The recent craze over ChatGPT throws light on the underlying business opportunities of AI applications. AI applications driven by cloud services have attracted their fair share of attention, but Edge Computing AI applications are also on the rise. Edge AI helps reduce large amounts of data uploads to the cloud, which enables applications like photographic lenses and electronic devices to analyze data and respond instantly thanks to high-performance computing power. The technology also comes with its own advantages in cutting costs and saving power. In addition, Edge AI has crucial strengths in personal privacy and information security; it also creates many business opportunities in the embedded systems market. That is reason enough to be optimistic about the business opportunities in Edge AI development. AI tech startups are challenging market leaders through capital investment and continue to perform brilliantly in a series of AI chip product lines, from Edge Computing to cloud servers.The DEEPX start-up team from South Korea has set their sights on the development of AI accelerator chips for Neural Processing Units (NPUs). DEEPX CEO Lokwon Kim has a PhD in electrical engineering from UCLA and more than ten years of experience in Silicon/AI Chip design at Broadcom and Apple. DEEPX has raised 50 million US dollars and established a chip design and development team 50-plus strong, and it has its sights set on creating next-gen NPU chips.In early 2023, DEEPX launched the DEEPX Series of solutions, which includes four semiconductor solutions, namely DX-L1, DX-L2, DX-M1, and DX-H1, each optimized for a different core AI application. At the same time, they launched the DEEPX software development kit DXNN, enabling the four semiconductor solutions developed by DEEPX to be driven under a unified software framework. DXNN series products can be applied to various fields, from small-sized sensors to edge servers. They are in the running to become an important product package (All-in-4 Edge AI Total Solution) in the AI semiconductor market.One of the key differentiators of DEEPX's AI chip product line lies in their technological prowess. The chips deliver high-performance AI capabilities while ensuring power efficiency, computational efficiency, AI accuracy, and support for the latest AI algorithms. This technological advantage has propelled DEEPX to the forefront of the AI semiconductor industry, surpassing global competitors' NPU (Neural Processing Unit) technology. Furthermore, DEEPX's AI chips offer superior cost competitiveness compared to GPUs and other market solutions, creating a significant edge in the NPU field.DEEPX also recently launched three modular NPU products. The ultra-small camera module equipped with the DX-L1 chip is the first product in the world that runs the latest DNN algorithm on a PCB the size of just half a business card, all without a heat sink, thus performing AI computational processing that only GPUs could do. Currently, the company is actively working on a proof of concept with companies both in Korea and globally that operate smart CCTV and control systems. In addition, DEEPX has also developed the M.2 module and PCIe module-type DX-M1 chips used in inference servers. It is currently shipping to customers for testing. And it is also using promotional activities to draw more customer participation.Since the beginning of this year, DEEPX has cooperated with Hyundai-Kia Motors, POSCO DX, and Jahwa Electronics to promote the commercial testing of AI solutions such as robots, smart cameras, and factory automation. DEEPX is also cooperating with CoAsia to enter East Asian markets like China and Taiwan. In September of this year, DEEPX will participate in the Consumer Electronics Unlimited (IFA 2023) expo to be held in Berlin, Germany, where it will advance its business exchanges with European companies working in the robotics, automotive, and telecommunications industries.Taiwan Tech Arena helps connect to Taiwan's global electronics manufacturing ecosystem and supply chainKim says he believes that Taiwan is an important global manufacturing center for electronics. In the past, he had cooperated with companies in Silicon Valley to enhance DEEPX's name in the tech field, but for extending product reach and expanding business, he still needed to link up with Taiwan's manufacturing industry. With the assistance of Taiwan Tech Arena (TTA), DEEPX participated in the TTA Global Forum in InnoVEX 2023 held at Computex in 2023, where DEEPX was able to interact and exchange more frequently with Taiwanese companies. Its discussions with Taiwan OEM/ODM customers helped DEEPX develop AI applications for industrial computers and focus on the design of next-gen robots.Since camera modules are widely used in smart cars and smart manufacturing, Kim pays special attention to the development potential in smart camera modules in Taiwan. Kim believes that co-designing AI-driven camera modules with Taiwanese OEMs/ODMs will help spur diverse development in AI applications. He expressed his gratitude to the TTA for its role in helping tech start-up teams make the crucial connections with Taiwan's electronics manufacturing ecosystem, and gave the TTA high marks. He said he believes that although fundraising is important, some of the most important benefits come from making connections between the tech innovation teams and the industrial chain and providing business opportunities to cooperate with major manufacturers. DEEPX is currently establishing