Towards Large-scale Ultrasound Simulations in Soft Tissue for Medical Applications

Towards Large-scale Ultrasound Simulations in Soft Tissue for Medical Applications

Paper in proceedings outside WoS and Scopus

The synergy between advancements in medicine, ultrasound modeling, and high performance computing leads to emergence of many new applications of biomedical ultrasound. These applications, ranging from HIFU treatment planning to (photo-)acoustic imaging, are requiring accurate large scale ultrasound simulations while putting significant pressure on the cost and time to solution of these simulations.

The presented article discusses progress in the development of our k-space pseudo-spectral fullwave non-linear ultrasound simulation code across an assortment of modern accelerated cluster architectures.

The synergy between advancements in medicine, ultrasound modeling, and high performance computing leads to emergence of many new applications of biomedical ultrasound. These applications, ranging from HIFU treatment planning to (photo-)acoustic imaging, are requiring accurate large scale ultrasound simulations while putting significant pressure on the cost and time to solution of these simulations.

The presented article discusses progress in the development of our k-space pseudo-spectral fullwave non-linear ultrasound simulation code across an assortment of modern accelerated cluster architectures.

k-Wave toolbox, k-Space method, high performance computing, GPGPU, Intel Xeon Phi, OpenMP, MPI, CUDA, OpenCL, ultrasound simulation, personalized medicine

k-Wave toolbox, k-Space method, high performance computing, GPGPU, Intel Xeon Phi, OpenMP, MPI, CUDA, OpenCL, ultrasound simulation, personalized medicine

VAVERKA, F.

2020

04.09.2019

Academic and Medical Conference Agency

Doksy

978-80-88214-20-5

PAD 2019

64

67

4

https://www.fit.vut.cz/research/publication/12031/

PAD_2019_Vaverka