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ORCIDSwamit S. Tannu
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- affiliation: University of Wisconsin-Madison, WI, USA
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2020 – today
- 2024
[i17]Satvik Maurya, Chaithanya Naik Mude, Benjamin Lienhard, Swamit Tannu:
Understanding Side-Channel Vulnerabilities in Superconducting Qubit Readout Architectures. CoRR abs/2405.08962 (2024)- [i16]Chaithanya Naik Mude, Satvik Maurya, Benjamin Lienhard, Swamit Tannu:
Enabling Leakage Reduction via Fast and High-Fidelity Qutrit Readout. CoRR abs/2405.08982 (2024) - [i15]Tianyi Hao, Zichang He, Ruslan Shaydulin, Marco Pistoia, Swamit Tannu:
Variational Quantum Algorithm Landscape Reconstruction by Low-Rank Tensor Completion. CoRR abs/2405.10941 (2024) - [i14]Satvik Maurya, Swamit Tannu:
Managing Classical Processing Requirements for Quantum Error Correction. CoRR abs/2406.17995 (2024) - 2023
- [j3]Amanda Xu
, Abtin Molavi, Lauren Pick, Swamit Tannu, Aws Albarghouthi:
Synthesizing Quantum-Circuit Optimizers. Proc. ACM Program. Lang. 7(PLDI): 835-859 (2023) - [c16]Satvik Maurya, Chaithanya Naik Mude, William D. Oliver, Benjamin Lienhard, Swamit S. Tannu:
Scaling Qubit Readout with Hardware Efficient Machine Learning Architectures. ISCA 2023: 7:1-7:13 - [c15]Tianyi Hao, Kun Liu, Swamit S. Tannu:
Enabling High Performance Debugging for Variational Quantum Algorithms using Compressed Sensing. ISCA 2023: 9:1-9:13 - [c14]Haipeng Zha, Swamit Tannu, Murali Annavaram:
SuperBP: Design Space Exploration of Perceptron-Based Branch Predictors for Superconducting CPUs. MICRO 2023: 599-613 - [i13]Kun Liu, Tianyi Hao, Swamit Tannu:
Enabling High Performance Debugging for Variational Quantum Algorithms using Compressed Sensing. CoRR abs/2308.03213 (2023) - [i12]Abtin Molavi, Amanda Xu, Swamit Tannu, Aws Albarghouthi:
Compilation for Surface Code Quantum Computers. CoRR abs/2311.18042 (2023) - 2022
- [c13]Swamit S. Tannu, Poulami Das, Ramin Ayanzadeh, Moinuddin K. Qureshi:
HAMMER: boosting fidelity of noisy Quantum circuits by exploiting Hamming behavior of erroneous outcomes. ASPLOS 2022: 529-540 - [c12]Satvik Maurya, Swamit S. Tannu:
COMPAQT: Compressed Waveform Memory Architecture for Scalable Qubit Control. MICRO 2022: 1059-1077 - [c11]Abtin Molavi, Amanda Xu, Martin Diges, Lauren Pick, Swamit S. Tannu, Aws Albarghouthi:
Qubit Mapping and Routing via MaxSAT. MICRO 2022: 1078-1091 - [c10]Ramin Ayanzadeh, Poulami Das, Swamit S. Tannu, Moinuddin K. Qureshi:
EQUAL: Improving the Fidelity of Quantum Annealers by Injecting Controlled Perturbations. QCE 2022: 516-527 - [i11]Meng Wang, Rui Huang, Swamit S. Tannu, Prashant J. Nair:
TQSim: A Case for Reuse-Focused Tree-Based Quantum Circuit Simulation. CoRR abs/2203.13892 (2022) - [i10]Swamit S. Tannu, Prashant J. Nair:
The Dirty Secret of SSDs: Embodied Carbon. CoRR abs/2207.10793 (2022) - [i9]Swamit S. Tannu, Poulami Das, Ramin Ayanzadeh, Moinuddin K. Qureshi:
HAMMER: boosting fidelity of noisy Quantum circuits by exploiting Hamming behavior of erroneous outcomes. CoRR abs/2208.09371 (2022) - [i8]Abtin Molavi, Amanda Xu, Martin Diges, Lauren Pick, Swamit S. Tannu, Aws Albarghouthi:
