Publications - Link Lab

Benton H. Calhoun Publications

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2024 (5)
Li, S.; Liu, X.; and Calhoun, B. H. A 956pW Switched-Capacitor Sub-Bandgap Reference with 0.44-to-3.3V Supply Range, -67dB PSRR, and 0.2% within-Wafer Inaccuracy for Nanowatt IoT Systems. Unknown Journal . 2024.
A 956pW Switched-Capacitor Sub-Bandgap Reference with 0.44-to-3.3V Supply Range, -67dB PSRR, and 0.2% within-Wafer Inaccuracy for Nanowatt IoT Systems [link] Paper link bibtex
Liu, X.; Agrawal, A.; Tanaka, A.; and Calhoun, B. H. 8.5 A 6nA Fully-Autonomous Triple-Input Hybrid-Inductor-Capacitor Multi-Output Power Management System with Multi-Rail Energy Sharing, All-Rail Cold Startup, and Adaptive Conversion Control for mm-scale Distributed Systems. Unknown Journal . 2024.
8.5 A 6nA Fully-Autonomous Triple-Input Hybrid-Inductor-Capacitor Multi-Output Power Management System with Multi-Rail Energy Sharing, All-Rail Cold Startup, and Adaptive Conversion Control for mm-scale Distributed Systems [link] Paper link bibtex
Gupta, S.; Li, S.; and Calhoun, B. H. Scalable All-Analog LDOs With Reduced Input Offset Variability Using Digital Synthesis Flow in 65-nm CMOS. IEEE transactions on very large scale integration (VLSI) systems (Print) . 2024.
Scalable All-Analog LDOs With Reduced Input Offset Variability Using Digital Synthesis Flow in 65-nm CMOS [link] Paper link bibtex
Liu, X.; Kamineni, S.; Breiholz, J.; Calhoun, B. H. ; and Li, S. A Sub-$μ$W Energy-Performance-Aware IoT SoC With a Triple-Mode Power Management Unit for System Performance Scaling, Fast DVFS, and Energy Minimization. IEEE journal of solid-state circuits . 2024.
A Sub-$μ$W Energy-Performance-Aware IoT SoC With a Triple-Mode Power Management Unit for System Performance Scaling, Fast DVFS, and Energy Minimization [link] Paper link bibtex
Wang, P.; Agarwala, R.; Ownby, N. B.; Liu, X.; and Calhoun, B. H. A 2.3-5.7μW Tri-Modal Self-Adaptive Photoplethysmography Sensor Interface IC for Heart Rate, SpO2, and Pulse Transit Time Co-Monitoring. IEEE transactions on biomedical circuits and systems . 2024.
A 2.3-5.7μW Tri-Modal Self-Adaptive Photoplethysmography Sensor Interface IC for Heart Rate, SpO2, and Pulse Transit Time Co-Monitoring [link] Paper link bibtex
2023 (11)
Zhang, L.; Duvvuri, D.; Bhattacharya, S.; Dissanayake, A.; Liu, X.; Bishop, H. L.; Zhang, Y.; Blalock, T. N.; Calhoun, B. H. ; and Bowers, S. M. A -102dBm Sensitivity, 2.2μA Packet-Level-Duty-cycled Wake-Up Receiver with ADPLL achieving -30dB SIR. Unknown Journal . 2023.
A -102dBm Sensitivity, 2.2μA Packet-Level-Duty-cycled Wake-Up Receiver with ADPLL achieving -30dB SIR [link] Paper link bibtex
Liu, X.; Truesdell, D. S.; Faruqe, O.; Parameswaran, L.; Rickley, M.; Kopanski, A.; Cantley, L.; Coon, A.; Bernasconi, M.; Wang, T.; and Calhoun, B. H. 15.1 A Self-Powered SoC with Distributed Cooperative Energy Harvesting and Multi-Chip Power Management for System-in-Fiber. Unknown Journal . 2023.
15.1 A Self-Powered SoC with Distributed Cooperative Energy Harvesting and Multi-Chip Power Management for System-in-Fiber [link] Paper link bibtex
Kamineni, S.; Sharma, A. K.; Harjani, R.; Sapatnekar, S. S.; and Calhoun, B. H. AuxcellGen: A Framework for Autonomous Generation of Analog and Memory Unit Cells. Unknown Journal . 2023.
AuxcellGen: A Framework for Autonomous Generation of Analog and Memory Unit Cells [link] Paper link bibtex
Lukas, C. J.; Yahya, F. B.; Huang, K.; Boley, J.; Truesdell, D. S.; Breiholz, J.; Wokhlu, A.; Craig, K.; Brown, J. K.; Fitting, A.; Moore, W. E. C.; Shih, A. Y.; Wang, A.; Gravel, A.; Wentzloff, D. D.; and Calhoun, B. H. 15.2 A 2.19µW Self-Powered SoC with Integrated Multimodal Energy Harvesting, Dual-Channel up to −92dBm WRX and Energy-Aware Subsystem. Unknown Journal . 2023.
15.2 A 2.19µW Self-Powered SoC with Integrated Multimodal Energy Harvesting, Dual-Channel up to −92dBm WRX and Energy-Aware Subsystem [link] Paper link bibtex
Truesdell, D. S.; Boley, J.; Wokhlu, A.; Gravel, A.; Wentzloff, D. D.; and Calhoun, B. H. Modeling and Design of Cold-Start Charge Pumps for Photovoltaic Energy Harvesters. IEEE Transactions on Circuits and Systems I-regular Papers . 2023.
Modeling and Design of Cold-Start Charge Pumps for Photovoltaic Energy Harvesters [link] Paper link bibtex
Truesdell, D. S.; Boley, J.; Gravel, A.; Wokhlu, A.; Wentzloff, D. D.; and Calhoun, B. H. Modeling and Design of Cold-Start Charge Pumps for Photovoltaic Energy Harvesters. Unknown Journal . 2023.
Modeling and Design of Cold-Start Charge Pumps for Photovoltaic Energy Harvesters [link] Paper link bibtex
Truesdell, D. S.; Boley, J.; Gravel, A.; Wokhlu, A.; Wentzloff, D. D.; and Calhoun, B. H. Modeling and Design of Cold-Start Charge Pumps for Photovoltaic Energy Harvesters. Unknown Journal . 2023.
Modeling and Design of Cold-Start Charge Pumps for Photovoltaic Energy Harvesters [link] Paper link bibtex
Zhang, L.; Duvvuri, D.; Bhattacharya, S.; Dissanayake, A.; Liu, X.; Bishop, H. L.; Zhang, Y.; Blalock, T. N.; Calhoun, B. H. ; and Bowers, S. M. A -102dBm Sensitivity, 2.2μA Packet-Level-Duty-cycled Wake-Up Receiver with ADPLL achieving -30dB SIR. Unknown Journal . 2023.
A -102dBm Sensitivity, 2.2μA Packet-Level-Duty-cycled Wake-Up Receiver with ADPLL achieving -30dB SIR [link] Paper link bibtex
Liu, X.; Truesdell, D. S.; Faruqe, O.; Parameswaran, L.; Rickley, M.; Kopanski, A.; Cantley, L.; Coon, A.; Bernasconi, M.; Wang, T.; and Calhoun, B. H. A 33nW Fully Autonomous SoC with Distributed Cooperative Energy Harvesting and Multi-Chip Power Management for mm-scale System-in-Fiber. IEEE transactions on biomedical circuits and systems . 2023.
A 33nW Fully Autonomous SoC with Distributed Cooperative Energy Harvesting and Multi-Chip Power Management for mm-scale System-in-Fiber [link] Paper link bibtex
Liu, X.; Chen, Z.; Mim, N. G.; Agrawal, A.; and Calhoun, B. H. A 1pJ/bit Bypass-SPI Interconnect Bus with I 2 C Conversion Capability and 2.3nW Standby Power for Fabric Sensing Networks. Unknown Journal . 2023.
