Kaitlin Smith
21 Papers
24 Citations
Kaitlin Smith is an academic researcher. The author has contributed to research in topics: Computer science & Quantum computer. The author has an hindex of 1, co-authored 1 publications.
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Papers
SupermarQ: A Scalable Quantum Benchmark Suite
Teague Tomesh,Pranav Gokhale,V. Omole,Gokul Subramanian Ravi,Kaitlin Smith,Joshua Viszlai,Xin-Chuan Wu,Nikos Hardavellas,Margaret Martonosi,Frederic T. Chong +9 more
- 22 Feb 2022
TL;DR: SupermarQ is the first attempt to systematically apply techniques from classical benchmarking methodology to the quantum domain, and envision that quantum benchmarking will encompass a large cross-community effort built on open source, constantly evolving benchmark suites.
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CAFQA: A Classical Simulation Bootstrap for Variational Quantum Algorithms
Gokul Subramanian Ravi,Pranav Gokhale,Yi Ding,William M. Kirby,Kaitlin Smith,Jonathan M. Baker,Peter J. Love,Henry Hoffmann,Kenneth R. Brown,Frederic T. Chong +9 more
- 25 Feb 2022
TL;DR: This work proposes CAFQA, a Clifford Ansatz For Quantum Accuracy, a hardware-efficient circuit built with only Clifford gates that is well-suited to classical computation and allows for preliminary ground state energy estimation of the challenging chromium dimer (Cr 2 ) molecule.
Journal Article
Short-Range Microwave Networks to Scale Superconducting Quantum Computation
TL;DR: In this paper , the authors propose a chiplet architecture over microwave links with potential to exceed monolithic performance on near-term hardware, and find evidence that distributing computation across chiplets may reduce the overall error rates associated with moving data across the device, despite higher error figures for transfers across links.
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Clifford-based Circuit Cutting for Quantum Simulation
Kaitlin Smith,Michael A. Perlin,Pranav Gokhale,P. Frederick,David K. Owusu-Antwi,Richard Rines,V. Omole,Frederic T. Chong +7 more
- 19 Mar 2023
TL;DR: SuperSim as mentioned in this paper is a quantum circuit simulator that uses Clifford-based simulation and circuit cutting to accelerate the simulation of quantum circuits, allowing 100s of qubits to be evaluated with modest runtimes.
Navigating the Dynamic Noise Landscape of Variational Quantum Algorithms with QISMET
Gokul Subramanian Ravi,Kaitlin Smith,Jonathan M. Baker,T. Kannan,Nathan Earnest,Ali Javadi-Abhari,Henry Hoffmann,Frederic T. Chong +7 more
- 25 Sep 2022
TL;DR: In this paper , the authors proposed Quantum Iteration Skipping to Mitigate Error Transients (QISMET) to navigate the dynamic noise landscape of variational quantum algorithms (VQAs).