in unstructured data. This places increased pressure on cloud builders to look for innovative ways to build cost-effective, high capacity storage for both private and cloud-based data centers,” said Scott Horn, Seagate vice president of marketing. “Seagate is poised to address this challenge by offering the world’s first 8TB HDD, a ground-breaking new solution for meeting the increased capacities needed to support the demand for high capacity storage in a world bursting with digital creation, consumption and long-term storage.”
A cornerstone for growing capacities in multiple applications, the 8TB hard drive delivers bulk data storage solutions for online content storage providing customers with the highest capacity density needed to address an ever increasing amount of unstructured data in an industry-standard 3.5-inch HDD. Providing up to 8TB in a single drive slot, the drive delivers maximum rack density, within an existing footprint, for the most efficient data center floor space usage possible.
“Public and private data centers are grappling with efficiently storing massive amounts of unstructured digital content,” said John Rydning, IDC’s research vice president for hard disk drives. “Seagate’s new 8TB HDD provides IT managers with a new option for improving storage density in the data center, thus helping them to tackle one of the largest and fastest growing data categories within enterprise storage economically.”
The 8TB hard disk drive increases system capacity using fewer components for increased system and staffing efficiencies while lowering power costs. With its low operating power consumption, the drive reliably conserves energy thereby reducing overall operating costs. Helping customers economically store data, it boasts the best Watts/GB for enterprise bulk data storage in the industry.
“Cleversafe is excited to once again partner with Seagate to deliver to our customers what is truly an innovative storage solution. Delivering absolute lowest cost/TB along with the performance and reliability required for massive scale applications, the new 8TB hard disk drive is ideal for meeting the needs of our enterprise and service provider customers who demand optimized hardware and the cost structure needed for massive scale out,” said Tom Shirley, senior vice president of research and development, Cleversafe.
Outfitted with enterprise-class reliability and support for archive workloads, it features multi-drive RV tolerance for consistent enterprise-class performance in high density environments. The drive also incorporates a proven SATA 6Gb/s interface for cost-effective, easy system integration in both private and public data centers.
Subject: Storage | August 19, 2014 - 02:04 PM | Allyn Malventano
Tagged: western digital, portable, my passport, hdd
It's the 10th anniversary of Western Digital's My Passport line. To celebrate the occasion, they have launched an updated series:
The My Passport Ultra is available in 1TB and 2TB capacities, in both 'Metal' and 'Anniversary' Editions. The aluminum enclosures have an old-school radio-dial style finish. Both editions communicate over USB 3.0. While the Anniversary model comes out in September, the Metal Edition is now shipping at $89 for 1TB and $139 for 2TB.
Subject: Storage | August 19, 2014 - 01:20 PM | Jeremy Hellstrom
Tagged: amd, R7 240, ssd, radeon r7, barefoot 3, 19nm, toshiba mlc
We have seen the Barefoot 3 controller that AMD used in their first SSD before in OCZ's Vector 150, but not exactly like this. The controller has been optimized to work with Toshiba's 19nm and is clocked slightly higher than the Vertex, though AMD will not say by how much. That may account for the reduction in daily writes to 30GB/day and the warranty period to 4 years but as it is OCZ that is handling the warranty it is hard to determine the exact reasoning at this point. On the plus side the MSRP is also reduced by $28 to $164 which still falls short of reaching the magic $0.50/GB mark. The Tech Report tested the 240GB model here, as with other SSDs you can expect the 120GB to be slightly slower and the 480GB model to perform slightly faster.
"AMD is getting into the storage business. The Radeon R7 SSD combines OCZ's Barefoot 3 controller with Toshiba's 19-nm MLC NAND, custom firmware, and a snazzy new sticker. We take a quick look to see what's what."
Here are some more Storage reviews from around the web:
- AMD teams with Toshiba's OCZ for Radeon R7 SSD line @ The Inquirer
- AMD Radeon R7 SSD 240 GB @ techPowerUp
- AMD Radeon R7 SSD @ HardwareHeaven
- OCZ AMD Radeon R7 @ The SSD Review
- AMD R7 Series 240GB @ Kitguru
- Angelbird SSD wrk 512GB @ Custom PC Review
- Kingston HyperX FURY 240GB SSD Review @ NikKTech
- Kingston HyperX FURY 240 GiB SSD Review @ Hardware Secrets
- Thecus N2310 Soho/Home NAS Server Review @ Madshrimps
Subject: Storage | August 18, 2014 - 03:15 PM | Jeremy Hellstrom
Tagged: 512GB, angelbird, silicon motion, SMI, ssd, wrk
The simple look and extra care that went into manufacturing the Angelbird wrk SSDs show that they are serious about breaking into the market. They have launched at a price slightly higher than average for the market but also bring the best sequential reads that Al has seen yet on a SATA drive. Legit Reviews pried the drive open to reveal the Silicon Motion SM2246EN SATA III 6Gbps SSD controller previously seen on Corsair, PNY, ADATA and Transcend SSDs, along with MLC flash and 256MB of DDR3 cache. In Legit Reviews testing of the drive they concluded that you should pick up the 256GB or 512GB model for the extra performance that it brings, you will not be disappointed.