a liaison office in Taiwan, with the assistance of the TTA, which will serve as the starting point for linking up with industry in Taiwan. Although the staff has just one person at the moment, the benefits of the office have already been demonstrated.Looking to future development, DEEPX will initiate formal mass production of NPU chips as well as targeting AI applications in the automotive market. The European Union is now formulating passenger vehicle safety regulations, requiring vehicles to have functions for automatically detecting babies or pets in the car within 15 minutes to prevent the consequences of leaving them in cars. DEEPX believes that this will create more business opportunities for AI applications.Moving forward with product planning, DEEPX will first obtain ISO26262 certification to use DEEPX NPU IP in the automotive field; it will then make automotive SoC chips that meet the safety and reliability requirements of the automotive market. Kim emphasized that their cooperation with Taiwan's electronics supply chain and major OEM/ODM manufacturers is a crucial step toward the future development of DEEPX. He hopes to keep seeking opportunities for cooperation with industry in Taiwan to help bring more AI applications to more users, and more benefits to society at large.From the left, are the camera module with DX-L1, M.2 module with DX-M1 in the middle, and the PCIe module with DX-H1 on the rightPhoto: DEEPX

Macronix International Co., Ltd. (TSE: 2337), a leading integrated-device manufacturer in the non-volatile memory (NVM) market, today announced its OctaFlash memory line has received ISO 26262 ASIL D (Automotive Safety Integrity Level) certification from SGS TÜV Saar, ensuring makers of automotive electronic systems that OctaFlash meets the highest level of safety in automotive electronics.ISO 26262 (also known as "Road vehicles – Functional safety") is a risk-based safety standard of the International Organization for Standardization whose goal is to build safety into the entire lifecycle of vehicles' electrical and/or electronic (E/E) equipment and systems, including cars' instrument panel, driver assistance, and propulsion and control systems. Four risk-classification systems from A through D were defined in the ISO 26262 standard, with ASIL D being the highest hazard level for vehicles, adhering to the most stringent safety standards."This ISO 26262 ASIL D certification reflects how Macronix is building on our success both in OctaFlash's evolution as a powerful Flash-storage solution for the automotive market and in playing a key role in maximizing the functional safety of vehicles," said F.L. Ni, vice president of marketing at Macronix International. "Now, our customers have an even greater level of confidence to meet the industry's highest safety standards when selecting OctaFlash for the automotive electronic systems they manufacture."Macronix OctaFlash solutions certified for ISO 26262 ASIL D offer a high data-transfer-rate-operation frequency of up to 200MHz and high throughput of 400MB/s, meeting the "instant on" demand performance for real-time system responsiveness in automotive, industrial and consumer applications. The devices' high performance offers an ideal solution for vehicles' over-the-air (OTA) update applications, which have become significantly more important with the increasing demands of the Internet of Vehicles (IoV). The high-performance Macronix OctaFlash memory enables the execution of critical OTA data tasks, such as distributing software updates, upgrading firmware and changing the user interface.Macronix OctaFlash Memory Solutions Certified for ISO 26262 ASIL D

Countries around the world are promoting renewable energy, for which solar power accounts for over half of green electricity. However, solar panels have a service life of less than 20 years, and can only be incinerated once they are scrapped; the CO2 generated has become a severe issue. California has even enacted strict laws to prohibit incineration. The solar panel recycling equipment developed by TSGC Technologies uses AI to break down solar panels into raw materials, so that they can be 100% recycled and reused.TSGC Technologies is a spin-off of the National University of Tainan established with subsidies from the National Science and Technology Council in 2022. The company uses physical technologies to develop a solution with zero pollution and fully recycles solar panels. The co-founder Professor Yaw-Shyan Fu shared that TSGC Technologies is the first startup of the National University of Tainan in over 120 years. The company's goal is to accelerate the transition to solar PV through circular economy, and apply IoT, blockchain, and decentralized network technologies to integrate a carbon rights economy.TSGC Technologies Uses Equipment to Take Apart Solar Panels for Recycling and ReuseProf. Fu pointed out that the team developed an equipment "PV Circulator," which uses blades for precise grinding when end-of-life solar panels are placed inside. The AI recognition system then sorts raw materials, including aluminum frame, junction box, backsheet materials, packaging materials, and silicone wafers. These materials are waste when they are mixed together, but have value when they are separated. The goal of TSGC Technologies is to create value through 100% recycling and reuse.Precision grinding method using blades to remove materialsIt is not easy to take apart an end-of-life solar panel. Prof. Fu pointed out that there are over 