A 1pJ/bit Bypass-SPI Interconnect Bus with I<sup>2</sup>C Conversion Capability and 2.3nW Standby Power for Fabric Sensing Networks [link] Paper link bibtex
Faruqe, O.; Lee, D.; Ownby, N. B.; and Calhoun, B. H. A 10-Channel, 1.2 µW, Reconfigurable Capacitance-to-Digital Converter for Low-Power, Wearable Healthcare Applications. Unknown Journal . 2023.
A 10-Channel, 1.2 µW, Reconfigurable Capacitance-to-Digital Converter for Low-Power, Wearable Healthcare Applications [link] Paper link bibtex
2022 (15)
Dissanayake, A.; Bishop, H. L.; Bowers, S. M.; and Calhoun, B. H. A 2.4 GHz-91.5 dBm Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver. IEEE Journal of Solid-state Circuits . 2022.
A 2.4 GHz-91.5 dBm Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver [link] Paper link bibtex
Shen, X.; Duvvuri, D.; Bassirian, P.; Bishop, H. L.; Liu, X.; Dissanayake, A.; Zhang, Y.; Blalock, T. N.; Calhoun, B. H. ; and Bowers, S. M. A 184-nW, −78.3-dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-Up Receiver at 4.9 GHz. IEEE transactions on microwave theory and techniques . 2022.
A 184-nW, −78.3-dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-Up Receiver at 4.9 GHz [link] Paper link bibtex
Mercier, P. P.; Calhoun, B. H. ; Wang, P. P.; Dissanayake, A.; Zhang, L.; Hall, D. A.; and Bowers, S. M. Low-Power RF Wake-Up Receivers: Analysis, Tradeoffs, and Design. IEEE open journal of the Solid-State Circuits Society . 2022.
Low-Power RF Wake-Up Receivers: Analysis, Tradeoffs, and Design [link] Paper link bibtex
Dissanayake, A.; Bishop, H. L.; Bowers, S. M.; and Calhoun, B. H. A 2.4 GHz-91.5 dBm Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver. IEEE Journal of Solid-state Circuits . 2022.
A 2.4 GHz-91.5 dBm Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver [link] Paper link bibtex
Shen, X.; Duvvuri, D.; Bassirian, P.; Bishop, H. L.; Liu, X.; Dissanayake, A.; Zhang, Y.; Blalock, T. N.; Calhoun, B. H. ; and Bowers, S. M. A 184-nW, −78.3-dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-Up Receiver at 4.9 GHz. IEEE transactions on microwave theory and techniques . 2022.
A 184-nW, −78.3-dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-Up Receiver at 4.9 GHz [link] Paper link bibtex
Li, S.; Liu, X.; and Calhoun, B. H. A 32nA Fully Autonomous Multi-Input Single-Inductor Multi-Output Energy-Harvesting and Power-Management Platform with 1.2×10 5 Dynamic Range, Integrated MPPT, and Multi-Modal Cold Start-Up. 2022 IEEE International Solid- State Circuits Conference (ISSCC) . 2022.
A 32nA Fully Autonomous Multi-Input Single-Inductor Multi-Output Energy-Harvesting and Power-Management Platform with 1.2×10<sup>5</sup> Dynamic Range, Integrated MPPT, and Multi-Modal Cold Start-Up [link] Paper link bibtex
Mercier, P. P.; Calhoun, B. H. ; Wang, P. P.; Dissanayake, A.; Zhang, L.; Hall, D. A.; and Bowers, S. M. Low-Power RF Wake-Up Receivers: Analysis, Tradeoffs, and Design. IEEE open journal of the Solid-State Circuits Society . 2022.
Low-Power RF Wake-Up Receivers: Analysis, Tradeoffs, and Design [link] Paper link bibtex
Liu, X.; Kamineni, S.; Breiholz, J.; Calhoun, B. H. ; and Li, S. A 194nW Energy-Performance-Aware loT SoC Employing a 5.2nW 92.6% Peak Efficiency Power Management Unit for System Performance Scaling, Fast DVFS and Energy Minimization. 2022 IEEE International Solid- State Circuits Conference (ISSCC) . 2022.
A 194nW Energy-Performance-Aware loT SoC Employing a 5.2nW 92.6% Peak Efficiency Power Management Unit for System Performance Scaling, Fast DVFS and Energy Minimization [link] Paper link bibtex
Liu, X.; Calhoun, B. H. ; and Li, S. A Sub-nW 93% Peak Efficiency Buck Converter With Wide Dynamic Range, Fast DVFS, and Asynchronous Load-Transient Control. IEEE Journal of Solid-state Circuits . 2022.
A Sub-nW 93% Peak Efficiency Buck Converter With Wide Dynamic Range, Fast DVFS, and Asynchronous Load-Transient Control [link] Paper link bibtex
Truesdell, D. S.; Liu, X.; Breiholz, J.; Sk, G.; Li, S.; and Calhoun, B. H. NanoWattch: A Self-Powered 3-nW RISC-V SoC Operable from 160mV Photovoltaic Input with Integrated Temperature Sensing and Adaptive Performance Scaling. 2022 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and Circuits) . 2022.
NanoWattch: A Self-Powered 3-nW RISC-V SoC Operable from 160mV Photovoltaic Input with Integrated Temperature Sensing and Adaptive Performance Scaling [link] Paper link bibtex
Huang, K.; Brown, J. K.; Sawyer, R. K.; Lukas, C. J.; Yahya, F. B.; Wang, A.; Roberts, N. E.; Calhoun, B. H. ; and Wentzloff, D. D. ULP Receivers in Self-Powered Industrial loT Applications: Challenges and Prospects. 2022 IEEE Custom Integrated Circuits Conference (CICC) . 2022.
ULP Receivers in Self-Powered Industrial loT Applications: Challenges and Prospects [link] Paper link bibtex
Ownby, N. B.; Flynn, K. A.; and Calhoun, B. H. Modeling Energy Aware Photoplethysmography for Personalized Healthcare Applications. IEEE transactions on biomedical circuits and systems . 2022.
Modeling Energy Aware Photoplethysmography for Personalized Healthcare Applications [link] Paper link bibtex
Calhoun, B. H. ; Wentzloff, D. D.; Campbell, B.; and Kuruganti, T. Improving Energy Efficiency of Wireless Communication Circuitry in Miscellaneous Electric Loads (Final Report). Unknown Journal . 2022.
Improving Energy Efficiency of Wireless Communication Circuitry in Miscellaneous Electric Loads (Final Report) [link] Paper link bibtex
Wang, P.; and Calhoun, B. H. A Photoplethysmography Analog Front-End Model for Rapid Design of Personalized Healthcare Hardware. 2022 IEEE International Symposium on Circuits and Systems (ISCAS) . 2022.
A Photoplethysmography Analog Front-End Model for Rapid Design of Personalized Healthcare Hardware [link] Paper link bibtex
Calhoun, B. H. ; Wentzloff, D. D.; Campbell, B.; and Kuruganti, T. Improving Energy Efficiency of Wireless Communication Circuitry in Miscellaneous Electric Loads (Final Report). Unknown Journal . 2022.
Improving Energy Efficiency of Wireless Communication Circuitry in Miscellaneous Electric Loads (Final Report) [link] Paper link bibtex
2021 (20)
Bishop, H. L.; Dissanayake, A.; Bowers, S. M.; and Calhoun, B. H. 21.5 An Integrated 2.4GHz -91.5dBm-Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver Achieving 2μ W at 100ms Latency. Unknown Journal . 2021.
