en | de | ru )

 

Disambiguation of "Raychowdhury, Arijit"

Author of the publication

copydeleteadd this publication to your clipboard
5.6 A 0.13μm fully digital low-dropout regulator with adaptive control and reduced dynamic stability for ultra-wide dynamic range.

, , and . ISSCC, page 1-3. IEEE, (2015)

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed. You can also use the button next to the name to display some publications already assigned to the person.

Arijit Ghosh

Arijit Kundu

Arijit Maitra

Arijit Biswas

Arijit Mukherjee

 

Other publications of authors with the same name

Modeling and analysis of digital linear dropout regulators with adaptive control for high efficiency under wide dynamic range digital loads., , , and . DATE, page 1-6. European Design and Automation Association, (2014)A 65nm, 1.15-0.15V, 99.99% Current-efficient Digital Low Dropout Regulator with Asynchronous Non-linear Control for Droop Mitigation., , , , , , , , , and 3 other author(s). ISCAS, page 1-5. IEEE, (2018)Transfer and Online Reinforcement Learning in STT-MRAM Based Embedded Systems for Autonomous Drones., , , and . DATE, page 1489-1494. IEEE, (2019)Spin torque devices in embedded memory: model studies and design space exploration.. ICCAD, page 572-575. IEEE, (2013)Autonomous Navigation via Deep Reinforcement Learning for Resource Constraint Edge Nodes Using Transfer Learning., and . IEEE Access, (2020)Computing with subthreshold leakage: device/circuit/architecture co-design for ultralow-power subthreshold operation., , , and . IEEE Trans. Very Large Scale Integr. Syst., 13 (11): 1213-1224 (2005)Analysis of super cut-off transistors for ultralow power digital logic circuits., , , and . ISLPED, page 2-7. ACM, (2006)SCNIFFER: Low-Cost, Automated, EfficientElectromagnetic Side-Channel Sniffing., , , , and . CoRR, (2019)Leakage Power Analysis and Reduction for Nanoscale Circuits., , , , and . IEEE Micro, 26 (2): 68-80 (2006)Computing With Networks of Oscillatory Dynamical Systems., , , , , , , and . Proc. IEEE, 107 (1): 73-89 (2019)