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ARM Launches Juno
ARM has announced two programs to assist Android’s ascent into the 64-bit architecture market.
The first of those is Linaro, a port of the Android Open Source Project to the 64-bit ARMv8-A architecture. ARM said the port was done on a development board codenamed “Juno”, which is the second initiative to help Android reach the 64-bit market.
The Juno hardware development platform includes a system on chip (SoC) powered by a quad-core ARM Cortex-A53 CPU and dual-core ARM Cortex-A57 CPU in an ARM big.little processing configuration.
Juno is said to be an “open, vendor neutral ARMv8 development platform” that will also feature an ARM Mali-T624 graphics processor.
Alongside the news of the 64-bit initiatives, ARM also announced that Actions Semiconductor of China signed a license agreement for the 64-bit ARM Cortex-A50 processor family.
“Actions provides SoC solutions for portable consumer electronics,” ARM said. “With this IP license, Actions will develop 64-bit SoC solutions targeting the tablet and over-the-counter (OTT) set top box markets.”
The announcements from ARM come at an appropriate time, as it was only last week that Google announced the latest version of its Android mobile operating system, Android L, which comes with support for 64-bit processors. ARM’s latest developments mean that Android developers are likely to take advantage of them in the push to take Android to the 64-bit market.
Despite speculation that it would launch as Android 5.0 Lollipop, Google outed its next software iteration on Wednesday last week as simply Android L, touting the oddly-named iteration as “the largest update to the operating system yet”.
nVidia Releases CUDA
Nvidia has released CUDA – its code that lets developers run their code on GPUs – to server vendors in order to get 64-bit ARM cores into the high performance computing (HPC) market.
The firm said today that ARM64 server processors, which are designed for microservers and web servers because of their energy efficiency, can now process HPC workloads when paired with GPU accelerators using the Nvidia CUDA 6.5 parallel programming framework, which supports 64-bit ARM processors.
“Nvidia’s GPUs provide ARM64 server vendors with the muscle to tackle HPC workloads, enabling them to build high-performance systems that maximise the ARM architecture’s power efficiency and system configurability,” the firm said.
The first GPU-accelerated ARM64 software development servers will be available in July from Cirrascale and E4 Computer Engineering, with production systems expected to ship later this year. The Eurotech Group also plans to ship production systems later this year.
Cirrascale’s system will be the RM1905D, a high density two-in-one 1U server with two Tesla K20 GPU accelerators, which the firm claims provides high performance and low total cost of ownership for private cloud, public cloud, HPC and enterprise applications.
E4′s EK003 is a production-ready, low-power 3U dual-motherboard server appliance with two Tesla K20 GPU accelerators designed for seismic, signal and image processing, video analytics, track analysis, web applications and Mapreduce processing.
Eurotech’s system is an “ultra-high density”, energy efficient and modular Aurora HPC server configuration, based on proprietary Brick Technology and featuring direct hot liquid cooling.
Featuring Applied Micro X-Gene ARM64 CPUs and Nvidia Tesla K20 GPU accelerators, the new ARM64 servers will provide customers with an expanded range of efficient, high-performance computing options to drive compute-intensive HPC and enterprise data centre workloads, Nvidia said.
Nvidia added, “Users will immediately be able to take advantage of hundreds of existing CUDA-accelerated scientific and engineering HPC applications by simply recompiling them to ARM64 systems.”
ARM said that it is working with Nvidia to “explore how we can unite GPU acceleration with novel technologies” and drive “new levels of scientific discovery and innovation”.
Intel Links Up With Rockchip
Intel has joined forces with Chinese chip design firm Rockchip to develop next generation processors for the tablet market based on Intel Atom core technology and integrating 3G broadband communications.
Under the terms of the agreement, Intel and Fuzhou Rockchip Electronics (Rockchip) will work together on an Intel branded mobile system on chip (SoC) processor with the intention of enabling a range of entry-level Android tablets.
The chip is expected to ship in the first half of 2015, according to Intel, and will be based on a quad-core Atom processor design integrated with Intel’s 3G modem technology, which the firm gained through its acquisition of Infineon Technologies in 2010.
