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Thomas Häner
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2020 – today
- 2023
- [j5]Torsten Hoefler, Thomas Häner, Matthias Troyer:
Disentangling Hype from Practicality: On Realistically Achieving Quantum Advantage. Commun. ACM 66(5): 82-87 (2023) - [i24]Torsten Hoefler, Thomas Häner, Matthias Troyer:
Disentangling Hype from Practicality: On Realistically Achieving Quantum Advantage. CoRR abs/2307.00523 (2023) - [i23]Thomas Häner:
Computing all monomials of degree n-1 using 2n-3 AND gates. CoRR abs/2307.07424 (2023) - [i22]Thomas Häner, Damian S. Steiger, Helmut G. Katzgraber:
Parallel Tempering for Logic Synthesis. CoRR abs/2311.12394 (2023) - 2022
- [i21]Thomas Häner, Mathias Soeken:
The multiplicative complexity of interval checking. CoRR abs/2201.10200 (2022) - [i20]Thomas Häner, Vadym Kliuchnikov, Martin Roetteler, Mathias Soeken, Alexander Vaschillo:
QParallel: Explicit Parallelism for Programming Quantum Computers. CoRR abs/2210.03680 (2022) - [i19]Thomas Häner, Vadym Kliuchnikov, Martin Roetteler, Mathias Soeken:
Space-time optimized table lookup. CoRR abs/2211.01133 (2022) - [i18]Thomas Häner, Mathias Soeken:
The multiplicative complexity of interval checking. IACR Cryptol. ePrint Arch. 2022: 91 (2022) - 2021
- [c6]Thomas Häner, Damian S. Steiger, Torsten Hoefler, Matthias Troyer:
Distributed quantum computing with QMPI. SC 2021: 16 - [i17]David Ittah, Thomas Häner, Vadym Kliuchnikov, Torsten Hoefler:
Enabling Dataflow Optimization for Quantum Programs. CoRR abs/2101.11030 (2021) - [i16]Thomas Häner, Damian S. Steiger, Torsten Hoefler, Matthias Troyer:
Distributed Quantum Computing with QMPI. CoRR abs/2105.01109 (2021) - 2020
- [j4]Giulia Meuli, Mathias Soeken, Martin Roetteler, Thomas Häner:
Enabling accuracy-aware Quantum compilers using symbolic resource estimation. Proc. ACM Program. Lang. 4(OOPSLA): 130:1-130:26 (2020) - [j3]Thomas Häner, Torsten Hoefler, Matthias Troyer:
Assertion-based optimization of Quantum programs. Proc. ACM Program. Lang. 4(OOPSLA): 133:1-133:20 (2020) - [c5]Thomas Häner, Samuel Jaques, Michael Naehrig, Martin Roetteler, Mathias Soeken:
Improved Quantum Circuits for Elliptic Curve Discrete Logarithms. PQCrypto 2020: 425-444 - [i15]Thomas Häner, Samuel Jaques, Michael Naehrig, Martin Roetteler, Mathias Soeken:
Improved quantum circuits for elliptic curve discrete logarithms. CoRR abs/2001.09580 (2020) - [i14]Giulia Meuli, Mathias Soeken, Martin Roetteler, Thomas Häner:
Automatic accuracy management of quantum programs via (near-)symbolic resource estimation. CoRR abs/2003.08408 (2020) - [i13]Thomas Häner, Mathias Soeken:
Lowering the T-depth of Quantum Circuits By Reducing the Multiplicative Depth Of Logic Networks. CoRR abs/2006.03845 (2020) - [i12]Vera von Burg, Guang Hao Low, Thomas Häner, Damian S. Steiger, Markus Reiher, Martin Roetteler, Matthias Troyer:
Quantum computing enhanced computational catalysis. CoRR abs/2007.14460 (2020) - [i11]Thomas Häner, Samuel Jaques, Michael Naehrig, Martin Roetteler, Mathias Soeken:
Improved Quantum Circuits for Elliptic Curve Discrete Logarithms. IACR Cryptol. ePrint Arch. 2020: 77 (2020)
2010 – 2019
- 2019
- [j2]Damian S. Steiger, Thomas Häner, Matthias Troyer:
Advantages of a modular high-level quantum programming framework. Microprocess. Microsystems 66: 81-89 (2019) - 2018
- [c4]Mathias Soeken, Thomas Häner, Martin Roetteler:
Programming quantum computers using design automation. DATE 2018: 137-146 - [c3]Thomas Häner, Mathias Soeken, Martin Roetteler, Krysta M. Svore:
Quantum Circuits for Floating-Point Arithmetic. RC 2018: 162-174 - [i10]Mathias Soeken, Thomas Häner, Martin Roetteler:
Programming Quantum Computers Using Design Automation. CoRR abs/1803.01022 (2018) - [i9]Thomas Häner, Martin Roetteler, Krysta M. Svore:
Optimizing Quantum Circuits for Arithmetic. CoRR abs/1805.12445 (2018) - [i8]Damian S. Steiger, Thomas Häner, Matthias Troyer:
Advantages of a modular high-level quantum programming framework. CoRR abs/1806.01861 (2018) - [i7]Thomas Häner, Mathias Soeken, Martin Roetteler, Krysta M. Svore:
Quantum circuits for floating-point arithmetic. CoRR abs/1807.02023 (2018) - [i6]Thomas Häner, Martin Roetteler, Krysta M. Svore:
Managing approximation errors in quantum programs. CoRR abs/1807.02336 (2018) - [i5]Thomas Häner, Torsten Hoefler, Matthias Troyer:
Using Hoare logic for quantum circuit optimization. CoRR abs/1810.00375 (2018) - 2017
- [j1]Thomas Häner, Martin Roetteler, Krysta M. Svore:
Factoring using $2n+2$ qubits with Toffoli based modular multiplication. Quantum Inf. Comput. 17(7&8): 673-684 (2017) - [c2]Thomas Häner, Damian S. Steiger:
0.5 petabyte simulation of a 45-qubit quantum circuit. SC 2017: 33 - [i4]Thomas Häner, Damian S. Steiger:
0.5 Petabyte Simulation of a 45-Qubit Quantum Circuit. CoRR abs/1704.01127 (2017) - 2016
- [c1]Thomas Häner, Damian S. Steiger, Mikhail Smelyanskiy, Matthias Troyer:
High performance emulation of quantum circuits. SC 2016: 866-874 - [i3]Thomas Häner, Damian S. Steiger, Krysta M. Svore, Matthias Troyer:
A Software Methodology for Compiling Quantum Programs. CoRR abs/1604.01401 (2016) - [i2]Thomas Häner, Martin Roetteler, Krysta M. Svore:
Factoring using 2n+2 qubits with Toffoli based modular multiplication. CoRR abs/1611.07995 (2016) - [i1]Damian S. Steiger, Thomas Häner, Matthias Troyer:
ProjectQ: An Open Source Software Framework for Quantum Computing. CoRR abs/1612.08091 (2016)
Coauthor Index
aka: Martin Roetteler
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