2,000 types of solar panels in Taiwan, and over 20,000 types in California. Each type is different, so the equipment uses AI for recognition and takes apart the solar panels. The parameters are then recorded in the cloud, including recycling rate and electricity consumption taking the solar panel apart, and are all converted into carbon emissions. The immutability of block chain is then utilized to provide a recycling history to the solar panel's owner to obtain a carbon reduction certificate, which may be converted into carbon rights in the future, using this to encourage companies to recycle their solar panels.Using AI recognition for dismantling and providing a recycling history to solar panel ownersCountries Around the World are Searching for a Zero Pollution Solution for Solar PanelsCountries around the world are currently subsidizing solar panels. Prof. Fu pointed out that Europe, the United States, and Japan were the first to being using solar panels, and it led to severe pollution later on. Current solutions in the market, such as the hot knife method and tunnel thermal decomposition method of Japan's NPC, as well as the European Union's Full Recovery End-of-Life Photovoltaic (FRELP) all involve chemistry, heat, or burying.California originally crushed and then incinerated solar panels, but enacted a strict law to prohibit incineration in 2021. Prof. Fu pointed out that the equipment of TSGC Technologies is able to recycle and reuse 99% of solar panels without using chemicals or incineration, and it is currently the only equipment in the world that complies with California's laws. Hence, the team is currently developing mass producing plan of the equipment in hopes of helping countries around the world achieve net zero emissions, with the ultimate goal of achieving 100% recycling and reuse.TSGC Technologies Hopes to Market its Technology Worldwide Through the TIE AwardThe solar panel recycling solution developed by TSGC Technologies was recognized with the TIE Award during Taiwan Innotech Expo this year, and will be displayed in the Future Tech Pavilion. Prof. Yaw-Shyan Fu pointed out that TSGC Technologies has extraordinary technologies, but it lacks a global marketing network and hopes to increase its international exposure through the TIE Award. Hence, the equipment and model displayed will provide a complete introduction of the solution for taking apart solar panels using physical technologies.Transporting entire solar panels is very costly, and exceeds US$2 million for 500 MW. Prof. Yaw-Shyan Fu stressed that the head office of TSGC Technologies is located in the United States, and Taiwan is the production base. The company is currently discussing future cooperation with companies in California, and also has an opportunity to work with Belgium's Wallonia Export-Investment Agency. The company hopes that its next step will be to take action, directly transport the equipment to its destination, and begin taking apart solar panels, accelerating the energy transition of solar power.

The ASUS VivoWatch, with a comprehensive set of smart functions for measuring precise blood oxygen levels, blood pressure, and heart rhythm, became a superior assistant for health management thanks to its accurate physiological measurement features at the launch of the first-generation product. Chief Operating Officer and Global Senior Vice President of ASUS Min-Chieh, (Joe) Hsieh points out that the main thing that sets the VivoWatch apart from ordinary smart watches on the market is, from the user's perspective, that ASUS positioned the device as a modern personal health management platform right from the beginning, providing value-added health services to companies and end users in various fields. In recent years, ASUS has expanded the scope of the VivoWatch and launched cross-domain cooperation with medical care institutions, the insurance industry, and the construction industry to further strengthen its product positioning.Hsieh says that in recent years health awareness in the Taiwanese public has increased, and devices such as blood pressure monitors, blood glucose meters, and blood oxygen level monitors, which can only detect certain current vital signs, are no longer able to meet the health needs of modern consumers. That is where the ASUS VivoWatch comes in—it has a battery life of up to 14 days, can closely monitor health data over long periods of time, and adds in personal life information to provide more value-added care. That is why it has become a major choice for most companies in the field building smart systems.ASUS VivoWatch has variously demonstrated its business value in different fields, pharmaceuticals and insurance being two of the most representative. Pharmaceutical companies, for example, must closely monitor the vital signs of subjects during the development stages of new drugs. The VivoWatch can collect physiological data over long periods of time, helping pharmaceutical companies obtain and comprehend relevant data and evaluate the overall effects of new drugs. In another example, insurance spillover policy services were launched for Taiwanese insurance companies, and these policies require policyholders to have better control over their own health management and achieve standard health values through exercise and physical examinations. Their success earns them discounts, such as premium rebates and increased insured amount. The VivoWatch can obtain policyholders' physiological data, in real time, continuously, and