Rockchip, which is expected to contribute to the integrated graphics technology, will also help Intel bring the product to market faster than might otherwise be the case. The firm is a leading fabless semiconductor design company and already develops mobile SoCs, although its present designs are largely focused around the ARM architecture.
The agreement builds on announcements Intel made at an investor relations day last year, where chief executive Brian Krzanich disclosed the Intel Sofia family, of which the latest chip will form part, and conceded that the chipmaker needed to become more agile in order to gain traction in entry-level markets.
“The strategic agreement with Rockchip is an example of Intel’s commitment to take pragmatic and different approaches to grow our presence in the global mobile market by more quickly delivering a broader portfolio of Intel architecture and communications technology solutions,” Krzanich said.
With this announcement, the Intel Sofia family comprises three products, which are not shipping yet.
A dual-core 3G version is slated for the fourth quarter this year, the quad-core 3G version is due in the first half of 2015, and a version with 4G/LTE communication is also due in the first half of next year.
GPUs Down In Q1
June 5, 2014 by admin
Filed under Around The Net
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According to Jon Peddie Research (JPR), shipments of discrete graphics cards were down in the first quarter of the year. This is in line with seasonal trends, as the market cools down after the holiday season.
The sequential drop was 6.7 percent, which was still better than the overall desktop PC market, which slumped 9 percent. However, on a year-to-year basis add-in-board (AIB) shipments were down 0.8 percent. PC sales were down 1.1 percent.
Nvidia still controls two thirds of the market
Total AIB shipments in Q1 were just 14 million units. AMD and Nvidia both saw their shipments decrease 6.6 percent, so their market share did not change much.
Nvidia controls an estimated 65 percent of the market, up from 64.2 percent last year. AMD’s market share in Q1 was 35 percent, down from 35.6 percent a year ago.
The overall volume remains weak and in the long run things could get even worse, as on-die integrated graphics have already taken a big toll on sales of entry level discrete cards. As integrated GPUs become even faster, they are likely to cannibalize the low end market even further.
JPR points out that the AIB market peaked in 1999, with 114 million units shipped. Last year saw only 65 million units and the stagnant trend is likely to continue this year.
It’s not all bad news for AIBs
Although the slump in discrete GPU shipments is hurting AMD and NV hardware partners, JPR offers a rather encouraging outlook.
It points out that graphics cards are one of the most powerful, essential and exciting components in the PC market today. PC gaming is hardly dead, in fact it is going through what can only be described as a small renaissance. PCs will offer 4K/UHD gaming years ahead of consoles and the Steam Machine concept is looking good, too.
The compute market is another driver, as JPR points out:
“The technology is entering into major new markets like supercomputers, remote workstations, and simulators almost on a daily basis. It would be little exaggeration to say that the AIB resembles the 800-pound gorilla in the room.”
The AIB market is quite a bit less colourful and eventful than it was back in the day, but at least AIBs still have a lot on their hands and they are trying to tap new markets.
Can MediTek Win With Amazon?
According to the Taiwan Economic Daily, the chipmaker will supply SoCs for upcoming Amazon tablets. Details are sketchy and it is unclear whether MediaTek has landed an order for all Kindle Fire SKUs or just one of them. The paper claims MediaTek will start shipping the chips later this year, but we have no way of confirming or denying the report.
The chip in question appears to be the MT8135. It is a mid-range big.LITTLE part announced last year and it features two Cortex A15 and two Cortex A7 CPU cores. The GPU comes from Imagination and it’s the relatively fresh PowerVR G6200. The GPU is capable of churning out 83.2 GFLOPS at 650MHz, depending on the configuration of course.
It sounds like a decent all-round SoC, with a substantially faster GPU than previous MediaTek offerings in the same segment, which were powered by venerable SGX 54x and Mali 400/450 GPUs.
Information is limited and we can’t say for sure whether or not MediaTek actually landed the deal, or whether the deal includes more than a single Kindle Fire SKU. If true, it is a big coup for the Taiwan-based chipmaker, as Amazon ships up to two million Kindle tablets each quarter.
