Construct and simulate partitioned quantum cellular automata
Project description
PQCA (Partitioned Quantum Cellular Automata)
A quantum cellular automaton iteratively applies some update circuit to some initial state. A partitioned quantum cellular automaton (PQCA) derives its update circuit by partitioning the lattice into cells, and then applying the same circuit to each cell. The full update circuit is created by composing several such partitioned updates. There is a review of Quantum Cellular Automata by Terry Farrelly, published in Quantum at doi:10.22331/q-2020-11-30-368.
This python module allows for the easy creation and execution of partitioned quantum cellular automata. To create an automaton you will need:
- A starting state (list of 0s and 1s)
- Update Frames (see
pqca.update_frame.py
) - A simulator / quantum computer (see
pqca.backend.py
)
An Update Frame combines a tessellation with a circuit to be applied
to each cell in that tessellation.
A tessellation just partitions a list of qubits into cells. For example
pqca.tessellation.one_dimensional(10,2)
partitions 10 qubits into 5 cells, each of size 2.
The Update Frame would then need to be a circuit on 2 qubits.
For more complicated tessellations you can use, e.g.
pqca.tessellation.n_dimensional([4,2,4],[2,2,2])
which partitions 32 qubits as though they were arranged in a lattice
of shape 4 x 2 x 4
, with each cell of size 2 x 2 x 2
.
The Update Frame would then need to be a circuit on 8 qubits.
The Automaton is called with automaton.iterate(n)
which will combine all the update frames into one large circuit,
and apply this circuit n
times,
recording the internal state after each application.
Installation
Install via pip
from the command line as:
pip install pqca
Example
Here is an example that creates two update frames, both applying a simple CX gate, but with offset tessellations.
# Create circuit
cx_circuit = qiskit.QuantumCircuit(2)
cx_circuit.cx(0, 1)
# Create tessellation
tes = pqca.tessellation.one_dimensional(10, 2)
# Create update frames
update_1 = pqca.UpdateFrame(tes, qiskit_circuit=cx_circuit)
update_2 = pqca.UpdateFrame(tes.shifted_by(1), qiskit_circuit=cx_circuit)
# Create initial state
initial_state = [1]*10
# Specify a backend
def backend(circuit):
return pqca.backend.Aer(circuit, "qasm_simulator")
# Create the automaton
automaton = pqca.Automaton(initial_state, [update_1, update_2], backend)
# Iterate the automaton 5 times
automaton.iterate(5)
Project details
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