Learning nonlinear operators via DeepONet

Last update: Jan 02, 2023

Related tags

Overview

DeepONet: Learning nonlinear operators

The source code for the paper Learning nonlinear operators via DeepONet based on the universal approximation theorem of operators, Nature Machine Intelligence, 2021.

System requirements

Most code is written in Python 3, and depends on the deep learning package DeepXDE. Some code is written in Matlab (version R2019a).

Installation guide

Install Python 3
Install DeepXDE (https://github.com/lululxvi/deepxde)
Optional: For CNN, install Matlab and TensorFlow 1; for Seq2Seq, install PyTorch

The installation may take between 10 minutes and one hour.

Demo

Case `Antiderivative`

Open deeponet_pde.py, and choose the parameters/setup in the functions main() and ode_system() based on the comments;
Run deeponet_pde.py, which will first generate the two datasets (training and test) and then train a DeepONet. The training and test MSE errors will be displayed in the screen.

A standard output is

Building operator neural network...
'build' took 0.104784 s

Generating operator data...
'gen_operator_data' took 20.495655 s

Generating operator data...
'gen_operator_data' took 168.944620 s

Compiling model...
'compile' took 0.265885 s

Initializing variables...
Training model...

Step      Train loss    Test loss     Test metric
0         [1.09e+00]    [1.11e+00]    [1.06e+00]
1000      [2.57e-04]    [2.87e-04]    [2.76e-04]
2000      [8.37e-05]    [9.99e-05]    [9.62e-05]
...
50000     [9.98e-07]    [1.39e-06]    [1.09e-06]

Best model at step 46000:
  train loss: 6.30e-07
  test loss: 9.79e-07
  test metric: [7.01e-07]

'train' took 324.343075 s

Saving loss history to loss.dat ...
Saving training data to train.dat ...
Saving test data to test.dat ...
Restoring model from model/model.ckpt-46000 ...

Predicting...
'predict' took 0.056257 s

Predicting...
'predict' took 0.012670 s

Test MSE: 9.269857471315847e-07
Test MSE w/o outliers: 6.972881784590493e-07

You can get the training and test errors in the end of the output.

The run time could be between several minutes to several hours depending on the parameters you choose, e.g., the dataset size and the number of iterations for training.

Case `Stochastic ODE/PDE`

Open sde.py, and choose the parameters/setup in the functions main();
Run sde.py, which will generate traning and test datasets;
Open deeponet_dataset.py, and choose the parameters/setup in the functions main();
Run deeponet_dataset.py to train a DeepONet. The training and test MSE errors will be displayed in the screen.

Case `1D Caputo fractional derivative`

Go to the folder fractional;
Run Caputo1D.m to generate training and test datasets. One can specify the orthongonal polynomial to be Legendre polynomial or poly-fractonomial in Orthogonal_polynomials.m. Expected run time: 20 mins.
Run datasets.py to pack and compress the genrated datasets. Expected outputs: compressed .npz files. Expected run time: 5 mins.
Run DeepONet_float32_batch.py to train and test DeepONets. Expected outputs: a figure of training and test losses. Expected run time: 1 hour.

Case `2D fractional Laplacian`

Learning a 2D fractional Laplacian using DeepONets

Run Fractional_Lap_2D.m to generate training and test datasets. Expected outputs: text files that store the training and test data. Expected run time: 40 mins.
Run datasets.py to pack and compress the genrated datasets. Expected outputs: compressed .npz files. Expected run time: 15 mins.
Run DeepONet_float32_batch.py to train and test DeepONets. Expected run time: 3 hours.

Learning a 2D fractional Laplacian using CNNs

Suppose that the text files containing all training and test sets have been generated in the previous step.
Run CNN_operator_alpha.py to train and test CNNs. Expected outputs: a figure of training and test losses. Expected run time: 30 mins.

Seq2Seq

Open seq2seq_main.py, choose the problem in the function main(), and change the parameters/setup in the corresponding function (antiderivative()/pendulum()) if needed.
Run seq2seq_main.py, which will first generate the dataset and then train the Seq2Seq model on the dataset. The training and test MSE errors will be displayed in the screen. Moreover, the loss history, generated data and trained best model will be saved in the direction ('./outputs/').

