Objective. We have created an open-source application and framework for rapid GPU-accelerated prototyping, targeting image analysis, including volumetric images such as CT or MRI data. Methods. A visual graph editor enables the design of processing pipelines without programming. Run-time compiled compute shaders enable prototyping of complex operations in a matter of minutes. Results. GPU-acceleration increases processing the speed by at least an order of magnitude when compared to traditional multithreaded CPU-based implementations, while offering the flexibility of scripted implementations. Conclusion. Our framework enables real-time, intuition-guided accelerated algorithm and method development, supported by built-in scriptable visualiza...
In this Show&Tell session, we present Quasar, a new framework for heterogeneous programming on (mult...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
Virtual prototyping, the iterative process of using computer-aided (CAx) modeling, simulation, and v...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
The role of computers in medical image display and analysis continues to be one of the most computat...
Abstract. Marching Cubes (MC) is an algorithm that extracts surfaces from volumetric data. It is use...
A software tool is presented for interactive segmentation of volumetric medical data sets. To allow ...
With the flooding datasets of medical Computed Tomography (CT) and Magnetic Resonance Imaging (MRI),...
Direct volumetric visualization of medical datasets has important application in areas such as minim...
Purpose: Image registration is an important aspect of medical image analysis and a key component in ...
Abstract. With the broad availability and increasing performance of commodity graphics processors (G...
Volume rendering is a technique for visualizing 3D images from 2D sampled data. For 2D medical image...
We present a method for fast volume rendering using graphics hardware (GPU). To our knowledge, it is...
Modern graphics processing units (GPUs) have evolved into high-performance processors with fully pro...
Graphics processing units (GPUs) are used today in a wide range of applications, mainly because they...
In this Show&Tell session, we present Quasar, a new framework for heterogeneous programming on (mult...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
Virtual prototyping, the iterative process of using computer-aided (CAx) modeling, simulation, and v...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
The role of computers in medical image display and analysis continues to be one of the most computat...
Abstract. Marching Cubes (MC) is an algorithm that extracts surfaces from volumetric data. It is use...
A software tool is presented for interactive segmentation of volumetric medical data sets. To allow ...
With the flooding datasets of medical Computed Tomography (CT) and Magnetic Resonance Imaging (MRI),...
Direct volumetric visualization of medical datasets has important application in areas such as minim...
Purpose: Image registration is an important aspect of medical image analysis and a key component in ...
Abstract. With the broad availability and increasing performance of commodity graphics processors (G...
Volume rendering is a technique for visualizing 3D images from 2D sampled data. For 2D medical image...
We present a method for fast volume rendering using graphics hardware (GPU). To our knowledge, it is...
Modern graphics processing units (GPUs) have evolved into high-performance processors with fully pro...
Graphics processing units (GPUs) are used today in a wide range of applications, mainly because they...
In this Show&Tell session, we present Quasar, a new framework for heterogeneous programming on (mult...
The immense progress of imaging technologies has radically changed the prac-tice of medicine both in...
Virtual prototyping, the iterative process of using computer-aided (CAx) modeling, simulation, and v...