Subject: Storage | August 25, 2016 - 06:26 PM | Allyn Malventano
Tagged: ssd, Pro 6000p, Intel, imft, E 6000p, E 5420s, DC S3520, DC P3520, 600p, 3d nand
Intel announced the production of 3D NAND a little over a year ago, and we've now seen production ramp up to the point where they are infusing it into nearly every nook and cranny of their SSD product lines.
The most relevant part for our readers will be a long overdue M.2 2280 SSD. These will kick off with the 600p:
An overseas forum member over at chiphell got their hands on a 600p and ran some quick tests. From their photo (above), we can confirm the controller is not from Intel, but rather from Silicon Motion. The NAND is naturally from Intel, as is likely their controller firmware implementation, as these parts go through the same lengthy validation process as their other products.
Intel is going for the budget consumer play here. The flash will be running in TLC mode, likely with an SLC cache. Specs are respectable - 1.8GB/s reads, 560MB/s writes, random read 155k, random write 128k (4KB QD=32). By respectable specs I mean in light of the pricing:
Wow! These prices are ranging from $0.55/GB at 128GB all the way down to $0.35/GB for the 1TB part.
Intel also refreshed their DataCenter (DC) lineup. The SSD DC S3520 (SATA) and P3520 (PCIe/NVMe) were also introduced as a refresh, also using Intel's 3D NAND. We published our exclusive review of the Intel SSD DC P3520 earlier today, so check there for full details on that enterprise front. Before we move on, a brief moment of silence for the P3320 - soft-launched in April, but discontinued before it shipped. We hardly knew ye.
Lastly, Intel introduced a few additional products meant for the embedded / IoT sector. The SSD E 6000p is an M.2 PCIe part similar to the first pair of products mentioned in this article, while the SSD E 5420s comes in 2.5" and M.2 SATA flavors. The differentiator on these 'E' parts is enhanced AES 256 crypto.
Most of these products will be available 'next week', but the 600p 360GB (to be added) and 1TB capacities will ship in Q4.
Abbreviated press blast appears after the break.
Subject: General Tech | August 27, 2016 - 02:46 PM | Josh Walrath
Tagged: wheel base, Thrustmaster, T500RS, T300, steering wheel, pedals, Fanatec, CSL Elite, ClubSport V2
This past Summer I was introduced to Fanatec products for the first time. Before that I had only handled some lower end Genius products, as well as low end and midrange Thrustmaster units. My review of the Fanatec setup will be posted here this next week, but my overall impressions of what Fanatec offers is overwhelmingly positive. The only issue, and it is a glaring one, is the lack of an affordable setup based on their designs. This past Friday Fanatec introduced a new series of products that aims to make their setups far more affordable than what we have seen so far.
The new CSL Elite Series of products offer many of the same features of the higher end ClubSport series of products, but at a much more affordable price range. This does not mean that they are skimping out on features and quality construction. The CSL Elite Pedals with Loadcell Kit offer a full aluminum build with a three pedal setup and the load cell on the brake pedal. This allows increasing resistance during braking that other spring loaded pedals may not offer. Fanatec claims that up to 90kg of pressure can be applied to the load cell. Having used their upper end ClubSport pedals, I can attest to what a difference such a load cell and a heavy aluminum base can do for the racing experience. Fanatec includes three different types of anti-skid pads that can be swapped out on the pedals.
The CSL Elite Wheel Base offers 6NM of force to the wheel. This is more than the ClubSport V1 base, but slightly less than the V2. In violent crashes, the wheel certainly can break the grip of the user’s hands. The base accepts a wide variety of wheels from Fanatec, but the bundle comes with the CSL Steering Wheel P1 for Xbox One. The base comes with the automotive grade quick release unit that easily swaps in and out wheels. The base also includes an RPM LED display on the base that is not included in the ClubSport series. The base also includes a built-in table clamp that is a $50 accessory for the ClubSport V2 setup.
The smaller motor, single belt design, and plastic construction of the wheel base allows Fanatec to shave a big portion of the price off of this part. It still features the metal drive shaft and metal quick release mechanism (something that Thrustmaster doesn’t have even on their high end T500RS base). The base still allows the connections for the optional shifter and e-brake.
