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wrpll-simulation
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Author SHA1 Message Date
morgan 6f475e5c20 replace old example and update performance docs 2024-01-26 16:58:50 +08:00
morgan 547a02e6d3 sim: add step input to gtx 2024-01-26 16:58:50 +08:00
morgan 39bb656f85 sim: replace beating period error formula 2024-01-26 16:58:49 +08:00
morgan 5a9fa937ee sim: refactor into OOP & add FW collector 2024-01-26 16:58:43 +08:00
morgan f7a1d17628 notebook: convert all ipynb to py scripts 2024-01-22 10:35:21 +08:00
morgan 66d895bf0d toolchain: add jupytext to poetry and flake 2024-01-22 10:27:02 +08:00
morgan bfe15a558a flake: update poetry2nix & remove scipy override 2024-01-16 17:30:17 +08:00
morgan 203bff205d formatting: add flake8-black 
py: format using black
poetry: add flake8-black
flake: add buildInputs for flake8-black
 2024-01-11 17:20:20 +08:00
15 changed files with 753 additions and 919 deletions
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7
README.md
View File

@ -29,12 +29,7 @@ nix develop
- RAM usage and execution time estimate for simulation **ONLY** - RAM usage and execution time estimate for simulation **ONLY**
1. 100,000,000 time steps: 6GiB RAM and 12 seconds - 500,000,000 time steps: 8GiB RAM and 55 seconds
2. 200,000,000 time steps: 11GiB RAM and 20 seconds
3. 300,000,000 time steps: 16GiB RAM and 35 seconds
<br> <br>
<details><summary><b>WRPLL formulas</b></summary> <details><summary><b>WRPLL formulas</b></summary>

6
flake.lock
View File

@ -66,11 +66,11 @@
"treefmt-nix": "treefmt-nix" "treefmt-nix": "treefmt-nix"
}, },
"locked": { "locked": {
"lastModified": 1702365004, "lastModified": 1705060653,
"narHash": "sha256-IRFvmyP1uk1hchRVxaXTqu6YoZCvMM/NVtUf2hD2Tag=", "narHash": "sha256-puYyylgrBS4AFAHeyVRTjTUVD8DZdecJfymWJe7H438=",
"owner": "nix-community", "owner": "nix-community",
"repo": "poetry2nix", "repo": "poetry2nix",
"rev": "c12ac880114d52a3cad5fa02b00f2e2090e89982", "rev": "e0b44e9e2d3aa855d1dd77b06f067cd0e0c3860d",
"type": "github" "type": "github"
}, },
"original": { "original": {

9
flake.nix
View File

@ -32,8 +32,13 @@
old: { old: {
buildInputs = (old.buildInputs or [ ]) ++ [ super.poetry-core ]; buildInputs = (old.buildInputs or [ ]) ++ [ super.poetry-core ];
}); });
scipy = super.scipy.override { flake8-black = super.flake8-black.overridePythonAttrs (
# fail to build # ModuleNotFoundError: No module named 'setuptools'
old: {
buildInputs = (old.buildInputs or [ ]) ++ [ super.setuptools ];
});
jupytext = super.jupytext.override {
# bypass error: metadata-generation-failed
preferWheel = true; preferWheel = true;
}; };
}); });

229
poetry.lock generated
View File

@ -204,6 +204,50 @@ soupsieve = ">1.2"
html5lib = ["html5lib"] html5lib = ["html5lib"]
lxml = ["lxml"] lxml = ["lxml"]
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python-versions = ">=3.8"
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@ -593,6 +637,40 @@ files = [
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[[package]] [[package]]
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@ -1131,6 +1209,35 @@ files = [
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mdit-py-plugins = "*"
nbformat = "*"
packaging = "*"
pyyaml = "*"
toml = "*"
[package.extras]
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docs = ["myst-parser", "sphinx", "sphinx-copybutton", "sphinx-rtd-theme"]
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test-cov = ["jupytext[test-integration]", "pytest-cov (>=2.6.1)"]
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test-integration = ["ipykernel", "jupyter-server (!=2.11)", "jupytext[test-functional]", "nbconvert"]
test-ui = ["calysto-bash"]
[[package]] [[package]]
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@ -1164,6 +1271,30 @@ files = [
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linkify = ["linkify-it-py (>=1,<3)"]
plugins = ["mdit-py-plugins"]
profiling = ["gprof2dot"]
rtd = ["jupyter_sphinx", "mdit-py-plugins", "myst-parser", "pyyaml", "sphinx", "sphinx-copybutton", "sphinx-design", "sphinx_book_theme"]
testing = ["coverage", "pytest", "pytest-cov", "pytest-regressions"]
[[package]] [[package]]
name = "markupsafe" name = "markupsafe"
version = "2.1.3" version = "2.1.3"
@ -1247,6 +1378,47 @@ files = [
[package.dependencies] [package.dependencies]
traitlets = "*" traitlets = "*"
[[package]]
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description = "McCabe checker, plugin for flake8"
optional = false
python-versions = ">=3.6"
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rtd = ["myst-parser", "sphinx-book-theme"]
testing = ["coverage", "pytest", "pytest-cov", "pytest-regressions"]
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@ -1642,6 +1825,17 @@ files = [
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@ -1790,6 +1984,17 @@ files = [
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tests = ["pytest"] tests = ["pytest"]
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name = "pygments" name = "pygments"
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@ -2458,6 +2674,17 @@ webencodings = ">=0.4"
doc = ["sphinx", "sphinx_rtd_theme"] doc = ["sphinx", "sphinx_rtd_theme"]
test = ["flake8", "isort", "pytest"] test = ["flake8", "isort", "pytest"]
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python-versions = ">=2.6, !=3.0.*, !=3.1.*, !=3.2.*"
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name = "tornado" name = "tornado"
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@ -2739,4 +2966,4 @@ testing = ["big-O", "jaraco.functools", "jaraco.itertools", "more-itertools", "p
[metadata] [metadata]
lock-version = "2.0" lock-version = "2.0"
python-versions = "^3.11" python-versions = "^3.11"
content-hash = "121a69b8179bfa06910de0f2fd41aa135a5a4822061538b5c021ba0641e5fa1a" content-hash = "5c5b288075581046408471099dc252467fad16a37215d5ad9f1ccb1b5f079821"

