Integrated Design Flow for Universal DNA Tag Arrays N. Hundewale1, I. Mandoiu2, L. Perelygina3, C. Prajescu2, and A. Zelikovsky1 1CS Department, GSU, 2CSE Department ...
Andrew B. Kahng1, Ion Mandoiu2, Xu Xu1, and Alex Z. Zelikovsky3 1. CSE Dept. University of California, San Diego 2. CSE Departments, University of Connecticut
Andrew B. Kahng1, Ion Mandoiu2, Xu Xu1, and Alex Z. Zelikovsky3 1. CSE Dept. University of California, San Diego 2. CSE Departments, University of Connecticut
... approximation algorithm and heuristic for microfluidic biochip testing problem Combinatorial optimization techniques can yield significant improvements ...
... composed of probes where each probe is a sequence of 25 nucleotides ... Insertion of probe test can benefit from test and diagnosis topics for VLSI circuits. ...
Optimal Testing of Digital Microfluidic Biochips: A Multiple Traveling ... by reduction from the Hamiltonian path problem in grid graphs [Itai et. al. 82] ...
Integration of Probe Selection and Physical Design. Conclusions and future research directions ... Design objective: Minimize the border length. Unwanted ...
... sub-optimality of placement. Conclusions and future ... Work by Hannenhalli et al. gave heuristics for the placement problem by using a TSP formulation. ...