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Numerical differential equation solvers in JAX. Autodifferentiable and GPU-capable. https://docs.kidger.site/diffrax/

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Diffrax

Numerical differential equation solvers in JAX. Autodifferentiable and GPU-capable.

Diffrax is a JAX-based library providing numerical differential equation solvers.

Features include:

  • ODE/SDE/CDE (ordinary/stochastic/controlled) solvers;
  • lots of different solvers (including Tsit5, Dopri8, symplectic solvers, implicit solvers);
  • vmappable everything (including the region of integration);
  • using a PyTree as the state;
  • dense solutions;
  • multiple adjoint methods for backpropagation;
  • support for neural differential equations.

From a technical point of view, the internal structure of the library is pretty cool -- all kinds of equations (ODEs, SDEs, CDEs) are solved in a unified way (rather than being treated separately), producing a small tightly-written library.

Installation

pip install diffrax

Requires Python 3.9+, JAX 0.4.13+, and Equinox 0.10.11+.

Documentation

Available at https://docs.kidger.site/diffrax.

Quick example

from diffrax import diffeqsolve, ODETerm, Dopri5
import jax.numpy as jnp

def f(t, y, args):
    return -y

term = ODETerm(f)
solver = Dopri5()
y0 = jnp.array([2., 3.])
solution = diffeqsolve(term, solver, t0=0, t1=1, dt0=0.1, y0=y0)

Here, Dopri5 refers to the Dormand--Prince 5(4) numerical differential equation solver, which is a standard choice for many problems.

Citation

If you found this library useful in academic research, please cite: (arXiv link)

@phdthesis{kidger2021on,
    title={{O}n {N}eural {D}ifferential {E}quations},
    author={Patrick Kidger},
    year={2021},
    school={University of Oxford},
}

(Also consider starring the project on GitHub.)

See also: other libraries in the JAX ecosystem

Equinox: neural networks.

Optax: first-order gradient (SGD, Adam, ...) optimisers.

Lineax: linear solvers and linear least squares.

jaxtyping: type annotations for shape/dtype of arrays.

Eqxvision: computer vision models.

sympy2jax: SymPy<->JAX conversion; train symbolic expressions via gradient descent.

Levanter: scalable+reliable training of foundation models (e.g. LLMs).

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Numerical differential equation solvers in JAX. Autodifferentiable and GPU-capable. https://docs.kidger.site/diffrax/

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