2
pyproject.toml
View File

@ -16,6 +16,8 @@ numba = "^0.58.1"
pandas = "^2.1.4" pandas = "^2.1.4"
plotly = "^5.18.0" plotly = "^5.18.0"
plotly-resampler = "^0.9.1" plotly-resampler = "^0.9.1"
flake8-black = "^0.3.6"
jupytext = "^1.16.1"
[build-system] [build-system]

68
src/WRPLL_timesim_example.py Normal file
View File

@ -0,0 +1,68 @@
# %%
from plotly_resampler import FigureWidgetResampler
from plotly.subplots import make_subplots
import plotly.graph_objects as go
import numpy as np
from wrpll_simulation.config import Timesim_Config, PI_Config
from wrpll_simulation.timesim import WRPLL_Timesim
# %%
KP, KI = 6, 2
sim_config = Timesim_Config(
timestep_size=1e-11,
sim_length=500_000_000,
helper_PI=PI_Config(KP=KP, KI=KI),
main_PI=PI_Config(KP=KP, KI=KI),
has_jitter=False,
step_input_time=10e-6,
step_frequency=6.25,
step_phase=0,
)
sim = WRPLL_Timesim(sim_config, np.random.default_rng(1))
fig = FigureWidgetResampler(make_subplots(rows=2))
# ROW 1
fig.add_trace(
go.Scattergl(name="main - gtx freq diff"),
hf_x=sim.time,
hf_y=sim.freq_diff,
row=1,
col=1,
)
# ROW 2
fig.add_trace(
go.Scattergl(name="main - gtx phase diff"),
hf_x=sim.time,
hf_y=sim.phase_diff,
row=2,
col=1,
)
title = (
f'step freq = {sim_config.step_frequency}Hz, '
f'step phase = {sim_config.step_phase}° | '
f'KP = {KP}, KI = {KI}'
)
fig.update_layout(
xaxis2=dict(title="Time (sec)", exponentformat="SI"),
yaxis1=dict(title="Frequency (Hz)"),
yaxis2=dict(title="Phase (degree)"),
height=950,
showlegend=True,
title_text=title,
legend=dict(
orientation="h",
yanchor="bottom",
y=1.02,
xanchor="right",
x=1,
),
)
fig
# %%

158
src/both_PLL_example.ipynb
View File

@ -1,158 +0,0 @@
{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Both PLL mode example\n",
"\n",
"Time domain simulation with helper and main PLL mode. \n",
"\n",
"- Period error (**Helper PLL**)\n",
" - $\\Delta{period} = N - (tag_{gtx}[n] - tag_{gtx}[n-1]) $\n",
" - where ideally $f_{helper} = \\dfrac{f_{in} * (N-1)}{N}$ \n",
"\n",
"- Phase error (**Main PLL**)\n",
" - $\\text{Let } \\Delta tag[n] = tag_{main}[n] - tag_{gtx}[n] \\text{ mod N}$\n",
"\n",
" - $\\Delta\\phi[n] = \\begin{cases}\n",
" \\Delta tag[n] - N, & \\text{if } \\Delta tag > N/2 \\\\\n",
" \\Delta tag[n], & otherwise\n",
" \\end{cases} \\quad$\n",
" \n",
"\n",
"- ADPLL PID (common for main and helper PLL)\n",
" - $P[n] = err[n] * K_P$\n",
" - $I[n] = I[n-1] + err[n] * K_I$\n",
" - $D[n] = (err[n] - err[n-1]) * K_D$\n",
" - $adpll[n] = \\text{base adpll} + P[i] + I[n] + D[n] $\n",
" - where $\\text{base adpll}$ is constant and obtain from frequency counter in HW"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"from plotly_resampler import FigureResampler, FigureWidgetResampler\n",
"from plotly.subplots import make_subplots\n",
"import plotly.graph_objects as go\n",
"import numpy as np\n",
"from wrpll_simulation.wrpll import WRPLL_simulator"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# settings\n",
"timestep = 1e-10\n",
"total_steps = 200_000_000\n",
"sim_mode = \"both\"\n",
"adpll_period = 200e-6 # in seconds, the period that pll will trigger, (minimum > total DCXO frequency change delay)\n",
"start_up_delay = 100e-6 # in seconds, the frequency adjustment is DISABLE until time > start_up_delay\n",
"\n",
"gtx_freq = 125_001_519\n",
"\n",
"\n",
"helper_filter = {\n",
" \"KP\": 2,\n",
" \"KI\": 0.5,\n",
" \"KD\": 0,\n",
"}\n",
"\n",
"main_filter = {\n",
" \"KP\": 12,\n",
" \"KI\": 0,\n",
" \"KD\": 0,\n",
"}\n",
"\n",
"\n",
"# simulation have RNG for\n",
"# - gtx, main and helper jitter\n",
"# - starting phase for main and helper\n",
"# - base_adpll error\n",
"\n",
"wrpll_sim = WRPLL_simulator(\n",
" timestep=timestep,\n",
" total_steps=total_steps,\n",
" sim_mode=sim_mode,\n",
" helper_filter=helper_filter,\n",
" main_filter=main_filter,\n",
" gtx_freq=gtx_freq,\n",
" adpll_write_period=adpll_period,\n",
" start_up_delay=start_up_delay,\n",
")\n",
"wrpll_sim.run()"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# faster than pyplot with resampling feature\n",
"# see https://github.com/predict-idlab/plotly-resampler\n",
"\n",
"fig = FigureWidgetResampler(make_subplots(rows=4, shared_xaxes=True))\n",
"fig.add_trace(go.Scattergl(name='phase error'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.phase_err, row=1, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='freq error (ppm)'), hf_x=wrpll_sim.time, hf_y=(\n",
" wrpll_sim.mainfreq-gtx_freq) * (1e6/gtx_freq), row=2, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='period error'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.period_err, row=3, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='gtx'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.gtx+1, row=4, col=1)\n",
"fig.add_trace(go.Scattergl(name='main'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.main, row=4, col=1)\n",
"fig.add_trace(go.Scattergl(name='helper'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.helper-1, row=4, col=1)\n",
"\n",
"\n",
"fig.update_layout(\n",
" xaxis4=dict(title=\"time (sec)\"),\n",
" yaxis1=dict(title=\"phase error\"),\n",
" yaxis2=dict(title=\"freq error (ppm)\"),\n",
" yaxis3=dict(title=\"beating period error\"),\n",
" yaxis4=dict(title=\"Signal\"),\n",
"\n",
" height=1000,\n",
" showlegend=True,\n",
" title_text=\"PLL example\",\n",
" legend=dict(\n",
" orientation=\"h\",\n",
" yanchor=\"bottom\",\n",
" y=1.02,\n",
" xanchor=\"right\",\n",
" x=1,\n",
" ),\n",
")\n",
"\n",
"fig"
]
}
],
"metadata": {
"kernelspec": {
"display_name": "Python 3 (ipykernel)",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.11.6"
}
},
"nbformat": 4,
"nbformat_minor": 4
}

