CMOS and High-Frequency Circuit Design

This research area encompasses high-frequency CMOS circuit design, focusing on amplifiers and systems for wireless communications. It addresses challenges associated with thermal noise and circuitry for GHz applications.

16971 papers

This cluster addresses the design of low power circuits in VLSI (Very Large Scale Integration) technology. It includes methodologies and tools for power analysis and optimization across a variety of circuit applications.

11480 papers

This area investigates advancements in power semiconductor technologies, such as GaN and SiC devices. Research is focused on the development, characterization, and application of power devices in energy-efficient systems.

9283 papers

Focusing on characterization techniques for high-frequency circuits, this cluster investigates models for ensuring optimal performance. It aims to improve circuit designs for faster and more reliable operations.

8737 papers

This cluster investigates high-performance CMOS circuits that operate efficiently at low voltage levels. It includes studies on transistor modeling and noise parameters, aimed at enhancing performance while minimizing power usage.

6653 papers

Focused on advanced modeling techniques for MOSFETs, this cluster addresses issues of process variability and its impact on circuit performance. It aims to develop accurate models that can predict behavior in cutting-edge technologies.

6246 papers

Focusing on the methods of pulse shape discrimination in circuits, this cluster explores techniques for signal processing and noise reduction. Research involves circuit innovations that enhance detection performance.

5563 papers

Focused on the development of bipolar transistors and integrated circuits, this cluster examines the properties, applications, and innovations surrounding bipolar technology. It includes research on high-speed and high-frequency applications.

5315 papers

This cluster explores innovative design methodologies for CMOS integrated circuits. It highlights advances in integrating circuits for various applications in electronics and computing.

4892 papers

This cluster specializes in ultra-low power CMOS circuits, with an emphasis on energy efficiency and performance. It encompasses technologies such as multithreshold voltage CMOS and near-threshold computing for various applications.

3746 papers

This cluster is dedicated to the study of high-frequency oscillators and frequency dividers, including techniques for managing jitter and substrate noise. It aims to advance the design and integration of oscillators for various applications.

3704 papers

This research area covers various solid-state circuit design techniques, focusing on advanced modeling and simulation approaches. It aims to improve the performance and reliability of solid-state devices.

3553 papers

This cluster investigates methodologies for processing semiconductor materials to enhance device performance. Key topics include material growth and optimization processes for advanced devices.

3322 papers

This cluster investigates through-silicon via (TSV) technologies, emphasizing design and manufacturing improvements. It addresses challenges related to integration and reliability in 3D electronic systems.

3258 papers

This research area examines the use of resistive switching devices in neural network applications, focusing on design considerations and performance metrics. It explores the integration of these devices in deep learning systems.

2889 papers

Focusing on techniques for managing variability in CMOS circuits, this cluster addresses dynamic tolerances and resilience. Research aims to enhance circuit reliability under varying operational conditions.

2749 papers

Focusing on innovative applications of integrated circuits, this cluster explores the use of advanced materials and designs for electronic systems. Research includes organic semiconductors and specific circuit applications.

2735 papers

This cluster specializes in developing transistor models that work under cryogenic and high-temperature conditions. It addresses unique challenges in modeling and extraction of parameters relevant to these settings.

2551 papers

Focused on CMOS circuit designs tailored for high-frequency operation, this cluster researches amplifiers and high-speed components. It aims to advance technology in millimeter-wave communications.

2420 papers

This cluster focuses on designing CMOS circuits that operate at low power levels, typically in the subthreshold region. Research includes voltage references and various circuit techniques aimed at minimizing power consumption while maintaining functionality.

2394 papers

Focusing on developments in solid-state switching devices, this cluster examines modeling and performance improvements. It includes research on nonvolatile and low-power switching technologies.

2364 papers

This area focuses on technologies for capturing and rectifying RF energy, with applications in low-power devices. Research covers both active and passive approaches to RF harvesting systems.

2248 papers

Focusing on phase-locked loops (PLLs) in high-frequency applications, this cluster explores techniques for improving stability and reducing jitter in digital and analog systems. It includes various PLL architectures and technologies.

2029 papers

Focusing on emerging semiconductor memory technologies, this cluster covers advancements in non-volatile memory and new model frameworks. Research addresses challenges in scaling and performance.

1998 papers

This cluster emphasizes the design and implementation of high-speed analog circuits for a variety of applications. Research includes techniques for reducing jitter and enhancing data transmission speeds.

1732 papers

Focusing on the application of CMOS circuits in communication technologies, this cluster explores circuit designs tailored for high-speed and efficient data transmission. Research spans various communication protocols and standards.

1724 papers

This area provides methods for assessing the design and performance of integrated circuits. Research includes benchmarking techniques and evaluations to enhance circuit reliability.

1720 papers

This area covers engineering techniques in microelectronics, addressing challenges in device fabrication and integration for advanced applications. Research includes studies on semiconductor variability and health monitoring systems.

1549 papers

This area explores the design and implementation of low-power CMOS voltage references. Research focuses on improving efficiency and stability in voltage regulation applications.

682 papers