Founded about three years ago, Akeana has just officially launched and announced three 32-bit and 64-bit RISC-V processor lines and SoC IP with the Akeana 100 series for 32-bit microcontrollers, the Akeana 1000 series for 64-bit processors with MMU, and the Akeana 5000 series with much higher single-thread performance and designed for laptops, data centers, and cloud infrastructure. The company also introduced Scalable Coherent Interconnect, Interrupt Controller, and IOMMU IP for building out compute subsystems based on the aforementioned RISC-V cores, as well as AI-targeted Vector RISC-V Cores and Matrix Computation IP. The design team is said to have previously worked on Marvell’s ThunderX2 server chips. Akeana 100 Series The Akeana 100 Series is a line of highly configurable processors with 32-bit RISC-V cores that support applications from embedded microcontrollers to edge gateways, to personal computing devices. Four Akeana 100 RISC-V cores are available Akeana 110 for area- and power-constrained […]
Toradex Aquila AM69 SoM features TI AM69A octa-core Cortex-A72 AI SoC, rugged 400 pin board-to-board connector
Toradex Aquila AM69 is the first system-on-module (SoM) from the company’s Aquila family with a small form factor and a rugged ~400-pin board-to-board connector targetting demanding edge AI applications in medical, industrial, and robotics fields with Arm platforms that deliver x86 level of performance at low power. The Aquila AM69 SoM is powered by a Texas Instruments AM69A octa-core Arm Cortex-A72 SoC with four accelerators delivering 32 TOPS of AI performance, up to 32GB LPDDR4, 128GB eMMC flash, built-in WiFi 6E and Bluetooth 5.3 module, and a board-to-board connector for display, camera, and audio interfaces, as well as dual gigabit Ethernet, multiple PCIe Gen3 and SerDes interfaces. All that in a form factor that’s only slightly bigger (86x60mm) than a business card or a Raspberry Pi 5. Toradex Aquila AM69 specifications: SoC – Texas Instruments AM69A Application processor – Up to 8x Arm Cortex-A72 cores at up to 2.0 GHz […]
NXP i.MX 91 single-core Cortex-A55 SoC to power Linux-based cost-optimized edge devices
NXP has just unveiled the NXP i.MX 91 single-core Cortex-A55 processor following the introduction of the i.MX 93 in 2021, and designed for cost-optimized edge devices running Linux. The NXP i.MX 93 processor comes with up to two Cortex-A55 cores, a Cortex-M33 real-time core, and an Ethos U65 microNPU, but targeting entry-level Linux systems, the NXP i.MX 91 processor does without the real-time core and the AI acceleration, while still integrating NXP EdgeLock Secure Enclave, and the company highlights support for multiple wireless connectivity options through companion chips such as the IW612 that supports Wi-Fi 6, Bluetooth 5.2, 802.15.4, and the new Matter protocol. NXP i.MX 91 specifications: CPU – Arm Cortex-A55 running at up to 1.4GHz with 256KB L2 cache System Memory – Up to 2.4GT/s x16 LPDDR4 with Inline ECC Storage 3x SD 3.0, SDIO 3.0, eMMC 5.1 1x Octal SPI including support for SPI NOR and SPI […]
conga-STDA4 SMARC 2.1 module features TI TDA4VM/DRA829J Jacinto 7 processor
congatec conga-STDA4 is a SMARC Computer-on-Module (CoM) based on Texas Instruments TDA4VM or DRA829J Jacinto 7 processor with two Cortex-A72 cores, six real-time Cortex-R5 cores for functional safety, accelerated vision and AI processing capabilities, and plenty of interfaces. The first Texas Instruments-powered CoM from the company is designed for industrial mobile machinery requiring near-field analytics, such as automated guided vehicles and autonomous mobile robots, construction and agricultural machinery, as well as any industrial or medical solutions requiring energy-efficient computer vision at the edge. conga-STDA4 specifications: SoC – Texas Instruments Jacinto 7 TDA4VM/DRA829J with Dual-core Arm Cortex-A72 up to 2.0 GHz 6x Arm Cortex-R5F cores @ 1.0 GHz up to 8 MB of on-chip L3 RAM 1x C7x DSP up to 80 GFLOPs 2x C66 DSPs up to 40 GFLOPs Up to 8 TOPS MMA AI accelerator PowerVR Rogue 8XE GE8430 3D GPU with support for OpenGL ES 3.1, OpenVX, OpenCL […]
