Edge Computing

Assembly Line

DeepX DX-M1 AI Chip Hits 90% Yield with Samsung’s 5nm Technology

📅 Date:

✍️ Author: Markus Kasanmascheff

🔖 Topics: Machine Vision, Edge Computing

🏢 Organizations: DeepX, Samsung


DeepX, a South Korean AI semiconductor company, has announced a major milestone for its DX-M1 chip, achieving a 90% yield rate through Samsung Foundry’s 5nm manufacturing process.

The DX-M1 is engineered for real-time AI processing in energy-constrained environments, making it ideal for physical security, robotics, and smart manufacturing. Its ability to process over 16 video channels simultaneously at 30 frames per second highlights its suitability for intelligent video analytics, machine vision, and industrial automation.

By supporting advanced AI models such as YOLOv9 and vision transformers, the chip caters to a wide range of inference tasks, from object detection to image recognition.

DeepX has emphasized its unique contributions to edge AI, leveraging proprietary technologies like IQ8 compression, which enhances model efficiency without sacrificing accuracy.

Additionally, Smart Memory Access technology significantly reduces memory usage, enabling high performance with Low-Power Double Data Rate (LPDDR) memory while avoiding the costs associated with high-bandwidth memory (HBM).

Read more at WinBuzzer

Customized Analog ASSPs for Smart Factories and Industry 4.0

📅 Date:

✍️ Author: Max Maxfield

🔖 Topics: Edge Computing, IO-Link

🏢 Organizations: Orca Semiconductor


A small to midsize factory may employ hundreds of IO-Link sensors and actuators for tasks like quality inspection, machine monitoring, and production line control. By comparison, a large-scale or highly automated facility may employ thousands of IO-Link sensors and actuators for applications spanning robotics, material handling, process monitoring, and energy management. Meanwhile, advanced use cases like semiconductor fabs or automotive plants may deploy tens of thousands of IO-Link sensors and actuators to ensure high-resolution, real-time data across a wide variety of equipment and systems.

Now, observe the green boxes representing the IO-Link Transceivers in the previous diagram. Prior to what I’m about to tell you, there were only three main solutions on the market: the MAX22515 from Analog Devices, the TIOL112 from Texas Instruments, and the RH4Z2501 from Renesas. All three of these devices have different sizes and form-factors, but that really is not an issue because the MAX22515 sells way more than all its competitors combined.

Think of the MAX22515 as having a target painted on its back. This is where Orca’s new OS2000 leaps onto the center stage with a fanfare of sarrusophones (once heard, never forgotten). This IO-Link transceiver for industrial applications can be used in either IO-Link Sensor/Actuator or IO-Link Master applications.

In addition to featuring two control interface options (I2C or GPIO), the OS2000 integrates many additional features that simplify designs, including two linear voltage regulators, one digital input channel, an internal clock generator, and integrated surge protection (for input power, CQ, and the digital input channel). The linear 5V voltage regulators may be bypassed if an external 5V source is available. The internal clock generator may be used to provide an IO-Link timing-compliant clock to the system microcontroller, thereby simplifying designs. The OS2000 also features five different output frequency options, thereby allowing it to work with most microcontrollers.

But wait, there’s more, because the OS2000 features robust protection to external conditions on external facing interface pins (VLP, CQ, DI and GND). These pins are reverse voltage protected, short-circuit protected, hot-plug protected, and feature integrated ±1.2kV/ 500Ω surge protection.

Read more at Electronic Engineering Journal

FPGA-embedded optimization algorithm to maximize the acetate productivity in a dark fermentation process

📅 Date:

✍️ Authors: José de Jesús Colín-Robles, Ixbalank Torres-Zúñiga, Mario A. Ibarra-Manzano