Fanatec offers the bundle with a full version of Assetto Corsa for Xbox One for $639.85. This is a tremendous price point that puts it in range of the T500RS. Fanatec products have never been this reasonable for PC and Xbox One racers. It is still a chunk of change, but it is nowhere near the $1800 range where a full ClubSport V2 setup can be bought for.
The base can be upgraded with options such as a static paddle shifters.
I’m looking forward to seeing reviews of these parts and how they stack up to the V2 and other setups from competitors.
Specifications and Card Breakdown
The flurry of retail built cards based on NVIDIA's new Pascal GPUs has been hitting us hard at PC Perspective. So much in fact that, coupled with new gaming notebooks, new monitors, new storage and a new church (you should listen to our podcast, really) output has slowed dramatically. How do you write reviews for all of these graphics cards when you don't even know where to start? My answer: blindly pick one and start typing away.
Just after launch day of the GeForce GTX 1060, ASUS sent over the GTX 1060 Turbo 6GB card. Despite the name, the ASUS Turbo line of GTX 10-series graphics cards is the company's most basic, most stock iteration of graphics cards. That isn't necessarily a drawback though - you get reference level performance at the lowest available price and you still get the promises of quality and warranty from ASUS.
With a target MSRP of just $249, does the ASUS GTX 1060 Turbo make the cut for users looking for that perfect mainstream 1080p gaming graphics card? Let's find out.
Introduction, Specifications and Packaging
Intel launched their Datacenter 'P' Series parts a little over two years ago. Since then, the P3500, P3600, and P3700 lines have seen various expansions and spinoffs. The most recent to date was the P3608, which packed two full P3600's into a single HHHL form factor. With Intel 3D XPoint / Optane parts lurking just around the corner, I had assumed there would be no further branches of the P3xxx line, but Intel had other things in mind. IMFT 3D NAND offers greater die capacities at a reduced cost/GB, apparently even in MLC form, and Intel has infused this flash into their new P3520:
Remember the P3500 series was Intel's lowest end of the P line, and as far as performance goes, the P3520 actually takes a further step back. The play here is to get the proven quality control and reliability of Intel's datacenter parts into a lower cost product. While the P3500 launched at $1.50/GB, the P3520 pushes that cost down *well* below $1/GB for a 2TB HHHL or U.2 SSD.
Introduction and Specifications
Immediately reminiscent of other phablet devices, the Mate 8 from HUAWEI is a characteristically large, thin slab of a smartphone. But under the hood there's quite a departure from the norm, as the SoC powering the device is new to the high-end phone market - no Qualcomm, Samsung, or even MediaTek here.
"The Mate 8 takes the look and feel of the Mate series to a whole new level. Boasting a vivid 6" FHD display, an ultra slim design, a re-designed fingerprint sensor that's faster and more reliable, and a sleek aluminum unibody design, the Mate 8 is sure to impress."
The HiSilicon Kirin 950 powers the Mate 8; an 8-core design comprised of 4x ARM Cortex-A72 cores clocked at up to 2.3 GHz, and 4x ARM Cortex-A53 cores clocked at up to 1.80 GHz. Memory is 3GB for our sample, with 32GB storage; with 4GB RAM and 64GB storage is also available.
The Mate 8 looks every bit a premium device, and the metal and glass construction of the handset feels solid. It also feels rather light (185g) given its size. But how does it perform? This is an especially interesting question given the unusual silicon in the Mate 8, but the Kirin 950's Cortex-A72 is the most powerful ARM design (at least until the Cortex-A73, announced this summer, finds its way into devices).
In this review we'll explore the overall quality of the HUAWEI Mate 8, and go over usage impressions. And, of course, we'll look at some performance benchmarks to see how this Kirin 950 SoC stacks up against recent Snapdragon and Apple SoCs.
Subject: General Tech | August 29, 2016 - 01:44 PM | Ryan Shrout
Tagged: Intel, contest, giveaway, video, extreme rig challenge
Happy Monday everyone! How about a little contest to start off your work week right?
The contest will run for one week, open to anyone in the world!
Sometimes these short and sweet posts are pretty, huh?