149
src/helper_PLL_example.ipynb
View File

@ -1,149 +0,0 @@
{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Helper PLL mode example\n",
"\n",
"Time domain simulation with helper PLL mode\n",
"\n",
"- Period error (**Helper PLL**)\n",
" - $\\Delta{period} = N - (tag_{gtx}[n] - tag_{gtx}[n-1]) $\n",
" - where ideally $f_{helper} = \\dfrac{f_{in} * (N-1)}{N}$ \n",
"\n",
"- Phase error (**Main PLL**)\n",
" - $\\text{Let } \\Delta tag[n] = tag_{main}[n] - tag_{gtx}[n] \\text{ mod N}$\n",
"\n",
" - $\\Delta\\phi[n] = \\begin{cases}\n",
" \\Delta tag[n] - N, & \\text{if } \\Delta tag > N/2 \\\\\n",
" \\Delta tag[n], & otherwise\n",
" \\end{cases} \\quad$\n",
" \n",
"\n",
"- ADPLL PID (common for main and helper PLL)\n",
" - $P[n] = err[n] * K_P$\n",
" - $I[n] = I[n-1] + err[n] * K_I$\n",
" - $D[n] = (err[n] - err[n-1]) * K_D$\n",
" - $adpll[n] = \\text{base adpll} + P[i] + I[n] + D[n] $\n",
" - where $\\text{base adpll}$ is constant and obtain from frequency counter in HW"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"from plotly_resampler import FigureResampler, FigureWidgetResampler\n",
"from plotly.subplots import make_subplots\n",
"import plotly.graph_objects as go\n",
"import numpy as np\n",
"from wrpll_simulation.wrpll import WRPLL_simulator"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# settings\n",
"timestep = 1e-10\n",
"total_steps = 100_000_000\n",
"sim_mode = \"helper_pll\"\n",
"adpll_period = 200e-6 # in seconds, the period that pll will trigger, (minimum > total DCXO frequency change delay)\n",
"start_up_delay = 100e-6 # in seconds, the frequency adjustment is DISABLE until time > start_up_delay\n",
"\n",
"gtx_freq = 125_001_519\n",
"\n",
"helper_filter = {\n",
" \"KP\": 2,\n",
" \"KI\": 0.5,\n",
" \"KD\": 0,\n",
"}\n",
"\n",
"main_filter = { # unused\n",
" \"KP\": 12,\n",
" \"KI\": 0,\n",
" \"KD\": 0,\n",
"}\n",
"\n",
"# simulation have RNG for\n",
"# - gtx, main and helper jitter\n",
"# - starting phase for main and helper\n",
"# - base_adpll error\n",
"\n",
"wrpll_sim = WRPLL_simulator(\n",
" timestep=timestep,\n",
" total_steps=total_steps,\n",
" sim_mode=sim_mode,\n",
" helper_filter=helper_filter,\n",
" main_filter=main_filter,\n",
" gtx_freq=gtx_freq,\n",
" adpll_write_period=adpll_period,\n",
" start_up_delay=start_up_delay,\n",
")\n",
"wrpll_sim.run()"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# faster than pyplot with resampling feature\n",
"# see https://github.com/predict-idlab/plotly-resampler\n",
"\n",
"fig = FigureWidgetResampler(make_subplots(rows=2, shared_xaxes=True))\n",
"fig.add_trace(go.Scattergl(name='period error'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.period_err, row=1, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='gtx'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.gtx+1, row=2, col=1)\n",
"fig.add_trace(go.Scattergl(name='main'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.main, row=2, col=1)\n",
"fig.add_trace(go.Scattergl(name='helper'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.helper-1, row=2, col=1)\n",
"\n",
"\n",
"fig.update_layout(\n",
" xaxis2=dict(title=\"time (sec)\"),\n",
"\n",
" yaxis1=dict(title=\"beating period error\"),\n",
" yaxis2=dict(title=\"Signal\"),\n",
" height=1000,\n",
" showlegend=True,\n",
" title_text=\"PLL example\",\n",
" legend=dict(\n",
" orientation=\"h\",\n",
" yanchor=\"bottom\",\n",
" y=1.02,\n",
" xanchor=\"right\",\n",
" x=1,\n",
" ),\n",
")\n",
"\n",
"fig"
]
}
],
"metadata": {
"kernelspec": {
"display_name": "Python 3 (ipykernel)",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.11.6"
}
},
"nbformat": 4,
"nbformat_minor": 4
}

