by NES | Nov 21, 2018 | Entrepreneurship, GPU Accelerated Computing, Image Guided Surgery, Medical Imaging, Radio Frequency Ablation, Scientific Computing
As part of the NVIDIA Inception Program we have been invited to demonstrate Accublate (TM) our platform for computerized guidance of liver cancer RF ablation at the NVIDIA booth at RSNA 2018. Accublate uses GPUs to simulate in real-time the electrical and thermal...
by NES | Jan 25, 2018 | AI & Deep Learning, Entrepreneurship, GPU Accelerated Computing
We are excited to report that NE Scientific LLC has been admitted to the NVIDIA Inception Program. NE Scientific LLC makes use of GPUs for accelerating the simulation of the physics taking place during the thermal ablation of tumors and uses these real-time...
by NES | Sep 16, 2016 | Entrepreneurship, GPU Accelerated Computing, Image Guided Surgery, Medical Imaging, Modeling, Radio Frequency Ablation, Scientific Computing
NE Scientific is active in the development of a computerized system for guidance of percutaneous ablation of liver cancer. Liver cancer is the 3rd leading cause of cancer mortality. Radio Frequency Ablation (RFA) is a technique based on the insertion in the...
by NES | Mar 19, 2015 | Entrepreneurship, GPU Accelerated Computing, Image Guided Surgery, Medical Imaging, Radio Frequency Ablation, Scientific Computing
San Jose, CA. Today NE Scientific CEO Andrea Borsic has pitched at the Early Stage Challenge organized by NVIDIA, competing for a $100,000 prize. The prize was won by Artomatix, a company operating in the field of video games. Our presentation was well received, and...
by NES | Mar 6, 2015 | Entrepreneurship, GPU Accelerated Computing, Image Guided Surgery, Medical Imaging, Modeling, Radio Frequency Ablation, Scientific Computing
NE Scientific CEO Andrea Borsic will be presenting at the NVIDIA Early Stage Challenge at the GPU Technology Conference 2015 in San Jose, California, on March 18th. The Early Stage Challenge is a competition for a $100,000 prize organized and sponsored by NVIDIA for...
by NES | Jan 27, 2015 | GPU Accelerated Computing, Image Guided Surgery, Modeling, Radio Frequency Ablation, Scientific Computing
In this post we report results relative to the use of GPUs for computing the evolution of tissue temperatures during Radio Frequency Ablation (RFA). In RFA electric energy is applied to the tissues with the purpose of rising tissue temperatures and killing a certain...
