000008384 001__ 8384
000008384 005__ 20240125142353.0
000008384 0247_ $$2DOI$$a10.6083/gx41mj55w
000008384 037__ $$aIR
000008384 041__ $$aeng
000008384 245__ $$aTowards developing quantum proof of principle applications for the biological sciences
000008384 260__ $$bOregon Health and Science University
000008384 269__ $$a2020
000008384 336__ $$aAbstract
000008384 520__ $$aThere has been a growth of interest in the application of quantum computation and quantum simulation to the many intractable computational problems in the biological sciences. While theoretical results imply the value of quantum information processing (QIP) to many of the challenging problems resident in this research domain, such as molecular dynamics simulation, oncogenic mutational signature inference, and phylogenetic tree inference, a framework to guide the realization of quantum proof of principle applications has yet to be clarified.
000008384 540__ $$fCC BY
000008384 542__ $$fIn copyright - joint owners
000008384 650__ $$aAlgorithms$$014437
000008384 650__ $$aComputational Biology$$031511
000008384 6531_ $$aquantum information
000008384 6531_ $$aquantum computation
000008384 6531_ $$aquantum simulation
000008384 691__ $$aSchool of Medicine$$041369
000008384 692__ $$aDepartment of Medical Informatics and Clinical Epidemiology$$041422
000008384 7001_ $$aCordier, Benjamin$$uOregon Health and Science University$$041354
000008384 7001_ $$aCohen, Aaron$$uOregon Health and Science University$$041354
000008384 7001_ $$aPerkowski, Marek$$uOregon Health and Science University$$041354
000008384 7001_ $$aMcWeeney, Shannon$$uOregon Health and Science University$$041354
000008384 711__ $$aResearch Week$$uOregon Health and Science University$$d2020
000008384 8564_ $$93705dd0f-eb59-4db2-84ee-b3dc12e084ea$$s54700$$uhttps://digitalcollections.ohsu.edu/record/8384/files/ResearchWeek.2020.Cordier.Benjamin.pdf
000008384 905__ $$a/rest/prod/gx/41/mj/55/gx41mj55w
000008384 980__ $$aResearch Week