Stem microfluid$ (all stems)

41 papers:

DAC-2015-TsengLHS #synthesis

Reliability-aware synthesis for flow-based microfluidic biochips by dynamic-device mapping (TMT, BL, TYH, US), p. 6.

DAC-2015-YaoHC #constraints #named

PACOR: practical control-layer routing flow with length-matching constraint for flow-based microfluidic biochips (HY, TYH, YC), p. 6.

DATE-2015-HuangLH #multi

Volume-oriented sample preparation for reactant minimization on flow-based microfluidic biochips with multi-segment mixers (CMH, CHL, JDH), pp. 1114–1119.

DATE-2015-IbrahimC #fault #personalisation

Error recovery in digital microfluidics for personalized medicine (MI, KC), pp. 247–252.

DAC-2014-KeszoczeWHD #synthesis

Exact One-pass Synthesis of Digital Microfluidic Biochips (OK, RW, TYH, RD), p. 6.

DAC-2014-LinLCLH #algorithm #performance

An Efficient Bi-criteria Flow Channel Routing Algorithm For Flow-based Microfluidic Biochips (CXL, CHL, ICC, DTL, TYH), p. 6.

DAC-2014-RoyKCBC #streaming #using

Demand-Driven Mixture Preparation and Droplet Streaming using Digital Microfluidic Biochips (SR, SK, PPC, BBB, KC), p. 6.

DAC-2014-WangSYHC #functional

Practical Functional and Washing Droplet Routing for Cross-Contamination Avoidance in Digital Microfluidic Biochips (QW, YS, HY, TYH, YC), p. 6.

DATE-2014-DinhYH #design #logic

A logic integrated optimal pin-count design for digital microfluidic biochips (TAD, SY, TYH), pp. 1–6.

DATE-2014-SabrySARM #generative

Integrated microfluidic power generation and cooling for bright silicon MPSoCs (MMS, AS, DA, PR, BM), pp. 1–6.

DAC-2013-GrissomB #programmable

A field-programmable pin-constrained digital microfluidic biochip (DG, PB), p. 9.

DAC-2013-LuoCH #design #nondeterminism

Design of cyberphysical digital microfluidic biochips under completion-time uncertainties in fluidic operations (YL, KC, TYH), p. 7.

DATE-2013-HuHMCF #detection #fault #realtime

Fault detection, real-time error recovery, and experimental demonstration for digital microfluidic biochips (KH, BNH, AM, KC, RBF), pp. 559–564.

CASE-2012-MitraGRCB #automation

Automated path planning for washing in digital microfluidic biochips (DM, SG, HR, KC, BBB), pp. 115–120.

CASE-2012-YangHTLSL #automation #process

A vacuum-pumped microfluidic device for automated in-line mixing and focusing processes (ASY, HHH, LYT, PHL, TLS, CLL), pp. 109–114.

DAC-2012-GrissomB #scheduling

Path scheduling on digital microfluidic biochips (DG, PB), pp. 26–35.

DAC-2012-LuoC #design

Design of pin-constrained general-purpose digital microfluidic biochips (YL, KC), pp. 18–25.

DATE-2012-LuoCH #approach #fault #synthesis

A cyberphysical synthesis approach for error recovery in digital microfluidic biochips (YL, KC, TYH), pp. 1239–1244.

CASE-2011-KoyamaOHTMA #automation #multi

Multiple cell suction and supply system for automated cell manipulation on microfluidic channel (NK, KO, AH, TT, YM, TA), pp. 678–683.

CASE-2011-SapuppoAB #feedback

Micro-optic technology for the microfluidics feedback (FS, PA, MB), pp. 381–386.

DAC-2011-HuangSH #power management

Progressive network-flow based power-aware broadcast addressing for pin-constrained digital microfluidic biochips (TWH, HYS, TYH), pp. 741–746.

DATE-2011-RoyBC

Waste-aware dilution and mixing of biochemical samples with digital microfluidic biochips (SR, BBB, KC), pp. 1059–1064.

CASE-2010-AshrafTANBT #analysis #array

Structural and microfluidic analysis of MEMS based out-of-plane hollow silicon microneedle array for drug delivery (MWA, ST, NA, AN, ELB, AT), pp. 258–262.

CASE-2010-MaruyamaKHTA #using

Nanomanipulation of single virus using Dielectrophoretic concentration on a microfluidic chip (HM, KK, AH, TT, FA), pp. 710–715.

DAC-2010-LinC #design

Cross-contamination aware design methodology for pin-constrained digital microfluidic biochips (CCYL, YWC), pp. 641–646.

DAC-2010-ZhaoC

Synchronization of washing operations with droplet routing for cross-contamination avoidance in digital microfluidic biochips (YZ, KC), pp. 635–640.

CASE-2009-SaketiKNVK #automation #composition

Automated modular bacterial filtering system with embeddable microfluidic chips (PS, JMK, KN, LV, PJK), pp. 212–216.

DAC-2009-LinC #design

ILP-based pin-count aware design methodology for microfluidic biochips (CCYL, YWC), pp. 258–263.

DATE-2009-ZhaoC

Cross-contamination avoidance for droplet routing in digital microfluidic biochips (YZ, KC), pp. 1290–1295.

CASE-2008-KimSEP #component #scalability #self

Large scale self-assembly of crystalline semiconductor microcomponents onto plastic substrates via microfluidic traps (SSK, ES, JRE, BAP), pp. 967–970.

DAC-2008-XuC #multi

Broadcast electrode-addressing for pin-constrained multi-functional digital microfluidic biochips (TX, KC), pp. 173–178.

PLDI-2008-AminTVWJ #automation #programmable

Automatic volume management for programmable microfluidics (AMA, MT, TNV, SW, SCJ), pp. 56–67.

DAC-2007-XuC #synthesis

Integrated Droplet Routing in the Synthesis of Microfluidic Biochips (TX, KC), pp. 948–953.

DATE-2007-XuC #array

A cross-referencing-based droplet manipulation method for high-throughput and pin-constrained digital microfluidic arrays (TX, KC), pp. 552–557.

DAC-2006-HwangSC #array #automation #design

Automated design of pin-constrained digital microfluidic arrays for lab-on-a-chip applications* (WLH, FS, KC), pp. 925–930.

DAC-2006-YuhYC #using

Placement of digital microfluidic biochips using the t-tree formulation (PHY, CLY, YWC), pp. 931–934.

DATE-2006-RickettsIVI #scheduling

Priority scheduling in digital microfluidics-based biochips (AJR, KMI, NV, MJI), pp. 329–334.

DATE-2006-SuHC #synthesis

Droplet routing in the synthesis of digital microfluidic biochips (FS, WLH, KC), pp. 323–328.

DAC-2005-SuC05a #synthesis

Unified high-level synthesis and module placement for defect-tolerant microfluidic biochips (FS, KC), pp. 825–830.

DATE-2005-SuC #configuration management #design #fault tolerance

Design of Fault-Tolerant and Dynamically-Reconfigurable Microfluidic Biochips (FS, KC), pp. 1202–1207.

DATE-2005-SuCP #configuration management #using

Yield Enhancement of Digital Microfluidics-Based Biochips Using Space Redundancy and Local Reconfiguration (FS, KC, VKP), pp. 1196–1201.