🔖 Topics: Edge Computing

🏭 Vertical: Chemical

🏢 Organizations: TecNM, Universidad de Guanajuato


This paper presents an optimization strategy to online maximize the acetate productivity rate in a dark fermentation (DF) process. The Golden Section Search algorithm is used to compute the maximum acetate productivity rate as a function of the inlet chemical oxygen demand (COD) and the dilution rate, selected as a manipulated variable. Such maximum productivity is considered as a reference by a Super-Twisting controller to regulate the real acetate productivity rate of the DF process. Due to the lack of sensors to measure the COD online, the optimization strategy includes an unknown input observation strategy integrated by a Luenberger observer interconnected to a Super-Twisting observer to estimate the inlet COD concentration. The optimization algorithm is embedded in an FPGA (Field Programmable Gate Array) device to minimize hardware resources and power consumption. The feasibility of the online optimization strategy embedded in an FPGA, using a digital architecture designed with a fixed-point format representation, is demonstrated by numerical simulations. Results show that the optimization strategy requires 53% of the logic elements and 100% of 8-bit multipliers of an FPGA Cyclone II and the power consumption estimated is only 190mW.

Read more at Journal of Process Control

VMware by Broadcom Builds Software-Defined Edge for Manufacturing Facilities

📅 Date:

✍️ Author: Sulagna Saha

🔖 Topics: Edge Computing

🏢 Organizations: VMware, Broadcom


VMware offers a platform solution – the VMware Edge Compute Stack – that is edge-optimized and designed to help manage edge at scale with limited resources.

The goal, VMware says, is to reduce the number of dedicated function devices and enforce a single operating model to manage workloads at factories. The VMware Edge Compute Stack is based on VMware ESXi which provides it real-time capabilities to keep applications up-to-date automatically. The Edge Compute Stack adopts a proven management model called pull mode approach. This ensures that connected devices scan for updates and maintain a desired state autonomously.

Read more at Gesalt IT

Edge as a service for factory modernization

Achieving robust closed-loop control in remote locations with Kelvin’s edge-cloud communication

📅 Date:

✍️ Authors: Tim Le Souef, Tim Crommelin

🔖 Topics: Closed-loop control, Edge Computing

🏢 Organizations: Kelvin, AWS


In today’s digital landscape, optimizing the performance of distributed assets in remote locations poses unique challenges. Achieving closed-loop control, where real-time monitoring and adjustments are made based on feedback, becomes particularly difficult when reliable and consistent connectivity is not guaranteed. However, with the advent of distributed edge computing, companies like Kelvin are revolutionizing the way we approach closed-loop control in remote areas. In this blog post, we will delve into Kelvin’s innovative edge-cloud communication mechanism and explore how it enables robust closed-loop control of distributed, networked assets in remote locations.

Kelvin, a leading next-gen industrial automation software company, provides artificial intelligence (AI)–powered asset performance optimization software that focuses on the industries of energy (for example, well construction and completions), upstream oil and gas production, midstream oil and gas operations, process manufacturing (for example, chemicals, food and beverages, and pulp and paper), mining and metals, and renewable energy. Multiple global enterprises that operate thousands of assets (e.g. BP, Halliburton and Santos) have used Kelvin solutions built on Amazon Web Services (AWS) to connect, create, and scale advanced closed-loop supervisory-control applications across their operations without needing to rip and replace any of their existing infrastructure.

Read more at AWS Blog

ABB co-launches interoperability initiative to unlock Industrial IoT insights for more efficient and sustainable industry

📅 Date:

🔖 Topics: Open Source, Edge Computing, IIoT

🏢 Organizations: ABB, Capgemini, Microsoft, Rockwell Automation, Schneider Electric, AVEVA, Siemens, Linux Foundation


At the Hannover Messe on April 23, 2024, founding members ABB (including B&R), Capgemini, Microsoft, Rockwell Automation, Schneider Electric (including AVEVA) and Siemens announced collaboration on a new initiative to deliver interoperability for Industrial IoT ecosystems.

Hosted by the Linux Foundation and open to further interested parties, the Margo initiative draws its name from the Latin word for ‘edge’ and will define mechanisms for interoperability between applications, devices and orchestration software at the edge1 of industrial ecosystems. In particular, Margo will make it easy to run and combine applications from any ecosystem member on top of the hardware and runtime system of any other member. Margo aims to deliver on its interoperability promise through a modern and agile open-source approach, which will bring industrial companies increased flexibility, simplicity and scalability as they undergo digital transition in complex, multi-vendor environments.

