An anonymous reader quotes a report from Tom’s Hardware: Qualcomm and its Qualcomm Datacenter Technologies subsidiary announced today that the company has already begun sampling its first 10nm server processor. The Centriq 2400 is the second generation of Qualcomm server SOCs, but it is the first in its new family of 10nm FinFET processors. The Centriq 2400 features up to 48 custom Qualcomm ARMv8-compliant Falkor cores and comes a little over a year after Qualcomm began developing its first-generation Centriq processors. Qualcomm’s introduction of a 10nm server chip while Intel is still refining its 14nm process appears to be a clear shot across Intel’s bow–due not only to the smaller process, but also its sudden lead in core count. Intel’s latest 14nm E7 Broadwell processors top out at 24 cores. Qualcomm isn’t releasing more information, such as clock speeds or performance specifications, which would help to quantify the benefit of its increased core count. The server market commands the highest margins, which is certainly attractive for the mobile-centric Qualcomm, which found its success in the relatively low-margin smartphone segment. However, Intel has a commanding lead in the data center with more than a 99% share of the world’s server sockets, and penetrating the segment requires considerable time, investment, and ecosystem development. Qualcomm unveiled at least a small portion of its development efforts by demonstrating Apache Spark and Hadoop on Linux and Java running on the Centriq 2400 processor. The company also notes that Falkor is SBSA compliant, which means that it is compatible with any software that runs on an ARMv8-compliant server platform. Read more of this story at Slashdot.
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Qualcomm Debuts 10nm Server Chip To Attack Intel Server Stronghold
MojoKid writes: AMD just dropped its new Catalyst Omega driver package that is the culmination of six months of development work. AMD Catalyst Omega reportedly brings over 20 new features and a wealth of bug fixes to the table, along with performance increases both on AMD Radeon GPUs and integrated AMD APUs. Some of the new functionality includes Virtual Super Resolution, or VSR. VSR is “game- and engine-agnostic” and renders content at up to 4K resolution, then displays it at a resolution that your monitor actually supports. AMD says VSR allows for increased image quality, similar in concept to Super Sampling Anti-Aliasing (SSAA). Another added perk of VSR is the ability to see more content on the screen at once. To take advantage of VSR, you’ll need a Radeon R9 295X2, R9 290X, R9 290, or R9 285 discrete graphics card. Both single- and multi-GPU configurations are currently supported. VSR is essentially AMD’s answer to NVIDIA’s DSR, or Dynamic Super Resolution. In addition, AMD is claiming performance enhancements in a number of top titles with these these new drivers. Reportedly, as little as 6 percent improvement in performance in FIFA Online to as much as a 29 percent increase in Batman: Arkham Origins can be gained when using an AMD 7000-Series APU, for example. On discrete GPUs, an AMD Radeon R9 290X’s performance increases ranged from 8 percent in Grid 2 to roughly 16 percent in Bioshock Infinity. Read more of this story at Slashdot. 
Zothecula writes “A team of researchers working at Stockholm’s KTH Royal Institute of Technology claim to have developed a way to make cellulose fibers stronger than steel on a strength-to-weight basis. In what is touted as a world first, the team from the institute’s Wallenberg Wood Science Center claim that the new fiber could be used as a biodegradable replacement for many filament materials made today from imperishable substances such as fiberglass, plastic, and metal. And all this from a substance that requires only water, wood cellulose, and common table salt to create it. The full academic paper is available from Nature Communications.” Read more of this story at Slashdot. 
Do you hear that? In the distance? That’s the sound of thousands of college students shouting with joy. Because designer Benjamin Vermeulen has created a line of easy to assemble flat-pack furniture that doesn’t require screws, nuts, bolts, or those dreaded allen wrenches. Just the magic of magnets. Read more… 
MojoKid writes “AMD has launched their new top-end Radeon R9 290X graphics card today. The new flagship wasn’t ready in time for AMD’s recent October 8th launch of midrange product, but their top of the line model, based on the GPU codenamed Hawaii, is ready now. The R9 290 series GPU (Hawaii) is comprised of up to 44 compute units with a total of 2, 816 IEEE-2008 compliant shaders. The GPU has four geometry processors (2x the Radeon HD 7970) and can output 64 pixels per clock. The Radeon R9 290X features 2816 Stream Processors and an engine clock of up to 1GHz. The card’s 4GB of GDDR5 memory is accessed by the GPU via a wide 512-bit interface and the R290X requires a pair of supplemental PCIe power connectors—one 6-pin and one 8-pin. Save for some minimum frame rate and frame latency issues, the new Radeon R9 290X’s performance is impressive overall. AMD still has some obvious driver tuning and optimization to do, but frame rates across the board were very good. And though it wasn’t a clean sweep for the Radeon R9 290X versus NVIDIA’s flagship GeForce GTX 780 or GeForce GTX Titan cards, AMD’s new GPU traded victories depending on the game or application being used, which is to say the cards performed similarly.” Read more of this story at Slashdot. 