Continuous microfluidic biochip design method considering fluid operation and channel storage
A biochip, design method technology, applied in computer-aided design, CAD circuit design, calculation, etc., can solve the problems of long flow channel blockage and leakage, limited storage unit capacity, fixed storage location, etc.
Active Publication Date: 2021-12-24
FUZHOU UNIV
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Problems solved by technology
However, this storage method has the following disadvantages: 1) the capacity of the storage unit is limited; 2) the fixed storage location; 3) the special memory needs to occupy a larger chip area; 4) the limited bandwidth
Larger storage fluid volumes require longer flow channels, which are more prone to physical defects such as blockages and leaks
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[0042] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.
[0043] Please refer to figure 1 , the present invention provides a continuous microfluidic biochip design method considering fluid operation and channel storage, comprising the following steps:
[0044] Step S1: Calculate the priority of each operation according to the sequence diagram, and obtain the assigned component list and a set of transport task lists considering fluid transport, removal and channel storage through volume-aware binding and scheduling algorithms;
[0045] Step S2: according to the component table, the layout algorithm based on memorized search allocates the components to the exact position of the biochip;
[0046] Step S3: According to the layout results and the transport task table, use the flow path-driven routing algorithm to establish effective connections between fluid ports and components and components, and arrange accommo...
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The invention relates to a continuous micro-fluidic biochip design method considering fluid operation and channel storage, which comprises the following steps: S1, calculating the priority of each operation according to a time sequence diagram, and calculating the priority of each operation through a binding and scheduling algorithm based on volume perception; obtaining an allocated component table and a group of transportation task tables considering fluid transportation, removal and channel storage; s2, according to the component table, distributing the components to exact positions of the biochip based on a memory search layout algorithm; and S3, according to the layout result and the transportation task table, establishing effective connection between the fluid ports and the assemblies by using a flow path driven wiring algorithm, and arranging an receivable flow channel for the storage task to complete the continuous micro-fluidic biochip architecture design. According to the invention, all transportation tasks of the chip can be executed without conflicts, and the storage fluid can be effectively placed in the selected flow channel.
Description
technical field [0001] The invention relates to the technical field of integrated circuit computer aided design, and relates to a continuous microfluidic biological chip design method considering fluid operation and channel storage. Background technique [0002] Continuous-Flow Microfluidic Biochips (CFMBs) have changed the traditional biochemical assay procedures due to their high execution efficiency and high accuracy. Continuous microfluidic biochips reduce the volume of fluid required for biochemical assays to nanoliter levels through miniaturized fluid operations, which can save valuable samples and reagents and reduce experimental costs. [0003] Typically, continuous microfluidic biochips use dedicated memory to store intermediate fluids generated during the execution of biochemical assays. However, this storage method has the following disadvantages: 1) the capacity of the storage unit is limited; 2) the storage location is fixed; 3) the dedicated memory needs to oc...
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IPC IPC(8): G06F30/30G06F111/04G06F113/08G06F115/12
CPCG06F30/30G06F2111/04G06F2113/08G06F2115/12
Inventor 刘耿耿林泓星黄兴徐赛娟郭文忠陈国龙
Owner FUZHOU UNIV