SECO Q7-C25 / Q7-C26 QSeven SoMs Feature NXP i.MX 8M / i.MX 8Quad Processor

We’ve previously covered SECO’s SM-C12 SMARC 2.0 i.MX 8M system-on-module, but the company has just unveiled two new module families which are compliant with Qseven – another SoM standard – and powered by NXP i.MX 8M dual/quad core Cortex A53 processor and NXP i.MX 8Quad Cortex A53 or A72/A53 SoC with respectively Q7-C25 and Q7-C26 systems-on-module. SECO Qseven i.MX 8/8M System-on-Module Q7-C25 / Q7-C26 specifications: SoC Q7-C25 (one or the other) NXP i.MX 8M Quad 4x Cortex-A53 cores up to 1.5GHz, 1x Cortex-M4 F real-time core, Vivante GC7000Lite GPU, VPU NXP i.MX 8M Dual 2x Cortex-A53 cores up to 1.5GHz, 1x Cortex-M4 F real-time core, Vivante GC7000Lite GPU, VPU NXP i.MX 8M QuadLite 4x Cortex-A53 cores up to 1.5GHz, , 1x Cortex-M4 F real-time core, Vivante GC7000Lite GPU no VPU Q7-C26 (one or the other) NXP i.MX 8QuadMax 2x Cortex-A72 cores + 4x Cortex-A53 cores + 2x Cortex-M4F cores, 2x Vivante […]

Air-T Artificial Intelligence Radio Transceiver SDR Platform Combines NVIDIA Jetson TX2 and Xilinx Artix-7 FPGA (Crowdfunding)

If often write about low end and cheaper hardware on this blog, but not in this post. Deepwave Digital Air-T (Artificial Intelligence Radio – Transceiver) is a high-end software defined radio platform with continuous frequency coverage from 300 MHz to 6 GHz. The board combines AD9371 RFIC transceiver providing up to 2 x 2 MIMO of 100 MHz of receiving bandwidth, a Xilinx Artix-7 FPGA, and NVIDIA Jetson TX2 module. Air-T hardware specifications & key features: Software-defined Radio Analog Devices 9371 2×2 MIMO transceiver 2 x RX channels (100 MHz each) 2 x TX channels (100 MHz each) Auxiliary RX channels: Observation & Sniffer. Note: Can use either Observation or Sniffer at one time; utilizes one of the RX channels NVIDIA Jetson TX2 for processing 256 NVIDIA CUDA core GPU 6 CPU cores – 2x NVIDIA Denver2, 4x Arm Cortex-A57 8GB RAM 32GB eMMC flash Xilinx Artix-7 FPGA with75k logic […]

VisionSOM-RT is an Industrial System-on-Module based on NXP i.MX RT Arm Cortex-M7 Processor

VisionSOM-RT NXP i.MX RT SoM

It’s hard to keep up with all the systems-on-module based on Arm Cortex-A “application class” processors, but so far I can’t remember seeing any Arm Cortex-M “microcontroller class” SoM. However, SoMLabs is currently working on VisionSOM-RT, a system-on-module based on NXP i.MX RT 1050 Arm Cortex-M7 processor clocked at 600 MHz. NXP i.MX RT series processors are actually promoted as a “crossover” processor delivering application processor performance with real-time capabilities right at the edge between the two classes of processors. VisionSOM-RT (SLS12Rx) module preliminary specifications: SoC- NXP i.MX RT Arm Cortex-M7 processor @ up to 600MHz with NXP PXP 2D graphics accelerator, and Graphics Engine PXP PiXel processing pipeline for imagine resize, rotation, overlay and color space conversion. Memory – 512kB on-chip RAM memory, up to 32MB SDRAM Storage – Up to 16MB QuadSPI flash, optional 4GB eMMC flash 200-pin SO-DIMM edge connector with Display Interface – 8/16/24-bit Parallel RGB […]

NanoCOM-APL Apollo Lake COM Express Module is Designed for Machine Vision & Factory Automation

AAEON has just launched  NanoCOM-APL, a Type 10 COM Express module based on Intel Apollo Lake Atom, Celeron, or Pentium processor with up to 8 LPDDR4 memory, and on-board support for dual MIPI CSI interfaces. The module is designed for machine vision and factory automation, and also features Gigabit Ethernet, optional on-board eMMC flash, PCIe x4, ten USB interfaces, and more. NanoCOM-APL Apollo Lake COM Express Module There are currently three variants of NanoCOM-APL module with the following specifications specifications: SoC NANOCOM-APL-A10-0001 – Intel Pentium N4200 quad core Apollo Lake processor @ 1.10 / 2.50 GHz with Intel HD Graphics 505; 6W TDP NANOCOM-APL-A10-0002 – Intel Celeron N3350 dual core Apollo Lake processor @ 1.10 / 2.40 GHz with Intel HD Graphics 500; 6W TDP NANOCOM-APL-A10-0003 – Intel Atom x7-E3950 quad core Apollo Lake-I processor @ 1.60 / 2.00 GHz with Intel HD Graphics 505; 12W TDP System Memory – […]

