Emerging Low-Power Semiconductor Devices
portes grátis
Emerging Low-Power Semiconductor Devices
Applications for Future Technology Nodes
Kumar Upadhyay, Abhishek; Rahi, Shiromani Balmukund; Kumar, Deepak; Tayal, Shubham
Taylor & Francis Ltd
08/2022
294
Dura
Inglês
9781032147291
15 a 20 dias
725
Descrição não disponível.
1. Role of TFET Devices and Their Performance Analysis for Wireless Communications. 2. Modeling and Simulation of Emerging Low-Power Devices. 3. Tunnel Field-Effect Transistor: An Energy-Efficient Semiconductor Device. 4. Analytical Modeling of Surface Potential of a Double-Gate Heterostructure PNPN Tunnel FET. 5. Impact of Semiconductor Materials and Architectural Design on TFET Device Performance. 6. Performance Analysis of Emerging Low-Power Junctionless Tunnel FETs. 7. Recent Developments in Schottky Diodes and Their Applications. 8. Numerical Study of a Symmetric Underlap S/D High-? Spacer on JAM-GAA FinFET for Low-Power Applications. 9. Potential Prospects of Negative Capicitance Field Effect Transistors. 10. Memory Designing Using Low-Power FETs for Future Technology Nodes. 11. TFET-Based Flash Analog-to-Digital Converter. 12. Demand of Low-Power-Driven FET as Biosensors in Biomedical Applications. 13. 2D Materials for Spin Orbital Torque MRAM: A Path toward Neuromorphic Computing.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
HEMT;IMOS;Wireless Application;Bio-Sensor;NCFET;Analog/RF FOM;SRAM;Power Consumption;Tunnel FET;Field Effect Transistor;CMOS Inverter;Tunnel FETs;FinFET;Metal Oxide Semiconductor Field Effect Transistor;Threshold Voltage;Steep SS;Conventional MOSFET;Gate Dielectric Material;Flash ADC;NAND Gate;DIBL;Gate Dielectric;VTC;STT;FM Layer;FET Biosensor;Spin Current;PRBS Generator;SiNW Surface;FE Material;Tunneling Layer;FE Layer
1. Role of TFET Devices and Their Performance Analysis for Wireless Communications. 2. Modeling and Simulation of Emerging Low-Power Devices. 3. Tunnel Field-Effect Transistor: An Energy-Efficient Semiconductor Device. 4. Analytical Modeling of Surface Potential of a Double-Gate Heterostructure PNPN Tunnel FET. 5. Impact of Semiconductor Materials and Architectural Design on TFET Device Performance. 6. Performance Analysis of Emerging Low-Power Junctionless Tunnel FETs. 7. Recent Developments in Schottky Diodes and Their Applications. 8. Numerical Study of a Symmetric Underlap S/D High-? Spacer on JAM-GAA FinFET for Low-Power Applications. 9. Potential Prospects of Negative Capicitance Field Effect Transistors. 10. Memory Designing Using Low-Power FETs for Future Technology Nodes. 11. TFET-Based Flash Analog-to-Digital Converter. 12. Demand of Low-Power-Driven FET as Biosensors in Biomedical Applications. 13. 2D Materials for Spin Orbital Torque MRAM: A Path toward Neuromorphic Computing.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
HEMT;IMOS;Wireless Application;Bio-Sensor;NCFET;Analog/RF FOM;SRAM;Power Consumption;Tunnel FET;Field Effect Transistor;CMOS Inverter;Tunnel FETs;FinFET;Metal Oxide Semiconductor Field Effect Transistor;Threshold Voltage;Steep SS;Conventional MOSFET;Gate Dielectric Material;Flash ADC;NAND Gate;DIBL;Gate Dielectric;VTC;STT;FM Layer;FET Biosensor;Spin Current;PRBS Generator;SiNW Surface;FE Material;Tunneling Layer;FE Layer
