Offered by
Center for Computational Biotechnology and Genomic Medicine (CCBGM)
Identifies sweet-spot genomics architectures that are based on existing electronic components and are accessible via conventional programming models.
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How to gain access:
Contact Ravi Iyer Center Director Professor of Electrical and Computer Engineering, Computer Science, and the Coordinated Science Laboratory rkiyer@illinois.edu
Available to:
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Faculty and Staff
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Grad Students
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Undergrads
Description
The overarching goal of this exploratory project is to accelerate biomedical innovation and enable personalized medicine in a cost-effective manner. We will achieve that by (1) identifying sweet-spot genomics architectures that are based on existing electronic components and are accessible via conventional programming models, which achieve performance/density/cost that is >10√ó superior to that of commodity architecture, and which can be produced in high volume116, (2) accelerating adoption of these architectures by removing the barriers formed by current software infrastructure117, and (3) developing key algorithms118 and their mappings to the sweet-spot architecture for workflows to be accelerated, including disease-associated variant calling, metagenomics, and de novo assembly.
Cost
There is no cost associated with this resource.
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How do I get more information?
Contact Ravi Iyer Center Director Professor of Electrical and Computer Engineering, Computer Science, and the Coordinated Science Laboratory rkiyer@illinois.edu (217) 333-9732