Read more at ABB News

JF35-ADN1 industrial robotics motherboards by Jetway

📅 Date:

✍️ Author: Julian Horsey

🔖 Topics: Edge Computing, Automated Guided Vehicle

🏢 Organizations: Jetway, Intel


Jetway has recently introduced a new motherboard, the JF35-ADN1, which is set to significantly impact the field of industrial robotics, including the technology used in Automated Guided Vehicles (AGV). This advanced motherboard is designed to support complex machine vision systems and secure payment solutions, powered by the robust Intel Processor N97 CPU. It stands out with its exceptional connectivity and display options, making it a key player in the realm of industrial automation.

Read more at Geeky Gadgets

Connectivity in Factories: Our Experience in the Development of Own Connectivity in old facilities

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🔖 Topics: IIoT, Edge Computing

🏢 Organizations: Ecrimesa Group


Raspberry Pi devices are small board computers used for a wide variety of applications. In this case, they are used to capture data from analog and older machines that do not have network technology. The Raspberry Pi connects to the machine and reads start and stop signals, allowing you to capture important information about the machine’s operation.

How does our system work? With Raspberry Pi installed on the machines that we want to control, we obtain data that we want to control: stops, starts, etc. Once the data has been captured, it is possible to analyze it to determine machine stops and their typology (breakdown, maintenance, etc.). This provides operators and managers with valuable information for making decisions and improving plant efficiency. In addition, interesting KPIs can be generated at all levels.

Read more at Ecrimesa Group Blog

It’s arrived: Commoditization for industrial process control

📅 Date:

✍️ Author: Josh Swanson

🔖 Topics: Edge Computing, Industrial Control System

🏢 Organizations: Red Hat, Intel, Schneider Electric


With the advent of industrial process-control commoditization has come technological advancements that have expanded the boundaries of modern manufacturing–right to the computing edge. Traditionally, administrators had to walk out to a control system–USB stick in hand–and apply an update manually. Today, thanks to the combined work of Intel Corporation, Schneider Electric, and Red Hat, manufacturers can enjoy an edge-ready, software-defined, industrial control system that relieves the burden of manual effort and runs on commodity hardware and a commodity operating system and uses commodity automation techniques.

Read more at Red Hat

☁️🧠 Automated Cloud-to-Edge Deployment of Industrial AI Models with Siemens Industrial Edge

📅 Date:

✍️ Authors: Johann Bruckner, Johannes Kupser, Yvonne Quacken, Bruno Quintas, Helge Aufderheide

🔖 Topics: Cloud-to-Edge Deployment, Data Architecture, Edge Computing, Machine Learning, MQTT

🏢 Organizations: Siemens, AWS


Due to the sensitive nature of OT systems, a cloud-to-edge deployment can become a challenge. Specialized hardware devices are required, strict network protection is applied, and security policies are in place. Data can only be pulled by an intermediate factory IT system from where it can be deployed to the OT systems through highly controlled processes.

The following solution describes the “pull” deployment mechanism by using AWS services and Siemens Industrial AI software portfolio. The deployment process is enabled by three main components, the first of which is the Siemens AI Software Development Kit (AI SDK). After a model is created by a data scientist on Amazon SageMaker and stored in the SageMaker model registry, this SDK allows users to package a model in a format suitable for edge deployment using Siemens Industrial Edge. The second component, and the central connection between cloud and edge, is the Siemens AI Model Manager (AI MM). The third component is the Siemens AI Inference Server (AIIS), a specialized and hardened AI runtime environment running as a container on Siemens IEDs deployed on the shopfloor. The AIIS receives the packaged model from AI MM and is responsible to load, execute, and monitor ML models close to the production lines.

Read more at AWS Blogs

Bringing Scalable AI to the Edge with Databricks and Azure DevOps

📅 Date:

✍️ Authors: Andres Urrutia, Howard Wu, Nicole Lu, Bala Amavasai

🔖 Topics: Cloud-to-Edge Deployment, Machine Learning, Cloud Computing, Edge computing

🏢 Organizations: Databricks, Microsoft


The ML-optimized runtime in Databricks contains popular ML frameworks such as PyTorch, TensorFlow, and scikit-learn. In this solution accelerator, we will build a basic Random Forest ML model in Databricks that will later be deployed to edge devices to execute inferences directly on the manufacturing shop floor. The focus will essentially be the deployment of ML Model built on Databricks to edge devices.

