Here’s the upcoming Qualcomm Dragonboard 820c shown off doing some multimedia streaming running Debian with VLC, Icecast and a USB Radios dongle. Filmed at the Linaro Connect.
Qualcomm Dragonboard 820c runs Debian Radios streaming with VLC, Icecast
Keynote: Heather Meeker (O’Melveny & Myers LLP) at Linaro Connect San Francisco 2017
Keynote: Heather Meeker (O’Melveny & Myers LLP) Read more at http://connect.linaro.org/resource/sfo17/sfo17-300k2/
Cavium Octeon TX CN83XX 24-core 64bit ARMv8 for 5G Cellular Backhaul
Cavium engineers are showing the Cavium Octeon TX 24-core 64bit ARMv8 platform handling the IPsec tunnel for future base stations to be used for the 5G backhaul, to increase bandwidth, increase coverage for cellular networks around the world. Filmed at Linaro Connect.
RISC-V Linux Port is Upstream, interview with Palmer Dabbelt of SiFive, binutils and gcc maintainer
RISC-V Linux port has been accepted into Linus’ tree and is slated to release as part of 4.15. While this is a major milestone for RISC-V, they’re far from done in Linux kernel land and there’s a whole lot of work left to be done in userspace.
RISC-V is an open instruction set architecture (ISA) that began in 2010 at the University of California, Berkeley, based on established reduced instruction set computing (RISC) principles, it can be freely used for any purpose, permitting anyone to design, manufacture and sell RISC-V chips and software.
Terrafugia Flying Car Interview
Terrafugia’s The Transition is the world’s first practical flying car. It offers the convenience of driving and the speed of flight, and will incorporate autonomous technologies that will make the Transition safer than any other small aircraft in the sky. Terrafugia has already developed and flown two full-scale prototypes, and has received all of the special legal approvals necessary to bring the Transition to market in the USA. And for the the Future, Terrafugia’s plans to later release the TF-X, a mass-market flying car with the potential to revolutionize the way people get around. An all-electric vehicle with vertical takeoff and landing (VTOL) capabilities and computer-controlled flight, the TF-X is the flying car of the future. This video was filmed at the IDTechEx Show! You can also watch Terrafugia’s presentation video here.
Terrafugia Flying Car Keynote at the IDTechEx Show!
Terrafugia CTO and Co-Founder Carl Dietrich presents Terrafugia’s flying car in this presentation, including some of their innovations including sensing, IoT and autonomous systems. Terrafugia’s mission is to create practical flying cars that enable a new dimension of personal freedom. With operational flying/driving prototypes and being acquired by Volvo Owner Geely. You can also watch the Interview video by Dr. Peter Harrop with Terrafugia here.
Me2EV L-Loop Lithium to Lead EV battery Range Extender
As a solution for range anxiety for electric vehicles, http://me2ev.com presents their ME2 L-Loop Lithium to Lead battery range extender, for plug-in vehicles in places that might lack charging stations, the ME2 L-Loop is a retrofitted mobile charging station right in the trunk of the electric vehicle, Me2EV claims it’s a cheap way to possibly double the range of your electric vehicle.
Distributors, potential partners or media can contact Me2EV here:
http://me2ev.com
founder@4kev.energy
+1 319.936.2504
Filmed in 4K60 at IDTechEx Show! USA 2017 using Panasonic GH5 ($1999 at Amazon.com) on firmware 2.1 (aperture priority, AF continuous tracking) with Leica 12mm f1.4 ($1297 at Amazon.com) with Saramonic Uwmic9 dual wireless lav microphone system ($399 at Amazon.com), get $25 off renting cameras and lenses with my referral link at https://share.lensrentals.com/x/wWbHqV
Atos Bull Sequana X1310 on Cavium ThunderX2 Dibona Supercomputer
The Mont-Blanc European Exascale supercomputing project based on ARM power-efficient technology, using Cavium ThunderX2 ARM server processor to power its new High Performance Computing (HPC) prototype with HPC SW infrastructure for ARM with tools, code stacks and libraries and more. The ambition of the Mont-Blanc project is to define the architecture of an Exascale-class compute node based on the ARM architecture, and capable of being manufactured at industrial scale. The Mont-Blanc 3 system being built by a consortium which includes Atos, ARM, AVL (Austrian power train developer) and seven academic institutions, including the Barcelona Supercomputer Center (BSC), implements this ARM for HPC with high memory bandwidth and high core count on Cavium’s custom ARMv8 core architecture with out-of-order execution that can run at 3 GHz. The ThunderX2 might be delivering twice the integer and floating point performance compared with ThunderX1 with also twice the memory bandwidth.
