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Shaloo Rakheja
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2020 – today
- 2024
- [c21]Ashwin Tunga, Junzhe Kang, Ziing Zhao, Ankit Shukla, Wenjuan Zhu, Shaloo Rakheja:
Modeling of Content addressable memory using 2D Reconfigurable Transistors. DRC 2024: 1-2 - 2023
- [c20]E. White, Ashwin Tunga, Nicholas C. Miller, Matt Grupen, John D. Albrecht, Shaloo Rakheja:
Large-Signal Modeling of GaN HEMTs using Fermi Kinetics and Commercial Hydrodynamics Transport. DRC 2023: 1-2 - [c19]Ankit Shukla, Laura Heller, Md Golam Morshed, Laura Rehm, Avik W. Ghosh, Andrew D. Kent, Shaloo Rakheja:
A True Random Number Generator for Probabilistic Computing using Stochastic Magnetic Actuated Random Transducer Devices. ISQED 2023: 1-10 - 2022
- [j9]Saptarshi Mukherjee, Karen Dowling, Yicong Dong, Kexin Li, Adam Conway, Shaloo Rakheja, Lars F. Voss:
A Prony-Based Curve-Fitting Method for Characterization of RF Pulses From Optoelectronic Devices. IEEE Signal Process. Lett. 29: 364-368 (2022) - [j8]Nikhil Rangarajan, Satwik Patnaik, Johann Knechtel, Ramesh Karri, Ozgur Sinanoglu, Shaloo Rakheja:
Opening the Doors to Dynamic Camouflaging: Harnessing the Power of Polymorphic Devices. IEEE Trans. Emerg. Top. Comput. 10(1): 137-156 (2022) - [c18]Kexin Li, Takashi Matsuda, Eiji Yagyu, Koon Hoo Teo, Shaloo Rakheja:
Trapping Phenomena in GaN HEMTs with Fe- and C-doped Buffer. DRC 2022: 1-2 - [c17]Bohao Wu, Shaloo Rakheja:
Modeling of the Charge-Voltage Characteristics of AlScN/AlN/GaN Heterostructures. DRC 2022: 1 - [c16]Zijing Zhao, Kai Xu, Jialun Liu, Wei Jiang, Hojoon Ryu, Shaloo Rakheja, Tony Low, Wenjuan Zhu:
Nanoscale Devices Based on Two-dimensional and Ferroelectric Materials. DRC 2022: 1-2 - [c15]Elkin Cruz-Camacho, Siyuan Qian, Ankit Shukla, Neil McGlohon, Shaloo Rakheja, Christopher D. Carothers:
Evaluating Performance of Spintronics-Based Spiking Neural Network Chips using Parallel Discrete Event Simulation. SIGSIM-PADS 2022: 69-80 - 2021
- [c14]Ankit Shukla, Shaloo Rakheja:
Terahertz auto oscillations in non-collinear coplanar metallic antiferromagnets. DRC 2021: 1-2 - [c13]Ashwin Tunga, Xiuling Li, Shaloo Rakheja:
Modeling-based design and benchmarking of Al-rich AlGaN 3D nanosheet MOSFET and MOSHEMTs for RF Applications. DRC 2021: 1-2 - 2020
- [j7]Nikhil Rangarajan, Satwik Patnaik, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
SMART: A Secure Magnetoelectric AntifeRromagnet-Based Tamper-Proof Non-Volatile Memory. IEEE Access 8: 76130-76142 (2020) - [j6]Shaloo Rakheja, Parijat Sengupta, Suhaila M. Shakiah:
Design and Circuit Modeling of Graphene Plasmonic Nanoantennas. IEEE Access 8: 129562-129575 (2020) - [j5]Satwik Patnaik, Nikhil Rangarajan, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
Spin-Orbit Torque Devices for Hardware Security: From Deterministic to Probabilistic Regime. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 39(8): 1591-1606 (2020)
2010 – 2019
- 2019
- [j4]Nikhil Rangarajan, Satwik Patnaik, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
Spin-Based Reconfigurable Logic for Power- and Area-Efficient Applications. IEEE Des. Test 36(3): 22-30 (2019) - [c12]Parijat Sengupta, Shaloo Rakheja:
Spin-valley coupled caloritronics with strained honeycomb lattices. DRC 2019: 81-82 - [i5]Nikhil Rangarajan, Satwik Patnaik, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
