The RISC-V Exchange hosts the hardware, software, services, and learning offerings in the RISC-V community. Browse the list or search for an offering below.
Organization: BeagleBoard.org Foundation
BeagleV®-Ahead is an open-source RISC-V single board computer (SBC) in the form factor of BeagleBone Black with compatible P8 & P9 cape header pins allowing you to stack your favorite BeagleBone cape on top to expand it’s capability. Featuring a powerful quad-core RISC-V processor, BeagleV®-Ahead is designed as an affordable RISC-V enabled pocket-size computer for anybody who want’s to dive deep into the new RISC-V ISA. Use Cases include rapid prototyping of low-power, low-latency embedded systems, rapid prototyping of RISC-V SoC designs and industrial automation. Features Microchip PolarFire® MPFS025T quad-core RISC-V System on Chip (SoC) with FPGA fabric and management CPU subsystem, 2GB LPDDR4 memory, 16GB Kingston eMMC flash memory, Gigabit Ethernet, 2x46 pin BeagleBone compatible headers, E-Key M.2 socket for WiFi modules, High-speed SYZYGY connector, CSI connector compatible with BeagleBone AI-64, microSD socket
Organization: PerfXLab
HS-1 RISC-V High-Density General Computing Mainboard (hereinafter referred to as HS-1) is jointly developed by PerfXLab and WIAT. HS-1 is equipped with 2 server-grade RISC-V 64-core processors SG2042 that is the highest performance RISC-V processor that has been mass-produced. HS-1 is a general-purpose computing mainboard specially developed for high performance computing application requirements in high density and high load scenarios. It has the characteristics of high density and high performance in a limited space. With the original system design and the characteristics of high density modular deployment, it is especially suitable for high-density computing clusters that need to balance computing performance and deployment density. It can meet the scientific computing, engineering computing, AI computing, fusion computing and other large computing power application scenarios' demand, and provide customers with efficient, high-density green computing platform infrastructure. Features: CPU: 2 x SG2042, Computing Power: 4 TFlops(FP64); Cores and Frequency: 128 Cores @2.0GHz, CPU; CPU Cache: L1: 64KB I-Cache, 64KB D-Cache L2: 16MB L3: 64MB System Cache; DDR: 8 DIMM Slots, supports DDR4 RDIMM/NV-DIMM ECC, supports 3200/2666/2400/2133MHz;Max DIMM Memory Capacity: 256GB; I/O Interface: 64PCIe Gen 4.0 lanes, 4 x SATA,4 x NVMe, 4 x USB3.0, 6 x Ethernet, 2 x VGA.
Organization: SOPHGO Technology
Milk-V Pioneer, an advanced mATX motherboard featuring the high-performance 64-core RISC-V CPU - SOPHON SG2042. Milk-V Pioneer Board is a groundbreaking RISC-V development platform with numerous outstanding features, including: Standard mATX form factor, compatible with mature PC industry cases and peripherals, fulfilling the DIY dream of RISC-V enthusiasts. High-performance local compilation and development capabilities.Complete development interfaces, including support for up to 128GB memory, multiple USB 3 ports, two NVMe SSD slots, wireless WiFi 6 expansion, multiple SATA ports, and standard PCIe card expansion.
License Type: Open custom
Organization: RT-Thread
RT-Thread RISC-V RDC Board is a petite powerhouse, measuring a mere 5.5cm*4cm, is built around the D1s chip - a 22nm 64bit RISC-V architecture processor humming along at a brisk 720MHz. With built-in 64M DDR2 and support for a plethora of video and audio interfaces, this board is ready to take on your most ambitious projects. And did we mention it runs on the open-source RT-Smart MicroKernel Operating System? Get ready to bring your ideas to life with the RT-Thread * RISC-V RDC Board!
