Matrox Graphics Inc., the manufacturer of specialised graphics solutions, has announced that FENICS has validated the Matrox Xenia PRO display contoller board with their
DIAGNUM Workstation mammography computer-aided detection (CAD) solutions.
FENICS will be demonstrating this technology at Journee Française de Radiologie (JFR) 2009 from 16-20 October 2009, in Paris – Porte Maillot, France.
FENICS is the first company from France to propose a set of aided diagnosis solutions for mammography through its DIAGNUM product line.
Its premium solution, DIAGNUM Look, is not only an interactive CAD that detects anomalies, it also routes and characterises them to generate reports in the current language. With its strong performance and user friendly interface, the workstation has already attracted the attention of many radiologists.
“Matrox is once again pleased to partner with medical technology leader FENICS to ensure Matrox Xenia PRO validation with their DIAGNUM Workstation mammography CAD product line,” says George Rigas, business development manager for medical imaging, Matrox Graphics Inc.
“Our goal is to provide medical imaging professionals the best in pristine image quality, performance, and efficient workflow for mammography screening and diagnostics.”
Matrox Xenia is the first native PCI Express single-slot board with all-digital, triple-monitor output, and the flexibility to drive practically any known display configuration. Xenia Series supports resolutions from under 1MP to 8MP, with up to 1GB of on-board memory, and features new technology to ensure optimum display calibration (via Matrox DLC™ and 8/10/13-bit gamma LUTs).
“With Matrox Xenia PRO, we obtain the best performance and image quality on all major medical display manufacturers,” says Jérémy Clech, CEO, FENICS. “The Matrox Xenia PRO display controller board dramatically reduces the development process by providing high-level libraries and native C# example source and executables for rapid development.”
Xenia Series is a flexible and expandable solution, that provides medical imaging developers and integrators looking for leading edge technology the development potential for increasing hardware-accelerated performance via hardware LUTs, multiple hardware window IDs, and additional hardware features.