164
src/main_PLL_example.ipynb
View File

@ -1,164 +0,0 @@
{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Main PLL mode example\n",
"\n",
"Time domain simulation with main PLL mode, and helper PLL is assumed to be locked \n",
"\n",
"(`helper_init_freq` variable need to be set)\n",
"\n",
"\n",
"- Period error (**Helper PLL**)\n",
" - $\\Delta{period} = N - (tag_{gtx}[n] - tag_{gtx}[n-1]) $\n",
" - where ideally $f_{helper} = \\dfrac{f_{in} * (N-1)}{N}$ \n",
"\n",
"- Phase error (**Main PLL**)\n",
" - $\\text{Let } \\Delta tag[n] = tag_{main}[n] - tag_{gtx}[n] \\text{ mod N}$\n",
"\n",
" - $\\Delta\\phi[n] = \\begin{cases}\n",
" \\Delta tag[n] - N, & \\text{if } \\Delta tag > N/2 \\\\\n",
" \\Delta tag[n], & otherwise\n",
" \\end{cases} \\quad$\n",
" \n",
"\n",
"- ADPLL PID (common for main and helper PLL)\n",
" - $P[n] = err[n] * K_P$\n",
" - $I[n] = I[n-1] + err[n] * K_I$\n",
" - $D[n] = (err[n] - err[n-1]) * K_D$\n",
" - $adpll[n] = \\text{base adpll} + P[i] + I[n] + D[n] $\n",
" - where $\\text{base adpll}$ is constant and obtain from frequency counter in HW"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"from plotly_resampler import FigureResampler, FigureWidgetResampler\n",
"from plotly.subplots import make_subplots\n",
"import plotly.graph_objects as go\n",
"import numpy as np\n",
"from wrpll_simulation.wrpll import WRPLL_simulator"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# settings\n",
"timestep = 1e-10\n",
"total_steps = 100_000_000\n",
"sim_mode = \"main_pll\"\n",
"adpll_period = 200e-6 # in seconds, the period that pll will trigger, (minimum > total DCXO frequency change delay)\n",
"start_up_delay = 100e-6 # in seconds, the frequency adjustment is DISABLE until time > start_up_delay\n",
"\n",
"gtx_freq = 125_001_519\n",
"\n",
"helper_init_freq = gtx_freq * (4096-1)/4096\n",
"\n",
"helper_filter = { # unused\n",
" \"KP\": 2,\n",
" \"KI\": 0.5,\n",
" \"KD\": 0,\n",
"}\n",
"\n",
"main_filter = {\n",
" \"KP\": 12,\n",
" \"KI\": 0,\n",
" \"KD\": 0,\n",
"}\n",
"\n",
"\n",
"# simulation have RNG for\n",
"# - gtx, main and helper jitter\n",
"# - starting phase for main and helper\n",
"# - base_adpll error\n",
"\n",
"\n",
"wrpll_sim = WRPLL_simulator(\n",
" timestep=timestep,\n",
" total_steps=total_steps,\n",
" sim_mode=sim_mode,\n",
" helper_filter=helper_filter,\n",
" main_filter=main_filter,\n",
" gtx_freq=gtx_freq,\n",
" adpll_write_period=adpll_period,\n",
" start_up_delay=start_up_delay,\n",
" helper_init_freq=helper_init_freq\n",
")\n",
"wrpll_sim.run()"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# faster than pyplot with resampling feature\n",
"# see https://github.com/predict-idlab/plotly-resampler\n",
"\n",
"fig = FigureWidgetResampler(make_subplots(rows=4, shared_xaxes=True))\n",
"fig.add_trace(go.Scattergl(name='phase error'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.phase_err, row=1, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='freq error (ppm)'), hf_x=wrpll_sim.time, hf_y=(\n",
" wrpll_sim.mainfreq-gtx_freq) * (1e6/gtx_freq), row=2, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='period error'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.period_err, row=3, col=1)\n",
"\n",
"fig.add_trace(go.Scattergl(name='gtx'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.gtx+1, row=4, col=1)\n",
"fig.add_trace(go.Scattergl(name='main'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.main, row=4, col=1)\n",
"fig.add_trace(go.Scattergl(name='helper'), hf_x=wrpll_sim.time, hf_y=wrpll_sim.helper-1, row=4, col=1)\n",
"\n",
"\n",
"fig.update_layout(\n",
" xaxis4=dict(title=\"time (sec)\"),\n",
" yaxis1=dict(title=\"phase error\"),\n",
" yaxis2=dict(title=\"freq error (ppm)\"),\n",
" yaxis3=dict(title=\"beating period error\"),\n",
" yaxis4=dict(title=\"Signal\"),\n",
"\n",
" height=1000,\n",
" showlegend=True,\n",
" title_text=\"PLL example\",\n",
" legend=dict(\n",
" orientation=\"h\",\n",
" yanchor=\"bottom\",\n",
" y=1.02,\n",
" xanchor=\"right\",\n",
" x=1,\n",
" ),\n",
")\n",
"\n",
"fig"
]
}
],
"metadata": {
"kernelspec": {
"display_name": "Python 3 (ipykernel)",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.11.6"
}
},
"nbformat": 4,
"nbformat_minor": 4
}

89
src/wrpll_simulation/config.py Normal file
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@ -0,0 +1,89 @@
from numba.core.types import *
from numba.experimental import jitclass
@jitclass
class PI_Config(object):
KP: int64
KI: int64
def __init__(self, KP, KI):
self.KP = KP
self.KI = KI
@jitclass
class Timesim_Config(object):
timestep_size: float32
sim_length: int64
helper_PI: PI_Config
main_PI: PI_Config
has_jitter: bool
step_input_time: float64
step_frequency: float64
step_phase: float64
# preset
beating_period: int64
blind_period: int16
adpll_limit: int32
gtx_init_phase: float64
gtx_init_freq: float64
gtx_jitter: float64
helper_init_phase: float64
main_init_phase: float64
helper_init_freq: float64
main_init_freq: float64
dcxo_jitter: float64
irq_delay: float64
i2c_comm_delay: float64
dcxo_settling_delay: float64
# jitclass does not support **kwargs
def __init__(
self,
timestep_size: float32,
sim_length: int64,
helper_PI: PI_Config,
main_PI: PI_Config,
has_jitter: bool,
step_input_time: float64,
step_frequency: float64,
step_phase: float64,
):
# jitter << timestep_size
# otherwise simulation will add negative phase to Phase_Accumlator
self.timestep_size = timestep_size
self.sim_length = sim_length
self.helper_PI = helper_PI
self.main_PI = main_PI
self.has_jitter = has_jitter
# step input
self.step_input_time = step_input_time
self.step_frequency = step_frequency
self.step_phase = step_phase
# preset
self.beating_period = 32768
self.blind_period = 200
self.adpll_limit = 8161512
self.gtx_init_phase = 0.0
self.gtx_init_freq = 125_000_000
self.gtx_jitter = 200e-17
self.helper_init_phase = 0.0
self.main_init_phase = 0.0
self.helper_init_freq = 125_000_000 * (1 - (1 / self.beating_period))
self.main_init_freq = 125_000_000
self.dcxo_jitter = 95e-17
# hardware delay
self.irq_delay = 2e-6 # ~2us for the interrupt handling
self.i2c_comm_delay = 85.6e-6
self.dcxo_settling_delay = 100e-6