compliantly, helping insurance companies to accurately design premium structures and establish a digital health ecosystem focused on the individual.And it is not just being used in pharmaceuticals and insurance—ASUS VivoWatch has also begun to be used in occupational safety. Recently, legislation from the governments of Singapore and Hong Kong require that manufacturing, construction, and other industries introduce health monitoring technology. Manufacturers have been adopting the VivoWatch to monitor the physical conditions of workers in factories and construction sites in real-time to prevent accidents.The ASUS VivoWatch has many successful applications in the medical field. During the COVID-19 pandemic, Taoyuan General Hospital had COVID patients in the isolation room wearing VivoWatches, which transmitted vital signs, such as heartbeat and blood oxygen, to the back end system. This reduced the workload of medical staff and cut down the rate of contact with COVID-19 patients. This very same model, using technology to improve the quality of medical services and solve the current shortage of medical manpower, can also be applied to emergency rooms or other isolation wards.In addition, the ASUS VivoWatch also has various value-added benefits in the medical care field. Recently, Show Chwan Memorial Hospital (SCMH), as well as other medical institutions have used it for long-term healthcare patients and customers. VivoWatch's continuous and stable data collection can help these institutions provide long-term health management services for patients. They only need to wear the device at home, and hospitals can remotely monitor their vital signs. SCMH uses the VivoWatch and the ASUS HealthConnect APP in the hospital's EVIP advanced health exam service. The VivoWatch continually detects the customer's vital signs between two physical examinations and uploads the data to the cloud. That way, the hospital's dedicated personal manager can continually observe the customer's health status.The examples mentioned above show how mobile wearable devices have been applied in various fields in the industry as an important tool that can raise operational efficiency and create new business models. However, Hsieh also pointed out that these applications must first comply with medical regulations and must be very effective. The ASUS VivoWatch goes beyond the logic of most smart watches by putting the focus on medical institutions and users; it puts the power of ASUS software and hardware into the logic of modern personal health management platforms, and helps operators in various fields to develop value-added models and create all-around beneficial situations combining personal health care and industrial application development.COO and Global Senior Vice President of ASUS Min-Chieh (Joe), HsiehVivoWatch differs from typical smartwatches on the market as it is positioned as a modern personal health management platform.

Wurth Elektronik and STMicroelectronics jointly developed a demo using a Wurth power tool. The design, which efficiently drives a low-voltage Brushless DC motor, is ideal for handheld power-tool applications. Moreover, the design includes all the necessary user interfaces required to control the motor's trigger, speed, and direction.The demo is based on the STDES-PTOOL3A reference design, in which the Gerber files, Bill of Materials, schematics and all other reference materials are downloadable from ST.com without charge. It showcases the capabilities of ST's STM32G4 MCU and STDRIVE101 gate driver in powering six STL220N6F7 MOSFETs that all comply with Wurth Elektronik's Ferrite Bead (WE-CBF SMT EMI Suppression Ferrite Bead 74279271) and Power Inductor (WE-LHMI SMT Power Inductor 74437368330) and the benefits they bring to each application in performance, cost, quality, and ease of implementation. The software code embedded in the STM32G4 was developed using the STM32 Motor Control software development kit (X-CUBE-MCSDK). The design shows real-world usage scenarios in battery-operated handheld power tools.Over the past few years, STMicroelectronics, a global semiconductor leader serving customers across the spectrum of electronics applications, and the passive components manufacturer Wurth Elektronik, an ST Authorized Partner, have established a strong collaboration developing reference designs that leverage the best of each companies' portfolios. By combining active components from ST with passive components from Wurth Elektronik, the companies can offer ready-made turnkey or customizable solutions to customers. The synergies of the collaboration between ST and Wurth Elektronik are reflected in the breadth and success of earlier joint projects, including the integration of Wurth Elektronik components on a range of ST evaluation boards."Working with Wurth Elektronik, ST has shown its capability to work with partners to extract the best performance from its product offer and to jointly develop system solutions addressing the most challenging and complex application needs," said Ricardo De Sa Earp, Executive Vice President, General-Purpose Microcontroller Sub-Group, STMicroelectronics."The development of a cost-effective, high-quality reference design that forms the basis for outstanding power tools is another example of the fruitful collaboration we share with STMicroelectronics," said Alexander Gerfer, CTO, Wurth Elektronik eiSos Group.Wurth Elektronik and STMicroelectronics jointly developed a demo using a Wurth power tool

