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Merge pull request #10 from qiboteam/pypkg

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Reorganize package and content v2
This commit is contained in:
nitinshivaraman
2023-02-08 10:49:36 +08:00
committed by GitHub
parent ee2e883f5e 82e8e872c0
commit 196a1bbd12
9 changed files with 394 additions and 330 deletions
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1
.github/workflows/rules.yml vendored
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@@ -18,4 +18,5 @@ jobs:
os: ${{ matrix.os }}
python-version: ${{ matrix.python-version }}
environment: "qibotn"
pip-extras: "analysis,tests"
secrets: inherit

239
.gitignore vendored
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@@ -1,129 +1,160 @@
# Byte-compiled / optimized / DLL files
__pycache__/
*.py[cod]
*$py.class
__pycache__/
*.py[cod]
*$py.class
# C extensions
*.so
# C extensions
*.so
# Distribution / packaging
.Python
build/
develop-eggs/
dist/
downloads/
eggs/
.eggs/
lib/
lib64/
parts/
sdist/
var/
wheels/
pip-wheel-metadata/
share/python-wheels/
*.egg-info/
.installed.cfg
*.egg
MANIFEST
# Distribution / packaging
.Python
build/
develop-eggs/
dist/
downloads/
eggs/
.eggs/
lib/
lib64/
parts/
sdist/
var/
wheels/
share/python-wheels/
*.egg-info/
.installed.cfg
*.egg
MANIFEST
# PyInstaller
# Usually these files are written by a python script from a template
# before PyInstaller builds the exe, so as to inject date/other infos into it.
*.manifest
*.spec
# PyInstaller
# Usually these files are written by a python script from a template
# before PyInstaller builds the exe, so as to inject date/other infos into it.
*.manifest
*.spec
# Installer logs
pip-log.txt
pip-delete-this-directory.txt
# Installer logs
pip-log.txt
pip-delete-this-directory.txt
# Unit test / coverage reports
htmlcov/
.tox/
.nox/
.coverage
.coverage.*
.cache
nosetests.xml
coverage.xml
*.cover
*.py,cover
.hypothesis/
.pytest_cache/
# Unit test / coverage reports
htmlcov/
.tox/
.nox/
.coverage
.coverage.*
.cache
nosetests.xml
coverage.xml
*.cover
*.py,cover
.hypothesis/
.pytest_cache/
cover/
# Translations
*.mo
*.pot
# Translations
*.mo
*.pot
# Django stuff:
*.log
local_settings.py
db.sqlite3
db.sqlite3-journal
# Django stuff:
*.log
local_settings.py
db.sqlite3
db.sqlite3-journal
# Flask stuff:
instance/
.webassets-cache
# Flask stuff:
instance/
.webassets-cache
# Scrapy stuff:
.scrapy
# Scrapy stuff:
.scrapy
# Sphinx documentation
docs/_build/
# Sphinx documentation
docs/_build/
# PyBuilder
target/
# PyBuilder
.pybuilder/
target/
# Jupyter Notebook
.ipynb_checkpoints
# Jupyter Notebook
.ipynb_checkpoints
# IPython
profile_default/
ipython_config.py
# IPython
profile_default/
ipython_config.py
# pyenv
.python-version
# pyenv
# For a library or package, you might want to ignore these files since the code is
# intended to run in multiple environments; otherwise, check them in:
# .python-version
# pipenv
# According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control.
# However, in case of collaboration, if having platform-specific dependencies or dependencies
# having no cross-platform support, pipenv may install dependencies that don't work, or not
# install all needed dependencies.
#Pipfile.lock
# pipenv
# According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control.
# However, in case of collaboration, if having platform-specific dependencies or dependencies
# having no cross-platform support, pipenv may install dependencies that don't work, or not
# install all needed dependencies.
#Pipfile.lock
# PEP 582; used by e.g. github.com/David-OConnor/pyflow
__pypackages__/
# poetry
# Similar to Pipfile.lock, it is generally recommended to include poetry.lock in version control.
# This is especially recommended for binary packages to ensure reproducibility, and is more
# commonly ignored for libraries.
# https://python-poetry.org/docs/basic-usage/#commit-your-poetrylock-file-to-version-control
#poetry.lock
# Celery stuff
celerybeat-schedule
celerybeat.pid
# pdm
# Similar to Pipfile.lock, it is generally recommended to include pdm.lock in version control.
#pdm.lock
# pdm stores project-wide configurations in .pdm.toml, but it is recommended to not include it
# in version control.
# https://pdm.fming.dev/#use-with-ide
.pdm.toml
# SageMath parsed files
*.sage.py
# PEP 582; used by e.g. github.com/David-OConnor/pyflow and github.com/pdm-project/pdm
__pypackages__/
# Environments
.env
.venv
env/
venv/
ENV/
env.bak/
venv.bak/
# Celery stuff
celerybeat-schedule
celerybeat.pid
# Spyder project settings
.spyderproject
.spyproject
# SageMath parsed files
*.sage.py
# Rope project settings
.ropeproject
# Environments
.env
.venv
env/
venv/
ENV/
env.bak/
venv.bak/
# mkdocs documentation
/site
# Spyder project settings
.spyderproject
.spyproject
# mypy
.mypy_cache/
.dmypy.json
dmypy.json
# Rope project settings
.ropeproject
# Pyre type checker
.pyre/
# mkdocs documentation
/site
# mypy
.mypy_cache/
.dmypy.json
dmypy.json
# Pyre type checker
.pyre/
# pytype static type analyzer
.pytype/
# Cython debug symbols
cython_debug/
# PyCharm
# JetBrains specific template is maintained in a separate JetBrains.gitignore that can
# be found at https://github.com/github/gitignore/blob/main/Global/JetBrains.gitignore
# and can be added to the global gitignore or merged into this file. For a more nuclear
# option (not recommended) you can uncomment the following to ignore the entire idea folder.
#.idea/