21.5 An Integrated 2.4GHz -91.5dBm-Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver Achieving 2μ W at 100ms Latency [link] Paper link bibtex
Duvvuri, D.; Shen, X.; Bassirian, P.; Bishop, H. L.; Liu, X.; Chen, C.; Dissanayake, A.; Zhang, Y.; Blalock, T. N.; Calhoun, B. H. ; and Bowers, S. M. A 366 nW, −74.5 dBm Sensitivity Antenna-Coupled Wakeup Receiver at 4.9 GHz with Integrated Voltage Regulation and References. Unknown Journal . 2021.
A 366 nW, −74.5 dBm Sensitivity Antenna-Coupled Wakeup Receiver at 4.9 GHz with Integrated Voltage Regulation and References [link] Paper link bibtex
Dissanayake, A.; Bowers, S. M.; and Calhoun, B. H. Stacked Transconductance Boosting for Ultra-Low Power 2.4GHz RF Front-End Design. Unknown Journal . 2021.
Stacked Transconductance Boosting for Ultra-Low Power 2.4GHz RF Front-End Design [link] Paper link bibtex
Agarwala, R.; Wang, P.; Bishop, H. L.; Dissanayake, A.; and Calhoun, B. H. A 0.6V 785-nW Multimodal Sensor Interface IC for Ozone Pollutant Sensing and Correlated Cardiovascular Disease Monitoring. IEEE journal of solid-state circuits . 2021.
A 0.6V 785-nW Multimodal Sensor Interface IC for Ozone Pollutant Sensing and Correlated Cardiovascular Disease Monitoring [link] Paper link bibtex
Mallick, A.; Bashar, M. K.; Truesdell, D. S.; Calhoun, B. H. ; and Shukla, N. Overcoming the Accuracy vs. Performance Trade-off in Oscillator Ising Machines. 2021 IEEE International Electron Devices Meeting (IEDM) . 2021.
Overcoming the Accuracy vs. Performance Trade-off in Oscillator Ising Machines [link] Paper link bibtex
Truesdell, D. S.; Li, S.; and Calhoun, B. H. A 0.5-V 560-kHz 18.8-fJ/Cycle On-Chip Oscillator With 96.1-ppm/°C Steady-State Stability Using a Duty-Cycled Digital Frequency-Locked Loop. IEEE journal of solid-state circuits . 2021.
A 0.5-V 560-kHz 18.8-fJ/Cycle On-Chip Oscillator With 96.1-ppm/°C Steady-State Stability Using a Duty-Cycled Digital Frequency-Locked Loop [link] Paper link bibtex
Chen, X.; Alghaihab, A.; Shi, Y.; Truesdell, D. S.; Calhoun, B. H. ; and Wentzloff, D. D. A Crystal-Less BLE Transmitter With Clock Recovery From GFSK-Modulated BLE Packets. IEEE journal of solid-state circuits . 2021.
A Crystal-Less BLE Transmitter With Clock Recovery From GFSK-Modulated BLE Packets [link] Paper link bibtex
Sk, G.; and Calhoun, B. H. Dynamic Read V MIN and Yield Estimation for Nanoscale SRAMs. IEEE transactions on circuits and systems. I, Regular papers . 2021.
Dynamic Read V<sub>MIN</sub> and Yield Estimation for Nanoscale SRAMs [link] Paper link bibtex
Mallick, A.; Bashar, M. K.; Truesdell, D. S.; Calhoun, B. H. ; Joshi, S.; and Shukla, N. Graph Coloring Using Coupled Oscillator-Based Dynamical Systems. Unknown Journal . 2021.
Graph Coloring Using Coupled Oscillator-Based Dynamical Systems [link] Paper link bibtex
Bishop, H. L.; Dissanayake, A.; Bowers, S. M.; and Calhoun, B. H. 21.5 An Integrated 2.4GHz -91.5dBm-Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver Achieving 2μ W at 100ms Latency. Unknown Journal . 2021.
21.5 An Integrated 2.4GHz -91.5dBm-Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver Achieving 2μ W at 100ms Latency [link] Paper link bibtex
Huang, K.; Brown, J. K.; Collins, N. R.; Sawyer, R. K.; Yahya, F. B.; Wang, A.; Roberts, N. E.; Calhoun, B. H. ; and Wentzloff, D. D. 21.3 A Fully Integrated 2.7µW -70.2dBm-Sensitivity Wake-Up Receiver with Charge-Domain Analog Front-End, -16.5dB-SIR, FEC and Cryptographic Checksum. Unknown Journal . 2021.
21.3 A Fully Integrated 2.7µW -70.2dBm-Sensitivity Wake-Up Receiver with Charge-Domain Analog Front-End, -16.5dB-SIR, FEC and Cryptographic Checksum [link] Paper link bibtex
Kamineni, S.; Sk, G.; and Calhoun, B. H. MemGen: An Open-Source Framework for Autonomous Generation of Memory Macros. Unknown Journal . 2021.
MemGen: An Open-Source Framework for Autonomous Generation of Memory Macros [link] Paper link bibtex
Sk, G.; and Calhoun, B. H. Dynamic Write V MIN and Yield Estimation for Nanoscale SRAMs. IEEE transactions on circuits and systems. I, Regular papers (Print) . 2021.
Dynamic Write V<sub>MIN</sub> and Yield Estimation for Nanoscale SRAMs [link] Paper link bibtex
Duvvuri, D.; Shen, X.; Bassirian, P.; Bishop, H. L.; Liu, X.; Chen, C.; Dissanayake, A.; Zhang, Y.; Blalock, T. N.; Calhoun, B. H. ; and Bowers, S. M. A 366 nW, −74.5 dBm Sensitivity Antenna-Coupled Wakeup Receiver at 4.9 GHz with Integrated Voltage Regulation and References. Unknown Journal . 2021.
A 366 nW, −74.5 dBm Sensitivity Antenna-Coupled Wakeup Receiver at 4.9 GHz with Integrated Voltage Regulation and References [link] Paper link bibtex
Flynn, K. A.; Ownby, N. B.; Wang, P.; and Calhoun, B. H. Modeling Energy-Aware Photoplethysmography Hardware for Personalized Health Care Applications Across Skin Phototypes. 2021 IEEE Biomedical Circuits and Systems Conference (BioCAS) . 2021.
Modeling Energy-Aware Photoplethysmography Hardware for Personalized Health Care Applications Across Skin Phototypes [link] Paper link bibtex
Liu, X.; Li, S.; and Calhoun, B. H. An 802pW 93% Peak Efficiency Buck Converter with 5.5×10 6 Dynamic Range Featuring Fast DVFS and Asynchronous Load-Transient Control. Unknown Journal . 2021.
An 802pW 93% Peak Efficiency Buck Converter with 5.5×10<sup>6</sup> Dynamic Range Featuring Fast DVFS and Asynchronous Load-Transient Control [link] Paper link bibtex
Agarwala, R.; Wang, P.; and Calhoun, B. H. A 405nW/4.8µW Event-Driven Multi-Modal (V/I/R/C) Sensor Interface for Physiological and Environmental Co-Monitoring. 2021 IEEE Biomedical Circuits and Systems Conference (BioCAS) . 2021.
A 405nW/4.8µW Event-Driven Multi-Modal (V/I/R/C) Sensor Interface for Physiological and Environmental Co-Monitoring [link] Paper link bibtex
Dissanayake, A.; Bowers, S. M.; and Calhoun, B. H. Stacked Transconductance Boosting for Ultra-Low Power 2.4GHz RF Front-End Design. Unknown Journal . 2021.
Stacked Transconductance Boosting for Ultra-Low Power 2.4GHz RF Front-End Design [link] Paper link bibtex
Ajayi, T.; Kamineni, S.; Fayazi, M.; Cherivirala, Y. K.; Kwon, K.; Sk, G.; Wenbo, D.; Lee, J.; Chen, C.; Saligane, M.; Sylvester, D.; Blaauw, D.; Dreslinski, R. G.; Calhoun, B. H. ; and Wentzloff, D. D. Fully-Autonomous SoC Synthesis Using Customizable Cell-Based Analog and Mixed-Signal Circuits Generation. IFIP advances in information and communication technology . 2021.