Filmed in 4K60 at Supercomputing 2017 in Denver using Panasonic GH5 ($1999 at Amazon.com) on firmware 2.1 (aperture priority, AF continuous tracking) with Leica 12mm f1.4 ($1297 at Amazon.com) with Sennheiser MKE440 stereo shotgun microphone ($325 at Amazon.com), get $25 off renting cameras and lenses with my referral link at https://share.lensrentals.com/x/wWbHqV
$79 Poplar Android TV Development Board by Hoperun on Hisilicon Hi3798CV200
Poplar is the first development board compliant with the 96Boards Enterprise Edition TV Platform specification. Developed by HiSilicon, the board features the Hi3798C V200 with an integrated quad-core 64bit ARM Cortex A53 processor and high performance Mali-T720 GPU, making it capable of running any commercial set-top solution based on Linux or Android. Its high performance specification also supports a premium user experience with up to H.265 HEVC decoding of 4K video at 60 frames per second. It’s available for $79 at Aliexpress.com
Thundersoft CTO Pengcheng Zou talks Open Source Automotive and more
Thunder Software Technology Co., Ltd. is a smart device operating system and platform technology provider since 2008, providing smart device operating system solutions, speeding-up time to market for smart phone, IoT, automotive, robots, drones, cars, smart logistics, with years of R&D investment in mobile OS technology such as Android, Linux, Windows and HTML5, from the hard drive, operating system kernel, and middleware to upper application, and has accumulated extensive experience along with a large number of IP including protocol stack, deep learning, computer graphics techniques, operating system optimization, security solutions, etc.
Grant Likely’s Open Source Arcade based on 96Boards
Grant Likely has built a custom video-game arcade machine with colorful control buttons and mouse for using with classic arcade game emulators, all Open Source and Open Hardware, with the source code up on GitHub with some links up at http://www.secretlab.ca/archives/240 you can also watch his Arcade assembly time lapse video. Filmed at the Linaro Connect San Francisco 2017.
Keynote: Aaron Welch of Packet.net at Linaro Connect San Francisco 2017
Keynote: Imagine The Internet in Ten Years – Aaron Welch (Packet)
Think back to the summer of 2007. AWS was a few months old, the first iPhone had just been released, and Uber was still two years away from its founding.
Now look the other way: ten years into the future. A future standing on the shoulders of today’s nearly 20 million software developers (which may double in the next five years), a mature ecosystem of venture funded firms around the world, and dozens of major companies dumping massive resources into everything from new data centers, cloud services, VR, 5G, robotics, autonomy, space travel, and a huge variety of software of all stripes and flavors.
Aaron Welch, co-founder and SVP of Product at Packet (the leading bare metal cloud for developers), outlines Packet’s vision for the infrastructure of tomorrow, and why hardware is the next innovation layer.
Aaron Welch, SVP of Product, Packet Hosting Inc
Interview with Aaron Welch, SVP of Product at http://Packet.net about what he said in his keynote, about the ARM Servers which they are providing as bare metal hosting at http://Packet.net and what he thinks the internet will be like in the next ten years, probably powered by ARM Servers which they will provide.
@vielmetti talks ARM Servers at Packet.net and @worksonarm
Interview with Ed Vielmetti, Special Projects Director at http://Packet.net talking about their available and upcoming ARMv8 servers in the data center and the ARM Server ecosystem that is being advanced at a rapid pace. Ed Vielmetti is posting News and software updates at https://twitter.com/vielmetti and https://twitter.com/worksonarm
Canonical shows EdgeX on ARM
First demo of EdgeX on ARM in cross-host setup featuring Ubuntu Core and Ubuntu systems both running the EdgeX cluster. The Dell 5k Edge Gateway, based on Ubuntu Core Snappy, has been running the core EdgeX services (basically 11 out of 12) using the official Docker snap. The RPi3, based on Ubuntu, has been running EdgeX device virtual service.