A standard output is

Training...
0             Train loss: 0.21926558017730713         Test loss: 0.22550159692764282
1000       Train loss: 0.0022761737927794456     Test loss: 0.0024939212016761303
2000       Train loss: 0.0004760705924127251     Test loss: 0.0005566366016864777
...
49000     Train loss: 1.2885914202342974e-06    Test loss: 1.999963387788739e-06
50000     Train loss: 1.1382834372852813e-06    Test loss: 1.8525416862757993e-06
Done!
'run' took 747.5421471595764 s
Best model at iteration 50000:
Train loss: 1.1382834372852813e-06 Test loss: 1.8525416862757993e-06

You can get the training and test errors in the end of the output.

The run time could be between several minutes to several hours depending on the parameters you choose, e.g., the dataset size and the number of iterations for training.

Instructions for use

The instructions for running each case are as follows.

Legendre transform: The same as Antiderivative in Demo. You need to modify the function main() in deeponet_pde.py.
Antiderivative: In Demo.
Fractional (1D): In Demo.
Fractional (2D): In Demo.
Nonlinear ODE: The same as Antiderivative in Demo. You need to modify the functions main() and ode_system() in deeponet_pde.py.
Gravity pendulum: The same as Antiderivative in Demo. You need to modify the functions main() and ode_system() in deeponet_pde.py.
Diffusion-reaction: The same as Antiderivative in Demo. You need to modify the function main() in deeponet_pde.py.
Advection: The same as Antiderivative in Demo. You need to modify the functions main() in deeponet_pde.py, run() in deeponet_pde.py, CVCSystem() in system.py, and solve_CVC() in CVC_solver.py to run each case.
Advection-diffusion: The same as Antiderivative in Demo. You need to modify the function main() in deeponet_pde.py.
Stochastic ODE/PDE: In Demo.

Questions

To get help on how to use the data or code, simply open an issue in the GitHub "Issues" section.

Comments

More than one input function maps to more than one output function by DeepONet

Hello Dr. Lu, It is very nice to get your reply. Following your answer, I think the data of the branch nets may be like this: [ u1(x1), ..., u1(xm) ] for one input function u1; [ u1(x1), ..., u1(xm), u2(x1), ..., u2(xm) ] for two input function u1 & u2. Or like this: [ u1(x1), u2(x1),..., u1(xm), u2(xm) ] ? I think the former seems to be the case. Do I have the correct understanding? I am looking forward to your reply. Thanks in advance.

Originally posted by @WangYicunZJU in https://github.com/lululxvi/deeponet/issues/9#issuecomment-901184441

opened by LVJIAQI777 5

Tests not running properly

Hi @lululxvi , Thanks for putting together deepxde. I was trying to get started with ODESystem but noticed a couple of things that are off. First off, here is my version info:

In [1]: import tensorflow, deepxde

In [2]: tensorflow.__version__
Out[2]: '2.6.0'

In [3]: deepxde.__version__
Out[3]: '0.13.5'

Now if I try to run the gravity pendulum ODE, I get a weird type mismatch error:

---------------------------------------------------------------------------
TypeError                                 Traceback (most recent call last)
<ipython-input-6-359904db8a4e> in <module>()
     47 
     48 if __name__ == "__main__":
---> 49     main()

14 frames
/usr/local/lib/python3.7/dist-packages/tensorflow/python/framework/func_graph.py in wrapper(*args, **kwargs)
    992           except Exception as e:  # pylint:disable=broad-except
    993             if hasattr(e, "ag_error_metadata"):
--> 994               raise e.ag_error_metadata.to_exception(e)
    995             else:
    996               raise

TypeError: in user code:

    /usr/local/lib/python3.7/dist-packages/deepxde/model.py:169 outputs_losses  *
        losses = self.data.losses(targets, outputs_, loss_fn, self)
    /usr/local/lib/python3.7/dist-packages/deepxde/data/triple.py:32 losses  *
        return [loss(targets, outputs)]
    /usr/local/lib/python3.7/dist-packages/deepxde/losses.py:27 mean_squared_error  *
        return bkd.reduce_mean(bkd.square(y_true - y_pred))
    /usr/local/lib/python3.7/dist-packages/tensorflow/python/ops/math_ops.py:1383 binary_op_wrapper
        raise e
    /usr/local/lib/python3.7/dist-packages/tensorflow/python/ops/math_ops.py:1367 binary_op_wrapper
        return func(x, y, name=name)
    /usr/local/lib/python3.7/dist-packages/tensorflow/python/util/dispatch.py:206 wrapper
        return target(*args, **kwargs)
    /usr/local/lib/python3.7/dist-packages/tensorflow/python/ops/math_ops.py:548 subtract
        return gen_math_ops.sub(x, y, name)
    /usr/local/lib/python3.7/dist-packages/tensorflow/python/ops/gen_math_ops.py:10654 sub
        "Sub", x=x, y=y, name=name)
    /usr/local/lib/python3.7/dist-packages/tensorflow/python/framework/op_def_library.py:558 _apply_op_helper
        inferred_from[input_arg.type_attr]))

    TypeError: Input 'y' of 'Sub' Op has type float32 that does not match type float64 of argument 'x'.

