Subject: Storage | January 3, 2017 - 07:46 PM | Allyn Malventano
Tagged: usb, Ultimate, Terabyte, ssd, kingston, GT, flash, drive, DataTraveler, CES 2017, CES, 2TB, 1TB
Kicking off the storage announcements at CES 2017, Kingston announced a 2TB thumb drive:
Ok, well it's a bit big for a thumb drive, but it is definitely a high capacity portable SSD with a narrower profile (width wise) than a Samsung T3, and is meant to be plugged directly into a USB port. Thickness may be an issue for some applications, but I assume they would include a short extension for those trying to plug into tighter spaces like at the rear of a PC case. The release was light on details, particularly performance, though I'd expect these to be able to do a few hundred MB/s on sequentials at a minimum. More should come out about this and other Kingston products later in the week.
*edit* Here's a couple of pics I snagged at one of the events here:
Full press blast after the break.
Follow all of our coverage of the show at http://pcper.com/ces!
Subject: Storage | December 22, 2016 - 09:03 PM | Allyn Malventano
Tagged: UFS 2.1, UFS, PS8313, PS8311, phison, nand, flash, controller
Following up on Micron's UFS 2.1 announcement, Phison has announced the launch of their own PS8311 UFS 2.1 controller:
For those unaware, UFS 2.1 is a much-anticipated replacement for eMMC, which is the equivalent of trying to run your laptop OS off of an SD Card. Fortunately, eMMC only appears in budget systems, but the transition to UFS 2.1 should bring the storage performance bar up considerably in those systems.
UFS Architecture Overview. Source: JEDEC
Devices following the Universal Flash Storage standard will enable less protocol overhead and more direct communication with the flash.
Looking at an older roadmap, we see Phison was relatively on target with the PS8311, with a faster PS8313 scheduled for later in 2017.
Subject: General Tech | December 13, 2016 - 07:47 PM | Scott Michaud
Tagged: google, chrome, Adobe, flash
Google is about to begin transitioning their users away from Flash, unless they explicitly enable it on a site-by-site basis. This is a step beyond click-to-activate, which refuses to activate the plug-in until the user permits it, that will not even acknowledge the plug-in’s existence unless the user requests it. The difference is that this tells sites to treat the browser as not having Flash, which, for PC Perspective as an example, should load our HTML5 article carousel instead of presenting a click-to-activate Flash one that has an expanding oval transition animation.
Because changes like these could have side-effects, Google is dipping their toe before jumping in. About 1% of users on the current Chrome 55 (and ~50% of Chrome 56 pre-release users) will have this change flipped on any day now, which contains the outrage if it breaks something popular or, otherwise, causes user grief. If it all goes well, though, it will be enabled for everyone when Chrome 56 arrives for the general public in February.
Subject: Storage | August 10, 2016 - 06:00 PM | Allyn Malventano
Tagged: 2.5, V-NAND, ssd, Samsung, nand, FMS 2016, FMS, flash, 64-Layer, 32TB, SAS, datacenter
..now this picture has been corrected for extreme parallax and was taken in far from ideal conditions, but you get the point. Samsung's keynote is coming up later today, and I have a hunch this will be a big part of what they present. We did know 64-Layer was coming, as it was mentioned in Samsung's last earnings announcement, but confirmation is nice.
*edit* now that the press conference has taken place, here are a few relevant slides:
With 48-Layer V-NAND announced last year (and still rolling out), it's good to see Samsung pushing hard into higher capacity dies. 64-Layer enables 512Gbits (64GB) per die, and 100MB/s per die maximum throughput means even lower capacity SSDs should offer impressive sequentials.
Samsung 48-Layer V-NAND. Pic courtesy of TechInsights.
We will know more shortly, but for now, dream of even higher capacity SSDs :)
*edit* and this just happened:
*additional edit* - here's a better picture taken after the keynote:
The 32TB model in their 2.5" form factor displaces last years 16TB model. The drive itself is essentially identical, but the flash packages now contain 64-layer dies, doubling the available capacity of the device.