Read more at Databricks Blog

Improving Image Resolution At The Edge

Edge Learning Classify Tutorial - In-Sight 3800 Vision System

HAYAT HOLDING uses Amazon SageMaker to increase product quality and optimize manufacturing output, saving $300,000 annually

📅 Date:

✍️ Author: Neslihan Erdogan

🔖 Topics: Machine Learning, Cloud Computing, Edge Computing

🏢 Organizations: HAYAT HOLDING, AWS, Deloitte


In this post, we share how HAYAT HOLDING—a global player with 41 companies operating in different industries, including HAYAT, the world’s fourth-largest branded diaper manufacturer, and KEAS, the world’s fifth-largest wood-based panel manufacturer—collaborated with AWS to build a solution that uses Amazon SageMaker Model Training, Amazon SageMaker Automatic Model Tuning, and Amazon SageMaker Model Deployment to continuously improve operational performance, increase product quality, and optimize manufacturing output of medium-density fiberboard (MDF) wood panels.

Quality prediction using ML is powerful but requires effort and skill to design, integrate with the manufacturing process, and maintain. With the support of AWS Prototyping specialists, and AWS Partner Deloitte, HAYAT HOLDING built an end-to-end pipeline. Product quality prediction and adhesive consumption recommendation results can be observed by field experts through dashboards in near-real time, resulting in a faster feedback loop. Laboratory results indicate a significant impact equating to savings of $300,000 annually, reducing their carbon footprint in production by preventing unnecessary chemical waste.

Read more at AWS Blog

Industrial defect detection at the edge

🦾 How to Make a Cost-effective Flexible Robotic Solution for Low-volume Production

📅 Date:

✍️ Author: @vasiliirobotech

🔖 Topics: Backyard Factory, Industrial Robot, Machine Design, Edge Computing


Despite its process flexibility, the unified cell is still a production system that requires a level of investment that might not be the best suited for scenarios where one wants to produce short production runs of products that don’t share common applications (e.g. joining equipment) therefore require reconfiguration of its applications for every production run. To address this problem, we need a production system that can be reconfigured with multiple process capabilities while reusing as much equipment as possible to allow good utilisation of investment-heavy resources while meeting the machine safety directives and technical requirements.

By lessening the complexity of the hardware architecture, we can significantly increase the capabilities and ways of using the equipment that makes it financially efficient even for low-volume tasks. Moreover, the further development of the solution can be mostly in the software part, which is easier, faster and cheaper than hardware R&D. Having “chipset” architecture allows us to start using AI algorithms - a huge prospective.

Read more at Hackernoon

Smart Factory with TI TDA4VM

📅 Date:

✍️ Author: @justinedwinlutz

🔖 Topics: Edge Computing

🏢 Organizations: Texas Instruments


Knowing the status and health of factory machinery is critical to an organization’s success. It takes factory operator vigilance to regularly monitor equipment and take action if anomalous behavior is detected. However, it can be fatiguing for personnel to constantly monitor equipment, and if an issue is missed, weeks of downtime for costly repairs can be the result.

This is where the power of computer vision on the edge can be invaluable. Using a computer model trained to detect nominal and off-nominal behavior, operators can be alerted of issues, rather than having to be constantly on the lookout. And with the inferencing being done at the edge, privacy is maintained, and organizational leadership can breathe easy that perhaps sensitive images won’t be sent to the cloud for remote inferencing.

Read more at Hackster

New NVIDIA IGX Platform Helps Create Safe, Autonomous Factories of the Future

📅 Date:

✍️ Author: Amanda Saunders

🔖 Topics: Edge Computing, Worker Safety

🏢 Organizations: NVIDIA


NVIDIA today introduced the IGX edge AI computing platform for secure, safe autonomous systems. IGX brings together hardware with programmable safety extensions, commercial operating-system support and powerful AI software — enabling organizations to safely and securely deliver AI in support of human-machine collaboration. The all-in-one platform enables next-level safety, security and perception for use cases in healthcare, as well as in industrial edge AI.