Here is the piece of code that I am trying to run (I cloned and manually appended the path to the git repo to directly import some of the submodules)

from __future__ import absolute_import
from __future__ import division
from __future__ import print_function

import itertools

import numpy as np
import sys, os

sys.path.append("deeponet/src/")

import deepxde as dde
from spaces import FinitePowerSeries, FiniteChebyshev, GRF
from system import LTSystem, ODESystem, DRSystem, CVCSystem, ADVDSystem
from utils import merge_values, trim_to_65535, mean_squared_error_outlier, safe_test

def test_u_ode(nn, system, T, m, model, data, u, fname, num=100):
    """Test ODE"""
    sensors = np.linspace(0, T, num=m)[:, None]
    sensor_values = u(sensors)
    x = np.linspace(0, T, num=num)[:, None]
    X_test = [np.tile(sensor_values.T, (num, 1)), x]
    y_test = system.eval_s_func(u, x)
    if nn != "opnn":
        X_test = merge_values(X_test)
    y_pred = model.predict(data.transform_inputs(X_test))
    np.savetxt(fname, np.hstack((x, y_test, y_pred)))
    print("L2relative error:", dde.metrics.l2_relative_error(y_test, y_pred))

def ode_system(T):
    """ODE"""

    def g(s, u, x):
        # Gravity pendulum
        k = 1
        return [s[1], -k * np.sin(s[0]) + u]

    s0 = [0, 0]  # Gravity pendulum
    return ODESystem(g, s0, T)

def run(problem, system, space, T, m, nn, net, lr, epochs, num_train, num_test):
    # space_test = GRF(1, length_scale=0.1, N=1000, interp="cubic")

    X_train, y_train = system.gen_operator_data(space, m, num_train)
    X_test, y_test = system.gen_operator_data(space, m, num_test)
    if nn != "opnn":
        X_train = merge_values(X_train)
        X_test = merge_values(X_test)

    # np.savez_compressed("train.npz", X_train0=X_train[0], X_train1=X_train[1], y_train=y_train)
    # np.savez_compressed("test.npz", X_test0=X_test[0], X_test1=X_test[1], y_test=y_test)
    # return

    # d = np.load("train.npz")
    # X_train, y_train = (d["X_train0"], d["X_train1"]), d["y_train"]
    # d = np.load("test.npz")
    # X_test, y_test = (d["X_test0"], d["X_test1"]), d["y_test"]

    X_test_trim = trim_to_65535(X_test)[0]
    y_test_trim = trim_to_65535(y_test)[0]
    if nn == "opnn":
        data = dde.data.Triple(
            X_train=X_train, y_train=y_train, X_test=X_test_trim, y_test=y_test_trim
        )
    else:
        data = dde.data.DataSet(
            X_train=X_train, y_train=y_train, X_test=X_test_trim, y_test=y_test_trim
        )

    model = dde.Model(data, net)
    model.compile("adam", lr=lr, metrics=[mean_squared_error_outlier])
    checker = dde.callbacks.ModelCheckpoint(
        "model/model.ckpt", save_better_only=True, period=1000
    )
    losshistory, train_state = model.train(epochs=epochs, callbacks=[checker])
    print(
        "# Parameters:",
        np.sum([np.prod(v.get_shape().as_list()) for v in tf.trainable_variables()]),
    )
    dde.saveplot(losshistory, train_state, issave=True, isplot=True)

    model.restore("model/model.ckpt-" + str(train_state.best_step), verbose=1)
    safe_test(model, data, X_test, y_test)

    tests = [
        (lambda x: x, "x.dat"),
        (lambda x: np.sin(np.pi * x), "sinx.dat"),
        (lambda x: np.sin(2 * np.pi * x), "sin2x.dat"),
        (lambda x: x * np.sin(2 * np.pi * x), "xsin2x.dat"),
    ]
    for u, fname in tests:
        if problem == "ode":
            test_u_ode(nn, system, T, m, model, data, u, fname)

def main():
    # Problems:
    # - "lt": Legendre transform
    # - "ode": Antiderivative, Nonlinear ODE, Gravity pendulum
    # - "dr": Diffusion-reaction
    # - "cvc": Advection
    # - "advd": Advection-diffusion
    problem = "ode"
    T = 1
    system = ode_system(T)

