Western Digital Corp., the UC Santa Cruz Genomics Institute and Baskin School of Engineering announced that they have entered into a multi-year, joint research and development agreement to accelerate genomics sequencing workflows using computational storage technology. Results from this research could ultimately lead to the acceleration of clinical genomic analysis and precision medicine diagnoses at scale. Currently, identification and treatment of cancers using genomic diagnostics is slowed by the time-consuming process of moving massive amounts of data to the computing resources. Research scientists at the UC Santa Cruz Genomics Institute, Baskin School of Engineering at UC Santa Cruz and Western Digital believe that moving computational capabilities closer to data storage will help speed the process of identification and treatment. Western Digital is researching a novel computational storage architecture to test this theory at scale. To take best advantage of this new computing architecture, the collaborating organizations are researching the optimal partitioning and placement of genomics data across the computational storage devices. They are also researching how to accelerate core functions within each device to accelerate performance and minimize host system requirements. This may also be an overall reduction in power consumption which translates to lower overall total cost of ownership.