Subject: Storage | August 9, 2016 - 09:59 PM | Allyn Malventano
Tagged: XPoint, Worm, storage, ssd, RocksDB, Optane, nand, flash, facebook
At their FMS 2016 Keynote, Facebook gave us some details on the various storage technologies that fuel their massive operation:
In the four corners above, they covered the full spectrum of storing bits. From NVMe to Lightning (huge racks of flash (JBOF)), to AVA (quad M.2 22110 NVMe SSDs), to the new kid on the block, WORM storage. WORM stands for Write Once Read Many, and as you might imagine, Facebook has lots of archival data that they would like to be able to read quickly, so this sort of storage fits the bill nicely. How do you pull off massive capacity in flash devices? QLC. Forget MLC or TLC, QLC stores four bits per cell, meaning there are 16 individual voltage states for each cell. This requires extremely precise writing techniques and reads must appropriately compensate for cell drift over time, and while this was a near impossibility with planar NAND, 3D NAND has more volume to store those electrons. This means one can trade the endurance gains of 3D NAND for higher bit density, ultimately enabling SSDs upwards of ~100TB in capacity. The catch is that they are rated at only ~150 write cycles. This is fine for archival storage requiring WORM workloads, and you still maintain NAND speeds when it comes to reading that data later on, meaning that decade old Facebook post will appear in your browser just as quickly as the one you posted ten minutes ago.
Next up was a look at some preliminary Intel Optane SSD results using RocksDB. Compared to a P3600, the prototype Optane part offers impressive gains in Facebook's real-world workload. Throughput jumped by 3x, and latency reduced to 1/10th of its previous value. These are impressive gains given this fairly heavy mixed workload.
More to follow from FMS 2016!
Subject: General Tech | June 24, 2016 - 04:59 PM | Jeremy Hellstrom
"A study from GeoEdge, an ad scanning vendor, reveals that Flash has been wrongly accused of being the root cause of today's malvertising campaigns, but in reality, switching to HTML5 ads won't safeguard users from attacks because the vulnerabilities are in the ad platforms and advertising standards themselves."
Here is some more Tech News from around the web:
- Revive revived: Oculus DRM push shattered as DIY devs strike back @ The Register
- AMD Radeon RX 480 Hands-On Preview @ TechARP
- Remote-code execution flaw identified in OpenAPI framework @ The Inquirer
- SoftIron Overdrive 1000 is a £400 64-bit ARM server for developers @ The Register
- Chrome Bug Makes It Easy To Download Movies From Netflix and Amazon Prime @ Slashdot
- BlackBerry's turnaround stalls @ The Register
- RFC gives route leaks names, to help netops explain why traffic goes missing @ The Register
- Malware Can Use Fan Noise To Steal Data From Air-Gapped Systems @ Slashdot
Subject: General Tech | April 8, 2016 - 05:21 PM | Jeremy Hellstrom
Tagged: flash, microsoft, edge, windows 10
The new insider build of Windows 10 includes a new feature on Edge, similar to the one already found on Chrome, it will pause Flash assets on webpages which are not the main content. This should mean far less annoying advertisements blaring from your speakers if you happen to visit an uncouth website which features that type of advertisement. It is also a step in the right direction for security, considering Adobe has posted yet another critical update for a gaping security hole in Flash. You can follow the links from Slashdot to grab the update if you wish, or delve into the morass of comments about this update.
"Microsoft Edge will "intelligently auto-pause" Flash content that is "not central to the webpage." If you want to try this out now, you can take the feature for a spin with Windows 10 build 14316, which was recently made available to Windows Insiders"
Here is some more Tech News from around the web:
- Adobe issues another Flash patch following Windows 10 ransomware threat @ The Inquirer
- Microsoft rethinks the Windows application platform one more time @ The Register
- What to Know before Using Windows 10’s New Linux System @ Linux.com
- Asustek reduces demand for Intel-developed smartphone platforms @ DigiTimes
- OPPO F1 Plus Smartphone First Look @ TechARP
- Mumblehard spam-spewing botnet floored @ The Register
- Managing infrastructure, a newbie's guide: Simple stuff you need to know @ The Register
Since Samsung’s August 2015 announcement of their upcoming 48-layer V-NAND, we’ve seen it trickle into recent products like the SSD T3, where it enabled 2TB of capacity in a very small form factor. What we have not yet seen was that same flash introduced in a more common product that we could directly compare against the old. Today we are going to satisfy our (and your) curiosity by comparing a 1TB 850 EVO V1 (32-layer - V2) to a 1TB 850 EVO V2 (48-layer - V3).
While Samsung has produced three versions of their V-NAND (the first was 24-layer V1 and only available in one of an enterprise SSDs), there have only been two versions of the 850 EVO. Despite this, Samsung internally labels this new 850 EVO as a 'V3' product as they go by the flash revision in this particular case.
Samsung’s plan is to enable higher capacities with this new flash (think 4TB 850 EVO and PRO), they also intend to silently push that same flash down into the smaller capacities of those same lines. Samsung’s VP of Marketing assured me that they would not allow performance to drop due to higher per-die capacity, and we can confirm that in part with their decision to drop the 120GB 850 EVO during the switch to 48-layer in favor of a planar 750 EVO which can keep performance up. Smaller capacity SSDs work better with higher numbers of small capacity dies, and since 48-layer VNAND in TLC form comes in at 32GB per die, that would have meant only four 48-layer dies in a 120GB SSD.