    # Function space
    # space = FinitePowerSeries(N=100, M=1)
    # space = FiniteChebyshev(N=20, M=1)
    # space = GRF(2, length_scale=0.2, N=2000, interp="cubic")  # "lt"
    space = GRF(1, length_scale=0.2, N=1000, interp="cubic")
    # space = GRF(T, length_scale=0.2, N=1000 * T, interp="cubic")

    # Hyperparameters
    m = 100
    num_train = 10000
    num_test = 100000
    lr = 0.001
    epochs = 50000

    # Network
    nn = "opnn"
    activation = "relu"
    initializer = "Glorot normal"  # "He normal" or "Glorot normal"
    dim_x = 1 if problem in ["ode", "lt"] else 2
    if nn == "opnn":
        net = dde.maps.DeepONetCartesianProd(
            [m, 40, 40],
            [dim_x, 40, 40],
            activation,
            initializer,
            # use_bias=True,
            # stacked=False,
        )
    elif nn == "fnn":
        net = dde.maps.FNN([m + dim_x] + [100] * 2 + [1], activation, initializer)
    elif nn == "resnet":
        net = dde.maps.ResNet(m + dim_x, 1, 128, 2, activation, initializer)

    run(problem, system, space, T, m, nn, net, lr, epochs, num_train, num_test)

if __name__ == "__main__":
    main()

Taking a look briefly at the exports in deepxde.nn.tensorflow I think that the Installation Guide should point to DeepONetCartesianProd and not DeepONet, right? Or am I missing anything? Now even if I make that change, the code is not runnable as is. Do you have any inputs?

I will keep exploring the library, but it'd be great if you could clarify a bit on how to make the above snippet runnable.

Thanks!

opened by bhaveshshrimali 5

The data shape of the triplet if the number of input functions of branch nets is more than one?

Hello: First of all, thank you very much for your excellent work! I have met a little problem. How to reshape the dataset (or change the code) if the number of input functions of branch nets is more than one? Just like G_phi in this paper("DeepM&Mnet: Inferring the electroconvection multiphysics fields..."), (c+, c-) -->phi. Or like G_rhoNO in this paper("DeepM&Mnet for hypersonics..."), (rho_N2, rho_O2) --> rho_NO. Specifically, what about the data shape of the triplet? Thanks in advance.

opened by WangYicunZJU 4
Could a function of Lp space(p=2) be branch input？

Dear Professor.Lulu:

As title. I notice you employ KL expansion in Learning stochastic operators, and use N eigenfunctions scaled by the eigenvalues as the input of branch net.

My problem is about Sturm-Liouville problem, the solution is also consist of eigenfunctions and eigenvalues.

Is that mean i should train model for the problem with different number of eigenvalues, and the input of branch net is N orthogonal functions? If there is no random process, the input of the branch net is function u of variable x, the function is sample from Lp space(p=2) .It's OK use the function u(x) instead of Fourier-Bessel expansion?

opened by xuliang5115 3
How to solve 3d ode equations

Hi, First of all, thank you very much for your excellent work.

In case Gravity pendulum, how do I print the predicted value of the variable s2?

I also try to solve a 3D ode equation set, like ds1/dt=g1(x),ds2/dt=g2(x),ds3/dt=g3(x).It works very well, but only outputs the s1 in test ode function.

Looking forward to your reply.

Thank you very much.

opened by ajogajog 3
AttributeError: 'Triple' object has no attribute 'transform_inputs'

Any idea how to resolve the following error? This is for the default problem = "ode" test case. Backend: tensorflow.compat.v1 TensorFlow version: 2.6.2 Thanks.

Restoring model from model/model.ckpt-37000.ckpt ...

Traceback (most recent call last): File "deeponet_pde.py", line 285, in main() File "deeponet_pde.py", line 281, in main run(problem, system, space, T, m, nn, net, lr, epochs, num_train, num_test) File "deeponet_pde.py", line 177, in run safe_test(model, data, X_test, y_test) File "/[HOME-PATH]/tests/deeponet/src/utils.py", line 56, in safe_test y_pred.append(model.predict(data.transform_inputs(X_add))) AttributeError: 'Triple' object has no attribute 'transform_inputs'

opened by cfd-ai 2
Number of parameters in `seq2seq` scales with the length**2 of the sequence

https://github.com/lululxvi/deeponet/blob/44e7b5a2356b0e6e00ad101e897342a2f1e87c0b/seq2seq/learner/nn/seq2seq.py#L58-L59

This does not seem right, considering DeepONet does not have such kind of dependence.

https://github.com/lululxvi/deeponet/blob/44e7b5a2356b0e6e00ad101e897342a2f1e87c0b/seq2seq/learner/nn/deeponet.py#L39-L41

opened by scaomath 1
How to use the trained model to predict without training?

