Revolutionising high-end medical imaging

13-09-2024 | Advantech | Medical

Medical imaging technology demands increasingly sophisticated and efficient hardware solutions. Integrating Advantech SQR-SD5N high-end DDR5 5600 48GB SODIMM modules into these systems offers a notable leap forward in satisfying these demands. The primary objective of this project is to improve the performance, reliability, and capacity of medical imaging systems, ensuring they can handle the intensive workloads and large datasets generated during imaging processing.

Medical imaging systems demand substantial processing power and memory bandwidth to handle complex computations and large data transfers. High-end imaging techniques generate particularly huge amounts of data, causing memory to struggle when capped at 32GB, leading to limited processing times and potential data bottlenecks. In addition, a long-lasting solution is essential for this project. The company's solution is built with original Micron ICs to ensure robust longevity, which is crucial for medical devices.

Medical image systems, such as CT scanners and ultrasound machines, have revolutionised diagnostics by supplying detailed internal views of the human body, facilitating early and accurate diagnosis of various conditions. To fulfil the growing demands of these systems, there is a continuous need for high-performance, high-capacity, and high-reliability DRAM solutions.

Employing the high-speed 5600MT/s and 48GB capacity of DDR5 memory, this project aims to improve the performance of medical imaging systems greatly. This upgrade allows faster processing of large datasets and real-time image rendering. The built-in PMIC and on-die ECC functions of the DDR5 5600 prevent data corruption, ensuring the integrity of medical imaging data.

Also, this project needs a durable solution, and the DDR5 5600 48GB, built with original Micron ICs, ensures high quality and longevity.

Integrating SQR-SD5N DDR5 5600 48GB SODIMM memory modules into high-end medical imaging systems strategically meets existing performance and capacity challenges. Using the advanced features of SQRAM, such as DRAM longevity support and customisable solutions, this project ensures that medical imaging systems can meet the rigorous demands of modern diagnostics. Ultimately, this enhancement strives to improve patient care and operational efficiency.

Highlights include industrial-grade Micron ICs with a lifetime warranty. The on-die ECC error correction mechanism enhances reliability with 24-hour high-low temperature and humidity testing. A wide operating temperature range of -40C to 95C is optionally provided. The free SQ Manager 2.0 Software monitors DRAM health status and overheating alerts.


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By Seb Springall

Seb Springall is a seasoned editor at Electropages, specialising in the product news sections. With a keen eye for the latest advancements in the tech industry, Seb curates and oversees content that highlights cutting-edge technologies and market trends.