The EdgeX Foundry Project is a vendor-neutral project launched by the Linux Foundation, aligned around a common goal: the simplification and standardization of the foundation for edge computing architectures in the Industrial IoT market, while still allowing the ecosystem to add significant value. The seed for the new project is a fully-functional, Alpha-grade edge platform based on over 125,000 lines of code donated by Dell with references to other open source projects and developed with feedback from their partners, customers, and even competitors. The EdgeX project has already garnered a diverse and experienced membership base of supporting companies that is continuing the development of the architecture and code base. The goals of EdgeX include to provide a flexible microservices architecture that can support the use of any combination of heterogeneous ingredients plugged into a common interoperability foundation, to be agnostic to hardware CPU (e.g., x86, ARM), OS (e.g., Linux, Windows, Mac OS), and application environment (e.g., Java, JavaScript, Python, Go Lang, C/C++) to support customer preferences for differentiation, to allow services to scale up and down based on device capability and use case and more.
Dell EMC Supercomputing, Machine and Deep Learning for Enterprise
Dell EMC shows some of their latest machine and deep learning products for the Enterprise market, enabling enterprises to address opportunities in areas such as fraud detection, image processing, financial investment analysis, personalized medicine and more. The new Dell EMC PowerEdge C4140 Machine Learning and Deep Learning Ready Bundle accelerator-based platform for demanding cognitive workloads, powered by latest generation NVIDIA V100 GPU accelerators with PCIe and NVLink high-speed interconnect technology, two Intel Xeon Scalable Processors, to bring high performance computing (HPC) and data analytics capabilities to mainstream enterprises worldwide.
Dell EMC’s Supercomputers power some of the fastest supercomputers in the world such as the one built for The Texas Advanced Computing Center (TACC) at The University of Texas at Austin, the “Stampede2” supercomputer with Intel Xeon Phi 7250 processors across 4,200 nodes connected with Intel Omni-Path Fabric, developed in collaboration with Dell EMC, Intel and Seagate and ranks No. 12 on the TOP500 list of the most powerful computer systems worldwide. Simon Fraser University’s “Cedar” supercomputer was built for big data, including artificial intelligence, with 146 Dell EMC PowerEdge C4130 servers with NVIDIA Tesla P100 GPUs. Canada’s most powerful academic supercomputer ranks No. 94 on the TOP500 and No. 13 on the Green500, helping researchers chart new territory across several areas such as to study the continually changing DNA code in bacteria.
Filmed in 4K60 at Supercomputing 2017 in Denver using Panasonic GH5 ($1999 at Amazon.com) on firmware 2.1 (aperture priority, AF continuous tracking) with Leica 12mm f1.4 ($1297 at Amazon.com) with Sennheiser MKE440 stereo shotgun microphone ($325 at Amazon.com), get $25 off renting cameras and lenses with my referral link at https://share.lensrentals.com/x/wWbHqV
Nvidia DGX Station, world’s most powerful desktop, a Supercomputer at the office
Nvidia DGX Station is the world’s first and fastest personal supercomputer for leading-edge AI development at Supercomputing developers desk, it has the computing capacity of four server racks in a desk-friendly package, using less than one twentieth the power. It’s the only personal supercomputer with four Nvidia Tesla V100 GPUs, next generation Nvidia NVLink, and new Tensor Core architecture. DGX Station delivers 3X the training performance of today’s fastest workstations, with 480 TFLOPS of water cooled performance (3X Faster Than the Fastest Workstations) and FP16 precision. It’s designed to be whisper quiet at one tenth the noise of other deep learning workstations, it’s designed for easy experimentation at the office.
