Standard Graphene shows their water filtering system using their graphene layer to help filter river water for it to be fully fresh drinkable, they are talking to the Vietnamese and Cambodian Government and talking with UNICEF to bring this to Africa. Standard Graphene also shows some of their other latest demonstrations featuring their graphene at the right price and at the right quantity. They are showing a 5kg ultra-light bicycle infused with graphene allows to increase 130% strength on the bicycle. Also bringing their technology to the automotive and later also to space industry. Filmed at the IDTechEx Show!
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$399 Laser Beam Pro C200 Laser Pico Projector, UO Smart Beam Laser
KDC USA presents their Laser Beam Pro C200 ($399 at Amazon.com) which they claim to be the World’s First and Only Class 1 Eye Safe Laser Projector, which also won the CES 2017 Innovation Award, it is world’s brightest portable laser projector. Class 1 laser with FDA approved Eye safe laser technology let you have Focus Free at all times, with 200 lumen brightness and built in Android powered OS. World’s smallest handheld computer laser projector that projects up to 150 inches with maximum 200 lumens and 768P HD resolution also built in with Android. With up to 120 minute battery life, it can play any contents from SD card or USB flash drive or to download and play any content directly onto the 8GB internal storage, stream videos on any Android app and websites, and users can enjoy better sound using a Bluetooth speaker or headphones, it can connect wirelessly to Android and iOS mobile devices and the user can use it with a keyboard and mouse. Filmed at the SID Display Week.
ARM shows HDR-to-SDR Conversion
ARM shows their HDR to SDR conversion processed with their adaptive local tone mapping engine to achieve a dynamic range compression to show HDR content at the highest quality on a regular SDR display. Filmed at the SID Display Week.
Novacentrix PulseForge Photonic Curing Tools
NovaCentrix is focused on technologies and materials to enable manufacturing in Printed Electronics. The PulseForge photonic curing tools process high-temperature materials on low-temperature substrates. Applications include drying, sintering, annealing, or reacting metallic, non-metallic, and semiconductor inks, without damaging temperature sensitive substrates such as foils and plastics.
You can watch my previous NovaCentrix videos here
This video was filmed at the IDTechEx Show!
Ceradrop advanced hybrid 3D Printer combines inkjet and aerojet
Ceradrop, a MGI Group company, designs and markets Materials Deposition Digital Printers for Printed Electronics Industry and Smart 3D Printing. Embedding all types of printheads as well as the latest generation of curing modules, CeraPrinter Series models present new opportunities for feasibility study and launch of new products into the Printed Electronics market in the fields such as: flexible solar cells (OPV), OLED Displays, Smart Cards, Antennas, Smart Systems, Passive Components and others. CERADROP provides materials deposition digital printing solution for advanced R&D up to 24/7 high performance manufacturing with full automation. Achieving more than 75% of its turnover from export and providing a unique process support to its customers, CERADROP is supported by the MGI Group network in 70 countries with 50 representatives.
Filmed at the IDTechEx Show!
Tesla Model X review by IDTechEx Chairman Dr Peter Harrop
IDTechEx Chairman Dr Peter Harrop, reviews the Tesla Model X, discusses Elon Musk’s future projects and where the electric vehicles industry is headed.
Tesla claims the Model X is the safest, fastest and most capable sport utility vehicle in history. It has all-wheel drive and a 100 kWh battery providing 351 miles of range, Model X has ample seating for seven adults and all of their gear. It’s ludicrously fast, accelerating from zero to 60 miles per hour in as quick as 2.9 seconds.
Filmed at the IDTechEx Show!
$399 Cubibot 3D printer at IDTechEx Show!
Cubibot (successfully crowdfunded at Kickstarter) is a $499 (targeted retail price) cloud based 3D Printer that was developed for over three years, here presented by Sina Noorazar, CDO, Cubibot, providing possibly the best features-for-price ratio in the industry. The Cubibot 3D printer includes:
– Heated print bed
– Wi-Fi Enabled
– Easy to use web-based software
– Smart status notification with multicolor LED
– Filtered ventilation for safer use
– Cartridge with premium filament
– Ability to print with advanced materials such as Nylon and PC
– Remote control via Cubibot Android and iOS apps
– Smart features for effortless printing
– 5” cubed print size from a small 10” cubed footprint
Filmed at the IDTechEx Show!
