@INPROCEEDINGS{pore2014hipc,
author={Pore, M. and Banerjee, A. and Gupta, S.K.S.},
booktitle={High Performance Computing (HiPC), 2014 21st International Conference on},
title={Heterogeneous many cores for medical control: Performance, Scalability, and Accuracy},
year={2014},
month={Dec},
pages={1-10},
keywords={drug delivery systems;drugs;medical computing;medical control systems;multiprocessing systems;predictive control;Intel Xeon Phi;IntelCore i7;MIC;MPC applications;Pharmacokinetic models;architecture suitability;critical patients;drug infusion rate;drug level;drug overshoot;energy savings;heterogeneous platforms;high throughput medical applications;hospital data centers;human physiology model;many core GPU;many core platforms;mathematical models;medical authority;medical control devices;model prediction;model predictive controllers;multicore systems;multiple patient monitoring;patients body;performance evaluation;spatio-temporal drug diffusion;Biomedical monitoring;Computational modeling;Drugs;Graphics processing units;Mathematical model;Parallel processing;Predictive models},
doi={10.1109/HiPC.2014.7116884},
}