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 The European Edge AI hardware market is on a significant growth trajectory, driven by wide-ranging digital transformation initiatives, expanding automation across industries, and regulatory incentives that emphasize local, privacy-centric computing. According to the MarketsandMarkets report, the market is projected to grow from 189.7 million units in 2025 to 344.0 million units by 2030 , at a compound annual growth rate (CAGR) of 12.6% during this period. This robust growth underscores the increasing demand for on-device AI processing solutions that deliver real-time performance, reduced latency, and compliance with stringent data-protection regulations. A key driver of this growth is the shift away from cloud-only architectures toward edge computing systems capable of processing AI workloads locally . Edge AI enables devices to perform tasks such as machine vision, predictive analytics, and autonomous decision-making without the overhead or privacy risks of continuous cloud c...

Most global internet traffic depends on submarine cables, and almost everyone relies on the internet for day-to-day activities. The world is connected through the Internet; thus, global traffic is increasing every other day. About half of the global internet traffic comes from the  Asia Pacific , which, in turn, is driving the demand for submarine communication cables. Additionally, the increasing global demand for renewable energy, particularly offshore wind farms, is a key driver of the submarine cable system market, necessitating extensive power cable networks for efficient energy transmission. Download PDF Brochure:   https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=184625 Browse in-depth TOC on " Submarine Cable Systems Market " 211 – Tables 82 – Figures 290 – Pages Submarine Cable Systems Market Scope: Report Coverage Details Market Revenue in 2025 $ 19.95 billion Estimated Value by 2030 $ 33.75 billion Growth Rate Poised to grow at a CAGR of 11.1% Marke...

Atomic Force Microscopes (AFMs) are powerful analytical instruments used to image, measure, and manipulate materials at the nanometer and even atomic scale. Unlike traditional optical microscopes, which are limited by the wavelength of light, AFMs rely on mechanical interactions between a sharp probe and a sample surface. Since their invention in the 1980s, AFMs have become essential tools in nanotechnology, materials science, semiconductor research, life sciences, and surface engineering. The core working principle of an Atomic Force Microscope involves a nanoscale sharp tip mounted on a flexible cantilever. As the tip scans across the sample surface, it experiences forces such as van der Waals forces, electrostatic forces, or chemical bonding interactions. These forces cause the cantilever to deflect slightly. A laser beam reflected off the cantilever into a photodetector measures this deflection with extremely high precision. The collected data is then converted into a three-dimens...

Ultraviolet (UV) disinfection is an effective and chemical-free method used to inactivate microorganisms such as bacteria, viruses, and protozoa. By using ultraviolet light — primarily in the UV-C wavelength range (200–280 nanometers) — this technology disrupts the DNA and RNA of pathogens, preventing them from reproducing and causing infections. UV disinfection has gained widespread adoption across water treatment, healthcare, food processing, air purification, and industrial applications due to its efficiency, safety, and environmental benefits. One of the most common applications of UV disinfection is in water and wastewater treatment. Municipal water utilities use UV systems to eliminate harmful pathogens like E. coli , Cryptosporidium , and Giardia without altering the taste, odor, or chemical composition of water. Unlike chlorine-based disinfection, UV treatment does not produce harmful disinfection by-products, making it an eco-friendly alternative. UV systems are also widely ...

 A smart home refers to a residential environment where household devices and systems are connected through the internet and can be monitored, controlled, and automated remotely. By integrating technologies such as the Internet of Things (IoT), artificial intelligence (AI), cloud computing, and wireless communication, smart homes are transforming how people live, offering greater convenience, energy efficiency, security, and comfort. One of the key components of a smart home is automation . Smart lighting systems allow users to adjust brightness, color, and schedules through mobile apps or voice commands. Lights can automatically turn off when rooms are unoccupied, helping reduce energy consumption. Similarly, smart thermostats learn user preferences and adjust heating or cooling accordingly, optimizing indoor comfort while lowering electricity bills. These systems not only enhance convenience but also support sustainability goals. Smart security is another major driver of smart ...

  Private 5G refers to dedicated 5G networks deployed for specific organizations, campuses, or industrial sites rather than the general public. Unlike public 5G networks operated by telecom service providers, private 5G networks offer enterprises greater control over performance, security, data privacy, and network customization. As industries accelerate digital transformation and Industry 4.0 initiatives, private 5G is emerging as a critical enabler of advanced wireless connectivity. One of the key advantages of private 5G is ultra-low latency and high reliability . With latency as low as a few milliseconds and support for ultra-reliable low-latency communication (URLLC), private 5G networks are ideal for mission-critical applications. These include autonomous robots, real-time process control, remote operations, and time-sensitive industrial automation. Manufacturing plants, logistics hubs, and ports benefit significantly from the consistent and predictable performance offered b...

  Extreme Ultraviolet (EUV) lithography is one of the most advanced and critical technologies in modern semiconductor manufacturing. It enables the production of highly complex and densely packed integrated circuits by using extremely short-wavelength light to print ultra-fine patterns on silicon wafers. As the semiconductor industry continues to pursue smaller, faster, and more energy-efficient chips, EUV lithography has become essential for advanced process nodes such as 7 nm, 5 nm, and below. EUV lithography operates at a wavelength of 13.5 nanometers , which is significantly shorter than the 193 nm wavelength used in deep ultraviolet (DUV) lithography. The shorter wavelength allows chipmakers to create much smaller features with higher precision and fewer patterning steps. This is crucial for producing advanced logic chips used in applications such as artificial intelligence, high-performance computing, 5G, and advanced mobile devices. One of the defining characteristics of EU...