congatec welcomes Intel Atom x6000E Series processor launch on five form factors
September 23, 2020
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congatec – a leading vendor of embedded computing technology – welcomes the launch of Intel’s new low-power processor generation on five embedded form factors. To be made available on SMARC, Qseven, COM Express Compact and Mini Computer-on-Modules as well as Pico-ITX Single Board Computers (SBCs), the different Intel Atom x6000E Series processors, Intel Celeron and Pentium N & J Series processors (code named “Elkhart Lake”) based on low-power 10 nm technology will pave the way for a new generation of edge-connected embedded systems. The new congatec boards and modules impress with doubled graphics performance for up to three simultaneous displays running at 4kp60 and a whopping 50% more* multi-thread computing power compared to their predecessors on up to 4 cores. Further benefits especially welcomed in real-time industrial markets are Time Sensitive Networking (TSN), Intel Time Coordinated Computing (Intel TCC) and Real Time Systems (RTS) hypervisor support as well as BIOS configurable ECC and extended temperature options from -40°C to +85°C.
“The combination of rugged real-time operation, real-time connectivity and real-time hypervisor technologies is what we need for IoT-connected industrial applications. Our boards and modules with the new Intel Atom, Celeron and Pentium processors deliver massive improvements in this respect for the automation and control markets, ranging from distributed process controls in smart energy grids to smart robotics, or PLCs and CNCs for discrete manufacturing. Further real-time applications can be found in test and measurement as well as in transportation such as train and wayside systems or connected autonomous vehicles,” explains Jürgen Jungbauer, Senior Product Line Manager at congatec. “Mission critical applications will also benefit from more cost-efficient ECC implementations as In-band Error Correction Code allows the use of more affordable conventional memory instead of dedicated ECC RAM.”
Additionally, the new processors are a perfect fit for any non-real-time application as it offers numerous further features and functions that are essential for today’s edge-connected embedded systems such as POS, kiosk and digital signage systems as well as distributed gaming and lottery terminals, to name just a few installations requiring remote machine-to-machine communication.
“The Internet of Things spans an array of devices, technologies, and applications, each with unique demands that often require task specific components, interfaces and even subprocessors. The Intel Atom x6000E Series and Intel Pentium and Celeron N and J Series processors combine state of the art 10nm compute and graphics technologies with a host of integrated functions and I/Os to create a single platform solution for IoT applications,” explains Jonathan Luse, Senior Director, Intel’s Industrial Solutions Division.
For this purpose, congatec’s new Intel Atom, Celeron, and Pentium processor based boards and modules include, innovative co-processor executable options for comprehensive out-of-band management plus a full range of embedded security capabilities to build consistent real trusted applications such as verified boot, measured boot, Intel Platform Trust Technology (Intel PTT) and Intel Dynamic Application Loader (Intel DAL). Supporting the Intel Distribution of OpenVino toolkit and Microsoft ML, the new boards and modules will also accelerate the implementation of machine learning algorithms, e.g. for predictive maintenance.
* Source: Intel. Claims based on a) SPEC CPU 2006 metric estimates based on Pre-Si projections and b) 3DMark11 estimates based on Pre-Si projections, using Intel Pentium J4205 as prior gen.
“The combination of rugged real-time operation, real-time connectivity and real-time hypervisor technologies is what we need for IoT-connected industrial applications. Our boards and modules with the new Intel Atom, Celeron and Pentium processors deliver massive improvements in this respect for the automation and control markets, ranging from distributed process controls in smart energy grids to smart robotics, or PLCs and CNCs for discrete manufacturing. Further real-time applications can be found in test and measurement as well as in transportation such as train and wayside systems or connected autonomous vehicles,” explains Jürgen Jungbauer, Senior Product Line Manager at congatec. “Mission critical applications will also benefit from more cost-efficient ECC implementations as In-band Error Correction Code allows the use of more affordable conventional memory instead of dedicated ECC RAM.”
Additionally, the new processors are a perfect fit for any non-real-time application as it offers numerous further features and functions that are essential for today’s edge-connected embedded systems such as POS, kiosk and digital signage systems as well as distributed gaming and lottery terminals, to name just a few installations requiring remote machine-to-machine communication.
“The Internet of Things spans an array of devices, technologies, and applications, each with unique demands that often require task specific components, interfaces and even subprocessors. The Intel Atom x6000E Series and Intel Pentium and Celeron N and J Series processors combine state of the art 10nm compute and graphics technologies with a host of integrated functions and I/Os to create a single platform solution for IoT applications,” explains Jonathan Luse, Senior Director, Intel’s Industrial Solutions Division.
For this purpose, congatec’s new Intel Atom, Celeron, and Pentium processor based boards and modules include, innovative co-processor executable options for comprehensive out-of-band management plus a full range of embedded security capabilities to build consistent real trusted applications such as verified boot, measured boot, Intel Platform Trust Technology (Intel PTT) and Intel Dynamic Application Loader (Intel DAL). Supporting the Intel Distribution of OpenVino toolkit and Microsoft ML, the new boards and modules will also accelerate the implementation of machine learning algorithms, e.g. for predictive maintenance.
* Source: Intel. Claims based on a) SPEC CPU 2006 metric estimates based on Pre-Si projections and b) 3DMark11 estimates based on Pre-Si projections, using Intel Pentium J4205 as prior gen.
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