Long Life Industrial and Embedded Mini-ITX Motherboards. A Mini-ITX Motherboard is a solution that offers performance with low power and long-life availability. Mini-ITX is a specification for a motherboard measuring 170 x 170 mm with a conventional I/O shield as used on larger scale motherboards.
The AMD Ryzen Embedded processor family brings together the breakthrough performance of the pioneering AMD “Zen” CPU and “Vega” GPU architectures in a seamlessly-integrated SoC solution that sets a new standard in processing power for next-generation embedded designs.
Ryzen Embedded is a family of 64-bit multi-core x86 embedded microprocessors are primarily aimed at medical imaging, industrial systems, digital gaming and thin clients.
• Ryzen Embedded Media Archives
Alder Lake is Intel's codename for the 12th generation of Intel Core, Pentium and Celeron processors based on a hybrid architecture utilizing Golden Cove high-performance cores and Gracemont power-efficient cores. 12th Gen Intel Core processors area generation like no other before it. With unprecedented new performance hybrid architecture, 12th Gen Intel Core processors offer a unique combination of Performance and Efficient-cores (P-core and E-core). And that means real-world performance, intuitively scaled to match whatever you’re doing.
11th Generation Intel iCore, Celeron, Pentium and Xeon processors deliver a balance of performance and responsiveness in a low-power platform built on Intel's third-generation 10nm process technology. The platform combines a high-performance CPU, with new Intel Iris Xe graphics. The platform offers up to 2.95 times faster graphics performance.
Engineered to deliver for IoT markets, these processors can support low-latency and time-sensitive applications, and have the power to run multiple workloads including AI and deep learning applications on a single platform.
6th Generation Intel ATOM processors. To support the next generation of IoT edge devices, Intel has developed a new line of processors enhanced for IoT—The Intel Atom x6000E Series, Intel Pentium, and Intel Celeron N and J Series processors. These processors build on new levels of CPU, and graphics performances with integrated IoT features, real-time performance, manageability, security, and functional safety.
10th Generation Intel iCore, Pentium, Celeron and Xeon processors for IoT applications give you choice, flexibility, and performance at the edge. They provide a flexible platform for designing intelligent devices.
Intel IoT CPUs offer long-life availability, embedded use conditions, and support for Intel Distribution of OpenVINO toolkit, Intel Media SDK and select processors support Intel vPro features. Ranging from 4 to 10 cores, with increased I/O and DDR4 memory support, these processors deliver the performance required to consolidate multiple workloads.
8th and 9th Generation Intel iCore, Pentium and Celeron processor families. The first 6-core processors for performance-demanding applications.
These processors offer thermal design power (TDP) options of 65W and 35W to fit specific designs configurations with performance and low-power requirements. The S-series processors are ideally suited for applications like gaming, content creation, virtual reality, transactional retail terminals, digital security systems, and health care.
8th Generation Intel iCore and Celeron processors for IoT applications are feature rich, delivering high performance per watt.
All Intel IoT processors offer long-life availability, embedded use conditions, Intel vPro technology features ranging from 4 to 2 cores, increased I/O capacity, support for Intel Optane memory and DDR4-2400 memory. Software optimized tools such as the Intel Distribution of OpenVINO toolkit and Intel System Studio accelerates the development of vision applications like facial recognition, people counting, and object detection.
6th and 7th generation Intel iCore, Xeon and Celerons processor families feature ultra-low-power, 64-bit multi-core processors built on Intel’s optimized 14 nm technology.
The U-series of processors offer thermal design power (TDP) options of 15W with the flexibility of 25W cTDP up and 8.5W cTDP down, for an exceptional balance of power and performance. They are ideal for small, energy-efficient designs including digital signage, point-of-sale terminals, and medical tablets.
5th Generation Intel ATOM processors. The Intel Atom processor E3900 series, Intel Celeron processor N3350, and Intel Pentium processor N4200 platform, formerly Apollo Lake, empowers real-time computing in digital surveillance, new in-vehicle experiences, advancements in industrial and office automation, new solutions for retail and medical, and more. These processors are based on the Goldmont architecture, utilizing Intel’s industry-leading 14 nm process technology.