New modules increase AI efficiency with as much as 3 times the computing energy and double the inference capabilities, that includes built-in safety and real-time processing.
Congatec, a supplier of embedded and edge computing expertise, has launched computer-on-modules (COMs) that includes NXP’s i.MX 95 processors The modules provide as much as 3 times the GFLOPS computing efficiency in comparison with the earlier era with i.MX8 M Plus processors. NXP’s new neural processing unit, ‘eIQ Neutron,’ doubles the inference efficiency for AI-accelerated machine imaginative and prescient. Moreover, the hardware-integrated EdgeLock safe enclave simplifies the implementation of in-house cybersecurity measures.
Designed for a temperature vary of -40°C to +85°C, the modules are sturdy and optimized for cost- and energy-efficient functions. The eIQ Neutron NPU permits AI-accelerated workloads to be carried out nearer to the native system stage. Particular functions for these modules embrace AI-accelerated low-power duties in industrial manufacturing, machine imaginative and prescient, visible inspection, HMIs, 3D printers, robotics controllers in AMR and AGV, in addition to medical imaging and affected person monitoring methods. Different goal functions embrace passenger seat-back leisure in buses and plane, fleet administration in transportation, and building and farming functions.
The SMARC 2.1 modules are primarily based on the subsequent era of NXP i.MX 95 utility processors, that includes 4-6 Arm Cortex-A55 cores. NXP introduces the brand new Arm Mali 3D graphics unit, delivering as much as 3 times the GPU efficiency in comparison with predecessors primarily based on i.MX8 M Plus. Moreover, the brand new picture sign processor (ISP) permits hardware-accelerated picture processing. A key spotlight is the NXP eIQ Neutron NPU for hardware-accelerated AI inference and machine studying (ML) on the sting, supported by the eIQ software program growth surroundings from NXP, which simplifies the implementation of in-house ML functions.
The SMARC modules additionally combine a real-time area for real-time controllers and provide 2x Gbit Ethernet with TSN for synchronized and deterministic community knowledge transmission, LPDDR5 (with inline ECC) for knowledge safety, DisplayPort for show connectivity, and the nonetheless broadly used LVDS show interface. For direct digital camera connectivity, the modules function 2x MIPI-CSI.