1
pyproject.toml
View File

@@ -4,3 +4,4 @@ output-format = "colorized"
[tool.pytest.ini_options]
testpaths = ["tests/"]
addopts = ["--cov=qibotn", "--cov-report=xml"]
env = ["D:NUMBA_DISABLE_JIT=1"]

15
setup.py
View File

@@ -1,4 +1,3 @@
# Installation script for python
from setuptools import setup, find_packages
import pathlib
@@ -24,12 +23,20 @@ setup(
"Topic :: Scientific/Engineering :: Physics",
],
install_requires=[
"quimb",
"qibo",
"qibo>=0.1.10",
"qibojit>=0.0.7",
"quimb[tensor]>=1.4.0",
],
extras_require={
"docs": [],
"tests": ["pytest", "pytest-cov"],
"tests": [
"pytest>=7.2.0",
"pytest-cov>=4.0.0",
"pytest-env>=0.8.1",
],
"analysis": [
"pylint>=2.16.0",
],
},
python_requires=">=3.7.0",
long_description=LONG_DESCRIPTION,

2
src/qibotn/__init__.py
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@@ -1 +1 @@
__version__ = "0.1"
__version__ = "0.0.1"

19
src/qibotn/__main__.py Normal file
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@@ -0,0 +1,19 @@
import argparse
from qibotn import qasm_quimb
def parser():
parser = argparse.ArgumentParser()
parser.add_argument(
"--nqubits", default=10, type=int, help="Number of quibits in the circuits."
)
return parser.parse_args()
def main(args: argparse.Namespace):
print("Testing for %d nqubits" % (args.nqubits))
qasm_quimb.eval_QI_qft(args.nqubits)
if __name__ == "__main__":
main(parser())