Read more at NVIDIA Blog

TELUS: Solving for workers’ safety with edge computing and 5G

📅 Date:

🔖 Topics: 5G, Edge Computing, Worker Safety

🏢 Organizations: Google, TELUS


Together with Google Cloud, we have been leveraging solutions with the power of MEC and 5G to develop a workers’ safety application in our Edmonton Data Center that enables on-premise video analytics cameras to screen manufacturing facilities and ensure compliance with safety requirements to operate heavy-duty machinery. The CCTV (closed-circuit television) cameras we used are cost-effective and easier to deploy than RTLS (real time location services) solutions that detect worker proximity and avoid collisions. This is a positive, proactive step to steadily improve workplace safety. For example, if a worker’s hand is close to a drill, that drill press will not bore holes in any surface until the video analytics camera detects that the worker’s hand has been removed from the safety zone area.

Read more at Google Cloud Blog

Nokia strengthens partnership with Microsoft to enhance performance at the mission critical industrial edge

📅 Date:

🔖 Topics: Edge Computing

🏢 Organizations: Nokia, Microsoft


Nokia today announced plans to integrate Microsoft Azure Arc capabilities into the Nokia MX Industrial Edge (MXIE) platform, unlocking the potential of mission critical applications for Industry 4.0 use cases. Through the integration, Nokia MXIE and private wireless solution customers have seamless access to the full Azure ecosystem offering on MXIE.

Aimed to support industries including automotive, manufacturing, energy, logistics and government, the powerful combination will enable use cases by allowing customers to run applications in the traditional cloud, as well as directly on their premises. Collaboration in these areas will provide numerous benefits such as increasing worker safety through AI and automation, while decreasing the amount of needed backhaul with local data processing.

Read more at Nokia Press Releases

Where is 'The Edge' and why does it matter?

📅 Date:

✍️ Author: Nikunj Mehta

🔖 Topics: Edge Computing

🏢 Organizations: Falkonry


The Edge is not a place – It is an optimization problem. Edge computing is about doing the right things in the right places. As with all optimization problems, getting to the “right” answer requires considering a number of tradeoffs that are specific to your situation and then applying the right technology to maximize the benefits for the cost you are willing to pay.

Part of what makes Edge confusing is that definitions of “The Edge” tend to focus on technologies rather than on use cases. Since use cases span a very wide range of requirements and the boundaries between those use cases don’t map directly to technologies, definitions in terms of technology can be difficult to use.

Read more at Falkonry Blog

Manufacturing Shifts To AI Of Things

📅 Date:

✍️ Author: John Koon

🔖 Topics: IIoT, edge computing

🏢 Organizations: Infineon, Flex Logix, Silicon Labs


Preventive maintenance is an important part of smart manufacturing, but this is just the beginning. AIoT can be deployed in many different areas in a factory to further increase productivity. For example, it can be used for incoming inspection. Traditionally, the quality control department performs sample inspection. Instead of inspecting 100% of the components used to build a device, only a sample — say 10% — will be audited. With the installation of a 3D HD camera, AIoT can inspect 100% of the components and screen out defective parts at an early stage. Additionally, a robotic arm can pick out defective components or those of different colors and/or shapes, further reducing reject rates.

AIoT also can be used to improve worker safety, resulting in lower worker compensation payments. For example, a warehouse can be equipped with AIoT cameras to ensure only authorized workers wearing appropriate safety equipment can enter the warehouse.

Read more at Semiconductor Engineering

How ALPLA has adopted CrateOM for Smart Manufacturing

Nokia launches first off-the-shelf, mission-critical Industrial Edge to accelerate the enterprise journey to Industry 4.0

📅 Date:

✍️ Author: Tessa Axsom

🔖 Topics: edge computing, operational technology

🏢 Organizations: Nokia


Nokia today announced it has launched the industry’s first cloud-native, mission-critical industrial edge solution to allow enterprises to accelerate their operational technology (OT) digitalization initiatives and advance their journey to Industry 4.0. The new Nokia MX Industrial Edge is a scalable application and compute solution designed to meet the mission-critical digital transformation needs of asset-intensive industries such as manufacturing, energy, and transportation. It uniquely combines compute, storage, wired/wireless networking, one-click industrial applications and automated management onto a unified, on-premise OT digital transformation platform.

