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Views: 0 Author: Site Editor Publish Time: 2026-04-24 Origin: Site
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Industrial Computer · Medical Imaging |
CT Imaging — Massive Data Processing |
IPC Selection Essentials & Reliability Enablement |
Dual RTX 5080/5070 · 4U Rack Workstation · YDSTECH × Weisen Imaging |
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YDSTECH, in partnership with Weisen Imaging, presents an industrial CT image-processing workstation built for 3-D reconstruction and volumetric data segmentation — engineered to deliver raw compute power alongside industrial-grade reliability.
01 The Data Challenge in Industrial CT
Industrial CT uses X-ray attenuation signals captured from multiple angles to reconstruct the internal 3-D structure of a target object through computational algorithms.
Two root causes drive the data volume: high imaging resolution — sub-millimetre defect detection demands extreme pixel density; and full 360° scan coverage — multi-angle, multi-slice stacking pushes raw data into the GB-to-TB range per scan.
02 Two Critical Factors in IPC Selection
▶ Compute Fit — The Foundation CT 3-D reconstruction demands parallel processing across dual or multi-GPU configurations. This places high demands on hardware compatibility and thermal management. Poor selection wastes compute capacity, causes processing stalls, and ultimately degrades inspection throughput. |
▶ Stability — Non-Negotiable Industrial and medical deployments demand 24 × 7 uninterrupted operation covering data transfer, computation, and storage. A single failure risks misdiagnosis in medical settings or missed defects in industrial inspection. Industrial-grade design mitigates environmental interference and ensures continuous, safe operation. |
03 Product Solution: CT Image Processing Workstation
The following photographs and configuration table detail the workstation jointly developed by YDSTECH and Weisen Imaging.
▲ F4808 4U Rack-Mount IPC Chassis — Front View
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Internal Layout (Top View) | Internal Layout (Front View) |
Full System Specifications
Component | Specification |
Motherboard | ATX-Q671-I9-12900 (Intel Q670 chipset, ATX form factor) |
Processor | Intel Core i9-12900 — 16 cores / 24 threads, up to 5.1 GHz |
Memory | Kingston 32 GB DDR4 3600 FURY Beast |
System Storage | IT M.2 NVMe SSD (high-speed system drive) |
GPU 1 | NVIDIA GeForce RTX 5080 (Ada architecture, high-performance inference / rendering) |
GPU 2 | NVIDIA GeForce RTX 5070 (dual-GPU parallel, boosts CT reconstruction throughput) |
Power Supply | Great Wall 1250 W 80PLUS Gold (stable power for dual high-TDP GPUs) |
Chassis | F4808 4U rack-mount server chassis (standard 19-inch rack compatible) |
Thermal Solution | Tower CPU cooler + dual front fans + honeycomb mesh forced-convection |
Form Factor | 4U rack-mount — suitable for data-center / factory cabinet deployment |
Target Workloads | Industrial CT 3-D reconstruction, volumetric data segmentation, medical imaging, machine-vision inference |
Reliability | Industrial-grade design; continuous 24 × 7 operation |
04 Closing Remarks
Hardware selection is where technology deployments are won or lost. Matching compute capacity with industrial reliability is the prerequisite for unlocking the full value of CT 3-D reconstruction and high-volume data processing.
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For detailed solution proposals or custom configurations, contact YDSTECH — |
27 years specialising in industrial computing for factory automation, machine vision, and medical IVD. |
Shenzhen YDSTECH Electronics Co., Ltd. www.ydstech.com |
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