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AMD.com: Introducing the Embedded+ Architecture
Optimized for industrial, medical, and embedded PCs, the Ryzen Embedded processor is connected to the Versal AI Edge adaptive SoC on a single PCB and supported by a common software infrastructure and programmable logic. It provides direct connectivity with a variety of sensors, with programmable I/O targeting any interface or memory configuration
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AMD Unlocks Open-source Efficiency, Platform Choice and Competitive Differentiation for Baidu’s Autonomous Driving Innovation
System designers can implement high-performance AMD GPUs and the open AMD ROCm ecosystem in a flexible, portable framework to achieve impressive cost efficiencies.
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AMD Embedded Blog: Together with MakarenaLabs advancing Digital Twin & Robotics Technology
In the not-too-distant future when humanoid robotics technology goes mainstream for healthcare and service applications – perfected for safe interaction with humans – it will be companies like MakarenaLabs that make it possible, utilizing digital twin technology.
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AMD Embedded Blog: Together Siemens and AMD Advance Industrial Edge Servers
The performance and connectivity advancements achieved with the AMD EPYC Embedded 9004 Series processors have caught the attention of industrial system designers everywhere. Industrial automation powerhouse Siemens was among the first to embrace the new processors into its product portfolio, where it powers Siemens’ SIMATIC IPC RS-828A industrial edge servers.
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AMD Blog: SolidRun Pioneers Ultra-Compact, High-Performance SOM-based IPC with AMD Ryzen Embedded V3000
SolidRun’s Bedrock IPCs are targeted for DIN rail-mounted, industrial applications. DIN rails – those ubiquitous steel rails found everywhere from production flows to utility cabinets – impose design challenges for industrial computers owing to the limited space/cooling typically afforded them. SolidRun is utilizing AMD Ryzen™ Embedded V3000 processors to meet these challenges
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AMD Blog: Helping DFI Harness High-Performance Processing Power in Ultra Compact Single-board Computers
The processing advantage made possible by AMD Ryzen™ Embedded R-Series SoCs has been a major asset for DFI in its ongoing initiative to pack increasing amounts of computing horsepower into compact, thermally adept, ruggedized enclosures for industrial systems.
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AMD Blog: DFI’s “Industrial Pi” Single Board Computer leverages AMD Ryzen™ Embedded processors
The recent emergence of Industrial Internet of Things (IIoT) applications has again renewed interest in the Raspberry Pi concept, but with a greater focus on processing performance, durability and longevity suitable for industrial domains.
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AMD Blog: AMD EPYC™ Processors Powering Cisco’s Secure Firewall 3100 Series
The rise of hybrid workforces – comprised of employees who work flexibly in remote and onsite settings – is transforming the way we work and how staff resources are utilized to maximize their potential. But as more and more data traffic traverses the open network, maintaining network security is becoming increasingly challenging.
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AMD Blog: Health and Beauty Retailer Gets an Exciting New Look with Advantech’s DS-082 Ultra-slim Digital Signage Players Powered by AMD Ryzen™ Embedded V1000 and R1000 Processors
A major health and beauty retailer sought a space-optimized digital signage platform that would help entice customers and drive sales, while reducing the expense and waste of printed promotional materials. To satisfy these needs, Advantech needed a high-performance processing platform to service retail environments of all sizes and budgets.
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Could 3D Printing Disrupt the Electronics Industry?
More companies and universities are integrating 3D printing with their electronic design. The non-traditional process was well-received as it moved from the aerospace to automotive to medical industries. Electronics could be next on the list to benefit from 3D printing, according to Ernst and Young. Today, many people say we will never 3D-print phones and other complex, multi-material products. However, with so many companies pushing to develop a magical all-encompassing printer, will we see electronics being manufactured with 3D printing?
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3D Printing Spotlight On: Hila Elimelech, Vice President of Materials, Nano Dimension
Israel-based Nano Dimension is seeking to change the way things are made, with their flagship DragonFly 2020 3D printer catching attention from many quarters for its ability to 3D print electronics including printed circuit boards (PCBs).
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PHYTEC enjoys reduction in time and cost with Nano Dimension DragonFly 2020 3D printer
In November 2016, Nano Dimension Technologies delivered a beta DragonFly 2020 to its third customer: PHYTEC, a German microprocessor solutions provider. The deal came about as PHYTEC tackled an increasing demand for prototypes from its customer base. PHYTEC needed a solution which could reduce development time, while maintaining the quality of its products and service. It decided to take on Nano Dimension’s flagship 3D printing technology, and today is publishing the results.
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Lights-out digital manufacturing delivers first 3D printed electronics
Additive electronics provider Nano Dimension Ltd. has unveiled its new DragonFly Lights-Out Digital Manufacturing (LDM) printing technology, which the company presents as the industry’s only comprehensive additive manufacturing platform for round-the-clock 3D printing of electronic circuitry. The initial deployment took place at the Munich premises of sensor and defense electronics provider Hensoldt.
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Nano Dimension introduced low-volume, continuous additive manufacturing system for electronics production
Additively manufacturing functional circuits round-the-clock with little or no operator intervention is possible with the new DragonFly LDM precision additive manufacturing system from Nano Dimension. This 3D printer will build electronic components such as multilayer Printed Circuit Boards (PCBs), antennas, sensors and so on, round-the-clock, enabling Nano Dimension to shift from developing prototyping printers to systems that handle one-off prototypes as well as low-volume manufacturing of printed electronics.
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INTERVIEW: Nano Dimension CEO Amit Dror on the launch of the 24 hour DragonFly LDM 3D printer
Designed for 24 hour electronics production, the DragonFly LDM (standing for Lights-Out Digital Manufacturing) is a new 3D printer and DragonFly Pro upgrade from Israeli 3D printed electronics company Nano Dimension. Hinted at in a corporate update earlier this month, the machine was launched today through the company’s global sales channel and requires minimal operator intervention, representing a significant advance for 3D printed electronics.