IMPATIENT MRI: ILLINOIS MASSIVELY PARALLEL ACCELERATION TOOLKIT FOR IMAGE RECONSTRUCTION WITH ENHANCED THROUGHPUT IN MRI
Wu X, Gai J, Lam F, Fu M, Haldar J, Zhuo Y, Liang Z, Hwu W, Sutton B. IMPATIENT MRI: ILLINOIS MASSIVELY PARALLEL ACCELERATION TOOLKIT FOR IMAGE RECONSTRUCTION WITH ENHANCED THROUGHPUT IN MRI. 2011, 1: 69-72. DOI: 10.1109/isbi.2011.5872356.Peer-Reviewed Original ResearchEnhanced throughputImage reconstructionGraphics processing cardsMagnetic field inhomogeneityComputational powerNoisy dataComputing facilitiesComputation timeField inhomogeneityProcessing cardThroughputAcquisition trajectoriesMagnetic resonance imagingPhysical effectsToolkitImagesAdvanced techniquesClinical imagesTemporal resolutionReconstructionChapter 44 Using GPUs to Accelerate Advanced MRI Reconstruction with Field Inhomogeneity Compensation
Zhuo Y, Wu X, Haldar J, Marin T, Hwu W, Liang Z, Sutton B. Chapter 44 Using GPUs to Accelerate Advanced MRI Reconstruction with Field Inhomogeneity Compensation. 2011, 709-722. DOI: 10.1016/b978-0-12-384988-5.00044-9.Peer-Reviewed Original ResearchInhomogeneity compensationNonideal physical effectsReconstruction algorithmMRI reconstruction algorithmsLoop invariant code motionFloating-point computationsMagnetic resonance imagingSingle-precision floating-point computationData acquisition timeAccurate image reconstructionSignal-to-noise ratioGPU implementationGPU kernelsMRI reconstructionSeverity of artifactsImproved trade-offFlexible diagnostic toolConstant memoryGPUCode motionImage contrastPhysical effectsImage reconstructionClinical scansAcquisition time