Sortex: Efficient timing-driven synthesis of reconfigurable flow-based biochips for scalable single-cell screening

机译：Sortex：可重配置基于流程的生物芯片的高效时序驱动合成，可扩展的单细胞筛选

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Single-cell screening is used to sort a stream of cells into clusters (or types) based on pre-specified biomarkers, thus supporting type-driven biochemical analysis. Reconfigurable flow-based microfluidic biochips (RFBs) can be utilized to screen hundreds of heterogeneous cells within a few minutes, but they are overburdened with the control of a large number of valves. To address this problem, we present a pin-constrained RFB design methodology for single-cell screening. The proposed design is analyzed using computational fluid dynamics simulations, mapped to an RC-lumped model, and combined with a high-level synthesis framework, referred to as Sortex. Simulation results show that Sortex significantly reduces the number of control pins and fulfills the timing requirements of single-cell screening.

机译：单细胞筛选用于根据预先指定的生物标记物将细胞流分类为簇（或类型），从而支持类型驱动的生化分析。可重构的基于流动的微流生物芯片（RFB）可以在几分钟之内用于筛选数百个异质细胞，但是在控制大量阀门的情况下它们负担沉重。为了解决这个问题，我们提出了一种用于单细胞筛选的受引脚限制的RFB设计方法。拟议的设计使用计算流体动力学仿真进行分析，映射到RC集总模型，并与高级综合框架（称为Sortex）组合。仿真结果表明，Sortex大大减少了控制引脚的数量，并满足了单细胞筛选的时序要求。

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《IEEE/ACM International Conference on Computer-Aided Design》|2017年|623-630|共8页
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Mohamed Ibrahim; Aditya Sridhar; Krishnendu Chakrabarty; Ulf Schlichtmann;
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Valves; Pins; Delays; Sorting; Biological system modeling; Demultiplexing;

机译：阀;销;延迟;排序;生物系统建模;解复用;
入库时间 2022-08-26 15:03:05

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专利

1. Synthesis of Reconfigurable Flow-Based Biochips for Scalable Single-Cell Screening [J] . Ibrahim Mohamed, Sridhar Aditya, Chakrabarty Krishnendu, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2019,第12期

机译：可重构基于流的生物芯片的可扩展单细胞筛选的合成。
2. Scalable pseudo-exhaustive methodology for testing and diagnosis in flow-based microfluidic biochips [J] . Vadakkeveedu Gokulkrishnan, Veezhinathan Kamakoti, Chandrachoodan Nitin, Computers & Digital Techniques, IET . 2020,第3期

机译：用于基于流量的微流体Biochips的测试和诊断可扩展的伪详尽方法
3. Multicontrol: Advanced Control-Logic Synthesis for Flow-Based Microfluidic Biochips [J] . Zhu Ying, Huang Xing, Li Bing, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2020,第10期

机译：MulticOntrol：基于流量的微流体生物芯片的高级控制逻辑合成
4. Sortex: Efficient timing-driven synthesis of reconfigurable flow-based biochips for scalable single-cell screening [C] . Mohamed Ibrahim, Aditya Sridhar, Krishnendu Chakrabarty, IEEE/ACM International Conference on Computer-Aided Design . 2017

机译：Sortex：高效的时序驱动合成可扩展的单细胞筛选的可重构流动的Biochips
5. A reconfigurable and scalable efficient architecture for AES. [D] . Li, Ke. 2008

机译：AES的可重新配置和可扩展的高效体系结构。
6. Efficient In Vivo Screening Method for the Identification of C4 Photosynthesis Inhibitors Based on Cell Suspensions of the Single-Cell C4 Plant Bienertia sinuspersici [O] . Alexander Minges, Dominik Janßen, Sascha Offermann, 2019

机译：基于单细胞C4植物Bienertia Sinuspersici的细胞悬浮液高效筛选C4光合作用抑制剂的识别方法
7. Control Synthesis for the Flow-Based Microfluidic Large-Scale Integration Biochips [O] . Minhass Wajid Hassan, Pop Paul, Madsen Jan, 2013

机译：基于流动的微流控大规模集成生物芯片的控制合成

Sortex: Efficient timing-driven synthesis of reconfigurable flow-based biochips for scalable single-cell screening

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