Organization: Conclusive Engineering
Conclusive Engineering “Orchid” RCHD-PF is a System on Module powered by the Microchip PolarFire® SoC. It has a 5-core 667 MHz RISC-V processor, and an FPGA with up to 254K logic elements. RCHD-PF supports the whole range of Microchip's PolarFire SoCs based on the FCVG 484 package. 30% smaller than a credit card, it can power over 30 Watts of peripherals directly, with standard load from SoC at around 6W. Connectivity happens through 4 surface mounted connectors from HIROSE, readily available on market. Pinout is open source. RCHD-PF comes with an evaluation board that offers SFP+, Ethernet, USB, HDMI, CAN rail, two M.2 connectors, wireless, and more. It also has a PCIe edge connector that lets you use the setup as an endpoint device. Something's missing? No problem - we can deliver a custom daughterboard that's made to fit your needs. Conclusive Engineering fulfills the requirements of TAA Federal Certification, and Orchid and its evaluation board are manufactured locally in the European Union, in a secure facility. We provide constant software support for the board, including commits to mainline Linux and FreeBSD kernels. Since we fully own the board's IP, we can offer complete customization on all levels - from PCB design, kernel, drivers, bare metal, to high level applications - and very low volume custom production runs.
License Type: Mixed
Nezha is a AIoT development board customized by AWOL based on Allwinner’s D1 chip. It is the world’s first mass-produced development board that supports 64bit RISC-V instruction set and Linux system. Features Main control: Allwinner D1 C906 RISC-V 1GHz DRAM: DDR3 1GB/2GB Storage: Onboard 256MB spi-nand, support USB external U disk and SD card to expand storage Network: Support Gigabit Ethernet, support 2.4G WiFi and Bluetooth, onboard antenna Display: Support MIPI-DSI+TP screen interface, support HDMI output, support SPI screen Audio: Microphone daughter board interface * 1, 3.5mm headphone jack * 1 (CTIA) Board size: length 85mm *width 56mm *thickness 1.7mm PCB layer: 6 layers Support Tina Linux,based on Linux 5.4 kernel
The GAPduino, produced by Greenwaves Technologies, is an Arduino Uno form factor board (master) that includes a GAP8 and all the peripheral interfaces necessary to prototype GAP8 applications. It is compatible with most Arduino shields. GAP processors bring entirely new levels of computing capability into the realm of MCU-class energy consumption. GAP8 and GAP9 power new types of devices that combine ultra-low power consumption with sophisticated signal processing and neural network algorithms. The GAP RISC-V based processors are fully programmable in C/C++ giving you the ability to optimize the latest algorithms. The GAP SDK includes all the tools necessary to speed application development including a fully automated neural network toolchain from Google Tensorflow. The unique GAP AutoTiler code generator automatically optimizes the flow of data across the chip. GAP processors incorporate dynamic voltage and frequency scaling and automatic clock gating keeping awake only the elements of the component necessary to service the current workload. Low standby power consumption and ultra-fast wake-up and power state transitions minimize energy usage across sleep, acquisition, processing, and communication states. Features: Arduino Uno form factor Camera connector for external camera (e.g. Himax HM01B0) HyperBus combo DRAM/Flash 512Mbits Flash + 64Mbits DRAM USB to GAP8 JTAG + UART Reset button Configurable I/O voltage (3.3V/5V) Input Power – DC Connector or USB GAPuino has been developed by GreenWaves Technologies and is not related to the Arduino project.
RV-STAR is a RISC-V evaluation development board based on GD32VF103 MCU. It provides resources such as an onboard debugger, Reset and Wakeup user buttons, RGB LED, USB OTG, and EXMC, Arduino and PMOD expansion interfaces.
Organization: Nanjing Qinheng Microelectronics Co., Ltd.
CH32V103 MCU is integrated with "Qingke" V3 core based on RV32IMAC. Core speed @ 80MHz, 20KB SRAM, and 64KB Flash, and attached with rich peripherals, including USB, UART * 3, ADC * 16, Touch-Key * 16, SPI * 2, etc. This evaluation development board is based on CH32V103 MCU. It provides resources such as an onboard debugger, Reset and user buttons, LEDs, Full-Speed USB interfaces.
License Type: Permissive
Organization: Nanjing Qinheng Microelectronics Co., Ltd.
CH32V307 MCU is integrated with "Qingke" V4 core based on RV32IMAFC. Core speed @ 144MHz, 64KB SRAM, and 256KB Flash, and attached with rich peripherals, including USB * 2, Ethernet, UART * 8, DVP, SDIO, CAN * 2, ADC * 16, DAC * 2, SPI * 3, etc. This evaluation development board is based on CH32V307 MCU. It provides resources such as an onboard debugger, Reset and user buttons, LEDs, High-Speed USB, Full-Speed USB, Ethernet interfaces.
License Type: Permissive
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