214
src/qibotn/qasm_quimb.py Normal file
View File

@@ -0,0 +1,214 @@
import re
import copy
from timeit import default_timer as timer
import numpy as np
import quimb as qu
import quimb.tensor as qtn
import qibo
from qibo.models import QFT as qibo_qft
def get_gate_params(operation):
if "h " in operation:
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no.insert(0, "H")
elif "x " in operation:
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no.insert(0, "X")
elif "y " in operation:
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no.insert(0, "Y")
elif "z " in operation:
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no.insert(0, "Z")
elif "s " in operation:
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no.insert(0, "S")
elif "t " in operation:
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no.insert(0, "T")
elif "cu1" in operation:
lamda = float(
".".join(re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0]))
)
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["CU1", lamda]
elif "cu2" in operation:
angles = re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0])
phi = float(".".join(angles[0:2]))
lamba = float(".".join(angles[2:]))
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["CU2", phi, lamda]
elif "cu3" in operation:
angles = re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0])
theta = float(".".join(angles[0:2]))
phi = float(".".join(angles[2:4]))
lamba = float(".".join(angles[4:]))
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["CU3", theta, phi, lamda]
elif " cx " in operation:
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CX")
elif " cy " in operation:
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CY")
elif " cz " in operation:
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CZ")
elif " ccx " in operation:
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CCX")
elif " ccy " in operation:
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CCY")
elif " ccz " in operation:
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CCZ")
elif " rx " in operation:
theta = float(
".".join(re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0]))
)
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no[0:0] = ["RX", theta]
elif "^ry " in operation:
theta = float(
".".join(re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0]))
)
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no[0:0] = ["RY", theta]
elif "^rz " in operation:
theta = float(
".".join(re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0]))
)
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no[0:0] = ["RZ", theta]
elif "^rzz " in operation:
theta = float(
".".join(re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0]))
)
qbit_no = re.findall(r"\d+", operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["RZZ", theta]
elif "^u1 " in operation:
lamda = float(
".".join(re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0]))
)
qbit_no = [int(re.findall(r"\d+", operation)[0])]
qbit_no[0:0] = ["U1", lamda]
elif "^u2 " in operation:
angles = re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0])
phi = float(".".join(angles[0:2]))
lamba = float(".".join(angles[2:]))
qbit_no = int(re.findall(r"\d+", operation)[0])
qbit_no[0:0] = ["U2", phi, lamda] # pylint: disable=E1137
elif "^u3 " in operation:
angles = re.findall(r"\b\d+(?:[Ee][+-]?\d+)?", operation.split(" ")[0])
theta = float(".".join(angles[0:2]))
phi = float(".".join(angles[2:4]))
lamba = float(".".join(angles[4:]))
qbit_no = int(re.findall(r"\d+", operation)[0])
qbit_no[0:0] = ["U3", theta, phi, lamda] # pylint: disable=E1137
else:
assert "Unsupported gate"
return qbit_no
def get_gate_functions(qasm_str, start_idx):
func_list = []
result = []
idx_inc = 0
for line in qasm_str[start_idx:]:
if "gate " in line:
result = re.findall("[^,\s()]+", line)
elif result and "{" not in line and "}" not in line:
params = get_gate_params(line)
func_list.append(*params)
elif "}" in line:
print("Returning the list")
print(func_list)
return func_list, idx_inc
idx_inc += 1
def qasm_QFT(nqubits: int, qasm_str: str, with_swaps: bool = True, psi0=None):
circ = qtn.Circuit(nqubits, psi0=psi0)
qasm_str = qasm_str.split("\n")
for idx, line in enumerate(qasm_str):
command = line.split(" ")[0]
if re.search("include|//|OPENQASM", command):
continue
elif "qreg" in command:
nbits = int(re.findall(r"\d+", line)[0])
assert nbits == nqubits
elif "swap" in command:
break
elif "gate" in command: # TODO: Complete gate handling
gate_func, increment = get_gate_functions(qasm_str, idx)
pass
elif "barrier" in command: # TODO: Complete barrier handling
pass
elif "measure" in command: # TODO: Complete measure handling
pass
else:
params = get_gate_params(line)
circ.apply_gate(*params)
if with_swaps:
for i in range(nqubits // 2): # TODO: Ignore the barrier indices?
circ.apply_gate("SWAP", i, nqubits - i - 1)
return circ
def eval_QI_qft(nqubits, backend="numpy", qibo_backend="qibojit", with_swaps=True):
# backend (quimb): numpy, cupy, jax. Passed to ``opt_einsum``.
# qibo_backend: qibojit, qibotf, tensorflow, numpy
# generate random statevector as initial state
init_state = np.random.random(2**nqubits) + 1j * np.random.random(2**nqubits)
init_state = init_state / np.sqrt((np.abs(init_state) ** 2).sum())
init_state_quimb = copy.deepcopy(init_state)
# Qibo circuit
# qibo.set_backend(backend=qibo_backend, platform="numba")
qibo.set_backend(backend=qibo_backend, platform="numpy")
start = timer()
circ_qibo = qibo_qft(nqubits, with_swaps)
amplitudes_reference = np.array(circ_qibo(init_state))
end = timer()
print("qibo time is " + str(end - start))
qasm_circ = circ_qibo.to_qasm()
#####################################################################
# Quimb circuit
qu.core.pnjit()
# convert vector to MPS
dims = tuple(2 * np.ones(nqubits, dtype=int))
init_state_MPS = qtn.tensor_1d.MatrixProductState.from_dense(init_state_quimb, dims)
# construct quimb qft circuit
start = timer()
circ_quimb = qasm_QFT(nqubits, qasm_circ, with_swaps, psi0=init_state_MPS)
interim = circ_quimb.psi.full_simplify(seq="DRC")
result = interim.to_dense(backend=backend)
amplitudes = result.flatten()
end = timer()
quimb_qft_time = end - start
print("quimb time is " + str(quimb_qft_time))
assert np.allclose(amplitudes, amplitudes_reference, atol=1e-06)