305
src/wrpll_simulation/sim.py
View File

@ -1,305 +0,0 @@
import numpy as np
from numba import njit
from wrpll_simulation.wave_gen import square
@njit
def simulation_jit(
time,
gtx_freq,
gtx_jitter,
helper_pll,
main_pll,
h_KP,
h_KI,
h_KD,
m_KP,
m_KI,
m_KD,
dcxo_freq,
h_jitter,
m_jitter,
base_adpll,
N,
adpll_write_period,
i2c_comm_delay,
dcxo_settling_delay,
blind_period,
start_up_delay,
helper_init_freq=0
):
arr_len = len(time)
main = np.zeros(arr_len, dtype=np.int8)
helper = np.zeros(arr_len, dtype=np.int8)
gtx = np.zeros(arr_len, dtype=np.int8)
gtx_tag = 0
gtx_ready = 0
gtx_FF = 0
gtx_beating = np.zeros(arr_len, dtype=np.int8)
main_tag = 0
main_ready = 0
main_FF = 0
main_beating = np.zeros(arr_len, dtype=np.int8)
phase_err_arr = np.zeros(arr_len, dtype=np.int16)
period_err_arr = np.zeros(arr_len, dtype=np.int16)
helper_adpll_arr = np.zeros(arr_len, dtype=np.int32)
main_adpll_arr = np.zeros(arr_len, dtype=np.int32)
helperfreq = np.zeros(arr_len, dtype=np.int32)
mainfreq = np.zeros(arr_len, dtype=np.int32)
phase_collector_r = 0
colr_gtx_tag = colr_main_tag = 0
phase_collector_state = 0
period_collector_r = 0
colr_last_gtx_tag = 0
beating_period = 0
period_collector_state = 0
# initial condition
timestep = time[1] - time[0]
gtx_phase = 0
h_phase = np.random.uniform(0, 360)
m_phase = np.random.uniform(0, 360)
if main_pll and not helper_pll:
helper_freq = helper_init_freq
else:
helper_freq = dcxo_freq * (1 + base_adpll * 0.0001164 / 1_000_000) * ((N-1) / N)
main_freq = dcxo_freq * (1 + base_adpll * 0.0001164 / 1_000_000)
last_gtx_tag = last_gtx_FF = last_gtx_beat = 0
last_main_tag = last_main_FF = last_main_beat = 0
last_helper = 0
counter = 0
gtx_blind_counter = 0
gtx_blinded = False
main_blind_counter = 0
main_blinded = False
wait_gtx = True
wait_main = True
# firmware values
FW_gtx_tag = 0
FW_main_tag = 0
period_err = last_period_err = 0
h_prop = h_integrator = h_derivative = 0
h_adpll = base_adpll
h_i2c_active_index = 0
period_colr_arm = h_i2c_active = False
phase_err = last_phase_err = 0
m_prop = m_integrator = m_derivative = 0
m_adpll = base_adpll
m_i2c_active_index = 0
phase_colr_arm = m_i2c_active = False
adpll_max = 8161512
def clip(n, minn, maxn): return max(min(maxn, n), minn)
for i, t in enumerate(time):
h_phase += 360 * helper_freq * (timestep + h_jitter[i])
helper[i] = square(h_phase)
m_phase += 360 * main_freq * (timestep + m_jitter[i])
main[i] = square(m_phase)
gtx_phase += 360 * gtx_freq * (timestep + gtx_jitter[i])
gtx[i] = square(gtx_phase)
if not last_helper and helper[i]:
gtx_FF, gtx_beating[i] = DDMTD(gtx[i], last_gtx_FF)
main_FF, main_beating[i] = DDMTD(main[i], last_main_FF)
gtx_tag, gtx_ready, gtx_blind_counter, gtx_blinded = Deglitcher(gtx_beating[i], gtx_tag, gtx_ready,
gtx_blind_counter, gtx_blinded, blind_period,
last_gtx_beat, last_gtx_tag, counter)
main_tag, main_ready, main_blind_counter, main_blinded = Deglitcher(main_beating[i], main_tag, main_ready,
main_blind_counter, main_blinded, blind_period,
last_main_beat, last_main_tag, counter)
phase_collector_r, wait_gtx, wait_main, colr_gtx_tag, colr_main_tag, phase_collector_state = phase_collector_FSM(gtx_ready, main_ready, gtx_tag, main_tag,
wait_gtx, wait_main, colr_gtx_tag, colr_main_tag, phase_collector_state)
if phase_collector_r:
FW_gtx_tag = colr_gtx_tag
FW_main_tag = colr_main_tag
period_collector_r, colr_last_gtx_tag, beating_period, period_collector_state = period_collector_FSM(gtx_ready, gtx_tag,
colr_last_gtx_tag, period_collector_state)
counter += 1
last_gtx_beat = gtx_beating[i]
last_gtx_FF = gtx_FF
last_gtx_tag = gtx_tag
last_main_beat = main_beating[i]
last_main_FF = main_FF
last_main_tag = main_tag
else:
gtx_beating[i] = last_gtx_beat
gtx_FF = last_gtx_FF
gtx_tag = last_gtx_tag
main_beating[i] = last_main_beat
main_FF = last_main_FF
main_tag = last_main_tag
if i > start_up_delay:
if i % adpll_write_period == 0:
period_colr_arm = phase_colr_arm = True
# Firmware filters
if period_colr_arm and period_collector_r:
period_colr_arm = False
period_err = N - beating_period
if helper_pll:
h_prop = period_err * h_KP
h_integrator += period_err * h_KI
h_derivative = (period_err - last_period_err) * h_KD
h_adpll = clip(int(base_adpll + h_prop + h_integrator + h_derivative), -adpll_max, adpll_max)
last_period_err = period_err
h_i2c_active_index = i
h_i2c_active = True
if phase_colr_arm and phase_collector_r:
phase_colr_arm = False
tag_diff = ((FW_main_tag - FW_gtx_tag) % N)
if tag_diff > N/2:
phase_err = tag_diff - N
else:
phase_err = tag_diff
if main_pll:
m_prop = phase_err * m_KP
m_integrator += phase_err * m_KI
m_derivative = (phase_err - last_phase_err) * m_KD
m_adpll = clip(int(base_adpll + m_prop + m_integrator + m_derivative), -adpll_max, adpll_max)
last_phase_err = phase_err
m_i2c_active_index = i
m_i2c_active = True
# i2c communication delay
if h_i2c_active and i >= i2c_comm_delay + dcxo_settling_delay + h_i2c_active_index:
helper_freq = dcxo_freq * (1 + h_adpll * 0.0001164 / 1_000_000) * ((N-1) / N)
h_i2c_active = False
if m_i2c_active and i >= i2c_comm_delay + dcxo_settling_delay + m_i2c_active_index:
main_freq = dcxo_freq * (1 + m_adpll * 0.0001164 / 1_000_000)
m_i2c_active = False
last_helper = helper[i]
# Data
period_err_arr[i] = period_err
phase_err_arr[i] = phase_err
helper_adpll_arr[i] = h_adpll
main_adpll_arr[i] = m_adpll
helperfreq[i] = helper_freq
mainfreq[i] = main_freq
return period_err_arr, phase_err_arr, helper_adpll_arr, main_adpll_arr, gtx_beating, main_beating, gtx, helper, main, helperfreq, mainfreq
@njit
def DDMTD(sig_in, last_FF):
return sig_in, last_FF
@njit
def Deglitcher(beating, t_out, t_ready, blind_counter, blinded, blind_period, last_beat, last_tag, counter):
if blind_counter == 0 and beating and not last_beat: # rising
t_out = counter
t_ready = 1
blinded = True
else:
t_out = last_tag
t_ready = 0
if beating:
blind_counter = blind_period - 1
if blind_counter != 0:
blind_counter -= 1
return t_out, t_ready, blind_counter, blinded
@njit
def phase_collector_FSM(g_tag_r, m_tag_r, gtx_tag, main_tag, wait_gtx, wait_main, colr_gtx_tag, colr_main_tag, FSM_state):
collector_r = 0
match FSM_state:
case 0: # IDEL
if g_tag_r and m_tag_r:
colr_gtx_tag = gtx_tag
colr_main_tag = main_tag
FSM_state = 3 # OUTPUT
elif g_tag_r:
colr_gtx_tag = gtx_tag
wait_main = True
FSM_state = 2 # WAITMAIN
elif m_tag_r:
colr_main_tag = main_tag
wait_gtx = True
FSM_state = 1 # WAITGTX
case 1: # WAITGTX
if g_tag_r:
colr_gtx_tag = gtx_tag
FSM_state = 3 # OUTPUT
case 2: # WAITMAIN
if m_tag_r:
colr_main_tag = main_tag
FSM_state = 3 # OUTPUT
case 3: # OUTPUT
wait_gtx = wait_main = False
collector_r = 1
FSM_state = 0
return collector_r, wait_gtx, wait_main, colr_gtx_tag, colr_main_tag, FSM_state
@njit
def period_collector_FSM(g_tag_r, gtx_tag, colr_last_gtx_tag, FSM_state):
collector_r = 0
beating_period = 0
match FSM_state:
case 0: # IDEL
if g_tag_r:
colr_last_gtx_tag = gtx_tag
FSM_state = 1
case 1: # OUTPUT
if g_tag_r:
beating_period = gtx_tag - colr_last_gtx_tag
collector_r = 1
FSM_state = 0 # IDEL
return collector_r, colr_last_gtx_tag, beating_period, FSM_state

