Description
GPUCPU AI Fusion Computer with Intel® 9th Gen Core i7-9700TE, 2 x 2.5″ SSD/HDD, NVIDIA®GTX1060 GPU (CUDA Cores:1280), Operating Temperature -20°C~60°C
- Design for reliability under demanding MIL-STD-810G Thermal, Shock, Vibration, Humidity/EMI/EMC conditions
- Intel® 9th Gen Core i7-9700TE Processor (1.8GHz turbo up to 3.8GHz, 8 cores)
- 2 x DDR4 SO-DIMM up to 32GB
- NVIDIA®GTX1060 GPU (CUDA Cores:1280)
- 4 x RJ45 LAN, 4 x USB, 5 x DP
- 2 x 2.5″ SSD/HDD
- Extended range of temperature -20°C~60°C
CPT320, an AI Fusion Computer driven by Intel® 9th Gen Core i7-9700TE (3.8GHz, 8Cores), offering even greater CPU and graphics performance. Further equipped with NVIDIA®GTX1060 GPU (CUDA Cores:1280), CPT320 possess remarkable and impressive performance in image processing, plus the system can support up to 5 DisplayPorts allowing multi-display application. CPT320 at the same time equipped with up to four Ethernet Ports, four USB3.0, and optional COM Ports and CAN bus, supporting high input and output efficiency. What’s more, with DDR4 up to 32GB, the system is designed to have great capability in data storage and analysis. Last but not the least, CPT320 is designed to operate under extend range of temperature from -20°C to 60°C, and demanding MIL-STD-810G Thermal, Shock, Vibration, Humidity/EMI/EMC conditions.
The Core Brain of Driverless Vehicle
Driverless vehicle requires multiple sensors such as LiDARs, cameras to play as its eyes for environment and obstacle detection. The image produced by LiDARs and cameras need to be analyzed, compared and one step further come up with a decision-making result to indicate control system to react to the situation. CPT320 is perfectly match with the demand of driverless technology. With NVIDIA®GTX1060 GPU (CUDA Cores:1280), image provided by sensors can be efficiently processed and analyzed, plus Intel® 9th Gen Corei7 CPU and DDR4 32GB memory which greatly enhance the working speed of data analysis. Possessing 5 DisplayPorts, CPT320 is able to display multiple images on the vehicle, including the direct image detected by LiDARs and cameras, passenger information and operation interface. CPT320 is undoubtedly an outstanding solution to play an important role in self-driving technology and AI fusion.
Patented Thermal Solution
STACKRACK designs a unique enclosure that is able to stack together both horizontally and vertically. The aluminum heat sink enclosure of CPT320 allows quad-sided heat dissipation. STACKRACK exclusively adopts special heat radiating material and combining with special CNC cutting, further forged into a lavish sophisticated metal. Apart from the special heat sink enclosure, CPT320 innovatively adopts two kinds of copper heat spreader. The shape and the size of the spreader are tailor-made based on the heat sources placement of CPU module and graphic module. In view of the gap difference between motherboard and heat sink, STACKRACK builds two heat spreaders in different thicknesses. Combining all these exclusive thermal designs can alternatively replace traditional fan, and also ensures high reliability and stability while working under wide range temperature from -20°C up to 60°C.
MIL-STD-810G designed for high environmental adaptation
CPT320 is designed to meet MIL-STD-810G standard for shock and vibration. MIL-STD-810G standard is considered the upmost principle, which guarantees the system achieves superior quality and stability when operate under various environment, especially applied in vehicle, which can possibly run through unpredictable terrain, causing sudden shock or occasional vibration.
