Reduced-Cost Microwave Design Closure by Multi-Resolution EM Simulations and Knowledge-Based Model Management

Kozieł, Sławomir; Pietrenko‐Dabrowska, Anna; Płotka, P.

doi:10.1109/access.2021.3105811

Cited by 9 publications

(10 citation statements)

References 76 publications

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“…Now with Reykjavik University, Iceland, he is surely the most identifiable researcher in our community with respect to all aspects of surrogate methodologies and their applications. Koziel and his team spearheaded innovative electromagnetic simulation-driven and surrogate-based optimization procedures for microwave circuits and antenna design, including variable-fidelity optimization frameworks [209], [210], [211]; surrogate-assisted tuning [191], [212], [213], yield estimation [214], [215], and multi-objective optimization [216], [217], [218], [219], [220]; methodologies for rapid re-design by inverse surrogates [221], [222]; microwave component miniaturization [223], [224]; dimensionally reduced and domain confined surrogates [225], [226], [227]; response feature-based nominal design [228], [229], [230], [231], [232], yield optimization [233], [234], [235], [236], [237], and robust design by tolerance maximization [238], [239], [240].…”

Section: Surrogate Methodologies and Bayesian Approachesmentioning

confidence: 99%

An Early History of Optimization Technology for Automated Design of Microwave Circuits

Rayas‐Sánchez

2023

IEEE J. Microw.

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This paper outlines the early history of optimization technology for the design of microwave circuits-a personal journey filled with aspirations, academic contributions, and commercial innovations. Microwave engineers have evolved from being consumers of mathematical optimization algorithms to originators of exciting concepts and technologies that have spread far beyond the boundaries of microwaves. From the early days of simple direct search algorithms based on heuristic methods through gradient-based electromagnetic optimization to space mapping technology we arrive at today's surrogate methodologies. Our path finally connects to today's multi-physics, system-level, and measurement-based optimization challenges exploiting confined and feature-based surrogates, cognition-driven space mapping, Bayesian approaches, and more. Our story recognizes visionaries such as William J. Getsinger of the 1960s and Robert Pucel of the 1980s, and highlights a seminal decades-long collaboration with mathematician Kaj Madsen. We address not only academic contributions that provide proof of concept, but also indicate early formative milestones in the development of commercially competitive software specifically featuring optimization technology.

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Section: Surrogate Methodologies and Bayesian Approachesmentioning

confidence: 99%

An Early History of Optimization Technology for Automated Design of Microwave Circuits

Rayas‐Sánchez

2023

IEEE J. Microw.

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“…The increase of the model fidelity is continued after reducing D cr ( i ) to zero, i.e., after F cr ( i ) becomes equal to F . This second stage is governed by the procedure discussed in 79 . It is also assumed that the optimization process is concluded if one of the two conditions is met: (i) || x ( i +1) − x ( i ) ||< ε x (convergence in argument), or | U ( x ( i +1) ) − U ( x ( i ) )|< ε U (convergence in the merit function value).…”

Section: Variable-fidelity Models For Optimization Cost Reductionmentioning

confidence: 99%

“…Therein, ε x and ε U are the termination thresholds, set to ε x = 10 −3 and ε U = 10 −2 , in the numerical experiments of “ Verification case studies ” section. Let us also consider the convergence factor 79 …”

Section: Variable-fidelity Models For Optimization Cost Reductionmentioning

confidence: 99%

Knowledge-based expedited parameter tuning of microwave passives by means of design requirement management and variable-resolution EM simulations

Kozieł

Pietrenko‐Dabrowska

Raef

2023

Sci Rep

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The importance of numerical optimization techniques has been continually growing in the design of microwave components over the recent years. Although reasonable initial designs can be obtained using circuit theory tools, precise parameter tuning is still necessary to account for effects such as electromagnetic (EM) cross coupling or radiation losses. EM-driven design closure is most often realized using gradient-based procedures, which are generally reliable as long as the initial design is sufficiently close to the optimum one. Otherwise, the search process may end up in a local optimum that is of insufficient quality. Furthermore, simulation-based optimization incurs considerable computational expenses, which are often impractically high. This paper proposes a novel parameter tuning procedure, combining a recently reported design specification management scheme, and variable-resolution EM models. The former allows for iteration-based automated modification of the design goals to make them accessible in every step of the search process, thereby improving its immunity to poor starting points. The knowledge-based procedure for the adjustment of the simulation model fidelity is based on the convergence status of the algorithm and discrepancy between the current and the original performance specifications. Due to using lower-resolution EM simulations in early phase of the optimization run, considerable CPU savings can be achieved, which are up to 60 percent over the gradient-based search employing design specifications management and numerical derivatives. Meanwhile, as demonstrated using three microstrip circuits, the computational speedup is obtained without design quality degradation.

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“…Nowadays, parameter tuning is more and more often carried out using rigorous numerical optimization methods, which is recommended due to their ability to handle multiple parameters, objectives and constraints 25 – 27 . Optimization is not only used for the purpose of design closure (final tuning of geometry parameters, often using local algorithms 28 ), but also multi-criterial design 29 , uncertainty quantification (tolerance analysis 30 , design centering 31 ), and global optimization 32 .…”

Section: Introductionmentioning

confidence: 99%

Globalized simulation-driven miniaturization of microwave circuits by means of dimensionality-reduced constrained surrogates

Kozieł

Pietrenko‐Dabrowska

Mahrokh

2022

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Small size has become a crucial prerequisite in the design of modern microwave components. Miniaturized devices are essential for a number of application areas, including wireless communications, 5G/6G technology, wearable devices, or the internet of things. Notwithstanding, size reduction generally degrades the electrical performance of microwave systems. Therefore, trade-off solutions have to be sought that represent acceptable compromises between the ability to meet the design targets and physical compactness. From an optimization perspective, this poses a constrained task, which is computationally expensive because a reliable evaluation of microwave components has to rely on full-wave electromagnetic analysis. Furthermore, due to its constrained nature, size reduction is a multimodal problem, i.e., the results are highly dependent on the initial design. Thus, utilization of global search algorithms is advisable in principle, yet, often undoable in practice because of the associated computational expenses, especially when using nature-inspired procedures. This paper introduces a novel technique for globalized miniaturization of microwave components. Our technique starts by identifying the feasible region boundary, and by constructing a dimensionality-reduced surrogate model therein. Global optimization of the metamodel is followed by EM-driven local tuning. Application of the domain-confined surrogate ensures low cost of the entire procedure, further reduced by the incorporation of variable-fidelity EM simulations. Our framework is validated using two microstrip couplers, and compared to nature-inspired optimization, as well as gradient-based size reduction. The results indicate superior miniaturization rates and low running cost, which make the presented algorithm a potential candidate for efficient simulation-based design of compact structures.

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Reduced-Cost Microwave Design Closure by Multi-Resolution EM Simulations and Knowledge-Based Model Management

Cited by 9 publications

References 76 publications

An Early History of Optimization Technology for Automated Design of Microwave Circuits

An Early History of Optimization Technology for Automated Design of Microwave Circuits

Knowledge-based expedited parameter tuning of microwave passives by means of design requirement management and variable-resolution EM simulations

Globalized simulation-driven miniaturization of microwave circuits by means of dimensionality-reduced constrained surrogates

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