Fully-Autonomous SoC Synthesis Using Customizable Cell-Based Analog and Mixed-Signal Circuits Generation [link] Paper link bibtex
Abdelatty, O.; Alghaihab, A.; Cherivirala, Y. K.; Kamineni, S.; Calhoun, B. H. ; and Wentzloff, D. D. A $300μ \mathrm{W}$ Bluetooth-Low-Energy Backchannel Receiver Employing a Discrete-Time Differentiator-Based Coherent GFSK Demodulation. Unknown Journal . 2021.
A $300μ \mathrm{W}$ Bluetooth-Low-Energy Backchannel Receiver Employing a Discrete-Time Differentiator-Based Coherent GFSK Demodulation [link] Paper link bibtex
2020 (27)
Bassirian, P.; Duvvuri, D.; Liu, N.; Truesdell, D. S.; Tsao, H.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. Design of an S-Band Nanowatt-Level Wakeup Receiver With Envelope Detector-First Architecture. IEEE transactions on microwave theory and techniques . 2020.
Design of an S-Band Nanowatt-Level Wakeup Receiver With Envelope Detector-First Architecture [link] Paper link bibtex
Bassirian, P.; Duvvuri, D.; Truesdell, D. S.; Liu, N.; Calhoun, B. H. ; and Bowers, S. M. 30.1 A Temperature-Robust 27.6nW −65dBm Wakeup Receiver at 9.6GHz X-Band. Unknown Journal . 2020.
30.1 A Temperature-Robust 27.6nW −65dBm Wakeup Receiver at 9.6GHz X-Band [link] Paper link bibtex
Dissanayake, A.; Bishop, H. L.; Moody, J.; Muhlbauer, H.; Calhoun, B. H. ; and Bowers, S. M. A Multichannel, MEMS-Less −99dBm 260nW Bit-Level Duty Cycled Wakeup Receiver. Unknown Journal . 2020.
A Multichannel, MEMS-Less −99dBm 260nW Bit-Level Duty Cycled Wakeup Receiver [link] Paper link bibtex
Dissanayake, A.; Moody, J.; Bishop, H. L.; Truesdell, D. S.; Muhlbauer, H.; Lu, R.; Gao, A.; Gong, S.; Calhoun, B. H. ; and Bowers, S. M. A- 108dBm Sensitivity, -28dB SIR, 130nW to 41µW, Digitally Reconfigurable Bit-Level Duty-Cycled Wakeup and Data Receiver. Unknown Journal . 2020.
A- 108dBm Sensitivity, -28dB SIR, 130nW to 41µW, Digitally Reconfigurable Bit-Level Duty-Cycled Wakeup and Data Receiver [link] Paper link bibtex
Mallick, A.; Bashar, M. K.; Truesdell, D. S.; Calhoun, B. H. ; Joshi, S.; and Shukla, N. Using synchronized oscillators to compute the maximum independent set. Nature communications . 2020.
Using synchronized oscillators to compute the maximum independent set [link] Paper link bibtex
Bashar, M. K.; Mallick, A.; Truesdell, D. S.; Calhoun, B. H. ; Joshi, S.; and Shukla, N. Experimental Demonstration of a Reconfigurable Coupled Oscillator Platform to Solve the Max-Cut Problem. IEEE journal on exploratory solid-state computational devices and circuits . 2020.
Experimental Demonstration of a Reconfigurable Coupled Oscillator Platform to Solve the Max-Cut Problem [link] Paper link bibtex
Ajayi, T.; Kamineni, S.; Cherivirala, Y. K.; Fayazi, M.; Kwon, K.; Saligane, M.; Sk, G.; Chen, C.; Sylvester, D.; Blaauw, D.; Dreslinski, R. G.; Calhoun, B. H. ; and Wentzloff, D. D. An Open-source Framework for Autonomous SoC Design with Analog Block Generation. Unknown Journal . 2020.
An Open-source Framework for Autonomous SoC Design with Analog Block Generation [link] Paper link bibtex
Bassirian, P.; Duvvuri, D.; Liu, N.; Truesdell, D. S.; Tsao, H.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. Design of an S-Band Nanowatt-Level Wakeup Receiver With Envelope Detector-First Architecture. IEEE transactions on microwave theory and techniques . 2020.
Design of an S-Band Nanowatt-Level Wakeup Receiver With Envelope Detector-First Architecture [link] Paper link bibtex
Im, J.; Breiholz, J.; Li, S.; Calhoun, B. H. ; and Wenzloff, D. D. A Fully Integrated 0.2V 802.11ba Wake-Up Receiver with -91.5dBm Sensitivity. Unknown Journal . 2020.
A Fully Integrated 0.2V 802.11ba Wake-Up Receiver with -91.5dBm Sensitivity [link] Paper link bibtex
Bassirian, P.; Duvvuri, D.; Truesdell, D. S.; Liu, N.; Calhoun, B. H. ; and Bowers, S. M. 30.1 A Temperature-Robust 27.6nW −65dBm Wakeup Receiver at 9.6GHz X-Band. Unknown Journal . 2020.
30.1 A Temperature-Robust 27.6nW −65dBm Wakeup Receiver at 9.6GHz X-Band [link] Paper link bibtex
Dissanayake, A.; Bishop, H. L.; Moody, J.; Muhlbauer, H.; Calhoun, B. H. ; and Bowers, S. M. A Multichannel, MEMS-Less −99dBm 260nW Bit-Level Duty Cycled Wakeup Receiver. Unknown Journal . 2020.
A Multichannel, MEMS-Less −99dBm 260nW Bit-Level Duty Cycled Wakeup Receiver [link] Paper link bibtex
Li, S.; Breiholz, J.; Kamineni, S.; Im, J.; Wentzloff, D. D.; and Calhoun, B. H. An 85 nW IoT Node-Controlling SoC for MELs Power-Mode Management and Phantom Energy Reduction. Unknown Journal . 2020.
An 85 nW IoT Node-Controlling SoC for MELs Power-Mode Management and Phantom Energy Reduction [link] Paper link bibtex
Alghaihab, A.; Chen, X.; Shi, Y.; Truesdell, D. S.; Calhoun, B. H. ; and Wentzloff, D. D. 30.7 A Crystal-Less BLE Transmitter with −86dBm Freq µ ency-Hopping Back-Channel WRX and Over-the-Air Clock Recovery from a GFSK-Modulated BLE Packet. Unknown Journal . 2020.
30.7 A Crystal-Less BLE Transmitter with −86dBm Freq µ ency-Hopping Back-Channel WRX and Over-the-Air Clock Recovery from a GFSK-Modulated BLE Packet [link] Paper link bibtex
Sk, G.; Truesdell, D. S.; and Calhoun, B. H. A 65nm 16kb SRAM with 131.5pW Leakage at 0.9V for Wireless IoT Sensor Nodes. Unknown Journal . 2020.
A 65nm 16kb SRAM with 131.5pW Leakage at 0.9V for Wireless IoT Sensor Nodes [link] Paper link bibtex
Bishop, H. L.; Wang, P.; and Calhoun, B. H. Application-Driven Model of a PPG Sensing Modality for the Informed Design of Self-Powered, Wearable Healthcare Systems. Unknown Journal . 2020.
Application-Driven Model of a PPG Sensing Modality for the Informed Design of Self-Powered, Wearable Healthcare Systems [link] Paper link bibtex
Dissanayake, A.; Moody, J.; Bishop, H. L.; Truesdell, D. S.; Muhlbauer, H.; Lu, R.; Gao, A.; Gong, S.; Calhoun, B. H. ; and Bowers, S. M. A- 108dBm Sensitivity, -28dB SIR, 130nW to 41µW, Digitally Reconfigurable Bit-Level Duty-Cycled Wakeup and Data Receiver. Unknown Journal . 2020.