Read more at Telecom TV

AI in the Process Industry

📅 Date:

✍️ Author: Hiroaki Kanokogi

🔖 Topics: AI, Edge Computing, Sensor Design

🏢 Organizations: Yokogawa


When applying AI to difficult problems in plants, approaches differ depending on whether AI researchers can access useful information derived from similar problems. This article first discusses how to search and identify useful research and literature. If well established AI research is available, the next step is simply to choose an appropriate AI platform. If not, the most serious bottleneck for the problem-solving task arises: how to integrate plant domain knowledge and AI technology. This article presents a solution to the latter case. This solution enables plant engineers to make full use of AI geared for themselves, not for data scientists. AI-based control, which is one of the promising AI applications for plants and is expected to solve difficult problems in plants, is also discussed.

Read more at Yokogawa Technical Report

AWS IoT SiteWise Edge Is Now Generally Available for Processing Industrial Equipment Data on Premises

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🔖 Topics: manufacturing analytics, edge computing

🏢 Organizations: AWS


With AWS IoT SiteWise Edge, you can organize and process your equipment data in the on-premises SiteWise gateway using AWS IoT SiteWise asset models. You can then read the equipment data locally from the gateway using the same application programming interfaces (APIs) that you use with AWS IoT SiteWise in the cloud. For example, you can compute metrics such as Overall Equipment Effectiveness (OEE) locally for use in a production-line monitoring dashboard on the factory floor.

Read more at AWS News Blog

Real-World ML with Coral: Manufacturing

📅 Date:

✍️ Author: Michael Brooks

🔖 Topics: edge computing, AI, machine learning, computer vision, convolutional neural network, Tensorflow, worker safety

🏢 Organizations: Coral


For over 3 years, Coral has been focused on enabling privacy-preserving Edge ML with low-power, high performance products. We’ve released many examples and projects designed to help you quickly accelerate ML for your specific needs. One of the most common requests we get after exploring the Coral models and projects is: How do we move to production?

  • Worker Safety - Performs generic person detection (powered by COCO-trained SSDLite MobileDet) and then runs a simple algorithm to detect bounding box collisions to see if a person is in an unsafe region.
  • Visual Inspection - Performs apple detection (using the same COCO-trained SSDLite MobileDet from Worker Safety) and then crops the frame to the detected apple and runs a retrained MobileNetV2 that classifies fresh vs rotten apples.

Read more at TensorFlow Blog

Trash to Cash: Recyclers Tap Startup with World’s Largest Recycling Network to Freshen Up Business Prospects

📅 Date:

✍️ Author: Scott Martin

🔖 Topics: AI, edge computing, computer vision, recycling

🏭 Vertical: Plastics and Rubber

🏢 Organizations: NVIDIA, AMP Robotics


People worldwide produce 2 billion tons of waste a year, with 37 percent going to landfill, according to the World Bank.

“Sorting by hand on conveyor belts is dirty and dangerous, and the whole place smells like rotting food. People in the recycling industry told me that robots were absolutely needed,” said Horowitz, the company’s CEO.

His startup, AMP Robotics, can double sorting output and increase purity for bales of materials. It can also sort municipal waste, electronic waste, and construction and demolition materials.

Read more at NVIDIA Blog

SLAM for the real world

📅 Date:

✍️ Author: Owen Nicholson

🔖 Topics: robotics, edge computing


To take the next leap forward, the robotics industry needs software that is reliable and effective in the real-world, yet flexible and cost effective to integrate into a wider range of robot platforms and optimized to make efficient use of limited compute, power and memory resources. Creating ‘commercial-grade’ software that is robust enough to be deployed in thousands of robots in the real world, at prices that make that scale achievable, is the next challenge for the industry.

Read more at The Robot Report

Tree Model Quantization for Embedded Machine Learning Applications

📅 Date:

✍️ Author: Leslie J. Schradin

🔖 Topics: edge computing, machine learning

🏢 Organizations: Qeexo


Compressed tree-based models are useful models to consider for embedded machine learning applications, in particular with the compression technique: quantization. Quantization can compress models by significant amounts with a trade-off of slight loss in model fidelity, allowing more room on the device for other programs.