It would also help MediaTek’s ambitious tablet plans. The company hopes to double shipments of tablet-centric SoC products this year.
ARM To Focus On 64-bit SoC
ARM announced its first 64-bit cores a while ago and SoC makers have already rolled out several 64-bit designs. However, apart from Apple nobody has consumer oriented 64-bit ARM devices on the market just yet. They are slowly starting to show up and ARM says the transition to 64-bit parts is accelerating. However, the first wave of 64-bit ARM parts is not going after the high-end market.
Is 64-bit support on entry-level SoCs just a gimmick?
This trend raises a rather obvious question – are low end ARMv8 parts just a marketing gimmick, or do they really offer a significant performance gain? There is no straight answer at this point. It will depend on Google and chipmakers themselves, as well as phonemakers.
Qualcomm announced its first 64-bit part late last year. The Snapdragon 410 won’t turn many heads. It is going after $150 phones and it is based on Cortex A53 cores. It also has LTE, which makes it rather interesting.
MediaTek is taking a similar approach. Its quad-core MT6732 and octa-core MT6752 parts are Cortex A53 designs, too. Both sport LTE connectivity.
Qualcomm and MediaTek appear to be going after the same market – $100 to $150 phones with LTE and quad-core 64-bit stickers on the box. Marketers should like the idea, as they’re getting a few good buzzwords for entry-level gear.
However, we still don’t know much about their real-world performance. Don’t expect anything spectacular. The Cortex A53 is basically the 64-bit successor to the frugal Cortex A7. The A53 has a bit more cache, 40-bit physical addresses and it ends up a bit faster than the A7, but not by much. ARM says the A7 delivers 1.9DMIPS/MHz per core, while the A53 churns out 2.3DMIPS/MHz. That puts it in the ballpark of the good old Cortex A9. The first consumer oriented quad-core Cortex A9 part was Nvidia’s Tegra 3, so in theory a Cortex A53 quad-core could be as fast as a Tegra 3 clock-for-clock, but at 28nm we should see somewhat higher clocks, along with better graphics.
That’s not bad for $100 to $150 devices. LTE support is just the icing on the cake. Keep in mind that the Cortex A7 is ARM’s most efficient 32-bit core, hence we expect nothing less from the Cortex A53.
The Cortex A57 conundrum
Speaking to CNET’s Brooke Crothers, ARM executive vice president of corporate strategy Tom Lantzsch said the company was surprised by strong demand for 64-bit designs.
“Certainly, we’ve had big uptick in demand for mobile 64-bit products. We’ve seen this with our [Cortex] A53, a high-performance 64-bit mobile processor,” Lantzch told CNET.
He said ARM has been surprised by the pace of 64-bit adoption, with mobile parts coming from Qualcomm, MediaTek and Marvell. He said he hopes to see 64-bit phones by Christmas, although we suspect the first entry-level products will appear much sooner.
Lantzsch points out that even 32-bit code will run more efficiently on 64-bit ARMv8 parts. As software support improves, the performance gains will become more evident.
But where does this leave the Cortex A57? It is supposed to replace the Cortex A15, which had a few teething problems. Like the A15 it is a relatively big core. The A15 was simply too big and impractical on the 32nm node. On 28nm it’s better, but not perfect. It is still a huge core and its market success has been limited.
As a result, it’s highly unlikely that we will see any 28nm Cortex A57 parts. Qualcomm’s upcoming Snapdragon 810 is the first consumer oriented A57 SoC. It is a 20nm design and it is coming later this year, just in time for Christmas as ARM puts it. However, although the Snapdragon 810 will be ready by the end of the year, the first phones based on the new chip are expected to ship in early 2015.
While we will be able to buy 64-bit Android (and possibly Windows Phone) devices before Christmas, most if not all of them will be based on the A53. That’s not necessarily a bad thing. Consumers won’t have to spend $500 to get a 64-bit ARM device, so the user base could start growing long before high-end parts start shipping, thus forcing developers and Google to speed up 64-bit development.