C3Nano silver nanowires Headquarters interview
C3Nano makes silver nanowire (AgNW) transparent conductors using their Nanoglue technology. These are used in flexible touch screens for phones, wearables etc. C3Nano is a spinoff from Stanford University. This interview was conducted by Sri Peruvemba at their Headquarters in the Silicon Valley, with Dr Ajay Virkar, Co-founder of C3Nano, they got into the details of what they are claiming as the best transparent in the market. Andrew Moon, Product Manager and Yadong Cao, Applications Engineer demonstrated the various products featuring C3Nano. Their newly released Onyx product is aiming to replace ITO in touch screens, in OLED displays, in solar panels as well as biotech applications. The company’s investors and customers include Nissha, Hitachi Chemicals, Nagase and many others.
ARM Innovation Ecosystem Accelerator (ARM Accelerator)
ARM Innovation Ecosystem Accelerator (“ARM Accelerator”) is an international global startup accelerator recruitment network in Mainland China, UK, U.S, Israel, Canada, France, Hong Kong, and Taiwan area, helping startups accelerate development in areas such as VR/AR, Robotics/AI, Smart Car, Smart Healthcare, Smart Home, Smart City. ARM Accelerator is an innovation and acceleration platform featured among ARM’s ecosystem. ARM Accelerator focuses on smart hardware and IoT ecosystem. The core advantage of ARM Accelerator is to create an one-stop platform for China and overseas startups and integrates the world-leading IC design companies and scarce, high-value labs to provide the customers all kinds of incubation and acceleration services, such as professional technology consulting, design service, and global promotion and investment matchmaking.
Open Source Vehicle (OSVehicle) on ARM with Renault Twizy
OSVehicle presents a Modular Open Source Electric Car Platform to Save millions in car platform R&D. Design, prototype and building next electric vehicles using a modular open source electric car platform. Here OSVehicle is demonstrated on the Renault Twizy which I first video-blogged 5 years ago here.
Nvidia DRIVE PX Pegasus board for self-driving cars has 2 Octa-core ARM SoCs with 512-core CUDA GPU and 2 discreet GPUs for a total of 320 Billion calculations per second
Nvidia DRIVE PX Pegasus board is launched for self-driving cars which includes two ARM SoCs each feature Octa-core Nvidia Xavier Custom ARM processors with Volta 512-core CUDA GPU which supports up to 8K video encode and decode, 7Billion transistors each ARM SoC built on TSMC 16nm FinFET+ with also two next-generation discrete GPUs separately on the board with hardware created for accelerating deep learning and computer vision algorithms, the 4 chips on the board can compute 320 Billion calculations per second with an overall 1TB per second memory bandwidth.
Read more:
http://www.marketwired.com/press-release/nvidia-announces-worlds-first-ai-computer-to-make-robotaxis-a-reality-nasdaq-nvda-2236493.htm
https://www.nvidia.com/en-us/self-driving-cars/drive-px/
https://arstechnica.com/cars/2017/10/nvidias-drive-px-pegasus-is-its-newest-self-driving-supercomputer/
https://www.theverge.com/2017/10/10/16449416/nvidia-pegasus-self-driving-car-ai-robotaxi
https://www.engadget.com/2017/10/10/nvidia-introduces-a-computer-for-level-5-autonomous-cars/
David Rusling, Linaro CTO talks Trebble, Servers, HPC, Tiny Linux IoTL, Automotive, Machine Learning
David Rusling says this has been the best Linaro Connect for him thus far in the 7 years since Linaro was started. He talks about how Google recognizes the part Linaro can play to help with Project Trebble, to help keep longer term support for each LTS kernel release also as part of the Linaro Mobile Group. The Linaro Enterprise Day showed how far Linaro has gotten to with all the work coming together towards ARM Servers taking market share in the server market. Kanta Vekaria works towards Linaro’s involvment with High Performance Computing (HPC) as she talked about in her keynote Nicolas Pitre is working on making the Internet of Tiny Linux (IoTL) to make Linux suitable for IoT you can see his talk here persuading the kernel developers that making changes that benefit the embedded market. Linaro is very active with Zephyr which is kind of the Linux Kernel of the embedded world, working on it in in the Linaro IoT & Embedded Group (LITE). Talking about the establishment of the Open Source Foundries spin-off of Linaro where they can pursue business opportunities to work more closely together with customers who need help implementing open source on ARM solutions such as the IoT solutions shown in this video also introducing the Associate Membership Level for smaller members such as small to medium companies and Universities to be able to join Linaro in the coming months trying to involve everyone in the open source ecosystem. Linaro also is looking into getting involved with open source for the Automotive market possibly related to the software needed for self-driving cars and more. Linaro getting involved with open source for artificial intelligence, machine learning. You can see my previous videos with David Rusling over the past 5 years here.