Read more at Qeexo

The realities of developing embedded neural networks

📅 Date:

✍️ Author: Tony King-Smith

🔖 Topics: edge computing, machine learning, AI

🏢 Organizations: AImotive


With any embedded software destined for deployment in volume production, an enormous amount of effort goes into the code once the implementation of its core functionality has been completed and verified. This optimization phase is all about minimizing memory, CPU and other resources needed so that as much as possible of the software functionality is preserved, while the resources needed to execute it are reduced to the absolute minimum possible.

This process of creating embedded software from lab-based algorithms enables production engineers to cost-engineer software functionality into a mass-production ready form, requiring far cheaper, less capable chips and hardware than the massive compute datacenter used to develop it. However, it usually requires the functionality to be frozen from the beginning, with code modifications only done to improve the way the algorithms themselves are executed. For most software, that is fine: indeed, it enables a rigorous verification methodology to be used to ensure the embedding process retains all the functionality needed.

However, when embedding NN-based AI algorithms, that can be a major problem. Why? Because by freezing the functionality from the beginning, you are removing one of the main ways in which the execution can be optimized.

Read more at Embedded

How Edge Analytics Can Help Manufacturers Overcome Obstacles Associated with More Equipment Data

📅 Date:

✍️ Author: Martin Thunman

🔖 Topics: edge computing, IIoT

🏢 Organizations: Crosser


Big data is transforming a variety of sectors, ushering them into the era of Industry 4.0. However, having access to raw data and knowing what to do with it are at completely different ends of the digitalization spectrum. To help manufacturers understand, and overcome, some of the challenges associated with smart manufacturing, Martin Thunman, CEO and co-founder of leading low-code platform for streaming analytics, automation and integration for industrial IoT, Crosser shares his insight.

Read more at Automation

FPGA comes back into its own as edge computing and AI catch fire

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🔖 Topics: field-programmable gate array, edge computing, AI

🏢 Organizations: Efinix


The niche of edge computing burdens devices with the need for extremely low power operation, tight form factors, agility in the face of changing data sets, and the ability to evolve with changing AI capabilities via remote upgradeability — all at a reasonable price point. This is, in fact, the natural domain of the FPGA with an inherent excellence in accelerating compute-intensive tasks in a flexible, hardware-customizable platform. However, much of the available off-the-shelf FPGAs are geared toward data center applications in which power and cost profiles justify the bloat in FPGA technologies.

Read more at EE Times

Intelligent edge management: why AI and ML are key players

📅 Date:

✍️ Authors: Fetahi Wuhib, Mbarka Soualhia, Carla Mouradian, Wubin Li

🔖 Topics: AI, machine learning, edge computing, anomaly detection

🏢 Organizations: Ericsson


What will the future of network edge management look like? We explain how artificial intelligence and machine learning technologies are crucial for intelligent edge computing and the management of future-proof networks. What’s required, and what are the building blocks needed to make it happen?

Read more at Ericsson

Gaining an Edge on Line Control

📅 Date:

✍️ Author: Vibhoosh Gupta

🔖 Topics: IIoT, Programmable Logic Controller, edge computing

🏢 Organizations: Emerson


Edge control provides access to real time OEE and information visualization that changes the value calculation. With edge control, end-users can easily tie together existing equipment, other legacy controllers and new external sensing. The combined raw data can be analyzed at the edge to generate information needed by operators to take fast informed action, and it is the foundation for more advanced production line integration, with the ultimate goal of insight-driven and adaptive operation.

Read more at Machine Design

Intel Accelerates AI for Industrial Applications

📅 Date:

✍️ Author: Brian McCarson

🔖 Topics: AI, IIoT, PyTorch, OpenVINO, edge computing

🏢 Organizations: Intel


The human eye can correct for different lighting conditions easily. However, images collected by camera can naturally vary in intensity and contrast if background lighting varies as well. We’ve seen scale challenges observed by factories trying to deploy AI for defect detection based on the exact same hardware, software and algorithm deployed on different machines on the factory floor. Sometimes it took months for factory managers and data scientists to find out why they were getting great results on one machine with high accuracy, low false positive and false negative rates, while on the next machine over the AI application would crash.