A- 108dBm Sensitivity, -28dB SIR, 130nW to 41µW, Digitally Reconfigurable Bit-Level Duty-Cycled Wakeup and Data Receiver [link] Paper link bibtex
Truesdell, D. S.; Ahmed, S. Z.; Ghosh, A. W.; and Calhoun, B. H. Minimum-Energy Digital Computing With Steep Subthreshold Swing Tunnel FETs. IEEE journal on exploratory solid-state computational devices and circuits . 2020.
Minimum-Energy Digital Computing With Steep Subthreshold Swing Tunnel FETs [link] Paper link bibtex
Truesdell, D. S.; and Calhoun, B. H. A Single-Supply 6-Transistor Voltage Level Converter Design Reaching 8.18-fJ/Transition at 0.3–1.2-V Range or 44-fW Leakage at 0.8–2.5-V Range. IEEE solid-state circuits letters . 2020.
A Single-Supply 6-Transistor Voltage Level Converter Design Reaching 8.18-fJ/Transition at 0.3–1.2-V Range or 44-fW Leakage at 0.8–2.5-V Range [link] Paper link bibtex
Ahmed, S. Z.; Truesdell, D. S.; Tan, Y.; Calhoun, B. H. ; and Ghosh, A. W. A comprehensive analysis of Auger generation impacted planar Tunnel FETs. Solid-state electronics . 2020.
A comprehensive analysis of Auger generation impacted planar Tunnel FETs [link] Paper link bibtex
Brown, J. K.; Abdallah, D. J.; Boley, J.; Collins, N. R.; Craig, K.; Glennon, G.; Huang, K.; Lukas, C. J.; Moore, W. J.; Sawyer, R. K.; Shakhsheer, Y.; Yahya, F. B.; Wang, A.; Roberts, N. E.; Wentzloff, D. D.; and Calhoun, B. H. 27.1 A 65nm Energy-Harvesting ULP SoC with 256kB Cortex-M0 Enabling an 89.1µW Continuous Machine Health Monitoring Wireless Self-Powered System. Unknown Journal . 2020.
27.1 A 65nm Energy-Harvesting ULP SoC with 256kB Cortex-M0 Enabling an 89.1µW Continuous Machine Health Monitoring Wireless Self-Powered System [link] Paper link bibtex
Wang, P.; Agarwala, R.; Bishop, H. L.; Dissanayake, A.; and Calhoun, B. H. A 785nW Multimodal (V/I/R) Sensor Interface IC for Ozone Pollutant Sensing and Correlated Cardiovascular Disease Monitoring. Unknown Journal . 2020.
A 785nW Multimodal (V/I/R) Sensor Interface IC for Ozone Pollutant Sensing and Correlated Cardiovascular Disease Monitoring [link] Paper link bibtex
Truesdell, D. S.; Li, S.; and Calhoun, B. H. A 0.5V 560kHz 18.8fJ/Cycle Ultra-Low Energy Oscillator in 65nm CMOS with 96.1ppm/°C Stability using a Duty-Cycled Digital Frequency-Locked Loop. Unknown Journal . 2020.
A 0.5V 560kHz 18.8fJ/Cycle Ultra-Low Energy Oscillator in 65nm CMOS with 96.1ppm/°C Stability using a Duty-Cycled Digital Frequency-Locked Loop [link] Paper link bibtex
Li, S.; and Calhoun, B. H. Sub-microAmp Energy Harvesting and Power Management Units for Self-Powered IoT SoCs: Analog vs. Digital Implementations. Unknown Journal . 2020.
Sub-microAmp Energy Harvesting and Power Management Units for Self-Powered IoT SoCs: Analog vs. Digital Implementations [link] Paper link bibtex
Agarwala, R.; Wang, P.; Tanneeru, A.; Lee, B.; Misra, V.; and Calhoun, B. H. An 88.6nW ozone pollutant sensing interface IC with a 159 dB dynamic range. Unknown Journal . 2020.
An 88.6nW ozone pollutant sensing interface IC with a 159 dB dynamic range [link] Paper link bibtex
Bashar, M. K.; Mallick, A.; Truesdell, D. S.; Calhoun, B. H. ; Joshi, S.; and Shukla, N. Experimental Demonstration of a Reconfigurable Coupled Oscillator Platform to Solve the Max-Cut Problem. arXiv (Cornell University) . 2020.
Experimental Demonstration of a Reconfigurable Coupled Oscillator Platform to Solve the Max-Cut Problem [pdf] Paper link bibtex
Ajayi, T.; Cherivirala, Y. K.; Kwon, K.; Kamineni, S.; Saligane, M.; Fayazi, M.; Sk, G.; Chen, C.; Sylvester, D.; Blaauw, D.; Dreslinski, R. G.; Calhoun, B. H. ; and Wentzloff, D. D. Fully Autonomous Mixed Signal SoC Design & Layout Generation Platform. Unknown Journal . 2020.
Fully Autonomous Mixed Signal SoC Design & Layout Generation Platform [link] Paper link bibtex
Bashar, M. K.; Mallick, A.; Truesdell, D. S.; Calhoun, B. H. ; Joshi, S.; and Shukla, N. Experimental Demonstration of a Reconfigurable Coupled Oscillator Platform to Solve the Max-Cut Problem. arXiv (Cornell University) . 2020.
Experimental Demonstration of a Reconfigurable Coupled Oscillator Platform to Solve the Max-Cut Problem [link] Paper link bibtex
2019 (24)
Moody, J.; Bassirian, P.; Roy, A.; Liu, N.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. Interference Robust Detector-First Near-Zero Power Wake-Up Receiver. IEEE journal of solid-state circuits . 2019.
Interference Robust Detector-First Near-Zero Power Wake-Up Receiver [link] Paper link bibtex
Bassirian, P.; Moody, J.; Lu, R.; Gao, A.; Manzaneque, T.; Roy, A.; Barker, N. S.; Calhoun, B. H. ; Gong, S.; and Bowers, S. M. Nanowatt-Level Wakeup Receiver Front Ends Using MEMS Resonators for Impedance Transformation. IEEE transactions on microwave theory and techniques . 2019.
Nanowatt-Level Wakeup Receiver Front Ends Using MEMS Resonators for Impedance Transformation [link] Paper link bibtex
Moody, J.; Dissanayake, A.; Bishop, H. L.; Lu, R.; Liu, N.; Duvvuri, D.; Gao, A.; Truesdell, D. S.; Barker, N. S.; Gong, S.; Calhoun, B. H. ; and Bowers, S. M. A -106dBm 33nW Bit-Level Duty-Cycled Tuned RF Wake-up Receiver. Unknown Journal . 2019.
A -106dBm 33nW Bit-Level Duty-Cycled Tuned RF Wake-up Receiver [link] Paper link bibtex
Moody, J.; Gong, S.; Calhoun, B. H. ; Bowers, S. M.; Dissanayake, A.; Bishop, H. L.; Lu, R.; Liu, N.; Duvvuri, D.; Gao, A.; Truesdell, D. S.; and Barker, N. S. A Highly Reconfigurable Bit-Level Duty-Cycled TRF Receiver Achieving −106-dBm Sensitivity and 33-nW Average Power Consumption. IEEE solid-state circuits letters . 2019.
A Highly Reconfigurable Bit-Level Duty-Cycled TRF Receiver Achieving −106-dBm Sensitivity and 33-nW Average Power Consumption [link] Paper link bibtex
Sk, G.; Gupta, K.; Calhoun, B. H. ; and Pandey, N. Low-Power Near-Threshold 10T SRAM Bit Cells With Enhanced Data-Independent Read Port Leakage for Array Augmentation in 32-nm CMOS. IEEE Transactions on Circuits and Systems I-regular Papers . 2019.