221
src/qibotn/test_qasm_quimb_backend.py
View File

@@ -1,221 +0,0 @@
import argparse
import quimb as qu
import quimb.tensor as qtn
import numpy as np
import re, copy
import qibo
from qibo.models import QFT as qibo_qft
from timeit import default_timer as timer
def get_gate_params(operation):
if "h " in operation:
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no.insert(0, "H")
elif "x " in operation:
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no.insert(0, "X")
elif "y " in operation:
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no.insert(0, "Y")
elif "z " in operation:
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no.insert(0, "Z")
elif "s " in operation:
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no.insert(0, "S")
elif "t " in operation:
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no.insert(0, "T")
elif "cu1" in operation:
lamda = float('.'.join(re.findall(r'\b\d+(?:[Ee][+-]?\d+)?', \
operation.split(" ")[0])))
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["CU1", lamda]
elif "cu2" in operation:
angles = re.findall(r'\b\d+(?:[Ee][+-]?\d+)?',operation.split(" ")[0])
phi = float('.'.join(angles[0:2]))
lamba = float('.'.join(angles[2:]))
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["CU2", phi, lamda]
elif "cu3" in operation:
angles = re.findall(r'\b\d+(?:[Ee][+-]?\d+)?',operation.split(" ")[0])
theta = float('.'.join(angles[0:2]))
phi = float('.'.join(angles[2:4]))
lamba = float('.'.join(angles[4:]))
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["CU3", theta, phi, lamda]
elif " cx " in operation:
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CX")
elif " cy " in operation:
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CY")
elif " cz " in operation:
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CZ")
elif " ccx " in operation:
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CCX")
elif " ccy " in operation:
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CCY")
elif " ccz " in operation:
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no.insert(0, "CCZ")
elif " rx " in operation:
theta = float('.'.join(re.findall(r'\b\d+(?:[Ee][+-]?\d+)?', \
operation.split(" ")[0])))
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no[0:0] = ["RX", theta]
elif "^ry " in operation:
theta = float('.'.join(re.findall(r'\b\d+(?:[Ee][+-]?\d+)?', \
operation.split(" ")[0])))
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no[0:0] = ["RY", theta]
elif "^rz " in operation:
theta = float('.'.join(re.findall(r'\b\d+(?:[Ee][+-]?\d+)?', \
operation.split(" ")[0])))
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no[0:0] = ["RZ", theta]
elif "^rzz " in operation:
theta = float('.'.join(re.findall(r'\b\d+(?:[Ee][+-]?\d+)?', \
operation.split(" ")[0])))
qbit_no = re.findall(r'\d+', operation.split(" ")[1])
qbit_no = [int(x) for x in qbit_no]
qbit_no[0:0] = ["RZZ", theta]
elif "^u1 " in operation:
lamda = float('.'.join(re.findall(r'\b\d+(?:[Ee][+-]?\d+)?', \
operation.split(" ")[0])))
qbit_no = [int(re.findall(r'\d+', operation)[0])]
qbit_no[0:0] = ["U1", lamda]
elif "^u2 " in operation:
angles = re.findall(r'\b\d+(?:[Ee][+-]?\d+)?',operation.split(" ")[0])
phi = float('.'.join(angles[0:2]))
lamba = float('.'.join(angles[2:]))
qbit_no = int(re.findall(r'\d+', operation)[0])
qbit_no[0:0] = ["U2", phi, lamda]
elif "^u3 " in operation:
angles = re.findall(r'\b\d+(?:[Ee][+-]?\d+)?',operation.split(" ")[0])
theta = float('.'.join(angles[0:2]))
phi = float('.'.join(angles[2:4]))