Hello Dr. Lu, Thank you very much for putting forward this DeepONet for our study.I'm very interested in DeepONet . But now I have a problem.I spent a lot of time generating datasets and training on reaction-diffusion equations. I save the training data set and the best model after training. But how can I use this optimal model to predict the solution of the reaction-diffusion equation without training? How can I modify the code in deeponet_pde.py? Thank you very much for your time.

opened by blackyichao 1
Dimension issue in generating operator "system.py".
Hi, First of all, thank you very much for your excellent work.

I tried to test the dimension-match in system.py for the case of simple linear ODE with the following parameters:

The space that I choose is Finite Power Series with N = 100 and M = 1

m: the number of sensors (So I get the sensors to be an array of m-by-1) Choose m = 50

m_u: the number of u's ( the sample u is an array of m_u-by-m) Choose m_u = 60

m_y: the number of y's ( an array of m_y-by-1) Choose m_y = 40

However, I get the dimension for s which value of G(u)(y) is an array of 40-by-1. Should this value have to be an array of (m_u * m_y)-by-1 which is in this case 2400-by-1?

This is my modified part:

def gen_operator_data(self,space,m, m_u, m_y): print("GENERATING THE DATA...", flush = True) features= space.random(m_u) # build the features (m_u, N) check sensors = np.linspace(0, self.T, m)[:, None] # build the sensors (m,1) check u = space.eval_u(features_train, sensors) # get the sample u's (m_u, m) check x = self.T * np.random.rand(m_y)[:,None] # get the sample y's (m_y, 1) check s = self.eval_op_space(space, features, x) # get the values s' Xdata = [u, x] Ydata = s return Xdata, Ydata

I look forward to hearing from you soon.

Best Regards.
opened by phuongle0701 1
input data format for OpNN

Hi Lu, Thanks for your work. I am trying to make some data for OpNN training. just for clarifying, should the input data be [initial condition, position] and the label be [true value w.r.t. input]?

opened by ChironJC 1
two-dimensional PDE problem of deeponet

Thank you for your previous answer. The problem of model recovery has been solved. But I have another question.Can we use deeponet to solve the two-dimensional PDE problem? If so, can I input a list of X and Y in the Trunk net?

opened by blackyichao 0
If the input of the trunk net could be set to be different

Hello Dr. Lu,

I am Bo Chen from SJTU. We had some communication before in online conference, and I have read your code of the article"A comprehensive and fair comparison of two neural operators (with practical extensions) based on FAIR data". It is really wonderful work and I have learnt a lot from it.

But it can be found that in the cases you offered, the input of the trunk net is always the same distribution for every input of the branch net so that the data can be set by "dde.data.TripleCartesianProd()" with a grid of only one distribution.

However in my application, the input of the trunk net must be different distribution because of the data limitation of labels. This situation is just
mentioned in your article as case I or case II ,which means different u have the different locations of ξ.

I have made same attempts but it seems that the shape of data_trunknet is fixed and hard to be changed. And I also see a type of error "ValueError("DeepONet does not support setting trunk net input.")" in the code even though I did not meet this kind of error in my attempts.

So I wonder if there is a method of that could feed the input of the trunk net with different distribution to DEEPONET. If possible, could you give me some guidance or a simple demo is better.

Thanks very much!

Looking forword to your reply!

opened by cb-sjtu 7

High test loss for nonlinear ODE case

I modified both main() and ode_system() as stated in the instructions, but I get a very high test loss. Do I have to modify other functions? I also increased the number of epochs to 10^5 as pointed in the supplementary information of the cited paper (a very interesting work I have to say). Thank you in advance.