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src/wrpll_simulation/timesim.py Normal file
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import typing as tp
import numpy as np
from numba.core.types import *
from numba.experimental import jitclass
from wrpll_simulation.config import Timesim_Config
from wrpll_simulation.timesim_node import *
@jitclass
class WRPLL_Timesim(object):
cfg: Timesim_Config
time: float32[:]
freq_diff: float32[:]
phase_diff: float32[:]
helper_error: int16[:]
main_error: int16[:]
def __init__(self, cfg: Timesim_Config, rng: tp.Generator):
# subclass/inheritance is not supported by numba jitclass
# https://github.com/numba/numba/issues/1694
self.cfg = cfg
sim_length = cfg.sim_length
stop_time = cfg.timestep_size * sim_length
self.time = np.linspace(0, stop_time, sim_length).astype(np.float32)
self.freq_diff = np.zeros(sim_length, dtype=np.float32)
self.phase_diff = np.zeros(sim_length, dtype=np.float32)
self.helper_error = np.zeros(sim_length, dtype=np.int16)
self.main_error = np.zeros(sim_length, dtype=np.int16)
# __post_init__ is not supported by numba jitclass
# https://github.com/numba/numba/issues/4037
self.simulate(rng)
def simulate(self, rng: tp.Generator):
cfg = self.cfg
timestep_size = cfg.timestep_size
step_input_time = self.seconds_to_step(cfg.step_input_time)
irq_delay = self.seconds_to_step(cfg.irq_delay)
i2c_comm_delay = self.seconds_to_step(cfg.i2c_comm_delay)
# simulation node
gtx = Phase_Accumlator(cfg.gtx_init_freq, cfg.gtx_init_phase)
helper = Phase_Accumlator(cfg.helper_init_freq, cfg.helper_init_phase)
main = Phase_Accumlator(cfg.main_init_freq, cfg.main_init_phase)
ddmtd_gtx = DDMTD(cfg.blind_period)
ddmtd_main = DDMTD(cfg.blind_period)
gtx_tag_irq = EventManager_IRQ()
main_tag_irq = EventManager_IRQ()
tag_collector = Tag_Collector(cfg.beating_period)
helper_PLL = PI_loop(cfg.helper_PI, cfg.helper_init_freq, 0, cfg.adpll_limit)
main_PLL = PI_loop(cfg.main_PI, cfg.main_init_freq, 0, cfg.adpll_limit)
counter = 0
print("Running...")
for i in range(cfg.sim_length):
if i == step_input_time:
gtx.set_freq(gtx.freq + cfg.step_frequency)
gtx.set_phase(gtx.phase + cfg.step_phase)
if cfg.has_jitter:
gtx.update(timestep_size + rng.normal(0, cfg.gtx_jitter))
helper.update(timestep_size + rng.normal(0, cfg.dcxo_jitter))
main.update(timestep_size + rng.normal(0, cfg.dcxo_jitter))
else:
gtx.update(timestep_size)
helper.update(timestep_size)
main.update(timestep_size)
# GATEWARE
if helper.is_rising():
ddmtd_gtx.sync_update(gtx.o, counter)
ddmtd_main.sync_update(main.o, counter)
# for clock domain crossing
gtx_tag_irq.multireg(ddmtd_gtx.tag_ready, ddmtd_gtx.tag)
main_tag_irq.multireg(ddmtd_main.tag_ready, ddmtd_main.tag)
counter += 1
if main.is_rising():
# Generate interrupt request
gtx_tag_irq.sync_update(i)
main_tag_irq.sync_update(i)
# FIRMWARE
if gtx_tag_irq.is_due(i, irq_delay):
tag_collector.collect_gtx_tag(gtx_tag_irq.tag_csr)
helper_PLL.update(i, tag_collector.get_period_error())
if tag_collector.is_phase_error_ready():
tag_collector.set_phase_error_ready(False)
main_PLL.update(i, tag_collector.get_phase_error())
if main_tag_irq.is_due(i, irq_delay):
tag_collector.collect_main_tag(main_tag_irq.tag_csr)
if tag_collector.is_phase_error_ready():
tag_collector.set_phase_error_ready(False)
main_PLL.update(i, tag_collector.get_phase_error())
if helper_PLL.i2c_is_due(i, i2c_comm_delay):
helper.set_freq(helper_PLL.get_new_freq())
if main_PLL.i2c_is_due(i, i2c_comm_delay):
main.set_freq(main_PLL.get_new_freq())
# Data Logging
self.freq_diff[i] = np.float32(main.freq - gtx.freq)
self.phase_diff[i] = np.float32((main.phase - gtx.phase) % 360)
if self.phase_diff[i] > 180:
self.phase_diff[i] -= 360
if helper_PLL.i2c_is_due(i, i2c_comm_delay):
self.helper_error[i] = tag_collector.get_period_error()
elif i > 0:
self.helper_error[i] = self.helper_error[i - 1]
if main_PLL.i2c_is_due(i, i2c_comm_delay):
self.main_error[i] = tag_collector.get_phase_error()
elif i > 0:
self.main_error[i] = self.main_error[i - 1]
def seconds_to_step(self, seconds: float64):
return int(seconds / self.cfg.timestep_size)

