示例#1
0
def result_monte():
    # Declare the models used in the circuit
    gc = siepic.ebeam_gc_te1550()
    y = siepic.ebeam_y_1550()
    wg150 = siepic.ebeam_wg_integral_1550(length=150e-6)
    wg50 = siepic.ebeam_wg_integral_1550(length=50e-6)

    # Create the circuit, add all individual instances
    circuit = Subcircuit("MZI")
    e = circuit.add([
        (gc, "input"),
        (gc, "output"),
        (y, "splitter"),
        (y, "recombiner"),
        (wg150, "wg_long"),
        (wg50, "wg_short"),
    ])

    # You can set pin names individually:
    circuit.elements["input"].pins["n2"] = "input"
    circuit.elements["output"].pins["n2"] = "output"

    # Or you can rename all the pins simultaneously:
    circuit.elements["splitter"].pins = ("in1", "out1", "out2")
    circuit.elements["recombiner"].pins = ("out1", "in2", "in1")

    # Circuits can be connected using the elements' string names:
    circuit.connect_many([
        ("input", "n1", "splitter", "in1"),
        ("splitter", "out1", "wg_long", "n1"),
        ("splitter", "out2", "wg_short", "n1"),
        ("recombiner", "in1", "wg_long", "n2"),
        ("recombiner", "in2", "wg_short", "n2"),
        ("output", "n1", "recombiner", "out1"),
    ])
    sim = MonteCarloSweepSimulation(circuit)
    return sim.simulate()
示例#2
0
文件: mzi_circuit.py 项目: tvt173/ubc
def mzi_circuit(L0=1, L1=100, L2=10):
    """ Mzi

    Args:
        L0: vertical length for both and top arms
        L1: bottom arm extra length
        L2: L_top horizontal length

    .. code::

               __L2__
               |      |
               L0     L0r
               |      |
     splitter==|      |==recombiner
               |      |
               L0     L0r
               |      |
               L1     L1
               |      |
               |__L2__|


    .. plot::
      :include-source:

      import pp

      c = pp.c.mzi(L0=0.1, L1=0, L2=10)
      pp.plotgds(c)

    """
    gc = siepic.ebeam_gc_te1550()
    y = siepic.ebeam_y_1550()
    wg_long = siepic.ebeam_wg_integral_1550(length=(2 * L0 + +L1 + L2) * 1e-6)
    wg_short = siepic.ebeam_wg_integral_1550(length=(2 * L0 + L2) * 1e-6)

    # Create the circuit, add all individual instances
    circuit = Subcircuit("MZI")
    circuit.add([
        (gc, "input"),
        (gc, "output"),
        (y, "splitter"),
        (y, "recombiner"),
        (wg_long, "wg_long"),
        (wg_short, "wg_short"),
    ])

    # You can set pin names individually:
    circuit.elements["input"].pins["n2"] = "input"
    circuit.elements["output"].pins["n2"] = "output"

    # Or you can rename all the pins simultaneously:
    circuit.elements["splitter"].pins = ("in1", "out1", "out2")
    circuit.elements["recombiner"].pins = ("out1", "in2", "in1")

    # Circuits can be connected using the elements' string names:
    circuit.connect_many([
        ("input", "n1", "splitter", "in1"),
        ("splitter", "out1", "wg_long", "n1"),
        ("splitter", "out2", "wg_short", "n1"),
        ("recombiner", "in1", "wg_long", "n2"),
        ("recombiner", "in2", "wg_short", "n2"),
        ("output", "n1", "recombiner", "out1"),
    ])
    return circuit
示例#3
0
 def test_ebeam_y_1550(self):
     assert is_equal(siepic.ebeam_y_1550(), ebeam.ebeam_y_1550())
示例#4
0
# Copyright © Simphony Project Contributors
# Licensed under the terms of the MIT License
# (see simphony/__init__.py for details)
#
# File: mzi.py

import matplotlib.pyplot as plt
import numpy as np

from simphony.library import siepic
from simphony.netlist import Subcircuit
from simphony.simulation import SweepSimulation, MonteCarloSweepSimulation

# Declare the models used in the circuit
gc = siepic.ebeam_gc_te1550()
y = siepic.ebeam_y_1550()
wg150 = siepic.ebeam_wg_integral_1550(length=150e-6)
wg50 = siepic.ebeam_wg_integral_1550(length=50e-6)

# Create the circuit, add all individual instances
circuit = Subcircuit('MZI')
e = circuit.add([
    (gc, 'input'),
    (gc, 'output'),
    (y, 'splitter'),
    (y, 'recombiner'),
    (wg150, 'wg_long'),
    (wg50, 'wg_short'),
])

# You can set pin names individually: