automotive

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on FOSDEM 2022 schedule with embedded Linux, IoT, automotive… sessions

FOSDEM 2022 schedule with embedded Linux, IoT, automotive… sessions

FOSDEM 2022

While typically taking place in Brussels, Belgium, FOSDEM 2022 will take place online just like FOSDEM 2021 due to COVID-19 restrictions. The good news is that it means anybody can attend it live from anywhere in the world, and makes it more like “FOSDIM”, replacing European with International, in “Free and Open Source Developers’ European Meeting”. FOSDEM 2022 will take place on February 5-6 with 637 speakers, 718 events, and 103 tracks. I’ve made my own little virtual schedule below mostly with sessions from the Embedded, Mobile and Automotive devroom, but also other devrooms including “Computer Aided Modeling and Design”, “FOSS on Mobile Devices”, “Libre-Open VLSI and FPGA”, and others.   Saturday, February 5, 2022 12:30 – 13:00 – Five mysteries in Embedded Linux by Josef Holzmayr Once you start out in embedded Linux, there is a lot to do. Some things are obvious, some less so. First and foremost, […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Linux 5.16 Release – Main Changes, Arm, RISC-V and MIPS architectures

Linux 5.16 Release – Main Changes, Arm, RISC-V and MIPS architectures

Linux 5.16 release

Linus Torvalds has just announced the release of Linux 5.16: Not a lot here since -rc8, which is not unexpected. We had that extra week due to the holidays, and it’s not like we had lots of last-minute things that needed to be sorted out. So this mainly contains some driver fixes (mainly networking and rdma), a cgroup credential use fix, a few core networking fixes, a couple of last-minute reverts, and some other random noise. The appended shortlog is so small that you might as well scroll through it. This obviously means that the merge window for 5.17 opens tomorrow, and I’m happy to say I already have several pending early pull requests. I wish I had even more, because this merge window is going to be somewhat painful due to unfortunate travel for family reasons. So I’ll be doing most of it on the road on a laptop […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 6 Comments on Horizon X3 AI development board is powered by Sunrise 3 AI Edge Arm processor

Horizon X3 AI development board is powered by Sunrise 3 AI Edge Arm processor

Horizon X3 AI development board

Horizon X3 AI development board is powered by Horizon Robotics Sunrise 3 (aka X3) quad-core Cortex-A53 processor with a 5 TOPS NPU, and multiple camera support with the chip apparently designed for the automotive industry. [Update January 25, 2022: A third-party company, Finsbury Glover Hering, claiming to represent Horizon Robotics informed CNX Software the chip is not designed for the automotive market, and that Horizon’s AIoT business is actually limited to the domestic China market and not overseas.] The devkit is comprised of a Sunrise 3 system-on-module with 1GB LPDDR4 & 16GB EMMC memory, as well as a baseboard with Gigabit Ethernet and WiFi, HDMI up to 1080p60 and MIPI DSI interface, a camera interface, and a 40-pin header for expansion. Horizon X3 AI development board specifications: SoC – Horizon Robotics Sunrise 3 quad-core Cortex-A53 processor @ 1.2 GHz, one Cortex-R5 core, a 5 TOPS NPU (2x “Bernoulli” BPU) System […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 8 Comments on Intel Mobileye EyeQ Ultra RISC-V processor targets Level 4 autonomous driving

Intel Mobileye EyeQ Ultra RISC-V processor targets Level 4 autonomous driving

Mobileye EyeQ Ultra

Let’s carry on with Intel’s CES 2022 news, but with a twist as Mobileye EyeQ Ultra does not include any x86 cores, but instead, the automotive processor features 12 RISC-V cores, Arm GPU and DSP, and aims to bring Level 4 autonomous driving to cars thanks notably to a 176 TOPS AI accelerator. The company says EyeQ Ultra packs the performance of 10 EyeQ5s in a single package, with the single chip solution avoiding the power consumption and costs related to integrating multiple SoCs together.   Intel Mobileye EyeQ Ultra specifications highlights: CPU – 12 RISC-V CPU cores  (24 threads) GPU – Unnamed Arm GPU DSP – Unnamed Arm DSP SIMD cores VLIW cores Coarse grained reconfigurable array (CGRA) cores CNN accelerator clusters Two sensing subsystems One camera-only system Radar and Lidar combined system 5-nanometer process technology Mobileye provides both the chip and software with for instance high-definition map and […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 10 Comments on ESP32 CAN board fits into OBD-II dongle, supports auto shutdown