Additional information: Modified lines (all in src/deeponet_pde.py): line 104: uncommented after having commented line 102 line 231: be sure to have problem="ode" line 260: increased epochs to 100000

Example of output:

Step      Train loss    Test loss     Test metric   
0         [3.68e-01]    [1.74e+25]    [3.55e-01]    
1000      [3.08e-03]    [1.74e+25]    [2.05e-03]    
2000      [8.55e-04]    [1.74e+25]    [8.00e-04]    
3000      [3.57e-04]    [1.74e+25]    [5.24e-04]    
4000      [2.06e-04]    [1.74e+25]    [3.58e-04]    
5000      [1.65e-04]    [1.74e+25]    [3.22e-04]    
6000      [1.43e-04]    [1.74e+25]    [2.83e-04]    
7000      [1.28e-04]    [1.74e+25]    [2.47e-04]    
8000      [1.01e-04]    [1.74e+25]    [2.26e-04]    
9000      [8.53e-05]    [1.74e+25]    [2.00e-04]    
10000     [7.95e-05]    [1.74e+25]    [1.87e-04]    
11000     [7.90e-05]    [1.74e+25]    [1.80e-04]    
12000     [9.09e-05]    [1.74e+25]    [1.88e-04]    
13000     [9.10e-05]    [1.74e+25]    [1.69e-04]    
14000     [5.61e-05]    [1.74e+25]    [1.45e-04]    
15000     [5.24e-05]    [1.74e+25]    [1.40e-04]    
16000     [5.50e-05]    [1.74e+25]    [1.44e-04]    
17000     [5.00e-05]    [1.74e+25]    [1.33e-04]    
18000     [5.21e-05]    [1.74e+25]    [1.39e-04]    
19000     [4.54e-05]    [1.74e+25]    [1.31e-04]    
20000     [1.13e-04]    [1.74e+25]    [1.78e-04]    
21000     [4.39e-05]    [1.74e+25]    [1.31e-04]    
22000     [5.68e-05]    [1.74e+25]    [1.45e-04]    
23000     [4.37e-05]    [1.74e+25]    [1.31e-04]    
24000     [4.18e-05]    [1.74e+25]    [1.28e-04]    
25000     [4.00e-05]    [1.74e+25]    [1.28e-04]    
26000     [6.98e-05]    [1.74e+25]    [1.55e-04]    
27000     [7.45e-05]    [1.74e+25]    [1.58e-04]    
28000     [4.10e-05]    [1.74e+25]    [1.22e-04]    
29000     [3.62e-05]    [1.74e+25]    [1.20e-04]    
30000     [5.16e-05]    [1.74e+25]    [1.36e-04]    
31000     [3.60e-05]    [1.74e+25]    [1.19e-04]    
32000     [3.82e-05]    [1.74e+25]    [1.20e-04]    
33000     [3.33e-05]    [1.74e+25]    [1.14e-04]    
34000     [3.36e-05]    [1.74e+25]    [1.14e-04]    
35000     [3.24e-05]    [1.74e+25]    [1.11e-04]    
36000     [3.15e-05]    [1.74e+25]    [1.12e-04]    
37000     [3.14e-05]    [1.74e+25]    [1.08e-04]    
38000     [3.78e-05]    [1.74e+25]    [1.18e-04]    
39000     [3.40e-05]    [1.74e+25]    [1.09e-04]    
40000     [4.34e-05]    [1.74e+25]    [1.14e-04]    
41000     [3.58e-05]    [1.74e+25]    [1.09e-04]    
42000     [2.89e-05]    [1.74e+25]    [1.04e-04]    
43000     [2.99e-05]    [1.74e+25]    [1.09e-04]    
44000     [4.13e-05]    [1.74e+25]    [1.10e-04]    
45000     [2.72e-05]    [1.74e+25]    [1.03e-04]    
46000     [2.71e-05]    [1.74e+25]    [1.03e-04]    
47000     [2.88e-05]    [1.74e+25]    [1.02e-04]    