Jon Masters, Red Hat Chief ARM Architect at Linaro Connect San Francisco 2017
Jon Masters says Moores Law may have come to an end and that single threaded performance is not defining the industry anymore because it’s not increasing at the same rate that it used to. What is defining the future of the industry is machine learning, accelerators, lots of additional workload optimization that is happening outside of the core. Thus he believes ARM has an opportunity to get into the mainstream server space in the next 12-18 months with the newest powerful ARM Server solutions such as the Cavium ThunderX2 and the Qualcomm Centriq 2400. You can see some of my previous Jon Masters interviews over the past 5 years here.
Paul McKenney of IBM talks RCU, Quantum Computing at Linaro Connect San Francisco 2017
I previously interviewed Paul McKenney at Linaro Connect 5 years ago in Hong Kong here, since then he has been working with a lot of things at IBM and this is the first time he’s back at Linaro Connect since that initial interview. He says there might be 20 Billion Linux machines in the world, most of them running on ARM, all of them have Paul McKenney’s Read-Copy Update (RCU) code in them.
Read-copy update (RCU) is a synchronization mechanism that was added to the Linux kernel in October of 2002. RCU achieves scalability improvements by allowing reads to occur concurrently with updates. In contrast with conventional locking primitives that ensure mutual exclusion among concurrent threads regardless of whether they be readers or updaters, or with reader-writer locks that allow concurrent reads but not in the presence of updates, RCU supports concurrency between a single updater and multiple readers. RCU ensures that reads are coherent by maintaining multiple versions of objects and ensuring that they are not freed up until all pre-existing read-side critical sections complete. RCU defines and uses efficient and scalable mechanisms for publishing and reading new versions of an object, and also for deferring the collection of old versions. These mechanisms distribute the work among read and update paths in such a way as to make read paths extremely fast. In some cases (non-preemptable kernels), RCU’s read-side primitives have zero overhead.
Open Source Foundries IoT Zephyr, Linux, IoT Gateways, Bluetooth Mesh microPlatforms demo
Open Source Foundries is a spin off company off of Linaro, composed of a talented group of engineers to work more directly with companies, OEMs, ODMs, small, medium to large companies to bring new open source products and solutions more rapidly to the market. Leveraging all the work done by Linaro and speeding up the time to market, enable rapid product development, here demonstrating some of the open source IoT solutions provided based on Zephyr on ARM Cortex-M and Linux on ARM Cortex-A using the Linaro Technologies Division (LTD) microPlatforms system.
The lack of a secure IoT solution has the industry scrambling. The Open Source Foundries team believes that a world can exist in which all connected devices can be secured and updated in a timely fashion. In this demonstration shown at the Linaro Connect San Francisco 2017, the team showcases its secure end to end FOTA (firmware over the air) solution implementing the latest in connected technologies.
At Open Source Foundries, software is their passion, hacking hardware is their favorite past time, so they have created the OSLight project to convert off the shelf hardware into secure connected devices. They have inserted a Red Bear NRF52 BLE Nano 2 into these lamps, to allow them to communicate over BLE with various cloud services. In the first demo, they demonstrate creating a secure BLE mesh network with these lamps. They show the ability to securely pass messages through the mesh network to control the state of the LED lamp. The next demo shows a set of 96Boards Nitrogens sending temperature data to the SoftBank IoT Cloud with the ONEM2M protocol using 6lowpan over BLE. The third and final demo introduces a variant of the OSLight project, a fully 3D printed light bulb. Instead of a simple LED array it has a 12 LED WRGB NeoPixel which is powered by line voltage, stepped down to 5VDC.
For microcontrollers, they offer their Zephyr microplatform, an open source software reference based on Zephyr RTOS and MCUboot. This software stack implements secure boot, unified microkernel, and IP (TCP or UDP) using 6lowpan over BLE. At the protocol level they’ve embraced industry standards such as LWM2M/ONEM2M/HTTPS/MQTT to provide an array of options for their customers, whilst ensuring no vendor lock in. Open Source Foundries subscribers are offered continuous validated software updates throughout the life of their product for a fixed monthly subscription fee.