What's new and what's not
While spending time learning about upcoming products and technologies at the Intel Developer Forum earlier this month, I sat down with the company to learn about the release of Kaby Lake, now known as the 7th Generation Core processor family. We have been seeing and reporting on the details of Kaby Lake for quite some time here on PC Perspective – it became a more important topic when we realized that this would be the product that officially killed off the ‘tick-tock’ design philosophy that Intel had implemented years ago and that was responsible for much of the innovation in the CPU space over the last decade.
Today Intel released new information about the 7th Gen CPU family and Kaby Lake. Let’s dive into this topic with a simple and straight forward mindset in how it compares to Skylake.
What is the same
Actually, quite a lot. At its core, the microarchitecture of Kaby Lake is identical to that of Skylake. Instructions per clock (IPC) remain the same with the exception of dedicated hardware changes in the media engine, so you should not expect any performance differences with Kaby Lake except with improved clock speeds we’ll discuss in a bit.
Because of this lack of change many people will look down on the Kaby Lake release as Intel’s attempt to repackage an existing product to make sure it meets a financial market required annual product cadence. It is a valid but arguable criticism, but Intel is making changes in other areas that should make KBL an improvement in the thin and light ecosystem.
Also worth noting is that Intel is still building Kaby Lake on 14nm process technology, the same used on Skylake. The term “same” will be debated as well as Intel claims that improvements made in the process technology over the last 24 months have allowed them to expand clock speeds and improve on efficiency
What is changed
Dubbing this new revision of the process as “14nm+”, Intel tells me that they have improved the fin profile for the 3D transistors as well as channel strain while more tightly integrating the design process with manufacturing. The result is a 12% increase in process performance; that is a sizeable gain in a fairly tight time frame even for Intel.
That process improvement directly results in higher clock speeds for Kaby Lake when compared to Skylake when running at the same target TDPs. In general, we are looking at 300-400 MHz higher peak clock speeds in Turbo Boost situations when compared to similar TDP products in the 6th generation. Sustained clocks will very likely remain voltage / thermally limited but the ability spike up to higher clocks for even short bursts can improve performance and responsiveness of Kaby Lake when compared to Skylake.
In these two examples, Intel compares the 15 watt Core i7-6500U (a common part in currently shipping notebooks) and the upcoming 15 watt Core i7-7500U, both with dual-core HyperThreaded configurations. In SYSmark 2014 a 12% score improvement is measured while WebXPRT shows a 19% advantage. Double digit performance increases are pretty astounding for a new generational jump that does not include a new microarchitecture or a new process technology (more or less) though we should temper expectations for other applications and workload profiles like content creation.
Subject: Motherboards | August 25, 2016 - 02:39 PM | Jeremy Hellstrom
Tagged: ROG, rampage v edition 10, asus
Remember in the 90's when all the cool people had lights glowing from underneath their cars? Now your motherboard can do the same thing, but with extra colour choices and even different effects! Leaving the RGB disease alone for now, the features on the motherboard are impressive, dual USB 3.1 Type-C ports, support for both M.2 and the Dublin version of storage, PCIe lane switches and even a mulligan button to let you retry a failed POST before having to reset your overclocking settings. The SupremeFX Hi-Fi audio codec on the board supports proper headphone thanks to the fan controller-like expansion which requires a 6 pin PCI-Express power connector to run; it even comes with coasters.
That is more than enough about the features, to see how well it performs you can pop by [H]ard|OCP.
"ASUS celebrates the 10th anniversary of its Republic of Gamers brand in style with the new Rampage V Extreme 10! To properly commemorate its decade of innovation, this motherboard needs to be nothing short of the best motherboard ASUS has ever built and a worthy successor to the Rampage name. "
Here are some more Motherboard articles from around the web:
- MSI Z170A Tomahawk AC Motherboard Review @ Hardware Canucks
- Gigabyte Z170X-Ultra Gaming @ Hardware Secrets
- Gigabyte Z170X-Ultra Gaming Review: Rebel Without a Pause at Modders-Inc
- MSI X99A GAMING PRO CARBON (with Broadwell-E) @ techPowerUp
Introduction and Technical Specifications
Courtesy of ASUS
The Strix X99 Gaming motherboard is the newest product in ASUS Strix product line, bringing a more performance gaming focused board into the ROG (Republic of Gamer) sphere. The board features an armored rear panel and audio components, integrated RGB LEDs throughout the board's surface, and support for the Intel X99 chipset. The board supports all Intel LGA2011-3 based processors paired with DDR4 memory in up to a quad channel configuration. The Maximus VIII Formula can be found in the wild for an MSRP of $399, making it more expensive than most offerings but justified in light of the integrated features and design quality of the board.
