SOLUTION: Surgical Navigation Solution
High-Performance Computing Platform: The workstation is powered by Intel 12th/13th/14th Gen Core i9/i7/i5/i3 processors (LGA1700, K-series supported), paired with the Q670 chipset and dual-channel DDR5 memory (up to 128GB), delivering robust general-purpose computing capabilities for effortless CT/MR image 3D reconstruction, registration, and real-time rendering.
Dual-GPU AI Acceleration: Supports two full-height, full-length high-performance GPUs (e.g., RTX 4090 x2 or RTX 4060Ti 16G)—one dedicated to image rendering and 3D visualization, the other exclusively for deep learning inference and navigation algorithms—significantly accelerating real-time intraoperative image segmentation, lesion detection, and path planning.
Silent & Efficient Cooling System: Two thermal solutions are available—APC-4U04 full liquid cooling (CPU+GPU liquid cooling, 5x thermal capacity of air cooling, ~50dB noise) and APC-4U03 hybrid cooling (CPU liquid cooling + GPU air cooling)—balancing sustained high-load computing with the stringent low-noise requirements of examination rooms and operating theaters, ensuring zero interference with surgical procedures.
Medical-Grade Expandability & Reliability: The system is 3C-certified and complies with medical safety and EMC standards. It offers 2x PCIe x16 (x8 signal), 1x PCIe x4, 2x PCI, 4x SATA3.0 (RAID 0/1/5/10 supported), 2.5G multi-Ethernet, and abundant USB/serial ports for flexible integration with surgical robots, optical trackers, navigation probes, and other peripherals. The chassis employs high-strength sheet metal and aluminum alloy with excellent EMI immunity.
Custom Development: ZRT provides software algorithm porting and system customization services tailored to specific surgical navigation workflows, enabling integrated deployment of image segmentation, 3D reconstruction, surgical path planning, and robotic arm guidance.

Solution Highlights
Real-Time 3D Reconstruction & Navigation: Leveraging dual-GPU heterogeneous computing, the system performs rapid 3D reconstruction of preoperative CT/MRI images and real-time fusion with intraoperative ultrasound or endoscopic video, assisting surgeons in precise localization of lesions, vasculature, and critical nerves with millimeter-level navigation accuracy.
Intelligent Surgical Planning: Deep learning models automatically identify organ boundaries, tumor margins, and surgical resection edges, providing optimal puncture trajectories or osteotomy planes—like a “GPS for surgery”—reducing operative time and minimizing invasiveness.
Whisper-Quiet Stability for the OR: The liquid cooling system maintains CPU/GPU at low temperatures and low noise (~50dB) under full load, preventing interference with surgical team communication. The full liquid cooling solution completely eliminates thermal spikes, ensuring sustained stability during long and complex procedures.
Data Security & Imaging Connectivity: RAID data backup and hardware-level encryption ensure patient imaging data security. Multi-Ethernet design enables seamless integration with hospital PACS/HIS systems, creating a closed-loop data workflow spanning preoperative planning, intraoperative navigation, and postoperative evaluation.

Application Scenarios
This solution is widely applicable to intraoperative navigation and surgical robot systems in: neurosurgery (brain tumor, epilepsy focus resection), orthopedics (spinal fixation, joint replacement), thoracic surgery (precision lung nodule resection), hepatobiliary surgery (liver tumor ablation, hepatic segmentectomy), urology (prostate biopsy, partial nephrectomy), as well as ENT and oral & maxillofacial surgery. With the powerful computing performance and silent reliability of APC-4U04/4U03 workstations, surgeons can achieve more precise, safer, and efficient intraoperative decisions, driving surgical practice toward intelligent and precision-driven care.