Filmed in 4K60 at Supercomputing 2017 in Denver using Panasonic GH5 ($1999 at Amazon.com) on firmware 2.1 (aperture priority, AF continuous tracking) with Leica 12mm f1.4 ($1297 at Amazon.com) with Sennheiser MKE440 stereo shotgun microphone ($325 at Amazon.com), get $25 off renting cameras and lenses with my referral link at https://share.lensrentals.com/x/wWbHqV
CLEARink wins Best Technical Development Materials at IDTechEx USA 2017
Interview at IDTechEx show USA 2017 with Joel Pollack, board member at CLEARink, formerly responsible for Amazon Kindle display design at Lab126, also formerly CEO of Clairvoyante (now part of Samsung) and Dr Bob Fleming, CTO for CLEARink. They just won the IDTechEx award for best technical development materials. CLEARink previously won the award at SID for this reflective display technology, it uses Total Internal Reflection (TIR) to create white pixels and electrophoresis to create black pixels using black particles in a solution. Here is a video that shows how the technology works. Also see my SID video interview of their CEO, at CLEARink is targeting eSchoolbooks and Wearables, their product is low power, sunlight readable like other ePaper technologies but they are making ePaper 2.0 which offers color and video in addition to the usual benefits of ePaper.
Red Hat Enterprise Linux 7.4 available for ARM servers
Red Hat Enterprise Linux is now fully supported on ARM server-optimized SoC’s designed for cloud and hyperscale, telco and edge computing, as well as high-performance computing, for SoC’s such as the Cavium ThunderX2 and the Qualcomm Centriq2400, and OEM partners, like HPE for the Apollo 70, through the culmination of a multi-year collaboration with silicon and hardware partners and the upstream community. Over the past 7 years, Red Hat has helped to drive open standards and develop communities of customers, partners and a broad ecosystem. Our goal was to develop a single operating platform across multiple 64-bit ARMv8-A server-class SoCs from various suppliers while using the same sources to build user functionality and consistent feature set that enables customers to deploy across a range of server implementations while maintaining application compatibility.
Filmed in 4K60 at Supercomputing 2017 in Denver using Panasonic GH5 ($1999 at Amazon.com) on firmware 2.1 (aperture priority, AF continuous tracking) with Leica 12mm f1.4 ($1297 at Amazon.com) with Sennheiser MKE440 stereo shotgun microphone ($325 at Amazon.com), get $25 off renting cameras and lenses with my referral link at https://share.lensrentals.com/x/wWbHqV
Fujitsu Post-K ARM Supercomputer, Exascale by 2021
Fujitsu is developing a very powerful ARM processor for its Post-K exascale supercomputer, to have a much wider impact on the HPC market than just a single system. Riken, Japan’s largest and most prestigious scientific research institute, will be the recipient of the Post-K system. This HPC optimized ARM processor design is being done in collaboration with ARM integrating SVE (Scalable Vector Extension), extending the vector processing capabilities associated with AArch64 (64bit) execution in the ARM architecture, enabling implementation choices for vector lengths that scale from 128 to 2048 bits, enabling High Performance Scientific Compute featuring advanced vectorizing compilers to extract more fine-grain parallelism from existing code to reduce software deployment effort. SVE also supports a vector-length agnostic (VLA) programming model that can adapt to the available vector length. When the Post-K Supercomputer is ready, which may be around 2020-2022, and if it lives up to its near-exascale performance promise, it will be eight times faster than today’s most powerful supercomputer in the world, China’s Sunway TaihuLight. The Post-K system will be used to model climate change, predict disasters, develop drugs and fuels, and run other scientific simulations. The Fujitsu Post-K ARM processors are likely to be 10nm FinFET chips fabricated by TSMC, and will feature high-bandwidth memory and the Tofu 6D interconnect mesh that was developed for the original K Supercomputer.
Filmed in 4K60 at Supercomputing 2017 in Denver using Panasonic GH5 ($1999 at Amazon.com) on firmware 2.1 (aperture priority, AF continuous tracking) with Leica 12mm f1.4 ($1297 at Amazon.com) with Sennheiser MKE440 stereo shotgun microphone ($325 at Amazon.com), get $25 off renting cameras and lenses with my referral link at https://share.lensrentals.com/x/wWbHqV