The STMicroelectronics STPM801 is the market's first automotive-qualified integrated hot-swap and ideal-diode controller featured for functional-safety applications.The ideal-diode controller drives an external MOSFET replacing a Schottky diode conventionally used for reverse-input protection and output-voltage holdup. The reduced voltage drop across the MOSFET reduces power dissipation during normal operation, compared to the forward voltage of the Schottky diode. When a reverse-voltage event occurs, in case of faults like power source failure, brownout or input short-circuit, turning off the MOSFET blocks the associated reverse-current transients.The ideal-diode controller circuit also provides power ORing, to switch between a main and backup battery to ensure uninterrupted supply to safety-critical equipment such as autonomous driving and advanced driver assistance systems (ADAS).The integrated hot-swap controller drives a second external N-channel MOSFET to protect loads during hot-swap events. A soft-start function controls the turn-on transient of this second MOSFET by charging a capacitor of known value connected to its gate at constant current to avoid high inrush currents. The overvoltage and undervoltage pins cut off the output voltage whenever the input voltage is not within specified thresholds.The STPM801 also includes protection features and monitoring suitable for applications that meet functional safety requirements for systems up to Automotive Safety Integrity Level (ASIL) D according to ISO 26262. The features are packaged within a 5mm x 5mm VFQFN-32 footprint, saving PCB space and minimizing demand for external components.Operating from a 4V-65V supply voltage, and with 25µA quiescent current, the STPM801 withstands automotive electrical hazards and minimizes battery drain when the vehicle is turned off. It is used in zonal/body ECUs, ADAS ECUs, high-performance computing ECUs, infotainment ECUs, redundant power delivery systems, and dual-battery systems.The STPM801 is in mass production now.For more information, please visit www.st.com/stpm801.STMicroelectronics STPM801 is the market's first automotive-qualified integrated hot-swap and ideal-diode controller

In recent years, the e-commerce has soared because of the exponential growth of Omni channel strategies. As a result, high efficient supply chain management and flexible inventory management have become the key to success for every logistics companies. Companies now grapple with challenges like scattered orders, concentrated arrivals, strict logistics deadlines, and the cost control pressures. They are keen to find out a way to optimize labor costs, enhance transportation efficiency, reduce delivery times, and maximize the benefits of warehousing and logistics. The retail, manufacturing, and e-commerce industries all are reliant on robust logistics systems to drive business growth. Smart logistics has become a key term for industry advancement, driving the logistics industry to accelerate digital transformation, which requires adopting smart logistics management solutions. With the adoption of technologies as big data, artificial intelligence (AI), and the Internet of Things (IoT) , the industry aims to meet the increasingly complex demands of the market.Traditional warehouse operation in logistics is often labor-intensive, which results in high employee turnover and recruitment challenges. Logistics providers today must be able to respond quickly and ensure accurate deliveries. Meeting customer demands requires companies to devise methods to address staffing limitation, minimize the time from receiving goods and orders to shipping, and provide excellent customer service. To achieve these goals, companies must embrace smart logistics solutions.Driven by information technology, smart logistics integrates perceptual into various facets of the logistics process, including transportation, warehousing, packaging, loading and unloading, distribution processing, and delivery. Collect data from these operations and analyze it to make optimal decision. This field encompasses elements such as equipment sensing, data processing, intellectualized analysis, and decision optimization. However, when we consider the diverse demands of deploying logistics deployment, it becomes the key element that certain challenges need to be addressed. For instance, as companies' image capture quantities requirement and amount information analysis , numerous cameras must be applied in the field, which often necessitates high-speed image transmission and on-device artificial intelligence image recognition. Unfortunately, standard industrial computer (IPC) specifications typically struggle to meet all these diverse configuration requirements simultaneously.In contrast, ADLINK's IMB-M47 industrial ATX motherboard, powered by Intel 13th/12th Gen processors (Raptor Lake-S/Alder Lake-S), not only leads the industry with DDR5 , Gen4 SSD, three 2.5 Gbe LANs and high-speed I/O design to boast high transmission speed but includes 7 PCIe slots for add-on equipment and PCIe Gen5 to fulfill edge computing abilities. As a result, a single motherboard can help companies to break through the bottleneck, enable the industry to integrate large quantities cameras at edge device to capture critical logistics data, conduct AI image computing process at speed of up to 64 GB/s, storage and retrieve vital logistics information rapidly to display real-time information and notify client systems.Empowering Key Image Capture and AI Computing with PCIe