Low-Power Near-Threshold 10T SRAM Bit Cells With Enhanced Data-Independent Read Port Leakage for Array Augmentation in 32-nm CMOS [link] Paper link bibtex
Moody, J.; Bassirian, P.; Roy, A.; Liu, N.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. Interference Robust Detector-First Near-Zero Power Wake-Up Receiver. IEEE journal of solid-state circuits . 2019.
Interference Robust Detector-First Near-Zero Power Wake-Up Receiver [link] Paper link bibtex
Chen, X.; Breiholz, J.; Yahya, F. B.; Lukas, C. J.; Kim, H.; Calhoun, B. H. ; and Wentzloff, D. D. Analysis and Design of an Ultra-Low-Power Bluetooth Low-Energy Transmitter With Ring Oscillator-Based ADPLL and 4$×$ Frequency Edge Combiner. IEEE journal of solid-state circuits . 2019.
Analysis and Design of an Ultra-Low-Power Bluetooth Low-Energy Transmitter With Ring Oscillator-Based ADPLL and 4$×$ Frequency Edge Combiner [link] Paper link bibtex
Bassirian, P.; Moody, J.; Lu, R.; Gao, A.; Manzaneque, T.; Roy, A.; Barker, N. S.; Calhoun, B. H. ; Gong, S.; and Bowers, S. M. Nanowatt-Level Wakeup Receiver Front Ends Using MEMS Resonators for Impedance Transformation. IEEE transactions on microwave theory and techniques . 2019.
Nanowatt-Level Wakeup Receiver Front Ends Using MEMS Resonators for Impedance Transformation [link] Paper link bibtex
Li, S.; Roy, A.; and Calhoun, B. H. A Piezoelectric Energy-Harvesting System With Parallel-SSHI Rectifier and Integrated Maximum-Power-Point Tracking. IEEE solid-state circuits letters . 2019.
A Piezoelectric Energy-Harvesting System With Parallel-SSHI Rectifier and Integrated Maximum-Power-Point Tracking [link] Paper link bibtex
Lukas, C. J.; Yahya, F. B.; Breiholz, J.; Roy, A.; Chen, X.; Patel, H.; Liu, N.; Kosari, A.; Li, S.; Kamakshi, D. A.; Ayorinde, O.; Wentzloff, D. D.; and Calhoun, B. H. A 1.02 μW Battery-Less, Continuous Sensing and Post-Processing SiP for Wearable Applications. IEEE transactions on biomedical circuits and systems . 2019.
A 1.02 μW Battery-Less, Continuous Sensing and Post-Processing SiP for Wearable Applications [link] Paper link bibtex
Liu, N.; Agarwala, R.; Dissanayake, A.; Truesdell, D. S.; Kamineni, S.; and Calhoun, B. H. A 2.5 ppm/°C 1.05-MHz Relaxation Oscillator With Dynamic Frequency-Error Compensation and Fast Start-Up Time. IEEE journal of solid-state circuits . 2019.
A 2.5 ppm/°C 1.05-MHz Relaxation Oscillator With Dynamic Frequency-Error Compensation and Fast Start-Up Time [link] Paper link bibtex
Alghaihab, A.; Shi, Y.; Breiholz, J.; Kim, H.; Calhoun, B. H. ; and Wentzloff, D. D. Enhanced Interference Rejection Bluetooth Low-Energy Back-Channel Receiver With LO Frequency Hopping. IEEE Journal of Solid-state Circuits . 2019.
Enhanced Interference Rejection Bluetooth Low-Energy Back-Channel Receiver With LO Frequency Hopping [link] Paper link bibtex
Truesdell, D. S.; and Calhoun, B. H. A 640 pW 22 pJ/sample Gate Leakage-Based Digital CMOS Temperature Sensor with 0.25°C Resolution. Unknown Journal . 2019.
A 640 pW 22 pJ/sample Gate Leakage-Based Digital CMOS Temperature Sensor with 0.25°C Resolution [link] Paper link bibtex
Truesdell, D. S.; Breiholz, J.; Kamineni, S.; Liu, N.; Magyar, A.; and Calhoun, B. H. A 6–140-nW 11 Hz–8.2-kHz DVFS RISC-V Microprocessor Using Scalable Dynamic Leakage-Suppression Logic. IEEE solid-state circuits letters . 2019.
A 6–140-nW 11 Hz–8.2-kHz DVFS RISC-V Microprocessor Using Scalable Dynamic Leakage-Suppression Logic [link] Paper link bibtex
Moody, J.; Dissanayake, A.; Bishop, H. L.; Lu, R.; Liu, N.; Duvvuri, D.; Gao, A.; Truesdell, D. S.; Barker, N. S.; Gong, S.; Calhoun, B. H. ; and Bowers, S. M. A -106dBm 33nW Bit-Level Duty-Cycled Tuned RF Wake-up Receiver. Unknown Journal . 2019.
A -106dBm 33nW Bit-Level Duty-Cycled Tuned RF Wake-up Receiver [link] Paper link bibtex
Li, S.; Roy, A.; and Calhoun, B. H. A Piezoelectric Energy-Harvesting System with Parallel-SSHI Rectifier and Integrated MPPT Achieving 417% Energy-Extraction Improvement and 97% Tracking Efficiency. Unknown Journal . 2019.
A Piezoelectric Energy-Harvesting System with Parallel-SSHI Rectifier and Integrated MPPT Achieving 417% Energy-Extraction Improvement and 97% Tracking Efficiency [link] Paper link bibtex
Li, S.; and Calhoun, B. H. 14.6 A 745pA Hybrid Asynchronous Binary-Searching and Synchronous Linear-Searching Digital LDO with 3.8×105 Dynamic Load Range, 99.99% Current Efficiency, and 2mV Output Voltage Ripple. Unknown Journal . 2019.
14.6 A 745pA Hybrid Asynchronous Binary-Searching and Synchronous Linear-Searching Digital LDO with 3.8×105 Dynamic Load Range, 99.99% Current Efficiency, and 2mV Output Voltage Ripple [link] Paper link bibtex
Moody, J.; Gong, S.; Calhoun, B. H. ; Bowers, S. M.; Dissanayake, A.; Bishop, H. L.; Lu, R.; Liu, N.; Duvvuri, D.; Gao, A.; Truesdell, D. S.; and Barker, N. S. A Highly Reconfigurable Bit-Level Duty-Cycled TRF Receiver Achieving −106-dBm Sensitivity and 33-nW Average Power Consumption. IEEE solid-state circuits letters . 2019.
A Highly Reconfigurable Bit-Level Duty-Cycled TRF Receiver Achieving −106-dBm Sensitivity and 33-nW Average Power Consumption [link] Paper link bibtex
Truesdell, D. S.; Dissanayake, A.; and Calhoun, B. H. A 0.6-V 44.6-fJ/Cycle Energy-Optimized Frequency-Locked Loop in 65-nm CMOS With 20.3-ppm/°C Stability. IEEE solid-state circuits letters . 2019.
A 0.6-V 44.6-fJ/Cycle Energy-Optimized Frequency-Locked Loop in 65-nm CMOS With 20.3-ppm/°C Stability [link] Paper link bibtex
Abdelatty, O.; Bishop, H. L.; Shi, Y.; Xing, C.; Alghaihab, A.; Calhoun, B. H. ; and Wentzloff, D. D. A Low Power Bluetooth Low-Energy Transmitter with a 10.5nJ Startup-Energy Crystal Oscillator. Unknown Journal . 2019.
A Low Power Bluetooth Low-Energy Transmitter with a 10.5nJ Startup-Energy Crystal Oscillator [link] Paper link bibtex
Misra, V.; Bozkurt, A.; Calhoun, B. H. ; Datta, S.; Dickey, M. D.; Kiani, M.; Lach, J.; Lee, B.; Jur, J. S.; Oralkan, Ö.; Öztürk, M. C.; Rajagopalan, R.; Roundy, S.; Strohmaier, J.; Trolier‐McKinstry, S.; Vashaee, D.; Wentzloff, D. D.; and Werner, D. Optimizing the energy balance to achieve autonomous self-powering for vigilant health and IoT applications. Journal of Physics: Conference Series . 2019.
