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Project description
Project Title:
Electronic design automation of integra
Short description of project:
We offer a new original Meshfree Wavelet-Galerkin Method for electronic design automation of conventional and integrated RF/ Microwave pulse and mixed signal circuits and System on a Chip.
This is a numeric-analytical meshfree method for calculating the quasiperiodic steady-state response of a nonlinear dynamical microwave circuits in the time-domain.
Analog element models - linear and nonlinear two- terminals :
• linear elements (resistors, capacitors, inductors) as well as of voltage and current sources
• parasitic elements due to lead inductance and inter-turn capacitance
• nonlinear semiconductor devices (transistors , diodes etc.)
are described by equivalent circuits with linear both nonlinear elements and controlled sources.
Distributed device models : Scattering transfer parameters martix (S-parameters)
• The distributed device can be subdivided for analysis using the standard library elements
• Each of the circuit elements (each discontinuity) has an analytical model of S-parameters [Si(ω)].
Multiport dynamical networks with the quasiperiodic multidimensional input signal are described by MPDAE , the Meshfree Wavelet-Galerkin Method is used to establish the system of nonlinear algebraic equations for the calculating of steady-state response of the whole circuit in the time-domain without the use of a predefined mesh.
Work Area of project
Applications:
CA1 - High quality, high speed user-centred communications systems
CA2 - Smart-card systems, trusted platforms and secure applications
CA3 - Electronics in transportation for safety and security, environmental protection and communications
CA4 - Healthcare devices and systems
CA5 - Energy-efficient devices and energy control systems
CA6 - Devices and systems for digital entertainment
Technologies:
CT1 - Electronic design automation for advanced SoC and SiP design
CT2 - Process development: including next generation CMOS process (more Moore), process options (more than Moore) and heterogeneous systems integration
CT3 - Manufacturing science: cross-cutting technologies, equipment and materials