"Angelbird might night be a household name, but the Austrian company has been around in the SSD market for a number of years and has gotten a reputation for having high quality products. When we found out that Angelbird was coming out with a new SSD product like called the SSD wrk we couldn’t wait to get our hands on one of these drives and see what Angelbird has to offer consumers. Read on to find out!"
Here are some more Storage reviews from around the web:
- Angelbird SSD wrk 512GB SSD Review @HiTech Legion
- Angelbird SSD wrk SSD @ The SSD Review
- Angelbird SSD wrk 512 GB @ techPowerUp
- Angelbird 512GB wrk @ Kitguru
- OCZ ARC 100 240GB @ eTeknix
- Plextor M6S 256GB SSD Review @ Hardware Canucks
- OCZ ARC 100 @ HardwareHeaven
- OCZ RevoDrive 350 480GB PCIe SSD Review @ Neoseeker
- Kingston SM2280S3 120GB M.2 SATA SSD Review @ Legit Reviews
- Icy Dock ICYCube 4-Bay External Enclosure Review @HiTech Legion
- Brinell Single-Action Stick 128GB USB 3.0 Flash Drive Review @ NikKTech
Subject: Storage | August 13, 2014 - 02:38 PM | Jeremy Hellstrom
Tagged: toshiba, ssd, sata, ocz, barefoot 3, ARC
Before even looking at the performance the real selling point of the new OCZ ARC 100 is the MSRP, the 240GB and 480GB models are slated to be released at $0.50/GB and will likely follow the usual trend of SSD prices and drop from there. The drives use the Barefoot 3 controller, this one clocked slightly lower than the Vertex 460 but still capable of accelerating encryption. Once The Tech Report set the drive up in their test bed the performance was almost on par with the Vertex 460 and other mid to high end SSDs, especially in comparison to the Crucial MX100.
"OCZ's latest value SSD is priced at just $0.50 per gig, but it hangs with mid-range and even high-end drives in real-world and demanding workloads. It's also backed by an upgraded warranty and some impressive internal reliability data provided by OCZ. We take a closer look:"
Here are some more Storage reviews from around the web:
- OCZ ARC 100 240GB SSD @ Kitguru
- OCZ ARC 100 240GB SSD Review @ Legit Reviews
- OCZ ARC 100 240GB @ Legion Hardware
- OCZ ARC 100 SSD @ SSD Review
- OCZ ARC 100 240GB SSD Review @ Hardware Canucks
- Samsung 845DC EVO 3-bit Toggle MLC and 845DC PRO 3D V-NAND SSDs @ The Register
- Synology DS412+ - Network Attached Storage @ Funky Kit
Subject: Storage | August 8, 2014 - 02:16 PM | Jeremy Hellstrom
Tagged: ultrastar, hgst, enterprise ssd, 20nm
HGST has refreshed their 12Gbit/s SAS series of Ultrastar SSDs with denser 20nm which has upped the read speeds though the writes do suffer somewhat. As they are enterprise drives they have rather impressive lifespans, the 800GB is rated at 25 full drives writes/day for the length of the 5 year warranty. They also offer encryption and erasure tools that are superior to enthusiast drives, along with a much higher price tag. The Register also offers information on the new Ultrastar HDDs and a link to the spec sheets but as of yet we do not have any benchmarks.
"HGST has refreshed its Ultrastar enterprise SSD line, using denser 20nm NAND to replace the previous 25nm flash, doubling capacity, upping read performance but lowering write performance a tad in the process."
Here are some more Storage reviews from around the web:
- Toshiba THNSNJ HG6 256 GB @ techPowerUp
- Crucial MX100 512GB SSD Review @ Hardware Canucks
- Hynix SH920 128GB SSD @ Kitguru
- Kingston SSDNow V310 960GB SSD Review @ Legit Reviews
- Silicon Power Slim S60 240GB SSD Review @ NikKTech
- Kingston HyperX Fury 240GB @ eTeknix
- Samsung 845DC PRO @ The SSD Review
- Leef Supra 3.0 and Ice 3.0 16GB Flash Drive Review @ Legit Reviews
- Netgear ReadyNAS 516 @ Legion Hardware
- Synology DS414slim @ techPowerUp
- Thecus N7710-G NAS Server Review @ NikKTech
- Synology Embedded DataStation EDS14 @ Legion Hardware
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Subject: Storage, Shows and Expos | August 7, 2014 - 05:37 PM | Allyn Malventano
Tagged: ssd, SM2256, silicon motion, sata, FMS 2014, FMS
Silicon Motion has announced their SM2256 controller. We caught a glimpse of this new controller on the Flash Memory Summit show floor:
The big deal here is the fact that this controller is a complete drop-in solution that can drive multiple different types of flash, as seen below:
The SM2256 can drive all variants of TLC flash.