Optimizing the energy balance to achieve autonomous self-powering for vigilant health and IoT applications [link] Paper link bibtex
Dreslinski, R. G.; Wentzloff, D. D.; Fayazi, M.; Kwon, K.; Blaauw, D.; Sylvester, D.; Calhoun, B. H. ; Coltella, M.; and Urquhart, D. Fully-Autonomous SoC Synthesis using Customizable Cell-Based Synthesizable Analog Circuits. Unknown Journal . 2019.
Fully-Autonomous SoC Synthesis using Customizable Cell-Based Synthesizable Analog Circuits [pdf] Paper link bibtex
Banerjee, A.; and Calhoun, B. H. A Double Pumped Single-Line-Cache SRAM Architecture for Ultra-low Energy IoT and Machine Learning Applications. Unknown Journal . 2019.
A Double Pumped Single-Line-Cache SRAM Architecture for Ultra-low Energy IoT and Machine Learning Applications [link] Paper link bibtex
Truesdell, D. S.; and Calhoun, B. H. Improving Dynamic Leakage Suppression Logic with Forward Body Bias in 65nm CMOS. Unknown Journal . 2019.
Improving Dynamic Leakage Suppression Logic with Forward Body Bias in 65nm CMOS [link] Paper link bibtex
2018 (15)
Moody, J.; Bassirian, P.; Roy, A.; Liu, N.; Pancrazio, S.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. A −76dBm 7.4nW wakeup radio with automatic offset compensation. Unknown Journal . 2018.
A −76dBm 7.4nW wakeup radio with automatic offset compensation [link] Paper link bibtex
Moody, J.; Bassirian, P.; Roy, A.; Liu, N.; Pancrazio, S.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. A −76dBm 7.4nW wakeup radio with automatic offset compensation. Unknown Journal . 2018.
A −76dBm 7.4nW wakeup radio with automatic offset compensation [link] Paper link bibtex
Kosari, A.; Breiholz, J.; Liu, N.; Calhoun, B. H. ; and Wentzloff, D. D. A 0.5 V 68 nW ECG Monitoring Analog Front-End for Arrhythmia Diagnosis. Journal of Low Power Electronics and Applications . 2018.
A 0.5 V 68 nW ECG Monitoring Analog Front-End for Arrhythmia Diagnosis [link] Paper link bibtex
Yahya, F. B.; Lukas, C. J.; and Calhoun, B. H. A Top-Down Approach to Building Battery-Less Self-Powered Systems for the Internet-of-Things. Journal of low power electronics and applications . 2018.
A Top-Down Approach to Building Battery-Less Self-Powered Systems for the Internet-of-Things [link] Paper link bibtex
Xing, C.; Breiholz, J.; Yahya, F. B.; Lukas, C. J.; Kim, H.; Calhoun, B. H. ; and Wentzloff, D. D. A 486 µW All-Digital Bluetooth Low Energy Transmitter with Ring Oscillator Based ADPLL for IoT applications. Unknown Journal . 2018.
A 486 µW All-Digital Bluetooth Low Energy Transmitter with Ring Oscillator Based ADPLL for IoT applications [link] Paper link bibtex
Ahmed, S. Z.; Tan, Y.; Truesdell, D. S.; Calhoun, B. H. ; and Ghosh, A. W. Modeling tunnel field effect transistors—From interface chemistry to non-idealities to circuit level performance. Journal of applied physics . 2018.
Modeling tunnel field effect transistors—From interface chemistry to non-idealities to circuit level performance [link] Paper link bibtex
Bishop, H. L.; Wang, P.; Fan, D.; Lach, J.; and Calhoun, B. H. Lighting IoT test environment (LITE) platform: evaluating light-powered, energy harvesting embedded systems. Unknown Journal . 2018.
Lighting IoT test environment (LITE) platform: evaluating light-powered, energy harvesting embedded systems [link] Paper link bibtex
Truesdell, D. S.; and Calhoun, B. H. Channel Length Sizing for Power Minimization in Leakage-Dominated Digital Circuits. Unknown Journal . 2018.
Channel Length Sizing for Power Minimization in Leakage-Dominated Digital Circuits [link] Paper link bibtex
Banerjee, A.; Kamineni, S.; and Calhoun, B. H. Multiple Combined Write-Read Peripheral Assists in 6T FinFET SRAMs for Low-VMIN IoT and Cognitive Applications. Proceedings of the International Symposium on Low Power Electronics and Design . 2018.
Multiple Combined Write-Read Peripheral Assists in 6T FinFET SRAMs for Low-VMIN IoT and Cognitive Applications [link] Paper link bibtex
Lukas, C. J.; Yahya, F. B.; and Calhoun, B. H. An Ultra-low Power System On Chip Enabling DVS with SR Level Shifting Latches. Unknown Journal . 2018.
An Ultra-low Power System On Chip Enabling DVS with SR Level Shifting Latches [link] Paper link bibtex
Liu, N.; Agarwala, R.; Dissanayake, A.; Truesdell, D. S.; Kamineni, S.; Chen, X.; Wentzloff, D. D.; and Calhoun, B. H. A 2.5 ppm/°C 1.05 MHz Relaxation Oscillator with Dynamic Frequency-Error Compensation and 8 µs Start-up Time. Unknown Journal . 2018.
A 2.5 ppm/°C 1.05 MHz Relaxation Oscillator with Dynamic Frequency-Error Compensation and 8 µs Start-up Time [link] Paper link bibtex
Ayorinde, O.; Qi, H.; and Calhoun, B. H. FGC. Unknown Journal . 2018.
FGC [link] Paper link bibtex
Kamakshi, D. A.; Guo, X.; Patel, H.; Stan, M. R.; and Calhoun, B. H. A post-silicon hold time closure technique using data-path tunable-buffers for variation-tolerance in sub-threshold designs. Unknown Journal . 2018.
A post-silicon hold time closure technique using data-path tunable-buffers for variation-tolerance in sub-threshold designs [link] Paper link bibtex
Alghaihab, A.; Ahmed, A.; Alù, A.; Andia, L.; Globalfoundries, S.; Cmos-Soi, A; Ang, D. S.; Ansari, K. T.; 5-Bit, C A; Variable, S.; E-Band, A. A.; Antonov, ); Anttila, L.; Aoki, H.; Apsel, A.; Asghari, B.; Baeyens, Y.; Bajon, D.; Bajor, M.; Baltus, P.; Bardy, S.; Bhatia, K.; Boeck, G.; Calhoun, B. H. ; Callender, S.; Chan, L.; Carusone, C.; Chandrakasan, A. P.; Chang, J. K.; Chang, M. F.; Xing, C.; Chen, Z.; Cherniak, D.; Chew, K. W.; Wai, J.; and Chiang, P. Author Index. Unknown Journal . 2018.
Author Index [link] Paper link bibtex
Kamakshi, D. A.; Guo, X.; Patel, H.; Stan, M. R.; and Calhoun, B. H. A post-silicon hold time closure technique using data-path tunable-buffers for variation-tolerance in sub-threshold designs. Unknown Journal . 2018.
A post-silicon hold time closure technique using data-path tunable-buffers for variation-tolerance in sub-threshold designs [link] Paper link bibtex
2017 (19)
Calhoun, Z.; Maribojoc, P.; Selzer, N.; Procopi, L.; Bezzo, N.; and Fleming, C. Analysis of Identity and Access Management alternatives for a multinational information-sharing environment. Unknown Journal . 2017.
Analysis of Identity and Access Management alternatives for a multinational information-sharing environment [link] Paper link bibtex
Moody, J.; Bassirian, P.; Roy, A.; Feng, Y.; Li, S.; Costanzo, R.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. An 8.3 nW −72 dBm event driven IoE wake up receiver RF front end. Unknown Journal . 2017.
