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Emerging Technology and Architecture for Big-data Analytics

Ultra-low-power biomedical circuit design and optimization: Catching the don't cares

Publication ,  Chapter
Li, X; Shawn Blanton, RD; Grover, P; Thomas, DE
April 19, 2017

Duke Scholars

DOI

ISBN

9783319548395

Publication Date

April 19, 2017

Start / End Page

159 / 173
 

Citation

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Li, X., Shawn Blanton, R. D., Grover, P., & Thomas, D. E. (2017). Ultra-low-power biomedical circuit design and optimization: Catching the don't cares. In Emerging Technology and Architecture for Big-data Analytics (pp. 159–173). https://doi.org/10.1007/978-3-319-54840-1_7
Li, X., R. D. Shawn Blanton, P. Grover, and D. E. Thomas. “Ultra-low-power biomedical circuit design and optimization: Catching the don't cares.” In Emerging Technology and Architecture for Big-Data Analytics, 159–73, 2017. https://doi.org/10.1007/978-3-319-54840-1_7.
Li X, Shawn Blanton RD, Grover P, Thomas DE. Ultra-low-power biomedical circuit design and optimization: Catching the don't cares. In: Emerging Technology and Architecture for Big-data Analytics. 2017. p. 159–73.
Li, X., et al. “Ultra-low-power biomedical circuit design and optimization: Catching the don't cares.” Emerging Technology and Architecture for Big-Data Analytics, 2017, pp. 159–73. Scopus, doi:10.1007/978-3-319-54840-1_7.
Li X, Shawn Blanton RD, Grover P, Thomas DE. Ultra-low-power biomedical circuit design and optimization: Catching the don't cares. Emerging Technology and Architecture for Big-data Analytics. 2017. p. 159–173.

DOI

ISBN

9783319548395

Publication Date

April 19, 2017

Start / End Page

159 / 173