Titlebook: Design Automation Methods and Tools for Microfluidics-Based Biochips; Krishnendu Chakrabarty,Jun Zeng Book 2006 Springer Science+Business

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Book 2006. Experts have contributed chapters on various aspects of biochip design automation. Topics include device modeling; adaptation of bioassays for on-chip implementations; numerical methods and simulation tools; architectural synthesis, scheduling and binding of assay operations; physical design and m

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MICROFLUIDICS-BASED BIOCHIPS: TECHNOLOGY ISSUES, IMPLEMENTATION PLATFORMS, AND DESIGN AUTOMATION CHr biology. In contrast to continuous-flow systems that rely on permanently-etched microchannels, micropumps, and microvalves, digital microfluidics offers a scalable system architecture and dynamic reconfigurability; groups of unit cells in a microfluidics array can be reconfigured to change their f

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COMPOSABLE BEHAVIORAL MODELS AND SCHEMATIC-BASED SIMULATION OF ELECTROKINETIC LAB-ON-A-CHIP SYSTEMSip (LoC) systems. Complex electrokinetic LoCs are shown to be decomposable into a system of elements with simple geometries and specific functions. Parameterized and analytical models are developed to describe the electrical and biofluidic behavior within each element. Electrical and biofluidic pins

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FFTSVD: A FAST MULTISCALE BOUNDARY ELEMENT METHOD SOLVER SUITABLE FOR BIO-MEMS AND BIOMOLECULE SIMUMS design. The algorithm, FFTSVD, is Green’s function independent for low-frequency kernels and efficient for inhomogeneous problems. FFTSVD is a multiscale algorithm that decomposes the problem domain using an octree and uses sampling to calculate low-rank approximations to dominant source distribu