SECO Modular Vision HMI displays support Arm and x86 SMARC 2.1 modules

SECO Modular Vision SMARC HMI panel PC

SECO has unveiled a new HMI family of smart displays called the “Modular Vision” with NXP i.MX 93 (Arm), NXP i.MX 8M (Arm), or Intel Elkhart Lake (x86) powered SMARC 2.1-compliant system-on-modules and a display size ranging from 7-inch up to 15.6-inch. The goal is to offer a flexible platform to customers who can select various display sizes (7-inch, 10.1-inch, or 15.6-inch currently) and a SMARC module that closely matches the product’s requirements for example for a standalone panel PC. SECO Modular Vision key features and specifications: SoC 7-inch model – NXP i.MX93 single or dual-core Arm Cortex-A55 @ 1.7 GHz, Arm Cortex-M33 @ 250MHz, Arm Ethos U-65 microNPU 10.1-inch model – NXP i.MX 8M Plus dual or quad-core Arm Cortex-A53 @ 1.8 GHz, Arm Cortex-M7 @ 800MHz, optional GPU/VPU/2.3 TOPS NPU 15.6-inch model – Intel Atom x6000E, Pentium, and Celeron N and J Series  “Elkhart Lake” CPUs with Intel […]

EPIC-ADN9 SBC features up to four 2.5GbE interfaces, two SATA ports

Intel Atom x7425E SBC

AAEON EPIC-ADN9 SBC is powered by an Intel Processor N50/N97, Core i3-N305, or Atom x7425E Alder Lake N-series processor and equipped with up to four 2.5GbE networking ports and two SATA III ports for storage. The board also comes with a SO-DIMM slot taking up to 16GB DDR4 memory, mSATA storage, three display interfaces including HDMI and DisplayPort, and two USB 3.2 Gen 2 ports, and offers expansion capabilities via M.2 and mPCIe sockets as well as headers. AAEON EPIC-ADN9 specifications: Alder Lake-N SoC (one or the other) Intel Core i3-N305 octa-core processor @ 1.8 / 3.8 GHz (Turbo) with 6 MB cache, 32 EU Intel UHD Graphics up to 1.25 GHz; TDP: 15W Intel Atom x7425E quad-core processor @ 1.5 / 3.4 GHz (Turbo) with 6 MB cache, 24 EU Intel UHD Graphics up to 1.00 GHz; TDP: 12W Intel Processor N97 quad-core processor @ 2.0 / 3.6 GHz […]

BOXER-6406-ADN Alder Lake-N fanless embedded computer supports 9V-36V DC input

AAEON Alder Lake-N Fanless Embedded Computer

AAEON BOXER-6406-ADN is a compact fanless embedded computer powered by the popular Intel Alder Lake-N family of processors with their the Processor N50, Processor N200, or Intel Atom x7211E SoC. The mini PC comes with up to 32GB DDR5, supports M.2 NVMe SSDs and 2.5-inch SATA drives for storage, integrates two HDMI 2.0 video outputs and two 2.5GbE ports, and features specific to the embedded/industrial market such as three DB9 serial connectors (COM ports), one DB15 connector for digital I/Os, and a wide range 9V-36V DC input terminal block. BOXER-6406-ADN specifications: Alder Lake-N SoC (one or the other) Intel Atom x7211E dual-core processor up to 3.2 GHz with 6MB cache, 16EU Intel UHD Graphics; 6W TDP Intel Processor N50 dual-core processor up to 3.4 GHz with 6MB cache, 16EU Intel UHD Graphics; TDP: 6W Intel Processor N200 quad-core processor up to 3.7 GHz with 6MB cache, 32EU Intel HD graphics; […]

Intel Downfall (Gather Data Sampling) vulnerability impacts AVX2/AVX-512 workloads

Intel Downfall

After vulnerabilities like Spectre and Meltdown were discovered in 2018, Intel processors have more vulnerabilities with the Downfall attacks that target the Gather instruction part of AVX2/AVX-512 and impact 6th generation Skylake up to 11th generation Tiger Lake processors introduced as far back as 2014. It does not affect more recent processors, and as somebody who has just purchased a laptop based on a 13th Raptor Lake processor, I guess I can breathe a sigh of relief until the next vulnerability is discovered, but people using hardware with older Intel processors will have to update the OS and suffer from a performance impact, at least for tasks leveraging AVX2 or AVX-512. The website about the Downfall vulnerability explains: Downfall attacks targets a critical weakness found in billions of modern processors used in personal and cloud computers. This vulnerability, identified as CVE-2022-40982, enables a user to access and steal data from […]