lamba = float('.'.join(angles[4:]))
qbit_no = int(re.findall(r'\d+', operation)[0])
qbit_no[0:0] = ["U3", theta, phi, lamda]
else:
assert("Unsupported gate")
return qbit_no
def get_gate_functions(qasm_str, start_idx):
func_list = []
result = []
idx_inc = 0
for line in qasm_str[start_idx:]:
if "gate " in line:
result = re.findall("[^,\s()]+", line)
elif result and "{" not in line and "}" not in line:
params = get_gate_params(line)
func_list.append(*params)
elif "}" in line:
print("Returning the list")
print(func_list)
return func_list, idx_incsss
idx_inc += 1
def qasm_QFT(nqubits:int, qasm_str:str, with_swaps: bool = True, psi0 = None):
circ = qtn.Circuit(nqubits, psi0 = psi0)
qasm_str = qasm_str.split('\n')
for idx, line in enumerate(qasm_str):
command = line.split(" ")[0]
if re.search("include|//|OPENQASM", command):
continue
elif "qreg" in command:
nbits = int(re.findall(r'\d+', line)[0])
assert(nbits == nqubits)
elif "swap" in command:
break
elif "gate" in command: # TODO: Complete gate handling
gate_func, increment = get_gate_functions(qasm_str, idx)
pass
elif "barrier" in command: # TODO: Complete barrier handling
pass
elif "measure" in command: # TODO: Complete measure handling
pass
else:
params = get_gate_params(line)
circ.apply_gate(*params)
if with_swaps:
for i in range(nqubits // 2): # TODO: Ignore the barrier indices?
circ.apply_gate('SWAP', i, nqubits - i - 1)
return circ
def eval_QI_qft(nqubits, backend='numpy', qibo_backend='qibojit', \
with_swaps=True):
# backend (quimb): numpy, cupy, jax. Passed to ``opt_einsum``.
# qibo_backend: qibojit, qibotf, tensorflow, numpy
# generate random statevector as initial state
init_state = np.random.random(2 ** nqubits) + 1j * \
np.random.random(2 ** nqubits)
init_state = init_state / np.sqrt((np.abs(init_state)**2).sum())
init_state_quimb = copy.deepcopy(init_state)
# Qibo circuit
# qibo.set_backend(backend=qibo_backend, platform="numba")
qibo.set_backend(backend=qibo_backend, platform="numpy")
start = timer()
circ_qibo = qibo_qft(nqubits, with_swaps)
amplitudes_reference = np.array(circ_qibo(init_state))
end = timer()
print("qibo time is " + str(end-start))
qasm_circ = circ_qibo.to_qasm()
#####################################################################
# Quimb circuit
qu.core.pnjit()
## convert vector to MPS
dims = tuple(2*np.ones(nqubits, dtype=int))
init_state_MPS = qtn.tensor_1d.MatrixProductState.from_dense \
(init_state_quimb, dims)
# construct quimb qft circuit
start = timer()
circ_quimb = qasm_QFT(nqubits, qasm_circ, with_swaps, psi0=init_state_MPS)
interim = circ_quimb.psi.full_simplify(seq="DRC")
result = interim.to_dense(backend=backend)
amplitudes = result.flatten()
end = timer()
quimb_qft_time = end-start
print("quimb time is " + str(quimb_qft_time))
assert(np.allclose(amplitudes,amplitudes_reference,atol=1e-06))
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument("--nqubits", default=10, type=int,
help="Number of quibits in the circuits.")
args = parser.parse_args()
print("Testing for %d nqubits" % (args.nqubits))
result = eval_QI_qft(args.nqubits)

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tests/test_qasm_quimb_backend.py Normal file
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import os
import pytest
@pytest.mark.parametrize("nqubits", [1, 2, 5, 10])
def test_eval(nqubits: int):
os.environ["QUIMB_NUM_PROCS"] = str(os.cpu_count())
from qibotn import qasm_quimb
print(f"Testing for {nqubits} nqubits")
result = qasm_quimb.eval_QI_qft(nqubits)