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公开(公告)号:WO0200343A3
公开(公告)日:2002-06-06
申请号:PCT/US0120639
申请日:2001-06-27
Applicant: FLUIDIGM CORP
Inventor: LEE MICHAEL , WORTHINGTON GAJUS , HARRIS GREGORY , MONTGOMERY JAMES
CPC classification number: G06F17/50 , B01F13/0059 , B01F15/00824 , B01F15/00935 , B01J2219/00997 , B01L3/5027 , B01L3/502707 , B01L3/502715 , B01L2200/12 , B81B1/00 , B81C99/006 , G06F17/509 , G06F2217/16 , H01H2029/008
Abstract: The design of customized microfluidic systems using a CAD system (10) is disclosed. In one embodiment, a microfluidic circuit design method (200) is provided. The method includes developing synthesizable computer code for the design. Next, a microfluidic circuit schematic, including a plurality of symbols for microfluidic components, is generated either interactively or using the synthesizable computer code. The microfluidic circuit schematic is then functionally simulated. The microfluidic components are placed and routed (430) on a template to form a physical layout. Then the physical layout (410) is physically simulated (800) using dynamic simulation models of the microfluidic components; and the physical layout is written to a layout file (900).
Abstract translation: 公开了使用CAD系统(10)的定制微流体系统的设计。 在一个实施例中,提供了微流体电路设计方法(200)。 该方法包括为设计开发可合成的计算机代码。 接下来,以交互方式或使用可合成计算机代码生成包括用于微流体组分的多个符号的微流体电路示意图。 然后功能性模拟微流体电路原理图。 将微流体组件放置并布线(430)在模板上以形成物理布局。 然后使用微流体组件的动态仿真模型物理模拟(800)物理布局(410) 并将物理布局写入布局文件(900)。
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公开(公告)号:AU7305701A
公开(公告)日:2002-01-08
申请号:AU7305701
申请日:2001-06-27
Applicant: FLUIDIGM CORP
Inventor: LEE MICHAEL , WORTHINGTON GAJUS , HARRIS GREGORY , MONTGOMERY JAMES
Abstract: The present invention generally relates to microfluidics and more particularly to the design of customized microfluidic systems using a microfluidic computer aided design system. In one embodiment of the present invention a microfluidic circuit design method is provided. The method includes developing synthesizable computer code for a design. Next, a microfluidic circuit schematic, including a plurality of symbols for microfluidic components, is generated either interactively or using the synthesizable computer code. The microfluidic circuit schematic is then functionally simulated. The microfluidic components are placed and routed on a template to form a physical layout. Then the physical layout is physically simulated using dynamic simulation models of the microfluidic components; and the physical layout is written to a layout file.
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