If rumors are to be believed, Google is doing just that and it is not shying away from small 64-bit cores. The search giant is reportedly developing a $100 Nexus phone for emerging markets. It is said to be based on MediaTek’s MT6732 clocked at 1.5GHz. Sounds interesting, provided the rumour turns out to be true.
Can AMD Grow
AMD posted some rather encouraging Q1 numbers last night, but slow PC sales are still hurting the company, along with the rest of the sector.
When asked about the PC market slump, AMD CEO Rory Read confirmed that the PC market was down sequentially 7 percent. This was a bit better than the company predicted, as the original forecast was that the PC market would decline 7 to 10 percent.
Rory pointed out that AMD can grow in the PC market as there is a lot of ground that can be taken from the competition. The commercial market did better than expected and Rory claims that AMD’s diversification strategy is taking off. AMD is trying to win market share in desktop and commercial segments, hence AMD sees an opportunity to grown PC revenue in the coming quarters. Rory also expects that tablets will continue to cannibalize the PC market. This is not going to change soon.
Kaveri and Kabini will definitely help this effort as both are solid parts priced quite aggressively. Kabini is also available in AMD’s new AM1 platform and we believe it is an interesting concept with plenty of mass market potential. Desktop and Notebook ASPs are flat which is something that the financial community really appreciated. It would not be so unusual that average selling prices were down since the global PC market was down.
Kaveri did well in the desktop high-end market in Q1 2014 and there will be some interesting announcements in the mobile market in Q2 2014 and beyond.
SkySQL Joins IBM On SQL Merger
SkySQL has announced a line of MariaDB products that combine NoSQL and SQL technology, offering users the ability to handle large unstructured data sets alongside traditional database features to ensure data consistency.
Available immediately, MariaDB Enterprise 2 and MariaDB Enterprise Cluster 2 are based on the code used in the firm’s MariaDB 10 database server, which it also released today.
According to SkySQL, the availability of an enterprise grade SQL database system with NoSQL interoperability will be a game changer for developers building revenue generating applications and database administrators in charge of large, complex environments.
The two new products have been developed with support from other partners in the open source community, including Red Hat, IBM and Google, according to the firm, and are aimed at giving IT managers more options for managing large volumes of data.
In fact, Red Hat will use MariaDB Enterprise 2 as the default database for its enterprise customers, while Google has also moved large parts of its infrastructure to MariaDB, according to Dion Cornett, VP of Global Sales for SkySQL .
Cornett said that customers have been using a wide variety of databases over the past few years in order to meet the diverse requirements of applications.
“The types of applications have evolved over time, and the challenge we now have today is that people have different IT stack structures, and trying to integrate all that has been very challenging and required lots of custom code to be created. What we’re doing with MariaDB is introduce an array of features to combine the best of both worlds,” he said.
The features are designed to allow developers and database administrators to take many different data structures and integrate them and use them in a cohesive application, in the same way that standard database tools presently allow.
These include the Connect Storage Engine, which enables access to a wide variety of file formats such as XML and CSV files, and the ability to run familiar SQL commands against that data.
A key feature is dynamic columns, which enables MariaDB to “smartly interpret” incoming data and adapt it to the data structure that best fits, according to Cornett.
“At a technical level what you’re actually looking at are files within the cells of information that can vary in size, which is not a capability you’ve traditionally had in databases and that flexibility is a big leap forward,” he said.
The new MariaDB products can also plug into the Apache Cassandra storage engine, which can take a columnar data store and read or write against it like it is a traditional SQL table.
An example of how MariaDB Enterprise 2 might be used is if a service provider has a large-scale video server and wants to combine that with billing information, Cornett said.
“The customer’s video history and what they’re consuming could be very unstructured, but the billing structure will be very fixed, and it has been something of a challenge to bring the two of those together up to this point,” he explained.
Can DirectX-12 Give Mobile A Boot?
Microsoft announced DirectX 12 just a few days ago and for the first time Redmond’s API is relevant beyond the PC space. Some DirectX 12 tech will end up in phones and of course Windows tablets.
