Behavioural modelling and simulation for heterogeneous design applied to aerospace inertial microinstrumentation development

Summer Computer Simulation Conference : (SCSC 2014) : 2014 Summer Simulation Multi-Conference : Monterey, California, USA, 6-10 July 2014. Summer Computer Simulation Conference (2014 : Monterey, Calif.) Pub Date : 2007-07-16 DOI:10.1145/1357910.1357997

B. Lorente, R. Aragonés, J. Oliver, C. Ferrer

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Abstract

The extended use of microelectromechanical systems (MEMS) in the development of new microinstrumentation for aerospatial applications, which combine extreme sensitivity, accuracy and compactness, introduced the need to simplify their design process in order to reduce the design time and cost. The recent apparition of analogue and mixed signal extensions of hardware descriptions languages (VHDL-AMS, Verilog-AMS & SystemC-AMS) permits to co-simulate the HDL (VHDL and Verilog) design models for the digital signal processing and communication circuitry with behavioral models for the non digital parts (analog and mixed signal processing, RF circuitry and MEMS components). Since the beginning of the microinstrumentation design process the modeling and simulation could help to define better the specifications and in the architecture selection and in the SoC design process in a more realistic environment. We will present our experience in the application of these languages in the design of microinstruments by using behavioral modeling of MEMS.

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应用于航空航天惯性微仪表开发的异构设计行为建模与仿真

微机电系统(MEMS)在航空航天应用的新型微仪器开发中的广泛使用，结合了极高的灵敏度，精度和紧凑性，引入了简化其设计过程以减少设计时间和成本的需要。最近出现的硬件描述语言的模拟和混合信号扩展(VHDL- ams, Verilog- ams和SystemC-AMS)允许将用于数字信号处理和通信电路的HDL (VHDL和Verilog)设计模型与非数字部分(模拟和混合信号处理，RF电路和MEMS组件)的行为模型共同模拟。自微仪器设计过程开始以来，建模和仿真可以帮助在更现实的环境中更好地定义规范、架构选择和SoC设计过程。我们将通过使用MEMS的行为建模来介绍这些语言在微仪器设计中的应用经验。

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Summer Computer Simulation Conference : (SCSC 2014) : 2014 Summer Simulation Multi-Conference : Monterey, California, USA, 6-10 July 2014. Summer Computer Simulation Conference (2014 : Monterey, Calif.)

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