223
src/wrpll_simulation/timesim_node.py Normal file
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from numba.core.types import *
from numba.experimental import jitclass
from wrpll_simulation.config import PI_Config
@jitclass
class Phase_Accumlator(object):
last_o: int8
o: int8
freq: float64
phase: float64
def __init__(self, freq: float64, phase: float64):
self.last_o = 0
self.o = 0
self.freq = freq
self.phase = phase
def update(self, time_increment: float64):
self.last_o = self.o
self.phase = (self.phase + 360 * self.freq * time_increment) % 360
# square wave function
if self.phase < 180:
self.o = 0
else:
self.o = 1
def set_freq(self, freq: float64):
self.freq = freq
def set_phase(self, phase: float64):
self.phase = phase
def is_rising(self) -> bool:
return not self.last_o and self.o
# GATEWARE
@jitclass
class DDMTD(object):
FF: int8
beating: int8
last_beating: int8
tag: int32
tag_ready: int8
blind_counter: int16
blind_period: int16
def __init__(self, blind_period: int16):
# back to back Flip Flop
self.FF = 0
self.beating = 0
self.last_beating = 0
# deglticher
self.tag = 0
self.tag_ready = 0
self.blind_counter = 0
self.blind_period = blind_period
def sync_update(self, D_in: int8, counter: int32):
self.last_beating = self.beating
# FF shifting
self.beating = self.FF
self.FF = D_in
self.deglitcher_first_edge(counter)
def deglitcher_first_edge(self, counter: int32):
if self.blind_counter == 0 and self.beating_is_rising():
self.tag = counter
self.tag_ready = 1
else:
self.tag_ready = 0
if self.beating:
self.blind_counter = self.blind_period - 1
if self.blind_counter != 0:
self.blind_counter -= 1
def beating_is_rising(self) -> bool:
return not self.last_beating and self.beating
@jitclass
class EventManager_IRQ(object):
trigger: int8
tag_csr: int32
trigger_index: int64
def __init__(self):
self.trigger = 0
self.tag_csr = 0
# for simulating delay
self.trigger_index = 0
def sync_update(self, index):
if self.trigger:
self.trigger = 0
self.trigger_index = index
def multireg(self, trigger: int8, tag: int32):
if trigger:
self.trigger = 1
self.tag_csr = tag
def is_due(self, index, delay):
return index - self.trigger_index == delay
# FIRMWARE
@jitclass
class Tag_Collector(object):
setpt_beating_period: int64
gtx_tag_ready: bool
gtx_tag: int32
main_tag_ready: bool
main_tag: int32
def __init__(self, setpt_beating_period: int64):
self.setpt_beating_period = setpt_beating_period
# for main PLL
self.gtx_tag_ready = False
self.gtx_tag = 0
self.main_tag_ready = False
self.main_tag = 0
def collect_gtx_tag(self, tag: int32):
self.gtx_tag = tag
self.gtx_tag_ready = True
def collect_main_tag(self, tag: int32):
self.main_tag = tag
self.main_tag_ready = True
def get_period_error(self) -> int32:
# period_error = n * ideal_beating - GTX_tag(n)
period_error = (-self.gtx_tag) % self.setpt_beating_period
if period_error > self.setpt_beating_period / 2:
return period_error - self.setpt_beating_period
return period_error
def get_phase_error(self) -> int32:
# tag_diff = main_tag(n) - gtx_tag(n)
tag_diff = (self.main_tag - self.gtx_tag) % self.setpt_beating_period
# mapping tags from [0, 2π] -> [-π, π]
if tag_diff > self.setpt_beating_period / 2:
return tag_diff - self.setpt_beating_period
return tag_diff
def set_phase_error_ready(self, ready: bool):
self.main_tag_ready = ready
self.gtx_tag_ready = ready
def is_phase_error_ready(self) -> bool:
return self.main_tag_ready and self.gtx_tag_ready
@jitclass
class PI_loop(object):
KP: int64
KI: int64
integrator: int64
center_freq: float64
adpll: int32
base_adpll: int32
adpll_limit: int32
i2c_transfer_index: int64
def __init__(
self,
PI_Conifg: PI_Config,
center_freq: float64,
base_adpll: int32,
adpll_limit: int32,
):
# PI controller
self.KP = PI_Conifg.KP
self.KI = PI_Conifg.KI
self.integrator = 0
# ADPLL calcuation
self.center_freq = center_freq
self.adpll = base_adpll
self.base_adpll = base_adpll
self.adpll_limit = adpll_limit
# for simulating delay
self.i2c_transfer_index = 0
def update(self, index, tag_error: int32):
self.i2c_transfer_index = index
self.adpll = self.get_adpll(tag_error)
def get_adpll(self, tag_error: int32) -> int32:
prop = tag_error * self.KP
self.integrator += tag_error * self.KI
return self.cramp_adpll(self.base_adpll + int(prop + self.integrator))
def get_new_freq(self):
return self.center_freq * (1 + self.adpll * 0.0001164 / 1_000_000)
def cramp_adpll(self, adpll: int32) -> int32:
return max(min(self.adpll_limit, adpll), -self.adpll_limit)
def i2c_is_due(self, index, delay):
return index - self.i2c_transfer_index == delay