Qualcomm likes the idea, along with Nvidia. Qualcomm published an blog post on the potential impact of DirectX 12 on the mobile industry and the takeaway is very positive indeed.
DirectX 12 equals less overhead, more battery life
Qualcomm says it has worked closely with Microsoft to optimise “Windows mobile operating systems” and make the most of Adreno graphics. The chipmaker points out that current Snapdragon chipsets already support DirectX 9.3 and DirectX 11. However, the transition to DirectX 12 will make a huge difference.
“DirectX 12 will turbocharge gaming on Snapdragon enabled devices in many ways. Just a few years ago, our Snapdragon processors featured one CPU core, now most Snapdragon processors offer four. The new libraries and API’s in DirectX 12 make more efficient use of these multiple cores to deliver better performance,” Qualcomm said.
DirectX 12 will also allow the GPU to be used more efficiently, delivering superior performance per watt.
“That means games will look better and deliver longer gameplay longer on a single charge,” Qualcomm’s gaming and graphics director Jim Merrick added.
What about eye candy?
Any improvement in efficiency also tends to have a positive effect on overall quality. Developers can get more out of existing hardware, they will have more resources at their disposal, simple as that.
Qualcomm also points out that DirectX 12 is also the first version to launch on Microsoft’s mobile operating systems at the same time as its desktop and console counterparts.
The company believes this emphasizes the growing shift and consumer demand for mobile gaming. However, it will also make it easier to port desktop and console games to mobile platforms.
Of course, this does not mean that we’ll be able to play Titanfall on a Nokia Lumia, or that similarly demanding titles can be ported. However, it will speed up development and allow developers and publishers to recycle resources used in console and PC games. Since Windows Phone isn’t exactly the biggest mobile platform out there, this might be very helpful and it might attract more developers.
AMD, Intel & nVidia Go OpenGL
AMD, Intel and Nvidia teamed up to tout the advantages of the OpenGL multi-platform application programming interface (API) at this year’s Game Developers Conference (GDC).
Sharing a stage at the event in San Francisco, the three major chip designers explained how, with a little tuning, OpenGL can offer developers between seven and 15 times better performance as opposed to the more widely recognised increases of 1.3 times.
AMD manager of software development Graham Sellers, Intel graphics software engineer Tim Foley and Nvidia OpenGL engineer Cass Everitt and senior software engineer John McDonald presented their OpenGL techniques on real-world devices to demonstrate how these techniques are suitable for use across multiple platforms.
During the presentation, Intel’s Foley talked up three techniques that can help OpenGL increase performance and reduce driver overhead: persistent-mapped buffers for faster streaming of dynamic geometry, integrating Multidrawindirect (MDI) for faster submission of many draw calls, and packing 2D textures into arrays, so texture changes no longer break batches.
They also mentioned during their presentation that with proper implementations of these high-level OpenGL techniques, driver overhead could be reduced to almost zero. This is something that Nvidia’s software engineers have already claimed is impossible with Direct3D and only possible with OpenGL (see video below).
Nvidia’s VP of game content and technology, Ashu Rege, blogged his account of the GDC joint session on the Nvidia blog.
“The techniques presented apply to all major vendors and are suitable for use across multiple platforms,” Rege wrote.
“OpenGL can cut through the driver overhead that has been a frustrating reality for game developers since the beginning of the PC game industry. On desktop systems, driver overhead can decrease frame rate. On mobile devices, however, driver overhead is even more insidious, robbing both battery life and frame rate.”
The slides from the talk, entitled Approaching Zero Driver Overhead, are embedded below.
At the Game Developers Conference (GDC), Microsoft also unveiled the latest version of its graphics API, Directx 12, with Direct3D 12 for more efficient gaming.
Showing off the new Directx 12 API during a demo of Xbox One racing game Forza 5 running on a PC with an Nvidia Geforce Titan Black graphics card, Microsoft said Directx 12 gives applications the ability to directly manage resources to perform synchronisation. As a result, developers of advanced applications can control the GPU to develop games that run more efficiently.