MYTH, NvBX-NX157 is in edge AI computing solutions, proudly announces the launch of its next-generation DLAP Series edge AI platforms, fully powered by the NVIDIA® Jetson Orin™ NX core computing module. MYTH envisions that the Jetson Orin™ platform will drive the next wave of safe, high-performance edge AI applications, particularly across Physical AI domains such as industrial robotics, humanoid robots, automated optical inspection (AOI), and autonomous mobile robots (AMRs).

Compared to legacy Jetson systems, the MYTH DLAP Series powered by NVIDIA® Jetson Orin™ NX delivers a revolutionary leap in integrated GPU AI performance, unleashing up to 157 TOPS of localized AI computing power. This combination of advanced architecture and high-bandwidth memory enables Large Language Models (LLMs), Vision-Language Models (VLMs), and complex deep learning neural networks to run smoothly with ultra-low latency directly at the edge.

By combining ruggedized industrial-grade enclosures with an ultra-compact mechanical footprint, MYTH’s latest edge computing lineup is tailor-made for deploying mission-critical workloads in demanding, volatile industrial and medical environments.

Core Features

• Elite 157 TOPS Edge AI Clout: Driven by the NVIDIA® Jetson Orin™ NX (16GB) module, featuring 1024 NVIDIA® CUDA® cores and 32 Tensor cores, providing heavy-duty muscle for edge-side multi-model generative AI, real-time 3D vision diagnostics, and predictive analytics.

• High-Efficiency Compute Architecture: Utilizes an 8-core ARM® Cortex®-A78AE v8.2 64-bit CPU paired with 16GB of 128-bit LPDDR5 memory (blazing-fast bandwidth up to 204.8 GB/s), completely removing data access bottlenecks when dense sensor streams flood the system.

• Industrial High-Bandwidth Networking & Rich I/O: Outfitted with multiple independent hardware network ports (supporting up to 2.5 GbE speeds) for low-latency data ingestion from high-definition industrial cameras or LiDAR sensors, alongside legacy serial lines (COM), CAN bus, and transient-protected GPIO for precise machinery syncing.

• Rugged SafeCore™ Passive Armoring: Features a completely fanless, passive-cooling enclosure constructed from high-strength aluminum alloy fins. Eliminating moving fan components prevents fine workshop dust, metallic debris, and oily shop mists from settling inside.

• Wide-Voltage & Wide-Temperature Engineering: Engineered for harsh outdoor and factory floors, natively accepting a wide $9 sim 36 ext{V}$ DC power input range with integrated surge defenses, while operating flawlessly under full load across extreme climates from $-20^circ ext{C}$ to $65^circ ext{C}$.

• Seamless NVIDIA AI Software Ecosystem: Fully compatible with the NVIDIA® JetPack software stack, and natively supports enterprise-grade frameworks including NVIDIA Isaac™ (for robotics development) and NVIDIA Holoscan™ (for medical edge imaging), ensuring a unified long-term support (LTS) development environment.

Target Applications

• Humanoid Robots & Autonomous Mobile Robots (AMR): Functions as the localized primary brain for autonomous navigation, processing real-time 3D SLAM mapping, sensor-fusion obstacle avoidance, and generative kinetic limb controls within space-restrictive chassis cavities.

• Automated Optical Inspection (AOI) & Advanced Machine Vision: Positioned directly alongside smart factory production cells to interface with multi-channel high-speed cameras, executing millisecond-level surface defect classification, precise dimensional gauging, and rapid OCR sorting.

• Medical Imaging Analytics & Digital Surgical Suites: Delivers 157 TOPS of computing muscle with near-zero latency to run real-time AI computer vision, lesion mapping, and diagnostic assist routines on live endoscopic or ultrasound feeds, while the fanless design guarantees silent and sterile operation.

• Smart Cities, Traffic Tickers, & High-Traffic Access Gates: Processes multi-channel municipal or campus security surveillance streams concurrently at the edge to execute real-time license plate recognition (LPR) and behavioral anomaly alarms, filtering unnecessary data before uploading core metrics to the central cloud.

• Smart Agriculture & Autonomous Harvesting Rigs: Installed in rugged agricultural machinery, autonomous tractors, or drones to execute crop yield evaluations and trajectory planning under intense direct sunlight, heavy mechanical vibrations, and high-temperature dust storms.