Expansion AdvantagesJeremy Huang, Senior Product Specialist of ADLINK's Edge Computing Platform Product Center, highlighted that the pandemic prompted logistics companies to adopt smart technologies. Factors as reduced staffing in production lines, advanced AI image recognition, and climbed in small packages from e-commerce. On the other hand, face challenges with staff shortages and inaccurate issues in traditional RFID or manual scanning, which cause challenges in inefficient warehouse management, inventory control, and material transportation.The utilization of machine vision technology is expected to deliver comprehensive enterprise information through real-time recognition, data generation, computing, and analysis. This technology will enhance operation and enable personnel to focus on situation correlation judgment and problem resolve. It will present operation processes on the control platform and execute the most efficient resource to maximize delivery timeliness, allocate the location of goods and personnel. To sum up, a critical objective is to employ smart logistics solutions to ensure that companies, customers, and suppliers always access real-time information about goods.As this trend continues to evolve, ADLINK's role in the logistics and warehousing industry has grown in significance. Jeremy Huang explained that the advancement of CPUs and GPUs have significantly improved computing performance in the past three years. Coupled with increasingly sophisticated algorithms, logistics companies have become more confident in AI machine vision and are increasingly willing to adopt it. As a result, companies have begun commissioning smart logistics system integrators (SIs) to drive smart logistics projects.For a common application scenario, System Integrators (Sis) establish a smart warehouse control tower with up to 16 cameras installed at the customer's warehouse entrance. When a forklift enters with goods, the solution identifies the items on the pallet from four directions and immediately raises an alert on issues such as damaged packaging, missing barcodes, or incorrect quantities. ADLINK IMB-M47 ATX motherboard boats 7 PCIe slots, enables SIs to configure quantities image capture and network cards to connect 16 cameras, facilitate the seamless capture of critical images like cargo labels, bills of lading, and package. SIs can also install a GPU card to compute image and enable smart image analysis. Additionally, the IMB-M47 offers numerous DIO interfaces, including 8x GPI and 8x GPO, to connect external sensors to provide real-time alerts. Obliviously, ADLINK IMB-M47 is the one of the very few motherboard on the market, which is capable to support 16 cameras by one single motherboard. Hence, startup SIs based in the United States have begun adopting it.Architecture diagram of a smart logistics management system using the ADLINK IMB-M47 ATX motherboardEnhanced data processing and transmission speed to ensure immediate and reliable data transmissionAdditionally, ADLINK IMB-M47 demonstrates several other impressive features. For instance, it efficiently supports the simultaneous transmission of image data from 16 cameras through PCIe x4 (Gen4);The utilization of DDR5 4800 DIMM memory, couple with PCIe Gen4 M.2(1.5 times faster than the current mainstream DDR3 and three times faster than traditional SATA III SSDs), 2.5 gigabit LAN with rich high-speed I/O to achieve high-speed data transmission.IMB-M47 is equipped with a Gen5 PCIe x16 expansion slot, offering double the computing speed and bandwidth compared to mainstream PCIe Gen4. The remarkable computing power allows customers to deploy GPUs at edge devices for direct AI image processing as needed.ADLINK launches the IMB-M47 ATX motherboard featuring 7 PCIe slots and supporting DDR5 memoryHsin-Chen Lin, Product Manager of ADLINK's Edge Computing Platform Product Center, highlights that while many motherboards on the market offer Intel 12/13th Gen processors, most syill rely on DDR4 or PCIe Gen4. In contrast, the IMB-M47 stands out as an all-in one solution, embracing the latest DDR5 and PCIe Gen5 configuration. This makes it the ideal choice for smart logistics applications, capturing a significant share of the market.Traditionally, when goods arrive at a warehouse, forklifts would unload pallets into a designated area. Staff would then manually scan and categorize the goods using barcode scanner, a process taking tens of minutes before shipping. Implementing ADLINK IMB-M47 in smart logistics management introduces automation, data integration, and intelligence. This facilitates "fast logistics" where data processing and exchange occur rapidly, minimizing shipping wait times. The impact of this optimization is remarkable.Conclusion: The Tech-Powered Future of LogisticsTechnology is no longer just a tool, it's the driving force behind the evolution of logistics management. With adopting the latest technology solutions to obtain real-time tracking, data analytics, automation, and AI, companies are unlocking unprecedented levels of efficiency, visibility, and sustainability. The logistics landscape is being reshaped, enabling companies to meet customer demands faster, reduce costs and navigate complexities with confidence. As technology continues to advance, the possibilities for optimizing supply chain efficiency are boundless, ushering in a new era of logistics excellence.Learn more about the ADLINK IMB-M47 or contact ADLINK for more information about its products and solutions.

