Sdmm-09704

| Question | Answer | |----------|--------| | | Yes. The hub follows the M.2 B‑Key pin‑out for sensor modules. A compatibility matrix is provided in the SDK. | | Can I run full Docker containers on the hub? | Absolutely. The Yocto image includes Docker Engine (v24) and supports ARM64 containers. For heavy workloads, off‑load to the FPGA via the provided OpenCL SDK. | | What certifications does the device hold? | CE, FCC Part 15, RoHS, IEC 61508 (SIL‑2), IEC 62443 (Level 2). Additional certifications (UL, ATEX) are available on request. | | How is the device secured against tampering? | Hardware TPM 2.0, Secure Boot with signed images, encrypted eMMC, and runtime integrity checks. Physical tamper detection (case‑intrusion sensor) triggers a secure wipe. | | What is the expected MTBF? | > 100,000 hours under IEC 60730‑2‑1 operating conditions (validated by accelerated life‑testing). | | Can I add custom sensor cards? | Yes. Use the open‑source hardware reference design and the SDMM‑09704 SDK to create a custom M.2 board. The SDK includes drivers for I²C, SPI, UART, and LVDS interfaces. | | Is there a cloud‑agnostic solution? | The hub ships with a generic MQTT bridge and a REST API, making it compatible with any cloud provider or on‑premise broker. | | What is the warranty? | 24‑month limited warranty covering defects in materials and workmanship. Extended warranty options are available. |

Product codes, also known as product serial numbers or SKUs (Stock Keeping Units), are unique identifiers assigned to each product during the manufacturing process. These codes serve multiple purposes, including inventory management, quality control, and sales tracking. They provide a concise and standardized way to identify products, enabling manufacturers, retailers, and consumers to easily locate and authenticate specific items. sdmm-09704

SDMM-09704 Series: Shinki Kanojo (The Divine/True Girlfriend) Label: SOD Create (Soft On Demand) Release Date: Late 2023 / Early 2024 | Question | Answer | |----------|--------| | | Yes

| Parameter | Value | |-----------|-------| | | Dual‑core ARM Cortex‑A55, L2 cache 512 KB | | FPGA | Xilinx Artix‑7 (XC7A100T) with 15 k logic cells | | GPU | None (AI workloads offloaded to FPGA) | | I/O | 4× UART (3.3 V), 2× I²C (fast‑mode), 2× SPI (up to 50 MHz), 1× CAN‑FD (1 Mbps), 1× RS‑485, 2× USB 3.0 (host), 1× HDMI‑C (DP‑Alt‑Mode) | | Sensors (integrated) | Ambient temperature ±0.2 °C, humidity ±2 %RH, 3‑axis accelerometer (±16 g) | | Clock | 24 MHz crystal + PLL up to 1.8 GHz | | Watchdog | Independent hardware watchdog (timeout 1 ms–10 s) | | Environmental | IP67 rated enclosure (optional ruggedized housing) | | EMI/EMC | Meets IEC 61000‑4‑2 (ESD), IEC 61000‑4‑3 (RF immunity) | | Operating System | Yocto‑based Linux 5.15 LTS + PREEMPT‑RT patch | | Development Tools | Eclipse IDE, VS Code extensions, Xilinx Vivado (Lite) for FPGA, Docker CLI, OpenCV 4.x, TensorFlow Lite 2.11 | | | Can I run full Docker containers on the hub