ESP32 CAN board fits into OBD-II dongle, supports auto shutdown

RejsaCAN ESP32 OBD-II dongle

RejsaCAN-ESP32 is a small board based on ESP32-WROOM-32 WiFi (and Bluetooth) module with a CAN interface that fits into a 3D printed OBD-II dongle for easy installation into most cars. Magnus Thomé has already published several automotive projects, notably for car racing with a system that checks real-time tire temperature, and he designed RejsaCAN-ESP32 board so that it can be plugged directly into his car with support for 5-15V input voltage, and also includes an auto-shutdown option to prevent battery drain by monitoring the battery voltage in the car. RejsaCAN-ESP32 specifications: Wireless module – ESP32-WROOM-32 module with a dual-core ESP32 processor @ 240 MHz with 2.4 GHz WiFi 4 and Bluetooth 4.2 connectivity, PCB antenna, 32Mbit SPI flash USB – 1x USB-C port for power and programming via CP2104 USB to TTL chip Expansion – 15-pin header with 3x GPIO, SPI, I2C, analog input, PWM or analog output, CAN bus […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on CANBed Raspberry Pi RP2040 board supports CAN Bus, OBD-II protocol

CANBed Raspberry Pi RP2040 board supports CAN Bus, OBD-II protocol

CANBed: Raspberry Pi RP2040 CAN Bus board

We previously wrote about adding CAN Bus to Raspberry Pi Pico with CANpico expansion board. CANBed is a single board with a Raspberry Pi RP2040 microcontroller and a Microchip MCP2551 CAN receiver plus some extra I/Os that offers an alternative. CANBed supports the CAN 2.0 and OBD-II protocols via either a DB9 connector or a 4-pin terminal block, offers two 4-pin Grove headers and an extra I/O header for expansion, as well as 9-28V power input. CANbed specifications: MCU – Raspberry Pi RP2040 dual-core Cortex-M0+ microcontroller @ up to 133 MHz with 264KB SRAM Storage – 2MB SPI flash CAN 2.0 or OBD-II interface via DB9 port or 4-pin terminal block via Microchip MCP2551 CAN transceiver, 120 Ohm terminal resistor. USB – 1x Micro USB port for programming Expansion 2x Grove header (I2C + UART) SPI header 18-pin header with GPIO, UART, I2C, 4x analog inputs, 5V, GND Misc – […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Cincoze DI-1100 is a fanless embedded computer with an optional external fan

Cincoze DI-1100 is a fanless embedded computer with an optional external fan

Fanless embedded computer with external fan

Cincoze DI-1100 is a rugged, modular embedded computer powered by an Intel Whiskey Lake processor that comes in a fanless metal enclosure with heat dissipation fins, but the company also offers an external fan that clips on top of the metal case for additional cooling when using high-power peripherals such as PoE cameras. Designed for autonomous robots, in-vehicle use, environmental monitoring, and other industrial applications, the computer supports -40 to 70°C wide temperature range, 9 to 48 VDC input voltage range, and comes with plenty of I/Os including two Gigabit Ethernet ports, six USB ports, two RS232/422/485 interfaces, as well as mini PCIe sockets, and CFM and CFI expansion modules. Cincoze DI-1100 specifications: Intel Whiskey Lake SoC (one or the other) Intel Core i7-8665UE quad-core processor up to 4.4 GHz with Intel UHD Graphics 620; 15W TDP Intel Core i5-8365UE quad-core processor up to 4.10 GHz with Intel UHD Graphics […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 14 Comments on StarFive Dubhe 64-bit RISC-V core to be found in 12nm, 2 GHz processors

StarFive Dubhe 64-bit RISC-V core to be found in 12nm, 2 GHz processors

StarFive Dubhe RISC-V Core

StarFive has just announced customers’ delivery of the 64-bit RISC-V Dubhe core based on RV64GC ISA plus bit manipulation, user-level interrupts, as well as the latest Vector 1.0 (V) and Hypervisor (H) instructions. StarFive Dubhe can be clocked up to 2 GHz on a 12nm TSMC process node, and the company also released performance numbers with a SPECint2006 score of 8.9/GHz, a Dhrystone score of 6.6 DMIPS/MHz, and a CoreMark score of 7.6/MHz. A third-party source told CNX Software it should be equivalent to the SiFive Performance P550 RISC-V core announced last summer, itself comparable to Cortex-A75. StarFive Dubhe highlights: Typical frequency – 2.0 GHz @ TSMC 12nm “Industry-leading” Power and Area Efficiency (TSMC 12nm) RISC-V Vector Extension Data types: floating point, fixed point and integer VLEN=128-1024bits ALU & data path width=128 or 256 bits Full vector register grouping (LMUL) support RISC-V Virtualization Extension Pre-integrated Multi-Core with Memory Coherency Support […]

UP 7000 x86 SBC