Posted on by Sponsored Post - No Comments on Compex Wi-Fi 7 Dual-Band Dual-Concurrent Modules: High-Performance Solutions for Next-Gen Connectivity (Sponsored)

Compex Wi-Fi 7 Dual-Band Dual-Concurrent Modules: High-Performance Solutions for Next-Gen Connectivity (Sponsored)

Compex Wi-Fi 7 Dual-Band Dual-Concurrent Modules

Compex has been a Qualcomm Authorized Design Centre (ADC) since 2014, helping customers design specialized, high-specification Wi-Fi products for demanding and mission-critical applications. For Wi-Fi 7 (802.11be), Compex has introduced a family of standard modules for system designers who are looking for flexible module options that support different band combinations, form factors, and deployment scenarios. The Compex Wi-Fi 7 Dual-Band Dual-Concurrent Module family is designed to address these requirements by offering a versatile set of dual-band configurations across 2.4GHz, 5GHz, and 6GHz, delivering high performance and adaptability for a wide range of applications. Qualcomm-Powered Dual-Band Dual-Concurrent Modules Powered by Qualcomm’s QCN6224, QCN6274, and QCN9274 ‘Waikiki’ radio chipsets, the Compex Wi-Fi 7 Dual-Band Dual-Concurrent Module family features dual-band combinations across 2.4GHz, 5GHz, and 6GHz bands. These modules support advanced Wi-Fi 7 functions such as Multi-Link Operation (MLO), OFDMA, and 4096-QAM. These 2×2 MU-MIMO modules are available in standard MiniPCIe, M.2 E-Key, […]

Posted on by Debashis Das - No Comments on Radxa launches NX4 SoM with Rockchip RK3576(J) industrial SoC and NX4IO carrier board

Radxa launches NX4 SoM with Rockchip RK3576(J) industrial SoC and NX4IO carrier board

Radxa NX4 Rockchip RK3576(J) SoM

Radxa NX4 is a 260-pin SO-DIMM SoM built around the Rockchip RK3576(J) octa-core Cortex-A72/A53 industrial SoC with a 6 TOPS NPU for edge AI workloads. It supports up to 16GB LPDDR5 memory along with optional SPI flash, eMMC 5.1 (up to 256GB), or UFS 2.0 storage (up to 1TB). Radxa has also introduced the NX4 IO carrier board for the module with an HDMI video output, two 4-lane MIPI CSI camera interfaces, four USB 3.2 Type-A ports, one USB 3.2 Type-C port, Gigabit Ethernet with optional PoE, and an M.2 M-key 2280 slot for storage, along with various I/Os. Radxa NX4 SoM specifications: SoC – Rockchip RK3576J (industrial-grade version) CPU – Octa-core CPU with 4x Cortex-A72 cores at 2.2 GHz, 4x Cortex-A53 cores at 2.0 GHz GPU – Arm Mali-G52 MC3 GPU with support for OpenGL ES 1.1, 2.0, and 3.2, OpenCL 2.0, and Vulkan 1.2 NPU – 6 TOPS […]

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Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Upgraded Sipeed NanoKVM-USB USB KVM solution gains 4K 60 FPS video capture and HDMI loop output

Upgraded Sipeed NanoKVM-USB USB KVM solution gains 4K 60 FPS video capture and HDMI loop output

NanoKVM USB 4K

Sipeed has released a new variant of its NanoKVM-USB low-cost USB KVM adapter, which upgrades 2K 30 FPS capture and 4Kp30 loop out to 4K 60 FPS capture and 4Kp60 HDMI loop output. The new NanoKVM-USB 4K keeps the same ports as the earlier model, with HDMI and USB-C inputs connected to the target, and another USB-C port that connects to the host, in order to remotely control the target with keyboard, mouse, and monitor emulation. A USB Type-A port that can switch between host and target modes is also implemented, for instance, to share a USB drive between the two systems. NanoKVM USB 4K specifications: Video Input/Output HDMI input up to 4Kp60 from target device HDMI loop output up to 4Kp60 for optional connection to a monitor USB USB Type-C port for connection to the target device for keyboard/mouse emulation USB 3.0 Type-C port for connection to the host […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 10 Comments on Milk-V Titan – A $329 octa-core 64-bit RISC-V mini-ITX motherboard with a PCIe Gen4 x16 slot

Milk-V Titan – A $329 octa-core 64-bit RISC-V mini-ITX motherboard with a PCIe Gen4 x16 slot

Milk-V Titan mini-ITX motherboard

We first noted the UltraRISC UR-DP1000-powered Milk-V Titan mini-ITX motherboard when we wrote an article about three high-performance RISC-V processors to watch in H2 2025. There have been some delays, as there often are, but the Titan board finally appears to be in stock, so it’s probably a good time to have a closer look. Powered by a 2 GHz UR-DP1000 octa-core RISC-V CPU, the Titan mini-ITX motherboard supports up to 64GB DIMM memory and M.2 NVMe storage (PCIe Gen4 x4), and features a PCIe Gen4 x16 slot for a graphics card or other expansion, Gigabit Ethernet, four USB 3.0 ports, a BMC, and more. Milk-V Titan specifications: CPU – UltraRISC UR-DP1000 8x 64-bit RISC-V UR-CP100 “RV64GCBHX” cores up to 2.0 GHz Two 4x core cluster design with 4MB L3 cache each, and a total of 16MB cache. Fully RVA22 compliant, and “Compliant with RVA23 excluding V extension.” Supports Hardware […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Xibo open-source digital signage solution now works with Raspberry Pi 5 thanks to the Arexibo project