Intel kills its NUC business

Intel kills NUC business

Intel has just decided to shut down its Next Unit of Compute (NUC) business selling mini PC, PC, boards, and modules directly to customers, as the company told partners they will stop direct investment into that part of their business. We first wrote about Intel NUC in 2014, but the company’s first NUC was launched in 2013, and I can only imagine Intel decided to kill the NUC business in order to focus on its core business which is to sell processors. They won’t directly compete against their customers anymore, although it’s unclear if this was part of the decision… I have mostly read praises about the NUC family over the years, but I’ve had a mixed experience myself. One family member asked for a reliable mini PC, so I recommended a Core-i5 NUC and while it mostly worked fine, we had to purchase a separate USB WiFI dongle as […]

AAEON PICO-EHL1 Pico-ITX Elkhart Lake SBC is designed for digital signage applications

Celeron N6210 SBC

AAEON PICO-EHL1 is a lightweight and power-efficient Pico-ITX SBC powered by Intel “Elkhart Lake” Atom x6000E or Celeron N and J Series processor mainly designed for digital signage, smart lockers, and ATMs. It provides an alternative to the company’s PICO-EHL4 Pico-ITX SBC introduced in 2021 with a different set of features. The single board computer is offered with a choice of Atom x6425E, Atom x6211E, Celeron J6412, and Celeron N6210 dual-core and quad-core processors with up to 32GB DDR4 memory, support for SATA and mSATA storage, up to three display interfaces, Gigabit Ethernet, two USB 3.2 ports, and expansion interfaces with DIO, RS232, RS485, etc… PICO-EHL1 specifications: Elkhart Lake SoC (one or the other) Intel Atom x6425E quad-core processor @ 2.0GHz / 3.0GHz with Intel UHD Graphics; TDP: 12W Intel Atom x6211E dual-core processor @ 1.3GHz / 3.0GHz with Intel UHD Graphics; TDP: 6W Intel Celeron J6412 quad-core processor @ […]

Intel Atom C1100, C1110, C1130 “Arizona Beach” CPUs target low power network appliances

Valencia Network Appliance Intel Atom C1100 Arizona Beach network appliance

Intel Atom C1100, C1110, and C1130 “Arizona Beach” processors have been discreetly launched last year for low-power network appliances and customer-premises equipment (CPE). The C1100 is a dual-core processor clocked at up to 2.10 GHz, the C1110 a quad-core at up to 2.10 GHz, and the C1130 is an octa-core processor running at up to 2.5 GHz. All are manufactured with an Intel 7 process, support up to 32GB LPDDR5 memory with ECC, and offer up to twenty PCIe Gen 4 lanes. You’ll find a more detailed comparison on Intel Ark. They serve the same markets as the Atom Denverton processors introduced several years ago. We could find at least one product using the new Atom C1100, C1110, and C1130 processors with Silicom’s Valencia network appliance that offers up to 16GB LPDDR5, UFS, eMMC, and SSD storage, four native 2.5GbE ports, optional 10G SFP+ and PoE++, support for dual 4G/5G […]

SMARC 2.1 system-on-module is powered by an Intel Alder Lake-N Atom x7000E, Processor, or Core i3 processor

TQEmbedded TQMxE41S Alder Lake-N system-on-module

TQ-Embedded TQMxE41S is a SMARC 2.1 system-on-module (SoM) powered by an Intel Alder Lake-N Atom x7000E, Processor Nxxx, or Core i3 processor with a TDP ranging from 6W to 15W TDP, up to 16GB LPDDR5-4800 memory and up to 256GB industrial iNAND eMMC flash. The Alder Lake-N system-on-module exposes two 2.5 Gigabit Ethernet, four PCIe, USB 3.2, and SATA through its 314-pin edge connector as per SMARC 2.1, while the 12th generation Intel UHD Graphics in the SoC supports AVX256 and advanced AI instruction sets (VNNI) making it suitable for fast AI inferencing and media transcoding. The company expects the module to be integrated into applications in healthcare, IoT, industry/robotics, retail, and video & conferencing. TQEmbedded TQMxE41S specifications: Alder Lake-N SoC (one or the other) Intel Core i3-N305 – 8C/8T, (1.8 – 3.8 GHz); 6 MB Smart Cache, 15W TDP or 9W cTDP, 32 EU, Intel UHD Graphics (up to […]

EmbeddedTS embedded systems design