Courtesy of ASUS
Courtesy of ASUS
ASUS integrated the following features into the Strix X99 Gaming board: eight SATA 3 ports; one SATA-Express port; one U.2 32Gbps port; one M.2 PCIe x4 capable port; an Intel I218-V Gigabit NIC; 2x2 802.11ac WiFI adapter; four PCI-Express x16 slots; two PCI-Express x1 slots; on-board power, reset, MemOK!, and USB BIOS Flashback buttons; Aura RGB LED 4-pin power header; RGB Q-Slot support; 2-digit Q-Code LED diagnostic display; Q-LED support; ROG SupremeFX 8-Channel audio subsystem; and USB 3.0 and 3.1 Type-A and Type-C port support.
Subject: Memory | August 25, 2016 - 02:39 AM | Tim Verry
Tagged: TSV, SK Hynix, Samsung, hot chips, hbm3, hbm
Samsung and SK Hynix were in attendance at the Hot Chips Symposium in Cupertino, California to (among other things) talk about the future of High Bandwidth Memory (HBM). In fact, the companies are working on two new HBM products: HBM3 and an as-yet-unbranded "low cost HBM." HBM3 will replace HBM2 at the high end and is aimed at the HPC and "prosumer" markets while the low cost HBM technology lowers the barrier to entry and is intended to be used in mainstream consumer products.
As currently planned, HBM3 (Samsung refers to its implementation as Extreme HBM) features double the density per layer and at least double the bandwidth of the current HBM2 (which so far is only used in NVIDIA's planned Tesla P100). Specifically, the new memory technology offers up 16Gb (~2GB) per layer and as many as eight (or more) layers can be stacked together using TSVs into a single chip. So far we have seen GPUs use four HBM chips on a single package, and if that holds true with HBM3 and interposer size limits, we may well see future graphics cards with 64GB of memory! Considering the HBM2-based Tesla will have 16 and AMD's HBM-based Fury X cards had 4GB, HBM3 is a sizable jump!
Capacity is not the only benefit though. HBM3 doubles the bandwidth versus HBM2 with 512GB/s (or more) of peak bandwidth per stack! In the theoretical example of a graphics card with 64GB of HBM3 (four stacks), that would be in the range of 2 TB/s of theoretical maximum peak bandwidth! Real world may be less, but still that is many terabytes per second of bandwidth which is exciting because it opens a lot of possibilities for gaming especially as developers push graphics further towards photo realism and resolutions keep increasing. HBM3 should be plenty for awhile as far as keeping the GPU fed with data on the consumer and gaming side of things though I'm sure the HPC market will still crave more bandwidth.
Samsung further claims that HBM3 will operate at similar (~500MHz) clocks to HBM2, but will use "much less" core voltage (HBM2 is 1.2V).
Stacked HBM memory on an interposer surrounding a processor. Upcoming HBM technologies will allow memory stacks with double the number of layers.
HBM3 is perhaps the most interesting technologically; however, the "low cost HBM" is exciting in that it will enable HBM to be used in the systems and graphics cards most people purchase. There were less details available on this new lower cost variant, but Samsung did share a few specifics. The low cost HBM will offer up to 200GB/s per stack of peak bandwidth while being much cheaper to produce than current HBM2. In order to reduce the cost of production, their is no buffer die or ECC support and the number of Through Silicon Vias (TSV) connections have been reduced. In order to compensate for the lower number of TSVs, the pin speed has been increased to 3Gbps (versus 2Gbps on HBM2). Interestingly, Samsung would like for low cost HBM to support traditional silicon as well as potentially cheaper organic interposers. According to NVIDIA, TSV formation is the most expensive part of interposer fabrication, so making reductions there (and somewhat making up for it in increased per-connection speeds) makes sense when it comes to a cost-conscious product. It is unclear whether organic interposers will win out here, but it is nice to seem them get a mention and is an alternative worth looking into.