FriendlyElec Launches Smart6818 Samsung S5P6818 CPU Module

Smart4418 S5P4418 SoM Development Kit

Yesterday, we covered Core4418 low profile board based on Samsung S5P4418 quad core Cortex A9 processor, but that’s not the only product launched by FriendlyElec this week, as the company also introduced Smart6818, a Samsung S5P6818 CPU module following Smart4418 module design, and equipped with 1GB DDR3, and 8 to 32 GB eMMC flash. Smart6818 specifications: SoC – Samsung S5P6818 octa core Cortex A53 processor @ up to 1.4GHz, Arm Mali-400MP GPU System Memory – 1GB DDR3 up to 800 MHz Storage – 8GB eMMC flash (16GB and 32GB optional) Connectivity – Realtek RTL8211E Gigabit Ethernet transceiver Audio – ES8316 Audio codec Board to Board Headers 2x 70-pin 2.0mm pitch headers with RGB LCD, LVDS, HDMI Tx, I2C, PWM, USB host, UART, SPI, GPIOs, SDIO, Gigabit Ethernet, Audio input/output, Camera I/F 1x 34-pin 2.0mm pitch unpopulated header with GPIOs, MIPI CSI, ADC, PWM Power Supply – 5V Power Management – […]

Linux 4.17 Release – Main Changes, Arm & MIPS Architectures

Linus Torvalds released Linux 4.17 last Sunday: So this last week was pretty calm, even if the pattern of most of the stuff coming in on a Friday made it feel less so as the weekend approached. And while I would have liked even less changes, I really didn’t get the feeling that another week would help the release in any way, so here we are, with 4.17 released. No, I didn’t call it 5.0, even though all the git object count numerology was in place for that. It will happen in the not _too_distant future, and I’m told all the release scripts on kernel.org are ready for it, but I didn’t feel there was any real reason for it. I suspect that around 4.20 – which is I run out of fingers and toes to keep track of minor releases, and thus start getting mightily confused – I’ll switch […]

Firefly Core-PX3-SEJ SoM Features Rockchip PX3-SE Industrial-Grade Processor

Allwinner is not the only Chinese fabless silicon vendor to offer industrial grade processors, as Rockchip PX3 SE quad core Cortex A7 processor can also operate in the industrial temperature range (-20°C to 80°C). I had covered Rockchip PX3 previously, but it’s the first time I read about Rockchip PX3-SE processor, and Firefly is the first company to integrate the processor into a product, namely Core-PX3-SEJ system-on-module. Core-PX3-SEJ module specifications: SoC – Rockchip PX3-SE quad core Cortex A7 processor @ 1.3 GHz with Arm Mali-400MP2 GPU – See datasheet for details System Memory – 512MB, 1GB or 2GB dual-channel DDR3 Storage – 4GB, 8GB, 16GB, or 32GB eMMC flash Edge Connector – 204-pin DDR3 SO-DIMM connector with Storage – Micro SD card interface Connectivity SDIO interface for WiFi & Bluetooth module Gigabit Ethernet Display – HDMI up to 1080p, CVBS, MIPI DSI or LVDS for LCD display Audio – Via […]

Allwinner T2 is a Rebranded Allwinner A20 Processor Operating in Industrial Temperature Range

Allwinner-T2-SoM

Last month, Allwinner unveiled A40 and A60 industrial and military grade processors leveraging IP blocks from the old-but-popular Allwinner A20 dual core processor. This is good news for software support, as A40 and A60 should hopefully become supported in U-boot and the Linux kernel without too many efforts, as well as for companies or makers requiring wider temperature ranges in their products. However, those new processors were not pin-to-pin compatible with Allwinner A20, so a PCB redesign would be required. That’s where Allwinner T2 comes into play, as reported by Olimex, it is a rebranded Allwinner A20 dual core Cortex A7 processor with an industrial temperature range (-40 to +85 °C) that makes it suitable for automotive infotainment. I actually covered Allwinner T2 back in 2015, but at the time Allwinner did not mention anything about temperature range, and SATA support – found in A20 – was not shows in […]

UP 7000 x86 SBC