An 8.3 nW −72 dBm event driven IoE wake up receiver RF front end [link] Paper link bibtex
Bassirian, P.; Moody, J.; Gao, A.; Manzaneque, T.; Calhoun, B. H. ; Barker, N. S.; Gong, S.; and Bowers, S. M. A passive 461 MHz AlN-CMOS RF front-end for event-driven wakeup receivers. Unknown Journal . 2017.
A passive 461 MHz AlN-CMOS RF front-end for event-driven wakeup receivers [link] Paper link bibtex
Shafiee, N.; Tewari, S.; Calhoun, B. H. ; and Shrivastava, A. Infrastructure Circuits for Lifetime Improvement of Ultra-Low Power IoT Devices. IEEE transactions on circuits and systems. I, Regular papers (Print) . 2017.
Infrastructure Circuits for Lifetime Improvement of Ultra-Low Power IoT Devices [link] Paper link bibtex
Moody, J.; Bassirian, P.; Roy, A.; Feng, Y.; Li, S.; Costanzo, R.; Barker, N. S.; Calhoun, B. H. ; and Bowers, S. M. An 8.3 nW −72 dBm event driven IoE wake up receiver RF front end. Unknown Journal . 2017.
An 8.3 nW −72 dBm event driven IoE wake up receiver RF front end [link] Paper link bibtex
Yahya, F. B.; Lukas, C. J.; Breiholz, J.; Roy, A.; Patel, H.; Liu, N.; Chen, X.; Kosari, A.; Li, S.; Akella, D.; Ayorinde, O.; Wentzloff, D. D.; and Calhoun, B. H. A battery-less 507nW SoC with integrated platform power manager and SiP interfaces. Unknown Journal . 2017.
A battery-less 507nW SoC with integrated platform power manager and SiP interfaces [link] Paper link bibtex
Murphy, C. T.; Reichmuth, C.; Eberhardt, W. C.; Calhoun, B. H. ; and Mann, D. A. Seal Whiskers Vibrate Over Broad Frequencies During Hydrodynamic Tracking. Scientific reports (Nature Publishing Group) . 2017.
Seal Whiskers Vibrate Over Broad Frequencies During Hydrodynamic Tracking [link] Paper link bibtex
Bassirian, P.; Moody, J.; Gao, A.; Manzaneque, T.; Calhoun, B. H. ; Barker, N. S.; Gong, S.; and Bowers, S. M. A passive 461 MHz AlN-CMOS RF front-end for event-driven wakeup receivers. Unknown Journal . 2017.
A passive 461 MHz AlN-CMOS RF front-end for event-driven wakeup receivers [link] Paper link bibtex
Qi, H.; Ayorinde, O.; and Calhoun, B. H. An ultra-low-power FPGA for IoT applications. Unknown Journal . 2017.
An ultra-low-power FPGA for IoT applications [link] Paper link bibtex
Roy, A.; and Calhoun, B. H. A 71% efficient energy harvesting and power management unit for sub-μW power biomedical applications. Unknown Journal . 2017.
A 71% efficient energy harvesting and power management unit for sub-μW power biomedical applications [link] Paper link bibtex
Banerjee, A.; Liu, N.; Patel, H.; Calhoun, B. H. ; Poulton, J. W.; and Gray, C. T. A 256kb 6T self-tuning SRAM with extended 0.38V–1.2V operating range using multiple read/write assists and V<inf>MIN</inf> tracking canary sensors. Unknown Journal . 2017.
A 256kb 6T self-tuning SRAM with extended 0.38V–1.2V operating range using multiple read/write assists and V&lt;inf&gt;MIN&lt;/inf&gt; tracking canary sensors [link] Paper link bibtex
Patel, H.; Yahya, F. B.; and Calhoun, B. H. Subthreshold SRAM: Challenges, design decisions, and solutions. Unknown Journal . 2017.
Subthreshold SRAM: Challenges, design decisions, and solutions [link] Paper link bibtex
Patel, H.; Calhoun, B. H. ; and Mann, R. W. Soft errors: Reliability challenges in energy-constrained ULP body sensor networks applications. Unknown Journal . 2017.
Soft errors: Reliability challenges in energy-constrained ULP body sensor networks applications [link] Paper link bibtex
Breiholz, J.; Yahya, F. B.; Lukas, C. J.; Chen, X.; Leach, K.; Wentzloff, D. D.; and Calhoun, B. H. A 4.4 nW lossless sensor data compression accelerator for 2.9x system power reduction in wireless body sensors. Unknown Journal . 2017.
A 4.4 nW lossless sensor data compression accelerator for 2.9x system power reduction in wireless body sensors [link] Paper link bibtex
Lukas, C. J.; Yahya, F. B.; and Calhoun, B. H. Modeling trans-threshold correlations for reducing functional test time in ultra-low power systems. Unknown Journal . 2017.
Modeling trans-threshold correlations for reducing functional test time in ultra-low power systems [link] Paper link bibtex
Lukas, C. J.; Calhoun, B. H. ; Bhakta, R.; and Jur, J. S. A 3.77 nW, 11.4 fJ/b/mm link for reliable wireline communication in ultra-low power on-body sensor networks. Unknown Journal . 2017.
A 3.77 nW, 11.4 fJ/b/mm link for reliable wireline communication in ultra-low power on-body sensor networks [link] Paper link bibtex
Yahya, F. B.; Lukas, C. J.; Calhoun, B. H. ; and Bartling, S. FAR: A 4.12μW ferro-electric auto-recovery for battery-less BSN SoCs. Unknown Journal . 2017.
FAR: A 4.12μW ferro-electric auto-recovery for battery-less BSN SoCs [link] Paper link bibtex
Kamakshi, D. A.; Patel, H.; Roy, A.; and Calhoun, B. H. A 28 nW CMOS supply voltage monitor for adaptive ultra-low power IoT chips. Unknown Journal . 2017.
A 28 nW CMOS supply voltage monitor for adaptive ultra-low power IoT chips [link] Paper link bibtex
Patel, H.; Roy, A.; Yahya, F. B.; Liu, N.; Calhoun, B. H. ; Harada, A.; Kumeno, K.; Yasuda, M.; and Ema, T. A 55nm Ultra Low Leakage Deeply Depleted Channel Technology Optimized for Energy Minimization in Subthreshold SRAM and Logic. IEICE Technical Report; IEICE Tech. Rep. . 2017.
A 55nm Ultra Low Leakage Deeply Depleted Channel Technology Optimized for Energy Minimization in Subthreshold SRAM and Logic [link] Paper link bibtex

Publications

By Year

+2024 +2023 +2022 +2021 +2020
+2019 +2018 +2017

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+Negin Alemazkoor +Homa Alemzadeh +Lawrence E. Band +Laura Barnes +Madhur Behl +Nicola Bezzo +Steven Bowers +Maite Brandt-Pearce +Benton H. Calhoun +Brad Campbell +Qing Chang +Donna T. Chen +Seokhyun Chung +Haibo Dong +Afsaneh Doryab +Lu Feng +Tomonari Furukawa +Gregory J. Gerling +Jonathan L. Goodall +Devin K. Harris +Seongkook Heo
+Arsalan Heydarian +Tariq Iqbal +Yen-Ling Kuo +Venkataraman Lakshmi +James H. Lambert +Zongli Lin +Felix Xiaozhu Lin +Zhen Liu +Eric Loth +Osman E. Ozbulut +Byungkyu Brian Park +Daniel Quinn +Sara L. Riggs +Haiying Shen +Cong Shen +Brian Smith +Mircea Stan +Yixin Sun +Ye Sun +Shangtong Zhang +N. Rich Nguyen +Somayeh Asadi +Kun Qian

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