According to the latest report published by tech research company ReportLinker in August this year, the global UWB (Ultra-Wideband) market is expected to grow from USD 1.55 billion in 2023 to USD 3.45 billion by 2028, at a CAGR of 17.4%.Avalue Technology Inc. (TAIEX: 3479-TW), a global industrial PC solution provider and a Titanium member of the Intel Internet of Things Solutions Alliance, endeavors to provide a complete range of smart retail, smart healthcare, smart manufacturing, smart transportation and embedded solutions.Key factors driving the growth of the UWB market include the increasing adoption of industrial IoT, greater demand for real-time response in information system and wider deployment of mobile devices. In particular, industrial IoT, which is all about increasing operational efficiency through labor reduction and process automation, is the core driver. In terms of applications, UWB is poised for explosive growth as its RTLS locating system is used extensively across many industries, and boosted by industrial IoT, RTLS is flourishing in smart healthcare, and smart manufacturing, construction and retail. With a string of upgrades, the Avalue RENITY ARTEMIS indoor locating system is now equipped with the highest accuracy, highest integration, reinforced cybersecurity and seamless real-time tracking, helping users achieve real-time accurate control of objects and manage smart objectives.Opportunity: Breakthrough Demand, Highly Integrated Comprehensive ServicesWith demands and patterns dramatically altered by the pandemic, communication, AI, IoT and cloud technologies have been used to accelerate automation, digitalization and urbanization in the effort to improve industrial infrastructure so as to counter the impact of labor shortage. A diverse array of needs is created as a result, at the same time propelling development and improvements in Avalue RENITY ARTEMIS UWB solution in the fields of healthcare, manufacturing and construction where it already has deep roots. In comparison to the meter-accuracy of RFID, Wi-Fi and Zigbee, Avalue indoor positioning solution RENITY ARTEMIS' core competency is in its centimeter-accurate UWB location. Able to pinpoint position and distance with unprecedented accuracy, ARTEMIS is equipped with real-time tracking, high penetrability and anti-interference capability. Its signals can also be safely hidden within other types of signals and environmental noise. Furthermore, ARTEMIS solution supports highly integrated services, enabling connection with management systems, such as MES, WMS and ERP, via API. To enhance user experience, not only is it designed with high-capacity battery for longer battery life, free online spatial measurement tool – ARTEMIS Layout Evaluation Tool, is also provided, allowing user to detect the number of base stations within an area by uploading user map so as to optimize layout in advance.Device Management Service Added, Real-Time Map with Friendly Interface, Complete Range of FunctionsWith its new device management service, Avalue's indoor location solution RENITY ARTEMIS has added a health diagnostic function. Tracking tags originally attached to critical assets or people are paired with devices using USB link. Data collected from UWB signals, including fan speed, CPU, HDD and memory, are presented using a visually appealing user interface. Real-time alerts may be set up to notify maintenance personnel so as to prevent system paralysis. Tracking tags will only send out specification parameters from computing devices; they do not read confidential information so users can rest assured that their data is secure. In addition, RENITY ARTEMIS' new anti-fall tag can warn of a fall or collision event in real time, enabling crisis management within the shortest time and improving the outcome of rescue and recovery. Other location-based functions include patrol and inspection (by setting rules, area and checkpoint), loss (reminder of return date/time), electronic fence to ensure personnel safety or for area control, and overstay alert to manage visitors/ activity time for residents of elderly care center or visits during unreasonable hours so as to prevent accidents. To enhance user experience, RENITY ARTEMIS' user interface is designed to be user-friendly, intuitive and easy to operate, and data and reports are visualized with tree diagrams and linear graphs.Avalue RENITY ARTEMIS location system targets users requiring high accuracy and in great urgent need. Applicable scenarios include high-risk environments, such as chemical plant, energy exploration and building construction, logistics service provider urgently requiring high turnover efficiency, and places that must be stringently managed, including factory production line, manufacturing plant, prison, epidemic supervision and care, and healthcare facilities and nursing homes safeguarding precious assets and personnel safety. Avalue indoor location solution RENITY ARTEMIS features high accuracy, low power consumption and high stability, enhances efficacy with automation, and continuously improves operating process through big data gathering and analysis, enabling optimized and smart personnel and asset management.Avalue RENITY ARTEMIS Ultra-Accurate Micro-Location Solution

Today, iCatch Technology proudly announces that it has accomplished the SGS-TUV Saar ISO 26262 functional safety process certification, achieving the highest level, "ASIL D." This certification underscores iCatch Technology's commitment to adhering to ISO 26262:2018 standards, establishing a comprehensive SoC product development process system that complies with the highest level of functional safety. iCatch Technology's achievements in functional safety development and management capabilities now align with international excellence.With the ongoing evolution of electric vehicles, advanced smart automotive electronic products have become a major trend in recent years. This trend has attracted the active participation of numerous international giants in the automotive electronics industry. Product reliability and security are the two most crucial indicators for quality verification in automotive electronics. The ISO 26262 functional safety standard verifies whether automotive electronic suppliers meet the requirements for Automotive Safety Integrity Level (ASIL).iCatch Technology has long been dedicated to the research and development of high-quality