Half-size mini PCIe card adds up to 4 CAN FD interfaces to embedded systems
esd electronics CAN-PCIeMiniHS/402 is a half-size mini PCIe card with four CAN FD Interfaces designed for embedded systems with one model adding extended temperature range support from -40C to 85°C. The company also introduced the CAN-Mini/402-4-DSUB9-150mm adapter to more easily connect the four CAN network interfaces via DSUB9 connectors. It comes with four individual small adapter boards, each equipped with a DSUB9 plug and a jumper for selectable onboard CAN termination, as well as 150 mm long wires. CAN-PCIeMiniHS/402 highlights: 4x CAN FD interfaces according to ISO 11898-2, no galvanic isolation, bit rates from 10 Kbit/s up to 8 Mbit/s Bus mastering and local data management by FPGA (Intel Cyclone IV EP4CGX) PCIe Mini interface according to Mini Card Electromechanical Spec. R1.2 Supports MSI (Message Signaled Interrupts) HW-Timestamp capable Dimensions – 30 mm x 27 mm (Half-size mini PCIe form factor) Temperature Range Standard – 0°C … +75°C Extended range: […]
VESA compatible mini PC is powered by Vortex86DX3 x86 processor
ICOP EB-3362-I fanless mini PC powered by DM&P Vortex86DX3 x86 processor coupled with 2GB DDR3 of memory and designed to be mounted on the back of a VESA compatible display or monitor, a wall, or even a DIN rail through an adapter. The mini PC will be mostly useful for legacy x86 applications with features like VGA video output, multiple DB9 COM ports, as well as SATA storage. The wide 8V to 24V input voltage and -20 to 70C temperature range will also make it suitable for some industrial applications. ICOP EB-3362-I specfications: SoC – DM&P Vortex86DX3 dual-core x86 processor @ 1GHz System Memory – 2GB DDR3 Storage – SATA interface, SD card socket Display Output – VGA up to 1920 x 1080 @ 60 Hz Networking 10/100M Ethernet RJ45 port Optional additional Gigabit Ethernet RJ45 port Optional WiFi via USB 2.0 port, and external antenna USB – 3x USB […]
ICOP VEX2-6415 SBC runs DOS, QNX, Linux, Windows on Vortex86EX2 “Dual OS” x86 processor
DM&P Vortex86EX2 is a dual-core x86 processor that supports legacy ISA and PCI interfaces, and designed in a way that makes it capable of running two OS independently, easy with its own BIOS, without the need for virtualization, nor a hypervisor. At the time, we also covered the Vortex86EX2 evaluation board from the company, but the first commercial product that has come to my attention is ICOP VEX2-6415 Vortex86EX2 SBC designed for automation and IoT, and which the company says support “Windows Embedded Compact 7, Windows Embedded Compact 6, various of (sic) Linux distribution, QNX, and even the legacy but still popular DOS”. ICOP VEX2-6415 SBC specifications: CPU – DM&P Vortex86EX2 dual-core processor with Master core @ 600MHz max with build-in FPU L1/L2 Cache for user interface Slave core @ 400MHz max with build-in FPU, L1 Cache for real-time control System Memory – 512MB/1GB DDR3 Storage – 4GB eMMC flash […]
TQMa65xx Embedded Module Features TI Sitara AM65xx SoC, Six TSN Ethernet Interfaces
Texas Instruments Sitara AM654 Cortex-A53/R5 SoC was launched in 2018 as the first 64-bit processor from the company and specifically targetting Gigabit industrial Ethernet networks with support for Time-Sensitive Networking (TSN). Since the processor launch, we’ve seen a couple of Sitara AM65xx modules such as PHYTEC phyCORE-AM65x SoM and Mistral AM65x Industrial SOM. There’s now another option with TQ Embedded TQMa65xx embedded module featuring a choice of 5 AM65xx dual-/quad-core processor, up to 4GB RAM, up to 64GB eMMC flash, and various I/Os via a 560-pin connector that includes six Gigabit TSN Ethernet interfaces. TQ Embedded TQMa65xx embedded module specifications: SoC – Texas Instruments Sitara AM6526, AM6527, AM6528, AM6546, or AM6548 with dual-core or quad-core Cortex-A53 processor @ 1.1 GHz, dual Cortex-R5 dual-lockstep processor @ 400 MHz, optional Imagination SGX544 GPU (AM6xx8 SKU) System Memory – Up to 4GB DDR4 SDRAM with optional ECC Storage – Up to 64GB eMMC […]