A clique-based approach to find binding and scheduling result in flow-based microfluidic biochips

Microfluidic biochips have been recently proposed to integrate all the necessary functions for biochemical analysis. There are several types of microfluidic biochips; among them there has been a great interest in flow-based microfluidic biochips, in which the flow of liquid is manipulated using integrated microvalves. By combining several microvalves, more complex resource units such as micropumps, switches and mixers can be built. For efficient execution, the flow of liquid routes in microfluidic biochips needs to be scheduled under some resource constraints or routing constraints. The execution time of the biochemical operations depends on the binding and scheduling results. The most previously developed binding and scheduling algorithms are based on heuristics, and there has been no method to obtain optimal results. Considering the above, this paper proposes an optimal method by casting the problem to a clique problem.

[1]  Fei Su,et al.  Microfluidics-Based Biochips: Technology Issues, Implementation Platforms, and Design-Automation Challenges , 2006, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems.

[2]  Tatsuya Akutsu,et al.  Efficient Algorithms for Finding Maximum and Maximal Cliques: Effective Tools for Bioinformatics , 2011 .

[3]  Paul Pop,et al.  System-level modeling and simulation of the cell culture microfluidic biochip ProCell , 2010, 2010 Symposium on Design Test Integration and Packaging of MEMS/MOEMS (DTIP).

[4]  R. Zengerle,et al.  Microfluidic lab-on-a-chip platforms: requirements, characteristics and applications. , 2010, Chemical Society reviews.

[5]  Krishnendu Chakrabarty,et al.  Reliability-oriented broadcast electrode-addressing for pin-constrained digital microfluidic biochips , 2011, 2011 IEEE/ACM International Conference on Computer-Aided Design (ICCAD).

[6]  Jeffrey M. Perkel,et al.  Microfluidics—Bringing New Things to Life Science , 2008 .

[7]  Paul Pop,et al.  System-level modeling and synthesis of flow-based microfluidic biochips , 2011, 2011 Proceedings of the 14th International Conference on Compilers, Architectures and Synthesis for Embedded Systems (CASES).

[8]  Jessica Melin,et al.  Microfluidic large-scale integration: the evolution of design rules for biological automation. , 2007, Annual review of biophysics and biomolecular structure.

[9]  Krishnendu Chakrabarty,et al.  Design automation for microfluidics-based biochips , 2005, JETC.