48000     [5.22e-05]    [1.74e+25]    [1.33e-04]    
49000     [2.55e-05]    [1.74e+25]    [9.98e-05]    
50000     [2.92e-05]    [1.74e+25]    [1.01e-04]    
51000     [2.63e-05]    [1.74e+25]    [9.88e-05]    
52000     [2.39e-05]    [1.74e+25]    [9.90e-05]    
53000     [2.76e-05]    [1.74e+25]    [1.02e-04]    
54000     [3.15e-05]    [1.74e+25]    [9.99e-05]    
55000     [3.11e-05]    [1.74e+25]    [1.11e-04]    
56000     [2.47e-05]    [1.74e+25]    [9.72e-05]    
57000     [3.14e-05]    [1.74e+25]    [1.08e-04]    
58000     [3.34e-05]    [1.74e+25]    [1.01e-04]    
59000     [2.54e-05]    [1.74e+25]    [9.68e-05]    
60000     [3.11e-05]    [1.74e+25]    [9.88e-05]    
61000     [4.05e-05]    [1.74e+25]    [1.20e-04]    
62000     [4.36e-05]    [1.74e+25]    [1.22e-04]    
63000     [2.21e-05]    [1.74e+25]    [9.88e-05]    
64000     [2.31e-05]    [1.74e+25]    [9.72e-05]    
65000     [3.04e-05]    [1.74e+25]    [9.75e-05]    
66000     [2.57e-05]    [1.74e+25]    [9.81e-05]    
67000     [2.77e-05]    [1.74e+25]    [9.60e-05]    
68000     [2.22e-05]    [1.74e+25]    [9.49e-05]    
69000     [2.21e-05]    [1.74e+25]    [9.86e-05]    
70000     [2.57e-05]    [1.74e+25]    [9.89e-05]    
71000     [2.21e-05]    [1.74e+25]    [9.48e-05]    
72000     [2.11e-05]    [1.74e+25]    [9.38e-05]    
73000     [2.57e-05]    [1.74e+25]    [1.02e-04]    
74000     [3.00e-05]    [1.74e+25]    [1.09e-04]    
75000     [2.15e-05]    [1.74e+25]    [9.34e-05]    
76000     [2.06e-05]    [1.74e+25]    [9.62e-05]    
77000     [3.68e-05]    [1.74e+25]    [1.16e-04]    
78000     [1.95e-05]    [1.74e+25]    [9.37e-05]    
79000     [2.38e-05]    [1.74e+25]    [9.98e-05]    
80000     [6.12e-05]    [1.74e+25]    [1.42e-04]    
81000     [2.97e-05]    [1.74e+25]    [1.08e-04]    
82000     [2.12e-05]    [1.74e+25]    [9.13e-05]    
83000     [2.11e-05]    [1.74e+25]    [9.13e-05]    
84000     [1.92e-05]    [1.74e+25]    [9.08e-05]    
85000     [4.75e-05]    [1.74e+25]    [1.28e-04]    
86000     [6.35e-05]    [1.74e+25]    [1.44e-04]    
87000     [1.88e-05]    [1.74e+25]    [9.50e-05]    
88000     [1.85e-05]    [1.74e+25]    [9.09e-05]    
89000     [1.74e-05]    [1.74e+25]    [9.12e-05]    
90000     [1.75e-05]    [1.74e+25]    [9.28e-05]    
91000     [3.79e-05]    [1.74e+25]    [1.05e-04]    
92000     [1.98e-05]    [1.74e+25]    [9.06e-05]    
93000     [2.04e-05]    [1.74e+25]    [9.09e-05]    
94000     [2.14e-05]    [1.74e+25]    [9.92e-05]    
95000     [1.70e-05]    [1.74e+25]    [9.22e-05]    
96000     [3.40e-05]    [1.74e+25]    [9.47e-05]    
97000     [1.80e-05]    [1.74e+25]    [9.49e-05]    
98000     [1.65e-05]    [1.74e+25]    [9.20e-05]    
99000     [1.67e-05]    [1.74e+25]    [8.97e-05]    
100000    [1.65e-05]    [1.74e+25]    [9.20e-05]    