SMART: Secure Magnetoelectric AntifeRromagnet-Based Tamper-Proof Non-Volatile Memory. CoRR abs/1902.07792 (2019) - [i4]Satwik Patnaik, Nikhil Rangarajan, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
Spin-Orbit Torque Devices for Hardware Security: From Deterministic to Probabilistic Regime. CoRR abs/1904.00421 (2019) - 2018
- [j3]Shaloo Rakheja:
Terahertz band communication using plasma wave propagation in multilayer graphene heterostructures. IET Cyper-Phys. Syst.: Theory & Appl. 3(2): 89-98 (2018) - [c11]Satwik Patnaik, Nikhil Rangarajan, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
Advancing hardware security using polymorphic and stochastic spin-hall effect devices. DATE 2018: 97-102 - [c10]Kexin Li, Shaloo Rakheja:
A unified current-voltage and charge-voltage model of quasi-ballistic III-nitride HEMTs for RF applications. DRC 2018: 1-2 - [i3]Satwik Patnaik, Nikhil Rangarajan, Johann Knechtel, Ozgur Sinanoglu, Shaloo Rakheja:
Advancing Hardware Security Using Polymorphic and Stochastic Spin-Hall Effect Devices. CoRR abs/1806.00790 (2018) - [i2]Nikhil Rangarajan, Satwik Patnaik, Johann Knechtel, Ramesh Karri, Ozgur Sinanoglu, Shaloo Rakheja:
Opening the Doors to Dynamic Camouflaging: Harnessing the Power of Polymorphic Devices. CoRR abs/1811.06012 (2018) - 2017
- [j2]Vitaly Petrov, Dmitri Moltchanov, Maria Komar, Alexander Antonov, Pavel Kustarev, Shaloo Rakheja, Yevgeni Koucheryavy:
Terahertz Band Intra-Chip Communications: Can Wireless Links Scale Modern x86 CPUs? IEEE Access 5: 6095-6109 (2017) - [c9]Shaloo Rakheja:
Communication limits of on-chip graphene plasmonic interconnects. ISQED 2017: 45-51 - [c8]Ruturaj Pujari, Shaloo Rakheja:
Performance evaluation of copper and graphene nanoribbons in 2-D NoC structures. ISQED 2017: 353-359 - [c7]Shaloo Rakheja, N. Kani:
Polymorphic spintronic logic gates for hardware security primitives - Device design and performance benchmarking. NANOARCH 2017: 131-132 - 2016
- [i1]Sebastian Ament, Nikhil Rangarajan, Shaloo Rakheja:
A practical guide to solving the stochastic Landau-Lifshitz-Gilbert-Slonczewski equation for macrospin dynamics. CoRR abs/1607.04596 (2016) - 2015
- [c6]Shaloo Rakheja:
Fundamental limits of energy dissipation in spintronic interconnects using optical spin pumping. NANOARCH 2015: 21-22 - 2014
- [c5]Azad Naeemi, Ahmet Ceyhan, Vachan Kumar, Chenyun Pan, Rouhollah M. Iraei, Shaloo Rakheja:
BEOL Scaling Limits and Next Generation Technology Prospects. DAC 2014: 26:1-26:6 - 2013
- [j1]Shaloo Rakheja, Vachan Kumar, Azad Naeemi:
Evaluation of the Potential Performance of Graphene Nanoribbons as On-Chip Interconnects. Proc. IEEE 101(7): 1740-1765 (2013) - [c4]Shaloo Rakheja, Vachan Kumar, Azad Naeemi:
Performance modeling for interconnects for conventional and emerging switches. SLIP 2013: 1-9 - 2012
- [b1]Shaloo Rakheja:
Interconnects for post-CMOS devices: physical limits and device and circuit implications. Georgia Institute of Technology, Atlanta, GA, USA, 2012 - [c3]Shaloo Rakheja, Azad Naeemi:
Interconnect analysis in spin-torque devices: Performance modeling, sptimal repeater insertion, and circuit-size limits. ISQED 2012: 283-290 - [c2]Shaloo Rakheja, Vachan Kumar:
Comparison of electrical, optical and plasmonic on-chip interconnects based on delay and energy considerations. ISQED 2012: 732-739 - 2011
- [c1]Shaloo Rakheja, Azad Naeemi:
Interconnection aspects of spin torque devices: Delay, energy-per-bit, and circuit size modeling. ISQED 2011: 736-744
Coauthor Index
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