Other companies have tried silently switching flash memory types on the same product line in the past, and it usually does not go well. Any drops in performance metrics for a product with the same model and spec sheet is never welcome in tech enthusiast circles, but such issues are rarely discovered since companies will typically only sample their products at their initial launch. On the flip side, Samsung appears extremely confident in their mid-line flash substitution as they have voluntarily offered to sample us a 1TB 48-layer 850 EVO for direct comparison to our older 1TB 32-layer 850 EVO. The older EVO we had here had not yet been through our test suite, so we will be comparing these two variations directly against each other starting from the same fresh out of the box and completely unwritten state. Every test will be run on both SSDs in the same exact sequence, and while we are only performing an abbreviated round of testing for these products, the important point is that I will be pulling out our Latency Percentile test for detailed performance evaluation at a few queue depths. Latency Percentile testing has proven itself far more consistent and less prone to data scatter than any other available benchmark, so we’ll be trusting it to give us the true detailed scoop on any performance differences between these two types of flash.
Read on for our comparison of the new and the old!
(I just referred to a 3D Flash part as 'old'. Time flies.)
Subject: Storage | December 30, 2015 - 07:21 PM | Allyn Malventano
Tagged: transcend, slc, mlc, ssd, flash, SuperMLC
Last year we saw Micron toy with the idea of dynamically flipping flash memory dies between SLC and MLC modes. Ok paper, it sounded like a great idea - get the speed of SLC flash while the SSD is up to 50% full, then start shifting dies over to MLC mode to get the higher capacity. This tech did not exist until the ability to flip dies between modes existed, which was not until shortly before the M600 SSDs were introduced. Realize this is different than other types of mixed mode flash, like that on the Samsung 'EVO' models, which have a small SLC segment present on each TLC die. That static partitioning kept those types of solutions more consistent in performance than the M600 was when we first evaluated its performance.
What if we borrowed the idea of keeping the flash mode static, but just keeping to the faster mode? Transcend has announced it will be doing just that in the coming year. These will be SSDs equipped with MLC flash, but that flash will be configured to operate in SLC mode full time. This will enable ~4x write speeds and higher endurance ~30,000 write cycles compared to ~5-10k P/E cycle figures of the same flash operating in MLC mode. This performance and endurance boost comes at a cost, as these SSDs will consume twice the flash memory for the equivalent MLC model capacity. We predict this type of substitution for standard SLC flash will be a continuing trend since SLC flash production volume is insignificant compared to MLC. This trick gets you most of the way to SLC performance and endurance for (in the current market) less cost/GB of a straight SLC SSD.
Upcoming Transcend models to include SuperMLC technology:
- SSD510K - 2.5”
- MSA510 - mSATA
- HSD510 - half slim
- MTS460 & MTS860 - M.2
Subject: Storage | October 13, 2015 - 01:24 PM | Allyn Malventano
Tagged: XQD, SD, microSD, Lexar, flash, CFast
Lexar (Micron's portable media brand) is known for their versatile flash media readers and lines of portable flash memory products. Today they have updated two of their big SD Card lines. First up is their 2000x (300MB/s) product, which now comes in a 128GB capacity:
As we pointed out in our SD Card Speed Classes, Grades, Bus Modes, and File Systems Explained piece, cameras and video recorders most likely won't use that super high 250MB/s write speed, but emptying a 128GB card at 300MB/s will take only 7 minutes (provided your destination device can write that fast)! This model comes with a small USB 3.0 reader, which makes sense as most systems can't hit 300MB/s with their built-in readers!
Next up is a HUGE capacity introduced in their 633x line:
This model may be less than half the speed of the 2000x part above, but 95 MB/s is not too shabby considering this card can store a half a TB! Write speeds are a bit more limited as well, coming in at 45MB/s. The use case for this card is as a full-time backup slot for capable SLRs, or more commonly (I believe) as a semi-permanent secondary storage addition to Ultrabooks. The cost at $0.54/GB comes in far less than the internal storage upgrade prices of many laptops.
Lexar also updated their CFast lines with faster (3500x / 3600x) models, as well as their XQD lines (1400x / 2933x). Lastly, the Professional Workflow XR2 (XQD 2.0) and UR2 (microSD UHS-II) pods are now available.
Stand by for a review of the 633x 512GB SD Card as we have one in for testing!