29
src/wrpll_simulation/wave_gen.py
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@ -1,29 +0,0 @@
import numpy as np
import numba as nb
from numba import njit
def gussian_jitter(RMS_jitter, size, seed=None):
return np.random.default_rng(seed).normal(0, RMS_jitter/2, size)
@njit(fastmath=True)
def square_with_jitter(time, freq, jitter):
n = len(time)
wave = np.empty(n)
timestep = time[1] - time[0]
phase = 0.
for i in range(n):
phase += 360 * freq * (timestep + jitter[i])
wave[i] = square(phase)
return wave
@njit
def square(x):
if np.mod(x, 360) < 180:
return 0
else:
return 1

102
src/wrpll_simulation/wrpll.py
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@ -1,102 +0,0 @@
import numpy as np
from wrpll_simulation.sim import simulation_jit
from wrpll_simulation.wave_gen import gussian_jitter
class WRPLL_simulator():
def __init__(
self,
timestep,
total_steps,
sim_mode,
helper_filter,
main_filter,
gtx_freq,
adpll_write_period,
start_up_delay,
i2c_comm_delay=85.6e-6,
dcxo_settling_delay=100e-6,
gtx_jitter=200e-15,
dcxo_freq=125_000_000,
dcxo_jitter=95e-15,
freq_acquisition_error=100,
N=4069,
blind_period=128,
helper_init_freq=None,
seed=None
):
self.time = np.linspace(0, timestep*total_steps, total_steps)
self.sim_mode = sim_mode
self.h_KP = helper_filter["KP"]
self.h_KI = helper_filter["KI"]
self.h_KD = helper_filter["KD"]
self.m_KP = main_filter["KP"]
self.m_KI = main_filter["KI"]
self.m_KD = main_filter["KD"]
# init condition
self.gtx_freq = gtx_freq
self.gtx_jitter = gussian_jitter(gtx_jitter, len(self.time), seed)
self.dcxo_freq = dcxo_freq
self.h_jitter = gussian_jitter(dcxo_jitter, len(self.time), seed)
self.m_jitter = gussian_jitter(dcxo_jitter, len(self.time), seed)
self.N = N
self.helper_init_freq = helper_init_freq
# freq_acquisition() error
freq_diff = gtx_freq - dcxo_freq + \
np.random.default_rng(seed).uniform(-freq_acquisition_error, freq_acquisition_error)
self.base_adpll = int(freq_diff * (1 / dcxo_freq) * (1e6 / 0.0001164))
# sim config
self.i2c_comm_delay = int(i2c_comm_delay/timestep)
self.dcxo_settling_delay = int(dcxo_settling_delay/timestep)
self.blind_period = blind_period
self.adpll_write_period = int(adpll_write_period/timestep)
self.start_up_delay = int(start_up_delay/timestep)
if type(self.sim_mode) is not str:
raise ValueError(f"pll_type {type(self.sim_mode)} is not a string")
self.helper_pll = self.main_pll = False
if self.sim_mode.lower() == "both":
self.helper_pll = self.main_pll = True
elif self.sim_mode.lower() == "helper_pll":
self.helper_pll = True
elif self.sim_mode.lower() == "main_pll":
if self.helper_init_freq == None:
raise ValueError("main pll mode need to set a helper frequency")
self.main_pll = True
else:
raise ValueError("sim_mode is not helper_pll nor main_pll")
def run(self):
print("running simulation...")
self.period_err, self.phase_err, self.helper_adpll, self.main_adpll, self.gtx_beating, self.main_beating, self.gtx, self.helper, self.main, self.helperfreq, self.mainfreq = simulation_jit(
self.time,
self.gtx_freq,
self.gtx_jitter,
self.helper_pll,
self.main_pll,
self.h_KP,
self.h_KI,
self.h_KD,
self.m_KP,
self.m_KI,
self.m_KD,
self.dcxo_freq,
self.h_jitter,
self.m_jitter,
self.base_adpll,
self.N,
self.adpll_write_period,
self.i2c_comm_delay,
self.dcxo_settling_delay,
self.blind_period,
self.start_up_delay,
self.helper_init_freq
)
print("Done!")