Both high bandwidth and low latency memory technologies are still years away and the designs are subject to change, but so far they are both plans are looking rather promising. I am intrigued by the possibilities and hope to see new products take advantage of the increased performance (and in the latter case lower cost). On the graphics front, HBM3 is way too far out to see a Vega release, but it may come just in time for AMD to incorporate it into its high end Navi GPUs, and by 2020 the battle between GDDR and HBM in the mainstream should be heating up.
What are your thoughts on the proposed HBM technologies?
Subject: Graphics Cards, Motherboards | August 29, 2016 - 01:20 AM | Scott Michaud
Tagged: pcie, PCI SIG
Last week, various outlets were reporting (incorrectly) that PCIe 4.0 would provide “at least 300W” through the slot. This would have been roughly equal to the power draw that a PCIe 3.0 GPU could provide with an extra six-pin and an extra eight-pin power connector, but do so all through the slot.
Later, the PCI-SIG contacted Tom's Hardware (and likely others) to say that this is not the case. The slot will still only provide 75W of power; any other power will still need to come from external connectors. The main advantage of the standard will be extra bandwidth, about double that of PCIe 3.0, not easing cable management or making it easier to design a graphics card (by making it harder to design a motherboard).
Subject: Motherboards | August 29, 2016 - 01:28 PM | Sebastian Peak
Tagged: X99-E-10G WS, workstation, motherboard, Intel X99, asus, 10GbE, 10 gigabit
ASUS has officially announced their latest workstation board for the Intel X99 platform, and the X99-E-10G WS offers a 10GbE NIC. In fact, it has two of the Intel X550-powered 10 Gigabit Ethernet ports onboard (along with many more premium features).
ASUS lists these key features:
- First workstation board with dual Intel® 10G LANs (X550-AT2) on board
- 4-Way PCI-E Gen3 x16 link supporting NVidia GeForce SLI® and AMD CrossFireX™ on demand
- 5-Way Optimization by Dual Intelligent Processors 5 – One click, total system optimization
- Ultimate transfer speed : the latest 10Gb/s USB 3.1 type-A and type-C, 32Gbit/s M.2 and U.2
- SafeSlot : reinvented, strengthened PCIe slot utilizes a new insert-molding process for superior retention and shearing resistance
The full list of specifications is daunting, as ASUS has packed just about every imaginable option into this board. Processor support also extends beyond Core i7 processors to include Intel Xeon E5-1600 v3, E5-2600 v3, E5-1600 v4, and E5-2600 v4 series CPUs. (Naturally, ECC memory is supported when using a compatible CPU.)
We await info on pricing and availablity.
Subject: General Tech | August 25, 2016 - 10:51 AM | Ryan Shrout
Tagged: Zen, video, seasonic, Polaris, podcast, Omen, nvidia, market share, Lightning, hp, gtx 1060 3gb, gpu, brix, Audeze, asus, architecture, amd
PC Perspective Podcast #414 - 08/25/2016
Join us this week as we discuss the newly released architecture details of AMD Zen, Audeze headphones, AMD market share gains and more!
The URL for the podcast is: http://pcper.com/podcast - Share with your friends!
- iTunes - Subscribe to the podcast directly through the Store (audio only)
- Google Play - Subscribe to our audio podcast directly through Google Play!
- RSS - Subscribe through your regular RSS reader (audio only)
- MP3 - Direct download link to the MP3 file
Hosts: Ryan Shrout, Allyn Malventano, Josh Walrath and Jeremy Hellstrom
Week in Review:
News items of interest:
Hardware/Software Picks of the Week
Subject: General Tech | August 26, 2016 - 01:04 PM | Jeremy Hellstrom
Tagged: gddr6, Samsung, delay
The Inquirer offered some sad news for anyone hoping to see GDDR6 next year as Samsung is now aiming to deliver in 2018. The specifications remain the same, internal bandwidth topping out at 16Gbps, compared to GDDR5X at 12Gbps. That will translate to a maximum of 512GBps on a 256-bit memory bus, 786GBps on a 384-bit bus. Mobile devices will also appreciate the new standard as it should use around 20% less power, good news for those who buy gaming laptops.
