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import numpy as np
import gradio as gr
from model_inverse import inverse_design
def format_number(value):
if value is None:
return "--"
return f"{value:,.4f}"
def format_percent(value):
if value is None:
return "--"
return f"{value * 100:.2f}%"
def run_inverse_design(ply_number, a1, b1, c1, stress, n_restarts, epochs, use_lbfgs):
y_target = np.array([a1, b1, c1, stress], dtype=np.float32)
best = inverse_design(
ply_number=int(ply_number),
y_target=y_target,
n_restarts=int(n_restarts),
epochs=int(epochs),
use_lbfgs=bool(use_lbfgs),
)
if best["input"] is None or best["output"] is None:
return "<div class='empty-state'>No valid solution found.</div>"
input_vals = {
"Initial Temp": float(best["input"][0]),
"Punch Velocity": float(best["input"][1]),
"Cooling Time": float(best["input"][2]),
}
output_vals = {
"A1": float(best["output"][0]),
"B1": float(best["output"][1]),
"C1": float(best["output"][2]),
"Stress": float(best["output"][3]),
}
def rel_err(pred, target):
target = float(target)
if target == 0.0:
return None
return abs(float(pred) - target) / abs(target)
output_rows = [
("A1", output_vals["A1"], rel_err(output_vals["A1"], a1)),
("B1", output_vals["B1"], rel_err(output_vals["B1"], b1)),
("C1", output_vals["C1"], rel_err(output_vals["C1"], c1)),
("Stress", output_vals["Stress"], rel_err(output_vals["Stress"], stress)),
]
input_html = "".join(
f"<div class='kv-row'><span class='kv-key'>{k}</span><span class='kv-val'>{format_number(v)}</span></div>"
for k, v in input_vals.items()
)
output_html = "".join(
"<div class='out-row'>"
f"<div class='out-name'>{name}</div>"
f"<div class='out-pred'>{format_number(pred)}</div>"
f"<div class='out-err'>{format_percent(err)}</div>"
"</div>"
for name, pred, err in output_rows
)
return (
"<div class='results-grid'>"
"<div class='panel'>"
"<div class='panel-title'>Best Input</div>"
f"{input_html}"
"</div>"
"<div class='panel'>"
"<div class='panel-title'>Predicted Output</div>"
f"<div class='out-grid'>{output_html}</div>"
"</div>"
"</div>"
)
custom_css = """
:root {
--ink: #1d1a16;
--muted: #6b625a;
--sand: #f6f1e7;
--clay: #e8dfd2;
--accent: #c65b2a;
--card: #fffaf1;
}
.page-wrap {
background: radial-gradient(1200px 600px at 10% -10%, #fbe9cf 0%, #f6f1e7 45%, #efe7dc 100%);
border-radius: 18px;
padding: 18px;
}
.panel {
background: var(--card);
border: 1px solid var(--clay);
border-radius: 16px;
padding: 16px;
box-shadow: 0 8px 24px rgba(57, 44, 30, 0.08);
}
.panel-title {
font-size: 16px;
letter-spacing: 0.5px;
text-transform: uppercase;
color: var(--muted);
margin-bottom: 10px;
}
.kv-row {
display: flex;
justify-content: space-between;
align-items: center;
padding: 10px 12px;
background: #fdf7ec;
border: 1px dashed #e3d5c4;
border-radius: 12px;
margin-bottom: 10px;
}
.kv-key {
color: var(--ink);
font-weight: 600;
}
.kv-val {
color: var(--accent);
font-weight: 700;
}
.results-grid {
display: grid;
grid-template-columns: 1fr 1fr;
gap: 18px;
}
.out-grid {
display: grid;
grid-template-columns: 1fr 1fr 1fr;
gap: 10px;
}
.out-row {
background: #fff3e2;
border: 1px solid #f0d2b7;
border-radius: 12px;
padding: 12px;
display: grid;
grid-template-columns: 1fr;
gap: 6px;
}
.out-name {
font-weight: 700;
color: var(--ink);
}
.out-pred {
font-size: 18px;
color: var(--accent);
font-weight: 700;
}
.out-err {
color: var(--muted);
font-size: 13px;
}
@media (max-width: 1000px) {
.results-grid {
grid-template-columns: 1fr;
}
.out-grid {
grid-template-columns: 1fr 1fr;
}
}
@media (max-width: 600px) {
.out-grid {
grid-template-columns: 1fr;
}
}
.empty-state {
padding: 16px;
border-radius: 12px;
border: 1px dashed #e3d5c4;
color: var(--muted);
text-align: center;
background: #fff7ea;
}
"""
with gr.Blocks(title="Inverse Design Demo", css=custom_css) as demo:
gr.Markdown("# Inverse Design Demo")
gr.Markdown("Enter a target output; the model finds processing parameters.")
with gr.Row():
with gr.Column():
gr.Markdown("## Target Output")
ply_number = gr.Number(label="Ply number", value=2, precision=0)
a1 = gr.Number(label="A1 (Angle)", value=0.89, precision=4)
b1 = gr.Number(label="B1 (Angle)", value=0.83, precision=4)
c1 = gr.Number(label="C1 (Angle)", value=0.12, precision=4)
stress = gr.Number(label="Max Stress (MPa)", value=180.2, precision=4)
with gr.Column():
gr.Markdown("## Optimization Settings")
n_restarts = gr.Number(label="Restarts", value=5, precision=0)
epochs = gr.Number(label="Epochs of Optimization", value=100, precision=0)
use_lbfgs = gr.Checkbox(label="Use LBFGS Optimization", value=True)
run_btn = gr.Button("Run Inverse Design")
with gr.Row(elem_classes=["page-wrap"]):
results_html = gr.HTML()
run_btn.click(
run_inverse_design,
inputs=[ply_number, a1, b1, c1, stress, n_restarts, epochs, use_lbfgs],
outputs=[results_html],
)
if __name__ == "__main__":
demo.launch()
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