Pyramics, Inforce Computing, Fraunhofer IIS, and Basler come together to help implement a state-of-the-art edge-compute IoT system for a retail video analytics application.
The digital transformations taking shape today in several industries will bring extremely profound changes to the way we will live our lives or how companies operate. The heady mix of people, less-expensive sensors, actuators, compute, connectivity, and big-data analytics has indeed made internet-of-things (IoT) or internet-of-everything (IoE) a big living reality. While one might debate the cost of value propositions these transformations bring to end-users at large and who will pay for it, one can’t help but recognize that the benefits are starting to look pervasive.
Video analytics in the retailing and out-of-home media markets
Posted by Cnxsoft on www.cnx-software.com on April 28, 2016
We’ve already seem Intrinsyc’s Snapdragon 820 development board and module, but there’s now an alternative thanks to Inforce Computing 6601 micro SoM which is pin-to-pin compatible to the company’s earlier Inforce 6401 and Inforce 6501 Micro SOMs, also based on Qualcomm Snapdragon processors, and works with the same SYS6501 carrier board.
We’re excited to share some great news with you. Inforce Computing’s much anticipated, highest performing, and cross-compatible Micro SOM based on the latest Qualcomm® Snapdragon™ 820 embedded processor (APQ8096 SoC) is here! Coming close on the heels of Snapdragon 820 processor-based high-end smartphone announcements at the recent 2016 Mobile World Congress, designers can now leverage the same underlying cutting edge mobile technologies for implementing next-gen embedded systems. The Inforce 6601™ Micro SOM delivers a superior compute platform to enable advanced AR/VR based wearable, computer vision, 4K HEVC video encode/decode, medical imaging, video analytics, and high-end IoT applications, to name a few. Designers can also seamlessly upgrade from legacy Inforce 6401™ and Inforce 6501™ Micro SOM based designs. You can download a datasheet of the Inforce 6601 Micro SOM here and read an informative FAQ here >>>.
The Production-Ready and Cross-Compatible Micro System-on-Module (SOM) Offers an Accelerated Path to Designing Next Generation Embedded Computing Solutions
FREMONT, CA–(Marketwired – April 26, 2016) –
Joins a growing family of Inforce Micro SOMs that are cross-compatible and offers a frictionless path to upgrade legacy embedded systems with cutting-edge compute and multimedia technologies
Purpose built in a tiny form-factor to empower next-generation compute-intensive applications that require high-performance quad-core CPU, GPU, DSP, ISP, 4K UHD HEVC video encode and decode, HDMI 2.0 support, and advanced connectivity solutions
Takes advantage of the long lifecycle and powerful quad-core Qualcomm Snapdragon 820 processors built on ultra-low-power 14nm FinFET process technologies
Have you been hamstrung by the limitations of vendor provided binary blobs for GPU drivers in your ARM-based embedded systems? How about having access to open-source embedded Linux graphics drivers to write your own graphics applications? If so, this downloadable new whitepaper from Inforce Computing might be helpful.
As you may know, Qualcomm Snapdragon applications processors have a powerful and in-built high-performance Graphics Processing Unit (GPU) for accelerating 2D and 3D graphics-intensive applications. In modern embedded system user interfaces, graphics is increasingly becoming important. Having access to an open source graphics driver enables generation of new widgets, new features, etc., and allows developers to recompile it.
IoT (Internet of Things) is a network of physical objects, devices, vehicles, buildings and other items which are embedded with electronics, software, sensors, and most importantly, connectivity, which enables these objects to collect and exchange data. It is just a matter of time as IoT becomes all-encompassing to make a natural transition to Internet of Everything a.k.a. IoE.
Needless to say, the consumer segment of IoE looks very impressive. But how are other industries responding to this trend? Cisco predicts that IoE will create $14.4 trillion of ‘Value at Stake’ for companies and industries by 2022. So the number says it all. Which means industries that are looking at connected and smarter devices for automation, innovative production, and acute maintenance will get a pie of the estimated $14.4 trillion in terms of productivity and operational efficiencies. Fair deal!
What powers them all? Or rather what makes machines smarter?
Hope all of you have had a great start to 2016 after a much needed Christmas and New Year’s break. If you will be at CES 2016 this week (January 6-9) in Las Vegas, please do stop by the following Qualcomm® booths to take a look at Inforce Computing’s exciting Snapdragon™ processor-based compute platforms in the form of SBCs, SoMs, and development kits.
1. Qualcomm Main Booth: Central Hall, #8952–What to see:
An Enterprise Videoconferencing Endpoint solution powered by a custom Inforce 64XX SBC (Snapdragon 600 processor)
A connected point-of-care (battery operated/portable) Ultrasound Imaging System powered by an Inforce 64XX SoM (Snapdragon 600)
Smart Cities Area:
Inforce 6309 Micro SBC (Snapdragon 410) for industrial IoE applications at the edge-of-the-network
Inforce 6401 Micro SoM (Snapdragon 600) for SWaP constrained designs requiring low power and full-HD video processing
Inforce 6540 SBC and Inforce 6501 Micro SoM (Snapdragon 805) for 4K Ultra HD video capture/playback and high-end processing
2. Qualcomm Unmanned Systems Booth: South Hall, #25824–what to see:
Inforce Robotics Development Kit running ROS on Linaro Linux: Inforce 6410Plus SBC (Snapdragon 600) and a Peripheral Abstraction Core (PAC) Mezzanine card with an ARM® Cortex®-M4; Grove connectors and Arduino compatibility for connecting multiple external sensors, SBUS for motor control, 10 DoF on-board sensors, and more.
Best wishes for a wonderful year ahead! Don’t hesitate to contact us if you need further information.
I’ve recently written a review of DragonBoard 410c with Android, one of the first board part of Linaro’s 96Boards initiative that’s supposed to get Android and Debian distributions with recent Linux kernel & U-Boot, together with full source code. Inforce Computing has now launched Inforce 6309 micro Single Board Computer (SBC) with the same footprint, albeit different connectors’ placements, and software compatible with DragonBoard 410c development board powered by the same Qualcomm Snapdragon 410 processor. The board targets applications such as industrial automation, “sophisticated” IoE devices, medical devices, augmented reality computing, and robotics and drones. CONTINUE READING >>>>>>
Inforce has launched an 85 x 54mm “Inforce 6309 Micro SBC” that runs Linux or Android on a Snapdragon 410 and offers -30 to 85°C operation and optional PoE.
Qualcomm’s ARMv8, 64-bit Snapdragon 410 has proven to be popular among embedded developers. In addition to Inforce Computing’s new Inforce 6309 Micro SBC, we have seen the quad-core, 1.2GHz Cortex-A53 SoC used in <……….> Qualcomm’s own DragonBoard 410c SBC. CONTINUE READING HERE>>>>>
Posted by Will Tu in ARM Connected Community Embedded Blog on Nov 25, 2015 11:21:27 PM
I recently met up with Vasu Madabushi, Director of Marketing and Business Development at Inforce Computing (Silicon Valley). I found out to my surprise that Inforce is one of the few Qualcomm partners worldwide that designs and manufactures embedded computing platforms. They design and manufacture Commercial Off-The-Shelf (COTS), product-ready system on modules (SOMs) and single-board computers (SBCs) that feature ARM® ISA-compliant Qualcomm® Snapdragon™ processors. CONTINUE READING>>>>>