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Description Representation of Input and DNA sequences on SLM #1, WM #1, SLM #2 and WM #2 through both steps of the alignment procedure
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description OptCAM method: two steps of DNA alignment procedure
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Optical implementation of OptCAM method
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Explanation of resultant OptCAM method output
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Example of OptCAM's coding scheme
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Comparative analysis of the required computational times of OptCAM method, single‐node implementation of smith‐waterman, BLAST, and FASTA algorithms for a various number of inputs
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Optical DNA correlation for global DNA sequence alignment and the proposed optical method for local DNA sequence alignment
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Comparative analysis of the required computational times of OptCAM method and grid implementation of smith‐waterman algorithm for a various number of inputs
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Transmission vs wavelength plot for demonstrating the appropriate free spectral range of transmission spectrum of the optical tunable notch filter
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description A, Alignment of two coded DNA sequences in the case of substitution, and B, False nucleotide match representing by undesired bright pixel in the output pattern
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Wavelength selection of nucleotides A, T, C, G
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Various single and multiple mutations/indels in a DNA sequence alignment
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description A, Spatial coding of various nucleotides; B, An example of DNA coding and C, Arranging various DNA sequences in a two‐dimensional (2D) space
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Step‐by‐step outputs in OptCAM method
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Output analysis of various DNA sequence overlapping
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics -
Description Output of optical structure of OptCAM method for input (A) 19hcA__1duwA, (B) 1a75A__1b8cB (C) 2cbp__1f56C and (D) 1a75A__1b8cB
Article Title: OptCAM: An ultra‐fast all‐optical architecture for DNA variant discovery
Publication Title: Journal of Biophotonics