23 Papers
5 Citations
Dan Lobser is an academic researcher from National Institute of Standards and Technology. The author has contributed to research in topics: Computer science & Quantum computer. The author has an hindex of 2, co-authored 2 publications. Previous affiliations of Dan Lobser include University of Colorado Boulder.
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Papers
Superstaq: Deep Optimization of Quantum Programs
Colin Campbell,Frederic T. Chong,Denny Dahl,P. Frederick,P. Goiporia,Pranav Gokhale,Benjamin Hall,Salahedeen Issa,Eric Jones,Stephanie Lee,Andrew Litteken,V. Omole,David K. Owusu-Antwi,Michael A. Perlin,Richard Rines,Kaitlin Smith,Noah Goss,Akel Hashim,Ravi Naik,Ed Younis,Dan Lobser,Christopher G. Yale,Benchen Huang,Ji Liu +23 more
- 10 Sep 2023
TL;DR: Superstaq is described, a quantum software platform that optimizes the execution of quantum programs by tailoring to underlying hardware primitives, and demonstrates new levels of performance and new capabilities that are enabled by deeper integration between quantum programs and the device physics of hardware.
12
Quantum computation of hydrogen bond dynamics and vibrational spectra
Philip Richerme,Melissa Revelle,Debadrita Saha,Miguel A. López-Ruiz,Anurag Dwivedi,Sam A. Norrell,Christopher G. Yale,Dan Lobser,Ashlyn D. Burch,S. K. Clark,Jeremy M. Smith,Amr Sabry,Srinivasan S. Iyengar +12 more
- 18 Apr 2022
TL;DR: In this article , the authors introduce a framework for solving hydrogen-bond systems and more generic chemical dynamics problems using quantum logic, and experimentally demonstrate a proof-of-principle instance of their method using the QSCOUT ion-trap quantum computer, in which they experimentally drive the ion trap system to emulate the quantum wavepacket of the sharedproton within a hydrogen bond.
Characterizing and mitigating coherent errors in a trapped ion quantum processor using hidden inverses
Swarnadeep Majumder,Christopher G. Yale,Titus Morris,Dan Lobser,Ashlyn D. Burch,Matthew N. H. Chow,Melissa Revelle,S. K. Clark,Raphael C. Pooser +8 more
TL;DR: The use of coherent noise mitigation techniques as a characterization tool in trapped-ion testbeds is outlined and it is demonstrated that systematic noise amplification coupled with error mitigation schemes provides useful data for noise model deduction.
Design and Analysis of Digital Communication Within an SoC-Based Control System for Trapped-Ion Quantum Computing
Nafis Irtija,Jim Plusquellic,Eirini Eleni Tsiropoulou,Joshua D Goldberg,Dan Lobser,Daniel Lynn Stick +5 more
TL;DR: In this article , the authors evaluate the performance of modern system-on-chip (SoC) architectures in meeting the control demands associated with performing quantum gates on trapped-ion qubits, particularly focusing on communication within the SoC.
3
First-order crosstalk mitigation in parallel quantum gates driven with multi-photon transitions
Matthew N. H. Chow,Christopher G. Yale,Ashlyn D. Burch,Megan Ivory,Dan Lobser,Melissa Revelle,Susan M. Clark +6 more
TL;DR: First-order crosstalk mitigation in parallel quantum gates driven with multi-photon transitions successfully reduces crosstalk for neighboring trapped-ion qubits during single-qubit gates.