A package for spherical positional encoding

Navigation

Verified details

These details have been verified by PyPI
Maintainers
Avatar for thanon from gravatar.com thanon

Unverified details

These details have not been verified by PyPI
Project links
Meta
  • License: MIT License (MIT License)
  • Author: Theo Hanon
  • Requires: Python >=3.6
Classifiers
Report project as malware

Project description

Spherical-Implicit-Neural-Representation

Documentation Status

Spherical-Implicit-Neural-Representation is a Python package for constructing spherical implicit neural representations using Herglotz-based positional encoding. It provides flexible modules for processing spherical data along with customizable positional encoding layers and regularization tools.

Installation

Install the package from PyPI:

pip install spherical-inr

Or install the development version locally:

git clone https://github.com/yourusername/spherical_inr.git
cd spherical_inr
pip install -e .

Getting Started

Instantiate HerglotzNet

The HerglotzNet module is designed for (θ, φ) coordinate data. Here’s an example of how to instantiate and use it:

import torch
import spherical_inr as sph

# Parameters for HerglotzNet
output_dim = 1
inr_sizes = [16] + 3 * [32]  # [PE size] + (hidden layers * hidden features)
omega0 = 1.0
seed = 42


# Instantiate the network NOTE : # HNET is defined for (θ, φ) coordinates only
model = sph.HerglotzNet(
    output_dim=output_dim,
    inr_sizes=inr_sizes,
    bias=True,
    pe_omega0=omega0,
    seed=seed
)

# Example
dummy_input = torch.randn(4, 2)
output = model(dummy_input)
print(output)

Generic Cartesian INR

You can also create a customized Cartesian implicit neural representation (INR). For example:

import torch
import spherical_inr as sph

# INR parameters
input_dim = 3
output_dim = 1
inr_sizes = [100] + 3 * [100]
pe = "fourier"
activation = "sin"
bias = False

# Instantiate a generic Cartesian INR
inr = sph.INR(
    input_dim=input_dim,
    output_dim=output_dim,
    inr_sizes=inr_sizes,
    pe=pe,
    activation=activation,
    bias=bias
)

To incorporate Laplacian regularization into your loss function:

import torch
from spherical_inr.loss import CartesianLaplacianLoss

laplacian_loss = CartesianLaplacianLoss()
mse_loss = torch.nn.MSELoss()

def loss_fn(target, y_pred, y_reg, x_reg):
    reg = laplacian_loss(y_reg, x_reg)
    mse = mse_loss(target, y_pred)
    return reg + mse

Then train your model as usual.

Instantiate and Use a Positional Encoding

You can also directly instantiate a positional encoding module and integrate it into your own PyTorch model. For example:

import torch
import torch.nn as nn
import spherical_inr as sph

# Example model using a positional encoding
class MyModel(nn.Module):
    def __init__(self, num_atoms, input_dim, output_dim, bias, omega0, seed):
        super().__init__()
        self.pe = sph.RegularHerglotzPE(
            num_atoms=num_atoms,
            input_dim=input_dim,
            bias=bias,
            omega0=omega0,
            seed=seed
        )
        self.linear = nn.Linear(num_atoms, output_dim)
        
    def forward(self, x):
        x = self.pe(x)
        return self.linear(x)

# Instantiate the model
model = MyModel(
    num_atoms=50,
    input_dim=10,
    output_dim=5,
    bias=True,
    omega0=1.0,
    seed=42,
)

dummy_input = torch.randn(4, 10)
output = model(dummy_input)
print(output)

📚 References

  1. Théo Hanon, Nicolas Mil-Homens Cavaco, John Kiely, Laurent Jacques,
    Herglotz-NET: Implicit Neural Representation of Spherical Data with Harmonic Positional Encoding,
    arXiv preprint, 2025.
    arXiv:2502.13777

Project details

Verified details

These details have been verified by PyPI
Maintainers
Avatar for thanon from gravatar.com thanon

Unverified details

These details have not been verified by PyPI
Project links
Meta
  • License: MIT License (MIT License)
  • Author: Theo Hanon
  • Requires: Python >=3.6
Classifiers

Release history Release notifications | RSS feed

1.0.0a1 pre-release

0.4.3

0.4.2

0.4.1

0.4.0

This version

0.3.18

0.3.17

0.3.16

0.3.15

0.3.14

0.3.13

0.3.12

0.3.11

0.3.10

0.3.9

0.3.8

0.3.7

0.3.6

0.3.5

0.3.4

0.3.3

0.3.2

0.3.1

0.3.0

0.2.3

0.2.2

0.2.1

0.2.0

0.1.4

0.1.3

0.1.2

0.1.1

0.1.0

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

spherical_inr-0.3.18.tar.gz (17.7 kB view details)

Uploaded Source

Built Distribution

If you're not sure about the file name format, learn more about wheel file names.

spherical_inr-0.3.18-py3-none-any.whl (19.5 kB view details)

Uploaded Python 3

File details

Details for the file spherical_inr-0.3.18.tar.gz.

File metadata

  • Download URL: spherical_inr-0.3.18.tar.gz
  • Upload date:
  • Size: 17.7 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/6.1.0 CPython/3.12.9

File hashes

Hashes for spherical_inr-0.3.18.tar.gz
Algorithm Hash digest
SHA256 58b4e8a92a38111a81e3103cb47f73fac443e82a7e3d4e64414b9296b220212b
MD5 f9d6a1935121e66ea01da93cf486a297
BLAKE2b-256 f108efac19a1bd0e54b059c948ffe76e470d5980acf474466e1a620e694e2617

See more details on using hashes here.

File details

Details for the file spherical_inr-0.3.18-py3-none-any.whl.

File metadata

  • Download URL: spherical_inr-0.3.18-py3-none-any.whl
  • Upload date:
  • Size: 19.5 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/6.1.0 CPython/3.12.9

File hashes

Hashes for spherical_inr-0.3.18-py3-none-any.whl
Algorithm Hash digest
SHA256 1e86e1c9c280b9953202b70e066bc42cd0278d064d1b7d3d805bc16562dd8b03
MD5 e8944a360f6df057c9a8580d5991359b
BLAKE2b-256 b1641dde24724b75919db8580e5d65099846a71530a4d237c88499e84d626957

See more details on using hashes here.

Supported by

AWS Cloud computing and Security Sponsor Datadog Monitoring Depot Continuous Integration Fastly CDN Google Download Analytics Pingdom Monitoring Sentry Error logging StatusPage Status page