Title :
Cone beam tomography using MPI on heterogeneous workstation clusters
Author :
Reimann, David A. ; Chaudhary, Vipin ; Flynn, Michael J. ; Sethi, Ishwar K.
Author_Institution :
Dept. of Diagnostic Radiol., Henry Ford Health Syst., USA
Abstract :
With cone beam CT long computation and a large amount of memory is required. The majority of the computation is in the backprojection step. We have investigated the use of parallel methods on workstation clusters using MPI to overcome both the long processing time and lessen memory requirements on individual workstations. We used the asynchronous MPI implementation to reconstruct a 2563 volume from 2562 projection views with 6 workstations. Our previous efforts in load balancing resulted in processor utilization of 81.8%. Use of asynchronous communication in the cone beam CT problem has improved processor utilization to 91.9%
Keywords :
application program interfaces; computerised tomography; image reconstruction; local area networks; message passing; resource allocation; software libraries; MPI; Message Passing Interface; asynchronous MPI; asynchronous communication; backprojection; cone beam tomography; heterogeneous workstation clusters; load balancing; memory requirements; parallel methods; processing time; processor utilization; projection views; Asynchronous communication; Computed tomography; Computer science; Detectors; Geometry; Image reconstruction; Load management; Pixel; Radiology; Workstations;
Conference_Titel :
MPI Developer's Conference, 1996. Proceedings., Second
Conference_Location :
Notre Dame, IN
Print_ISBN :
0-8186-7533-0
DOI :
10.1109/MPIDC.1996.534106