smart imaging SoC products and application services. In recent years, they have robustly expanded into the field of smart cabins and advanced driver assistance systems (ADAS). To penetrate in the automotive OEM market, iCatch Technology began collaborating with SGS Taiwan's localized expert team in 2022 for technical consulting and verification services. Today, they proudly announce their successful compliance with the world's highest functional safety standard for automotive electronics, ISO 26262.In the future, building upon the verification requirements of the ISO 26262 highest level specification, iCatch Technology will continue to design and develop automotive image processing and computer vision SoCs. They aim to provide automotive electronics solutions with high quality and functional safety, meeting the needs of the high-quality automotive electronics market.Jack Kuo, Vice President of SGS Taiwan, said, "iCatch Technology's acquisition of the ISO 26262 process certificate is based on its development strength in product functional safety, complying with the highest standards of car safety and quality requirements. Only by achieving this can it become a trusted partner of global automotive OEM and gain a competitive advantage in the automotive field."Weber Hsu, CEO of iCatch Technology, stated, "Through this certification, iCatch has laid a solid foundation for penetrating in the automotive OEM market. In the future, iCatch will continue to innovate and conduct research and development while considering the functional safety and quality requirements of automotive SoCs. We aim to compete in the smart automotive supply chain."iCatch Technology Receives SGS-TÜV Saar ISO 26262 ASIL D Functional Safety Process Certificate – Penetrate in Global Automotive OEM Smart Imaging IC DesignPhoto: iCatch

In SEMICON 2023, alongside digital technology, the continuous surge in the sustainability trend has garnered extensive attention.With the international momentum behind carbon reduction efforts, there is a growing focus on energy conservation, carbon reduction, product efficiency, and sustainable living across various end applications, all with the ultimate aim of achieving net-zero carbon emissions. Taiwan's 3rd Gen semiconductor (Wide Band Gap Semiconductors, GaN/SiC) sector, primarily centered on wafers, has also been investing in sustainable technology development related to the environmental aspects of wafer use.Taiwan-based company Precious Mountain, a subsidiary of the local industry, has pioneered "PACER Bio-Mass" disposable gloves made from bio-mass source. This innovative technology has taken center stage at the exhibition. Guided by the philosophy of "Assisting in societal improvement and advocating for sustainability," Precious Mountain has seamlessly integrated ESG (Environmental, Social, and Governance) principles into its corporate operations and product manufacturing. They have successfully developed the world's first PVC eco-friendly Bio-Mass gloves, garnering patents from multiple countries and meeting the environmental standards for high-tech cleanrooms and pharmaceutical clean environments. The Bio-Mass gloves have secured three major international bio-based product certifications, and manufacturers in Europe and Japan have already begun their adoption. Mr. Lin Guo-Tang, CEO of Precious Mountain, stated that their future goals include adhering to ESG principles, maintaining quality, and exercising cost control. Furthermore, they plan to elevate the perfect ratio of biobased technology gloves, increasing the proportion of biobased materials, with the aim of advancing their research breakthroughs. Precious Mountain will continue to develop an array of gloves and products rich in biobased materials, with the intention of curbing the use of petrochemical raw materials by augmenting the biobased content and fostering the establishment of a recycling supply chain ecosystem.PACER Bio-Mass gloves not only possess eco-friendly attributes but also meet the ISO Cleanroom standards for "high cleanliness" and "low ionization." These gloves have undergone rigorous process control and testing and have received independent verification from impartial third-party tests, rendering them invaluable tools in assisting businesses in implementing ESG practices.The atmospheric cycle is intrinsically linked to the process of photosynthesis in trees, constituting a static biological cycle involving the release and absorption of carbon dioxide. PACER Bio-Mass employs patented technology to substitute a portion of the petrochemical raw materials in gloves with biobased materials. After disposal and incineration, biobased carbon continues to circulate within the original photosynthesis environment, undergoing transformation into organic matter. Subsequently, postmortem or oxidation, this organic matter re-enters the atmosphere in the form of carbon dioxide (CO2), thereby embodying a "carbon-neutral" characteristic. In contrast, many eco-friendly gloves on the market employ biodegradable plastics, necessitating specific temperature and humidity conditions for degradation or partial breakdown into small particles. This approach does not constitute genuine decomposition and may still pose environmental and wildlife survival concerns. PACER Bio-Mass gloves reduce the utilization of petrochemical raw materials at the source, ultimately achieving the goal of "carbon reduction."In this semiconductor exhibition, Taiwanese companies once again shine on the international stage. Every facet of the manufacturing industry should not be underestimated, as precision technology emanates from scrupulous attention to detail. The utilization of gloves has become indispensable in daily life, particularly in the aftermath of the COVID-19 pandemic, with widespread applications. While safeguarding human health, the extensive use of gloves also necessitates our commitment to the preservation of wildlife and the environment. The integration of technology into a healthy living environment, the preservation of ecological harmony, the mitigation of global warming, and the pursuit of eco-friendly business practices form the core values underpinning the attainment of ESG objectives and the progression towards the goal of net-zero carbon emissions for sustainable development.Precious Mountain has pioneered the world's first eco-friendly PVC biobased gloves, known as "PACER Bio-Mass."