Title :
Multicore DSP-based Front-end board for a high channel, modular, ultrasound research system
Author :
Dallai, Alessandro ; Boni, Enrico ; Bassi, L. ; Ricci, Stefano ; Guidi, Francesco ; Tortoli, Piero
Author_Institution :
Dept. of Inf. Eng., Univ. of Florence, Florence, Italy
Abstract :
In ultrasound (US) research, a key role is currently played by open platforms, i.e. flexible scanners with unlimited access to raw echo-data, which facilitate the implementation and experimental test of new echographic methods. The methods proposed by research laboratories are increasingly demanding in terms of computational power and number of transmit/receive channels necessary for a suitable control of US array probes. In this paper, the basic module of a new 256-channel open platform is described. Such module, called Front-end (FE) board, integrates all of the electronics to simultaneously control 32 probe elements. Each FE board hosts four analog front-end chips, two DSPs and one FPGA, and is connected to the other boards in a ring with total I/O bandwidth of 80 Gbit/s full-duplex.
Keywords :
biomedical ultrasonics; digital signal processing chips; field programmable gate arrays; probes; signal processing; 256-channel open platform; FE board module; FPGA; I/O bandwidth; US array probe; analog front-end chip; computational power; echographic method; electronics integration; high channel modular ultrasound research system; multicore DSP-based front-end board; probe element control; raw echo-data; receive channel; transmit channel; Digital signal processing; Doppler effect; Field programmable gate arrays; Imaging; Iron; Probes; Ultrasonic imaging;
Conference_Titel :
Education and Research Conference (EDERC), 2014 6th European Embedded Design in
Conference_Location :
Milano
Print_ISBN :
978-1-4799-6841-1
DOI :
10.1109/EDERC.2014.6924411