"SAMSUNG HAS ANNOUNCED that GDDR6 memory interface technology will be introduced in 2018, not 2017 as was previously expected."
Here is some more Tech News from around the web:
- Larry Page snuffs out ‘too expensive’ Google Fiber project @ The Register
- Linus on Linux's 25th Birthday @ Slashdot
- Snapdragon 800 devices reportedly won't receive Android 7.0 update @ The Inquirer
- IoT manufacturer caught fixing security holes @ The Register
Subject: Cases and Cooling | August 26, 2016 - 01:33 PM | Jeremy Hellstrom
Tagged: thermaltake, core 100 pedestal, W100 Super Tower Chassis
The Thermaltake Core P100 is something new to the market, except perhaps for the Cooler Master HAF Stacker 935 case components. It adds additional space to Thermaltake's W100 chassis and is aptly named as the P100 is placed underneath the W100. You will need to assemble it as it ships in pieces, just as the W100 does so expect to put some work into setting up these cases. Once assembled it measures 9.8x12.2x26.7" and gives you space to add additional radiators to your system, you could place the PSU in there and still fit in some smaller radiators or perhaps even fill it with drives. Drop by [H]ard|OCP to see some of the possiblities, including a complete mini-ITX build.
"The Thermaltake Core P100 Pedestal is an expansion part for the Thermaltake W100 full tower case previously reviewed here. What the P100 does is give you the ability to expand you cooling system's ability or give you space for extra storage among other things into an entirely self-contained unit below the W100 chassis."
Here are some more Cases & Cooling reviews from around the web:
- Raijintek Nestor Review: A €50 Enthusiast Case @ Modders-Inc
- Thermaltake Water 3.0 Riing RGB 240 Liquid Cooler Review @ Neoseeker
- Cooler Master MasterLiquid Maker 92 @ techPowerUp
Subject: General Tech | August 26, 2016 - 10:19 PM | Scott Michaud
Tagged: blizzard, facebook, OBS
So I was greeted with an interesting pop-up when I updated my Battle.net launcher today. Turns out Blizzard is pushing Blizzard Streaming to “the Americas, Southeast Asia, Australia, and New Zealand”. Currently, Facebook is the only platform that you can stream to, and Blizzard hasn't announced bringing it to others, but the settings area is clearly a vertical list of horizontal widgets, so that suggests they intend to add more than one at some point.
As for the application, itself, this could be useful (especially if other services are added) for users who only stream Blizzard titles, and who want something designed a bit more mainstream than OBS. That said, Raptr and GeForce Experience both fall under this category. Moreover, Blizzard doesn't clarify whether or not the stream will make use of NVIDIA's NVENC, Intel's Quick Sync, or AMD's VCE, all three of which are supported on OBS Studio. Granted, Blizzard titles tend to be easy to compute, but it is hard to beat encoding on an idle, integrated GPU, if you should have one.
That said, choices are good, and you now have another.
Subject: General Tech | August 25, 2016 - 12:37 PM | Jeremy Hellstrom
Tagged: MegaMIMO 2.0, wireless router, wifi, mu-mimo
Multi-In Multi-Out routers are a wonderful thing, not only are the routers far more tentacular than before, the technology also make our unwired lives better as Sebastian explained. The only thing that could make it better is a bandwidth boost, which is what these researchers at MIT have been working on. In an experiment involving laptop bearing Roombas they showed a increase of 330% in transfer speeds thanks to synchronized phases allowing multiple signals to be sent on the same frequency. Pop on over to Slashdot to learn more about their research.
"Scientists at MIT claim to have created a new wireless technology that can triple Wi-Fi data speeds while also doubling the range of the signal. Dubbed MegaMIMO 2.0, the system will shortly enter commercialization and could ease the strain on our increasingly crowded wireless networks."