Qubit Mapping and Routing via MaxSAT. CoRR abs/2208.13679 (2022) - [i7]Amanda Xu, Abtin Molavi, Lauren Pick, Swamit S. Tannu, Aws Albarghouthi:
Synthesizing Quantum-Circuit Optimizers. CoRR abs/2211.09691 (2022) - [i6]Satvik Maurya, Chaithanya Naik Mude, William D. Oliver, Benjamin Lienhard, Swamit S. Tannu:
Hardware Efficient Neural Network Assisted Qubit Readout. CoRR abs/2212.03895 (2022) - [i5]Satvik Maurya, Swamit S. Tannu:
COMPAQT: Compressed Waveform Memory Architecture for Scalable Qubit Control. CoRR abs/2212.03897 (2022) - 2021
- [j2]Salonik Resch, Swamit S. Tannu, Ulya R. Karpuzcu, Moinuddin K. Qureshi:
A Day In the Life of a Quantum Error. IEEE Comput. Archit. Lett. 20(1): 13-16 (2021) - [j1]Moinuddin K. Qureshi, Swamit S. Tannu:
Quantum Computing and the Design of the Ultimate Accelerator. IEEE Micro 41(5): 8-14 (2021) - [c9]Poulami Das, Swamit S. Tannu, Moinuddin K. Qureshi:
JigSaw: Boosting Fidelity of NISQ Programs via Measurement Subsetting. MICRO 2021: 937-949 - [c8]Poulami Das, Swamit S. Tannu, Siddharth Dangwal, Moinuddin K. Qureshi:
ADAPT: Mitigating Idling Errors in Qubits via Adaptive Dynamical Decoupling. MICRO 2021: 950-962 - [i4]Ramin Ayanzadeh, Poulami Das, Swamit S. Tannu, Moinuddin K. Qureshi:
EQUAL: Improving the Fidelity of Quantum Annealers by Injecting Controlled Perturbations. CoRR abs/2108.10964 (2021) - [i3]Salonik Resch, Anthony Gutierrez, Joon Suk Huh, Srikant Bharadwaj, Yasuko Eckert, Gabriel H. Loh, Mark Oskin, Swamit S. Tannu:
Accelerating Variational Quantum Algorithms Using Circuit Concurrency. CoRR abs/2109.01714 (2021)
2010 – 2019
- 2019
- [c7]Swamit S. Tannu, Moinuddin K. Qureshi:
Not All Qubits Are Created Equal: A Case for Variability-Aware Policies for NISQ-Era Quantum Computers. ASPLOS 2019: 987-999 - [c6]Swamit S. Tannu, Poulami Das, Michael L. Lewis, Robert F. Krick, Douglas M. Carmean, Moinuddin K. Qureshi:
A case for superconducting accelerators. CF 2019: 67-75 - [c5]Swamit S. Tannu, Moinuddin K. Qureshi:
Ensemble of Diverse Mappings: Improving Reliability of Quantum Computers by Orchestrating Dissimilar Mistakes. MICRO 2019: 253-265 - [c4]Swamit S. Tannu, Moinuddin K. Qureshi:
Mitigating Measurement Errors in Quantum Computers by Exploiting State-Dependent Bias. MICRO 2019: 279-290 - [c3]Poulami Das, Swamit S. Tannu, Prashant J. Nair, Moinuddin K. Qureshi:
A Case for Multi-Programming Quantum Computers. MICRO 2019: 291-303 - [i2]Swamit S. Tannu, Poulami Das, Michael L. Lewis, Robert F. Krick, Douglas M. Carmean, Moinuddin K. Qureshi:
A Case for Superconducting Accelerators. CoRR abs/1902.04641 (2019) - 2018
- [i1]Swamit S. Tannu, Moinuddin K. Qureshi:
A Case for Variability-Aware Policies for NISQ-Era Quantum Computers. CoRR abs/1805.10224 (2018) - 2017
- [c2]Swamit S. Tannu, Douglas M. Carmean, Moinuddin K. Qureshi:
Cryogenic-DRAM based memory system for scalable quantum computers: a feasibility study. MEMSYS 2017: 189-195 - [c1]Swamit S. Tannu, Zachary A. Myers, Prashant J. Nair, Douglas M. Carmean, Moinuddin K. Qureshi:
Taming the instruction bandwidth of quantum computers via hardware-managed error correction. MICRO 2017: 679-691
Coauthor Index
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