• qHiPSTER

  • Referenced in 8 articles [sw27649]
  • classical computer, that can simulate general single-qubit gates and two-qubit controlled gates ... circuits (”quantum software”) of up to 40 qubits. We carry out a detailed performance analysis...
  • LIQUi

  • Referenced in 12 articles [sw26288]
  • allow a trade-off between number of qubits and class of operations. LIQUi|> has been...
  • QCWAVE

  • Referenced in 6 articles [sw06830]
  • action of one, two and three-qubit quantum gates as a set of small ... amplitudes for a system of nq qubits. This procedure was described in our parallel computer...
  • QSobel

  • Referenced in 8 articles [sw12660]
  • Because FRQI utilizes the superposition state of qubit sequence to store all the pixels...
  • FEYNMAN

  • Referenced in 5 articles [sw06056]
  • Simulation of n-qubit quantum systems. IV. Parametrizations of quantum states, matrices and probability distributions...
  • qasm2circ

  • Referenced in 2 articles [sw12679]
  • describing acyclic quantum circuits composed from single qubit, multiply controlled single-qubit gates, multiple-qubit ... multiple-qubit controlled multiple-qubit gates. qasm2circ is a package which converts a QASM file...
  • qTorch

  • Referenced in 4 articles [sw27767]
  • algorithm (QAOA), successfully simulating up to 100 qubits. We test two different methods for generating...
  • SimulaQron

  • Referenced in 2 articles [sw27768]
  • communication channels that enable the transmission of qubits between the different processors. While many simulators ... background to enable the transmission of qubits or the generation of entanglement between remote processors ... instructions and measurements, but also to transmit qubits to remote nodes in the network. SimulaQron...
  • nextnano

  • Referenced in 3 articles [sw11317]
  • optoelectronics, namely, 1) a realization of a qubit based on coupled quantum wires...
  • OpenFermion

  • Referenced in 3 articles [sw27769]
  • obtaining and manipulating representations of fermionic and qubit Hamiltonians...
  • RMDDS

  • Referenced in 1 article [sw23568]
  • scale to a large number of qubits (i.e., quantum bits). DDS tools, even though efficient ... large number of ancillary qubits and typically incur much higher quantum cost than necessary. RMDDS ... users can either optimize the number of qubits or the quantum cost in the circuit ... reversible functions, RMDDS reduces the number of qubits by up to 79.2% (average...
  • Quantum++

  • Referenced in 1 article [sw27766]
  • files. The library is not restricted to qubit systems or specific quantum information processing tasks ... successfully simulate the evolution of 25 qubits in a pure state or of 12 qubits...
  • BTSystem

  • Referenced in 2 articles [sw17632]
  • include qutrit (triplet), as well as qubit (binary) and hybrid qubit/qutrit systems in the associated...
  • nQML

  • Referenced in 1 article [sw22184]
  • using types that carry the address of qubits in the quantum state. We provide...
  • QuEST

  • Referenced in 1 article [sw27765]
  • machines to quickly simulate circuits on many qubits...
  • NASS

  • Referenced in 1 article [sw29048]
  • quantum image encryption algorithm based on n-qubit normal arbitrary superposition state (NASS) by using...
  • SQUAB

  • Referenced in 0 articles [sw17725]
  • detailed geometric layout of the qubits. To date, optimizing a surface code architecture and comparing...
  • pyGSTi

  • Referenced in 0 articles [sw30701]
  • QIPs), i.e., systems of one or more qubits...
  • BIGEBRA

  • Referenced in 14 articles [sw00078]
  • Clifford and Graßmann Hopf algebras via the BIGEBRA...