Yield-driven optimization is important in microwave design due to the uncertainties introduced in the manufacturing process. For the first time, we extend in this paper the use of polynomial chaos (PC) approach from electromagnetic (EM)-based yield estimation to EM-based yield optimization of microwave structures. We first formulate a novel objective function for yield-driven EM optimization. By incorporating the PC coefficients into the formulation, the objective function is analytically related to yield optimization variables, which are the nominal point. We then derive the sensitivity formulas of the PC coefficients with respect to the nominal point, following which we derive the sensitivities of the optimization objective function with ...
In this paper, we outline the historical evolution of RF and microwave design optimization and envis...
A circuit simulation methodology is presented that allows an efficient statistical assessment of mic...
A computationally efficient method for highly accurate electromagnetics-based statistical analysis a...
Electromagnetic (EM)-based yield estimation is im-portant in microwave design due to uncertainties i...
Space mapping (SM) methodology has been recognized as a powerful tool for accelerating electromagnet...
ABSTRACT: Accurate yield optimization and statistical analysis of microwave components are crucial i...
Abstract The operation of high-frequency devices, including microwave passive components, can be imp...
Accurate yield optimization and statistical analysis of microwave components are crucial in manufact...
In this paper, a discussion about nonlinear yield evaluation and nonlinear yield optimization of MMI...
In this work, an efficient procedure to realize electromagnetics-based yield optimization and statis...
This paper presents a new approach to statistically characterize the variability of the steady-state...
AbstractSimulation-based optimization has become an important design tool in microwave engineering. ...
Efficient neural space mapping methods for highly accurate electromagnetics-based design optimizatio...
Quantification and minimization of uncertainty is an important task in the design of electromagnetic...
Purpose - This paper aims to show on a widely used benchmark problem that chaotic sequences can impr...
In this paper, we outline the historical evolution of RF and microwave design optimization and envis...
A circuit simulation methodology is presented that allows an efficient statistical assessment of mic...
A computationally efficient method for highly accurate electromagnetics-based statistical analysis a...
Electromagnetic (EM)-based yield estimation is im-portant in microwave design due to uncertainties i...
Space mapping (SM) methodology has been recognized as a powerful tool for accelerating electromagnet...
ABSTRACT: Accurate yield optimization and statistical analysis of microwave components are crucial i...
Abstract The operation of high-frequency devices, including microwave passive components, can be imp...
Accurate yield optimization and statistical analysis of microwave components are crucial in manufact...
In this paper, a discussion about nonlinear yield evaluation and nonlinear yield optimization of MMI...
In this work, an efficient procedure to realize electromagnetics-based yield optimization and statis...
This paper presents a new approach to statistically characterize the variability of the steady-state...
AbstractSimulation-based optimization has become an important design tool in microwave engineering. ...
Efficient neural space mapping methods for highly accurate electromagnetics-based design optimizatio...
Quantification and minimization of uncertainty is an important task in the design of electromagnetic...
Purpose - This paper aims to show on a widely used benchmark problem that chaotic sequences can impr...
In this paper, we outline the historical evolution of RF and microwave design optimization and envis...
A circuit simulation methodology is presented that allows an efficient statistical assessment of mic...
A computationally efficient method for highly accurate electromagnetics-based statistical analysis a...