Here is some more Tech News from around the web:
- Windows Update borks PowerShell – Microsoft won't fix it for a week @ The Register
- Amazon's Kindle Paperwhite triggers BSOD on up-to-date Windows 10 PCs @ The Inquirer
- Google tells popup ads to p*** off on mobes @ The Register
- Linux celebrates the first of its two 25th birthdays @ The Inquirer
- AVM FRITZ!Powerline 1240E WLAN Set Review @ NikKTech
- AMD Zen Sneak Peek @ Hot Chips 2016
- Just a little FYI: Small town ISPs want out of FCC privacy rules @ The Register
Subject: General Tech | August 29, 2016 - 02:27 PM | Jeremy Hellstrom
Tagged: z-ssd, NVMe, Samsung, HHHL
The Register had a quick chat with Samsung about the Z-SSD they announced at FMS 2016, hoping to get some details from the company about the technology behind the new product, with little success. We know it will be DRAM-NAND gap-filler such as the one Netlist announced earlier and will be possible competition for Intel's XPoint. Samsung did confirm that it will be NVMe and will initially launch as a half height, half length PCIe card, with other interfaces to follow. They did admit it will use 3D V-NAND, but would only hint at the custom circuit design they will use. The Register offers some prognostication at the end of the quick interview, you can see that right here.
"The mysterious Samsung Z-SSD was announced at the Flash Memory Summit, and positioned as a DRAM-NAND gap-filler. This makes it competition for XPoint. We asked Samsung about it, and here is what we learnt."
Here is some more Tech News from around the web:
- Players Seek 'No Man's Sky' Refunds, Sony's Content Director Calls Them Thieves @ Slashdot
- If you haven't changed your Dropbox password for 4 years, do so now @ The Register
Subject: Storage | August 29, 2016 - 04:37 PM | Jeremy Hellstrom
Tagged: microSD, Samsung, evo plus, U3, UHS-I
A while back Al broke down the specifications of SD cards and what each class meant and the proper usage for them. The top class is U3 and it offers transfer speeds high enough to support recording 4K video on your devices and that happens to be the rating on the new 256GB Samsung EVO Plus MicroSD. Legion Hardware just tested this MicroSD card and it now holds the title of best performing SD card they have tested. The performance does come at a premium, the MSRP of the card is $250 and even with a 10 year warranty this is still an expensive purchase. If you need the ability to record 4K video immediately this is the fast solution available but if you are still in the planning stages, remember that there is a new standard, UFS, which is due to hit the market soon and impact pricing of older products.
"Running out of storage on your smartphone, tablet or 4K video camera? Well the good news is SD cards have never been more affordable and crucially offered such huge storage capacities. In fact, Samsung recently announced the availability of a 256GB version of their popular EVO Plus MicroSD card series"
Here are some more Storage reviews from around the web:
- Seagate Innov8 8TB USB 3.1 Type-C Desktop HDD @ Nikktech
- Drobo 5n NAS @ Kitguru
- Asustor AS3102T @ Kitguru
Subject: Systems, Mobile | August 31, 2016 - 10:33 AM | Sebastian Peak
Tagged: 2560x1080, ips, Predator 21 X, notebook, laptop, gaming, curved, acer, kaby lake, GTX 1080, sli
Acer has announced "the world's first notebook with a curved screen", and this panel happens to be attached to a very high-end gaming laptop in the Predator 21 X.
In addition to the 2560x1080 curved 21-inch display, the new machine also offers Tobii eye-tracking technology, Intel 7th Generation "Kaby Lake" processors, and (last but not least) dual NVIDIA GTX 1080 GPUs in SLI.
"The Predator 21 X takes the flagship spot in Acer’s gaming notebook series and is advanced beyond anything on the market today. It’s the world’s first notebook to offer a curved 21-inch IPS display (2560 x 1080), and when combined with wide-angle viewing, it delivers a truly immersive gaming experience.
To bring gameplay immersion to the next level, the notebook also integrates Tobii eye-tracking technology for a new method of control that’s more intuitive and natural. Built-in eye-tracking hardware (infrared sensors and software) unlocks a completely new facet in gaming. By tracking a gamer’s eye with software, the notebook introduces new interactions like aiming, identifying enemies and taking cover simply by gazing at objects on the screen. Eye tracking also enhances the experience by providing infinite views whilst navigating treacherous paths and roads in a game."
Other features of the Predator 21 X include a keyboard with Cherry MX key switches, a unique design for the numeric keypad "that allows it to be flipped over and turned into a Precision Touchpad", a 5-fan cooling system, and a 4-speaker, dual-subwoofer premium sound system.
Pricing and availability have not been revealed.
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