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orbmol / app.py

annabossler

Create app.py

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	import gradio as gr
	import torch
	import numpy as np
	from ase import Atoms
	from ase.io import read, write
	import tempfile
	import os
	from orb_models.forcefield import pretrained
	from orb_models.forcefield.calculator import ORBCalculator

	# Global variable for the model
	model_calc = None

	def load_orbmol_model():
	"""Load OrbMol model once"""
	global model_calc
	if model_calc is None:
	try:
	print("Loading OrbMol model...")
	orbff = pretrained.orb_v3_conservative_inf_omat(
	device="cpu",
	precision="float32-high"
	)
	model_calc = ORBCalculator(orbff, device="cpu")
	print("✅ OrbMol model loaded successfully")
	except Exception as e:
	print(f"❌ Error loading model: {e}")
	model_calc = None
	return model_calc

	def predict_molecule(xyz_content, charge=0, spin_multiplicity=1):
	"""
	Main function: XYZ → OrbMol → Results
	"""
	try:
	# Load model
	calc = load_orbmol_model()
	if calc is None:
	return "❌ Error: Could not load OrbMol model", ""

	if not xyz_content.strip():
	return "❌ Error: Please enter XYZ coordinates", ""

	# Create temporary file with XYZ
	with tempfile.NamedTemporaryFile(mode='w', suffix='.xyz', delete=False) as f:
	f.write(xyz_content)
	xyz_file = f.name

	# Read molecular structure
	atoms = read(xyz_file)

	# Configure charge and spin (IMPORTANT for OrbMol!)
	atoms.info = {
	"charge": int(charge),
	"spin": int(spin_multiplicity)
	}

	# Assign OrbMol calculator
	atoms.calc = calc

	# Make the prediction!
	energy = atoms.get_potential_energy() # In eV
	forces = atoms.get_forces() # In eV/Å

	# Format results nicely
	result = f"""
	🔋 Total Energy: {energy:.6f} eV

	⚡ Atomic Forces:
	"""

	for i, force in enumerate(forces):
	result += f"Atom {i+1}: [{force[0]:.4f}, {force[1]:.4f}, {force[2]:.4f}] eV/Å\n"

	# Additional statistics
	max_force = np.max(np.linalg.norm(forces, axis=1))
	result += f"\n📊 Max Force: {max_force:.4f} eV/Å"

	# Clean up temporary file
	os.unlink(xyz_file)

	return result, "✅ Calculation completed with OrbMol"

	except Exception as e:
	return f"❌ Error during calculation: {str(e)}", "Error"

	# Predefined examples
	examples = [
	["""2
	Hydrogen molecule
	H 0.0 0.0 0.0
	H 0.0 0.0 0.74""", 0, 1],

	["""3
	Water molecule
	O 0.0000 0.0000 0.0000
	H 0.7571 0.0000 0.5864
	H -0.7571 0.0000 0.5864""", 0, 1],

	["""4
	Methane
	C 0.0000 0.0000 0.0000
	H 1.0890 0.0000 0.0000
	H -0.3630 1.0267 0.0000
	H -0.3630 -0.5133 0.8887
	H -0.3630 -0.5133 -0.8887""", 0, 1]
	]

	# Gradio interface - using FAIR Chem UMA style
	with gr.Blocks(theme=gr.themes.Ocean(), title="OrbMol Demo") as demo:

	with gr.Row():
	with gr.Column(scale=2):
	with gr.Column(variant="panel"):
	gr.Markdown("# OrbMol Demo - Quantum-Accurate Molecular Predictions")

	gr.Markdown("""
	OrbMol is a neural network potential trained on the OMol25 dataset (100M+ high-accuracy DFT calculations).

	Predicts energies and forces with quantum accuracy, optimized for:
	* 🧬 Biomolecules
	* ⚗️ Metal complexes
	* 🔋 Electrolytes
	""")

	gr.Markdown("## Simulation inputs")

	with gr.Column(variant="panel"):
	gr.Markdown("### Input molecular structure")

	xyz_input = gr.Textbox(
	label="XYZ Coordinates",
	placeholder="""3
	Water molecule
	O 0.0000 0.0000 0.0000
	H 0.7571 0.0000 0.5864
	H -0.7571 0.0000 0.5864""",
	lines=12,
	info="Paste XYZ coordinates of your molecule here"
	)

	gr.Markdown("OMol-specific settings for total charge and spin multiplicity")
	with gr.Row():
	charge_input = gr.Slider(
	value=0, label="Total Charge", minimum=-10, maximum=10, step=1
	)
	spin_input = gr.Slider(
	value=1, maximum=11, minimum=1, step=1, label="Spin Multiplicity"
	)

	predict_btn = gr.Button("Run OrbMol Prediction", variant="primary", size="lg")

	with gr.Column(variant="panel", elem_id="results", min_width=500):
	gr.Markdown("## OrbMol Prediction Results")

	results_output = gr.Textbox(
	label="Energy & Forces",
	lines=15,
	interactive=False,
	info="OrbMol energy and force predictions"
	)

	status_output = gr.Textbox(
	label="Status",
	interactive=False,
	max_lines=1
	)

	# Examples section
	gr.Markdown("### 🧪 Try These Examples")
	gr.Examples(
	examples=examples,
	inputs=[xyz_input, charge_input, spin_input],
	label="Click any example to load it"
	)

	# Connect button to function
	predict_btn.click(
	predict_molecule,
	inputs=[xyz_input, charge_input, spin_input],
	outputs=[results_output, status_output]
	)

	# Footer info - matching FAIR Chem UMA style
	with gr.Sidebar(open=True):
	gr.Markdown("## Learn more about OrbMol")
	with gr.Accordion("What is OrbMol?", open=False):
	gr.Markdown("""
	* OrbMol is a neural network potential for molecular property prediction with quantum-level accuracy
	* Built on the Orb-v3 architecture and trained on OMol25 dataset (100M+ DFT calculations)
	* Optimized for biomolecules, metal complexes, and electrolytes
	* Supports configurable charge and spin multiplicity

	[Read more about OrbMol](https://orbitalmaterials.com/posts/orbmol-extending-orb-to-molecular-systems)
	""")

	with gr.Accordion("Model Disclaimers", open=False):
	gr.Markdown("""
	* While OrbMol represents significant progress in molecular ML potentials, the model has limitations
	* Always validate results for your specific use case
	* Consider the limitations of the ωB97M-V/def2-TZVPD level of theory used in training
	""")

	with gr.Accordion("Open source packages", open=False):
	gr.Markdown("""
	* Model code available at [orbital-materials/orb-models](https://github.com/orbital-materials/orb-models)
	* This demo uses ASE, Gradio, and other open source packages
	""")

	# Load model on startup
	print("🚀 Starting OrbMol model loading...")
	load_orbmol_model()

	if __name__ == "__main__":
	demo.launch(
	server_name="0.0.0.0",
	server_port=7860,
	show_error=True
	)