Read more at Intel

Evolving control systems are key to improved performance

📅 Date:

✍️ Author: Sean Sims

🔖 Topics: digital twin, industrial control system, edge computing

🏢 Organizations: Emerson


For decades, the control system was constrained by physical hardware: hardwired input/output (I/O) layouts, connected controllers and structured architectures including dedicated networks and server configurations. Now, the lower cost of processing power and sensing, the evolution of network and wireless infrastructure, and distributed architectures (including the cloud) are unlocking new opportunities in control systems. Additionally, emerging standards for plug-and-produce, such as advanced physical layer (APL) and modular type package (MTP) interfaces, will drive significant changes in the way plants design and use control systems over the next decade.

Read more at Control Engineering

Industrial DataOps: Unlocking Data and Analytics for Industry 4.0

📅 Date:

✍️ Author: @billbither

🔖 Topics: cloud computing, edge computing, IIoT

🏢 Organizations: MachineMetrics


As an approach to data analytics, DataOps is all about reducing the time to high-accuracy analyses using automation, statistical process control, and agile methodologies so that manufacturers are able to use the data they collect quicker and with a higher degree of confidence.

The role of DataOps in Industry 4.0 is to take all of the info created and collected by machines, like IIoT devices, and effectively condense them into refined, usable business “fuel” to drive decision-making, rather than be left to sit in a data warehouse, unexamined.

Read more at MachineMetrics

Edge-Inference Architectures Proliferate

📅 Date:

✍️ Author: Bryon Moyer

🔖 Topics: AI, machine learning, edge computing

🏭 Vertical: Semiconductor

🏢 Organizations: Cadence, Hailo, Google, Flex Logix, BrainChip, Synopsys, GrAI Matter, Deep Vision, Maxim Integrated


What makes one AI system better than another depends on a lot of different factors, including some that aren’t entirely clear.

The new offerings exhibit a wide range of structure, technology, and optimization goals. All must be gentle on power, but some target wired devices while others target battery-powered devices, giving different power/performance targets. While no single architecture is expected to solve every problem, the industry is in a phase of proliferation, not consolidation. It will be a while before the dust settles on the preferred architectures.

Read more at Semiconductor Engineering

Sensor Fusion: The Swiss Army Knife of Digitalization

📅 Date:

✍️ Author: David Miller

🔖 Topics: industrial control system, digital transformation, edge computing, predictive maintenance

🏢 Organizations: Balluff, Bosch Rexroth, Emerson, Omron


With the proper communication protocols and network architecture in place, smart sensor technology and the data it provides can be the bulwark on which digital transformation is built.

If industrial control systems are the brains of a plant, then sensors are its eyes and ears. Simply put, without sensors there would be nothing for SCADA, DCS, or PLCs to respond to. That’s why increasingly intelligent or ‘smart’ sensors packing more onboard processing power, the ability to monitor new variables, and digital communication capabilities are playing such an important role in helping plant operators and enterprise level planners alike to see better and respond to problems with more finesse.

Read more at Automation World

Facilitating IoT provisioning at scale

📅 Date:

✍️ Author: Richard Elberger

🔖 Topics: cloud computing, edge computing, IIoT

🏢 Organizations: AWS


Whether you’re looking to design a new device or retrofitting an existing device for the IoT, you will need to consider IoT provisioning which brings IoT devices online to cloud services. IoT provisioning design requires decisions to be made that impact user experience and security for both network commissioning and credential provisioning mechanisms which configure digital identities, cloud end-points, and network credentials so that devices can securely connect to the cloud.

Read more at Embedded.com

Industrial automation unites the best of OT and IT

📅 Date:

✍️ Author: Rich Carpenter

🔖 Topics: edge computing, IIoT

🏢 Organizations: Emerson


As operational and information technology roles progressively overlap in the industrial automation space, a hybrid operational technology/information technology (OT/IT) solution becomes increasingly necessary.

Read more at Plant Engineering