On the gateway, they offer their Linux microplatform, which is again, an open source reference based on the latest Linux kernel version, and a minimal Yocto based userspace with a container runtime (Docker). By isolated the OS from the containers, each can be updated independently while providing limitless potential for the applications it can run. For updates they again implement standards, and stay vendor neutral to allow their customers to choose the solution that is right for them. Continuous validated updates for the OS and containers are also offered for this platform for a reasonable fixed monthly fee.
Gordon Kruberg, Gumstix CEO, inventor of the HDMI Stick at Linaro Connect San Francisco 2017
Gordon Kruberg, President, CEO and Founder of Gumstix Inc. In 2004, they launched the world’s first HDMI Stick Computer and they also invented the first SOM running Linux and computers were officially introduced with Gumstix first motherboard alongside the Waysmall computer, about the size of a stick of gum. Apple bought many of these to do their initial testing of iOS on ARM to try to have a smooth UI to work on ARM early. Gumstix now has an online tool called Geppetto that allows users to design their own PCB boards which can be used in combination with boards from TechNexion and Toradex, in 2013 it started a crowd-funding service to allow a group of users that want to get a custom design manufactured to share the costs to start manufacturing any new PCB idea. A new PCB idea can be made through Gumstix Gepetto for a $2000 setup manufacturing fee then payments for each board. They estimate that any project needing to design and manufacture custom PCB boards in quantities lower than 20 thousand pieces, that they are providing the most cost effective and fastest time to market.
Sahaj Sarup of Geek Till It Hertz, Manivannan Sadhasivam and Michael Welling at Linaro Connect 2017
Sahaj Sarup of the Geek Till It Hertz youtube channel, which he created 4 years ago with a goal to share his Raspberry Pi projects and experiments with the world. Soon it grew and he started featuring other development boards and technologies. His goal is to share projects that he does or the projects that gets him excited. Recently he has also featured a few unique operating systems such as Google’s Fuchsia OS and Redox OS (written entirely in rust language). He’s also maintaining a blog at http://geektillithertz.com/wordpress This video also features 96Boards Application Engineer Manivannan Sadhasivam who I also filmed featuring some of his projects at here and PCB designer Michael Welling who I interviewed here.
Kurt Keville of The MIT Supply Response Supercomputing Lab at Linaro Connect San Francisco 2017
The MIT Supply Response Supercomputing Lab has been investigating opportunities to get cycles when they are cheapest, either through an innovative sensor system that utilizes a hyperlocal weather monitoring application that watches clouds, or a clever scraping of PUC utility websites to ramp compute resources up when electricity is inexpensive. They are currently testing a number of projects that are based around ARM and utilizes every bit of the energy-aware programmability of big.LITTLE and Slurm Workload Manager.
#DIV/0! Is their Solar-Powered Supercomputing cluster. It is named for the error they got in Excel when they tried to calculate their performance per dollar.
They maintain the Debian ports of every HPC code they can get their hands on (please send some along if you have additions).
http://soc.mit.edu/opennovation.htm
IoTNet is the network in Boston and Cambridge which only handles IoT comms. It is low bandwidth, high latency and lossy which they are hoping will keep humans, with their real-time protocols, off. Machines and CPS like it because it is asynchronous, asymmetric and low power. If you have a key dongle for your car you are probably already using the TTN in your city.
Interested parties can contact them at MITARM@mit.edu
MIT SPS https://www.youtube.com/watch?v=K6rrsQPkFKQ
ARMfest http://www.iotfestival.com/
Micro-Datacenter Design Challenge (past) http://www.inveneo.org/designchallenge/
Bero shows his ARM Desktop and ARM Laptop
Bero (Bernhard Rosenkränzer) from the Linaro Mobile Group set out this week as you can see in my previous video to build and bring up his ARM Desktop based on the Quad-core ARM Cortex-A72 Marvell MACCHIATObin development board with a Radeon or Nvidia GPU. Bero also built his own ARM Laptop based on the Dragonboard 820 running Open Mandriva Linux.
Latest from the Linaro Digital Home Group at Linaro Connect San Francisco 2017
Mark Gregotski, DIrector of the Linaro Digital Home Group, provides an update on the latest work in open source for the Digital Home Group that LHG is working on including the adoption of OP-TEE (Open Portable Trusted Execution Environment) with DRM integrations including PlayReady DRM PK v3.3 on AOSP 8.0 on the HiKey960 development board and Widevine for Linux and for Android AOSP. NXP demonstrates some of their work, NXP has recently joined the Linaro Digital Home Group. The LHG group has worked to integrate V4L2 with gstreamer and ffmpeg to improve media playback on ARM offloading all the computation onto the video codec hardware of the SoC.