Xibo open-source digital signage solution now works with Raspberry Pi 5 thanks to the Arexibo project

Xibo Raspberry Pi 5

Xibo digital signage solution is now compatible with the Raspberry Pi 5 thanks to Axeribo, an unofficial alternative to the digital signage player for Xibo, that is implemented in Rust, and designed for Linux platforms. Long-time readers of CNX Software may remember that I played around with the Xibo open-source digital signage player many years ago (2011-2012). I notably managed to run Xibo for Arm in QEMU,  test Xibo digital signage in the Raspberry Pi emulator, and even try it on real hardware: a MeLE A1000 Android TV box to which I installed Linux. It kind of works, but without hardware video decoding and no 3D graphics acceleration, performance was rather on the low side. I eventually stopped playing around with Xibo Arm Linux once Xibo for Android was released in late 2012, and the developers decided to drop support for the Linux client (although they relaunched it in 2019 […]

Posted on by Debashis Das - 7 Comments on LILYGO T-Beam 1W – An ESP32-S3 + SX1262 high-power LoRa dev board with 32 dBm output, GNSS support

LILYGO T-Beam 1W – An ESP32-S3 + SX1262 high-power LoRa dev board with 32 dBm output, GNSS support

LILYGO T Beam 1W

The LILYGO T-Beam-1W is an ESP32-S3-based high-power LoRa development board featuring an SX1262 RF transceiver, an onboard 1W power amplifier (32 dBm), a L76K GNSS module, a 1.3-inch SH1106 OLED, a microSD slot, USB-C, Qwiic connectors, and an AXP2101 PMU. The board runs on a 7.4V battery and includes a cooling fan for high-power RF operation. We first wrote about the original LILYGO T-Beam (then branded as TTGO) in 2018, and since then, the company introduced various revisions of the T-Beam as it became popular. The T-Beam 1W is the most powerful version so far, with a built-in 1 Watt amplifier that allows the board to transmit data over longer distances without needing to buy separate, bulky amplifiers. LilyGO T-Beam-1W Specifications: Core module – Espressif Systems ESP32-S3-WROOM-1 SoC – ESP32-S3 CPU – Dual-core LX7 processor with up to 240MHz Memory – 512KB SRAM, 8MB PSRAM Storage – 384KB ROM Wireless – […]

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Posted on by Debashis Das - 1 Comment on AMD Embedded+ mini-ITX Board features Ryzen AI Embedded P132 CPU, Versal AI Edge Gen2 VE3558 SoC FPGA

AMD Embedded+ mini-ITX Board features Ryzen AI Embedded P132 CPU, Versal AI Edge Gen2 VE3558 SoC FPGA

SAPPHIRE EDGE+ VPR 7P132, a Mini ITX AMD Embedded+

At CES 2026, Sapphire Technology introduced the EDGE+VPR-7P132, an “AMD Embedded+” Mini-ITX motherboard built around AMD’s newly announced Ryzen AI Embedded P100 series of SoCs, namely the hexa-core Ryzen P132 (V4526iX) CPU, and an AMD Versal AI Edge Gen 2 VE3558 SoC FPGA, which features octa-core Arm Cortex-A78AE + ten Cortex-R52 real-time cores beyond FPGA fabric. It’s the first AMD Ryzen AI Embedded motherboard we’ve seen. It represents a massive update from last year’s Edge+ VPR-5050 motherboard, which relied on Zen 2-based Ryzen Embedded V2000 series and first-generation Versal silicon. The new VPR-7P132 skips multiple generations, jumping straight to Zen 5 CPU cores and RDNA 3.5 graphics, with an upgraded Versal Gen 2 adaptive Edge AI SoC for real-time inference, along with faster LPDDR5 (4266MHz) memory and 40 Gbps USB4 connectivity. SapphireTech EDGE+ VPR-7P132-MB specifications: AMD Embedded+ Architecture Adaptive SoC Subsystem Adaptive SoC – AMD Versal AI Edge Gen 2 […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 4 Comments on XIAO ePaper DIY Kit – EE02 – An ESP32-S3 board designed for 13.3-inch Spectra 6 color E-Ink display

XIAO ePaper DIY Kit – EE02 – An ESP32-S3 board designed for 13.3-inch Spectra 6 color E-Ink display

XIAO ESP32-S3 13.3-inch E-ink Spectra 6 color display kit

Seeed Studio’s XIAO ePaper DIY Kit EE02 is an ESP32-S3 WiFi and Bluetooth board designed specifically for the 13.3-inch Spectra 6 color E-Ink display provided by the company. It’s based on a similar design as the XIAO ePaper DIY Kit-EE04 (ESP32-S3) and XIAO ePaper DIY Kit-EN04 (nRF52480) introduced last December, which are suitable for smaller 1.54 to 7.15-inch ePaper displays. Like the previous models, the new EE02 model also includes a battery connector with a power switch, a built-in charging IC, and comes with one reset and three user buttons. With support for a larger 13.3-inch color ePaper display, it’s especially well-suited for digital frames and information boards. XIAO ePart DIY kit – EE02 specifications: Wireless board – XIAO ESP32S3 Plus SoC – Espressif ESP32-S3R8 CPU – Dual-core Tensilica LX7 microcontroller up to 240 MHz with vector instructions for AI acceleration Memory – 8MB PSRAM Wireless – WiFi 4 and Bluetooth […]

Boardcon MINI1126B-P AI vision system-on-module wit Rockchip RV1126B-P SoC