The controller itself looks to have decent specs, considering it is meant to drive 1xnm TLC flash. Just under 100k random 4k IOPS. Writes are understandably below the max saturation of SATA 6Gb/sec at 400MB/sec (writing to TLC is tricky!). There is also mention of Silicon Motion's NANDXtend Technology, which claims to add some extra ECC and DSP tech towards the end of increasing the ability to correct for bit errors in the flash (more likely as you venture into 8 bit per cell territory).
Subject: Storage, Shows and Expos | August 7, 2014 - 05:25 PM | Allyn Malventano
Tagged: ssd, sata, PS5007, PS3110, phison, pcie, FMS 2014, FMS
At the Flash Memory Summit, Phison has updated their SSD controller lineup with a new quad-core SSD controller.
The PS3110 is capable of handling TLC as well as MLC flash, and the added horsepower lets it push as high as 100k IOPS.
Also seen was an upcoming PS5007 controller, capable of pushing PCIe 3.0 x4 SSDs at 300k IOPS and close to 3GB/sec sequential throughputs. While there were no actual devices on display of this new controller, we did spot the full specs:
Full press blast on the PS3110 appears after the break:
Subject: General Tech, Storage, Shows and Expos | August 7, 2014 - 02:17 PM | Scott Michaud
Tagged: ssd, phase change memory, PCM, hgst, FMS 2014, FMS
According to an HGST press release, the company will bring an SSD based on phase change memory to the 2014 Flash Memory Summit in Santa Clara, California. They claim that it will actually be at their booth, on the show floor, for two days (August 6th and 7th).
The device, which is not branded, connects via PCIe 2.0 x4. It is designed for speed. It is allegedly capable of 3 million IOPS, with just 1.5 microseconds required for a single access. For comparison, the 800GB Intel SSD DC P3700, recently reviewed by Allyn, had a dominating lead over the competitors that he tested. It was just shy of 250 thousand IOPS. This is, supposedly, about twelve times faster.
While it is based on a different technology than NAND, and thus not directly comparable, the PCM chips are apparently manufactured at 45nm. Regardless, that is significantly larger lithography than competing products. Intel is manufacturing their flash at 20nm, while Samsung managed to use a 30nm process for their recent V-NAND launch.
What does concern me is the capacity per chip. According to the press release, it is 1Gb per chip. That is about two orders of magnitude smaller than what NAND is pushing. That is, also, the only reference to capacity in the entire press release. It makes me wonder how small the total drive capacity will be, especially compared to RAM drives.
Of course, because it does not seem to be a marketed product yet, nothing about pricing or availability. It will almost definitely be aimed at the enterprise market, though (especially given HGST's track record).
*** Update from Allyn ***
I'm hijacking Scott's news post with photos of the actual PCM SSD, from the FMS show floor:
In case you all are wondering, yes, it does in fact work:
One of the advantages of PCM is that it is addressed at smaller sections as compared to typical flash memory. This means you can see ~700k *single sector* random IOPS at QD=1. You can only pull off that sort of figure with extremely low IO latency. They only showed this output at their display, but ramping up QD > 1 should reasonably lead to the 3 million figure claimed in their release.
Subject: Storage, Shows and Expos | August 6, 2014 - 03:03 PM | Allyn Malventano
Tagged: ssd, pcie, NVMe, Marvell, FMS 2014, FMS, controller, 88SS1093
Marvell is notorious for being the first to bring a 6Gb/sec SATA controller to market, and they continue to do very well in that area. Their very capable 88SS9189 controller powers the Crucial MX100 and M550, as well as the ADATA SP920.
Today they have announced a newer controller, the 88SS1093. Despite the confusing numbering, the 88SS1093 has a PCIe 3.0 x4 host interface and will support the full NVMe protocol. The provided specs are on the light side, as performance of this controller will ultimately depend on the speed and parallelism of the attached flash, but its sure to be a decent performer. I suspect it would behave like their SATA part, only no longer bottlenecked by SATA 6Gb/sec speeds.
More to follow as I hope to see this controller in person on the exhibition hall (which opens to press in a few hours). Full press blast after the break.
*** Update ***
Apologies as there was no photo to be taken - Marvell had no booth at the exibition space at FMS.