Best model at step 98000:
  train loss: 1.65e-05
  test loss: 1.74e+25
  test metric: [9.20e-05]

opened by edoardo100 1

AttributeError: 'Triple' object has no attribute 'transform_inputs'

model.restore("model/model.ckpt-" + str(train_state.best_step) + ".ckpt", verbose=1) #model.restore("model/model.ckpt-" + str(train_state.best_step), verbose=1) safe_test(model, data, X_test, y_test)

Saving loss history to D:\LULU\deeponet-master1\deeponet-master\src\loss.dat ... Error: The network has multiple inputs, and saving such result han't been implemented. Error: The network has multiple inputs, and plotting such result han't been implemented. Restoring model from model/model.ckpt-5000.ckpt ...

Traceback (most recent call last): File "D:/LULU/deeponet-master1/deeponet-master/src/deeponet_pde.py", line 285, in main() File "D:\LULU/deeponet-master1/deeponet-master/src/deeponet_pde.py", line 281, in main run(problem, system, space, T, m, nn, net, lr, epochs, num_train, num_test) File "D:\LULU/deeponet-master1/deeponet-master/src/deeponet_pde.py", line 177, in run safe_test(model, data, X_test, y_test) File "D:\LULU\deeponet-master1\deeponet-master\src\utils.py", line 56, in safe_test y_pred.append(model.predict(data.transform_inputs(X_add))) AttributeError: 'Triple' object has no attribute 'transform_inputs'

进程已结束,退出代码1

opened by jinjunyonggzh 1
How DeepONet provides multiple outputs

Professor Lu: For a complex output problem, I divided into two networks with the same structure and hyperparameters for training. The previous issue has been resolved. So, i need put model1 and model2 in two files. I use step method to reduce the dimension of Trunk net, the input of each step is the output of the two networks of the previous step. So there is a bug. I think it is necessary to train a network with two outputs at the same time. May i ask some relevant examples so i can change my code?

opened by xuliang5115 2
Questions about the difference PINN and DeepXDE
Dear Prof. Lu, Thanks for your time for looking at this question.

Could you tell me is the DeepXDE is one type of PINN? But I didn't find any code about using control equation to describe the loss in DeepXDE.

Currently, I am solving a equations contained possion and transport equations. I want to obtain the dynamic process of the electron density change. Should I use the (x,y,t) and (E,ne,np,nn) as the input and output, respectively. Can the DeepXDE predict the extra time results without trained time data as input.
opened by pengcz 1
UnicodeDecodeError: 'utf-8' codec can't decode byte 0xd5 in position 38: invalid continuation byte

Hello, professor. I have some porblem.What's the way you coded? I have the following error while running the code.

Traceback (most recent call last): File "E:/DeepONet/deeponet-master/src/deeponet_pde.py", line 285, in main() File "E:/DeepONet/deeponet-master/src/deeponet_pde.py", line 281, in main run(problem, system, space, T, m, nn, net, lr, epochs, num_train, num_test) File "E:/DeepONet/deeponet-master/src/deeponet_pde.py", line 176, in run model.restore("model/model.ckpt-" + str(train_state.best_step), verbose=1) File "D:\ProgramData\Anaconda3\envs\donlu\lib\site-packages\deepxde\model.py", line 377, in restore self.saver.restore(self.sess, save_path) File "D:\ProgramData\Anaconda3\envs\donlu\lib\site-packages\tensorflow\python\training\saver.py", line 1289, in restore if not checkpoint_management.checkpoint_exists_internal(checkpoint_prefix): File "D:\ProgramData\Anaconda3\envs\donlu\lib\site-packages\tensorflow\python\training\checkpoint_management.py", line 383, in checkpoint_exists_internal if file_io.get_matching_files(pathname): File "D:\ProgramData\Anaconda3\envs\donlu\lib\site-packages\tensorflow\python\lib\io\file_io.py", line 350, in get_matching_files return get_matching_files_v2(filename) File "D:\ProgramData\Anaconda3\envs\donlu\lib\site-packages\tensorflow\python\lib\io\file_io.py", line 371, in get_matching_files_v2 compat.as_bytes(pattern)) UnicodeDecodeError: 'utf-8' codec can't decode byte 0xd5 in position 38: invalid continuation byte

Process finished with exit code 1

opened by DaJiang7 2

Releases(v1.0.0)

v1.0.0(Dec 13, 2020)

This is the first release.
Source code(tar.gz)
Source code(zip)

Owner

Lu Lu

Applied Mathematics Instructor, Massachusetts Institute of Technology

GitHub Repository

Part-Aware Data Augmentation for 3D Object Detection in Point Cloud

Part-Aware Data Augmentation for 3D Object Detection in Point Cloud This repository contains a reference implementation of our Part-Aware Data Augment

62 Jan 03, 2023

Company clustering with K-means/GMM and visualization with PCA, t-SNE, using SSAN relation extraction

RE results graph visualization and company clustering Installation pip install -r requirements.txt python -m nltk.downloader stopwords python3.7 main.

1 Oct 06, 2022

Train a state-of-the-art yolov3 object detector from scratch!

TrainYourOwnYOLO: Building a Custom Object Detector from Scratch This repo let's you train a custom image detector using the state-of-the-art YOLOv3 c

616 Jan 08, 2023

Spatial Contrastive Learning for Few-Shot Classification (SCL)

This repo contains the official implementation of Spatial Contrastive Learning for Few-Shot Classification (SCL), which presents of a novel contrastive learning method applied to few-shot image class

34 Dec 25, 2022

Pretty Tensor - Fluent Neural Networks in TensorFlow

Pretty Tensor provides a high level builder API for TensorFlow. It provides thin wrappers on Tensors so that you can easily build multi-layer neural networks.

1.2k Dec 29, 2022

Locally Differentially Private Distributed Deep Learning via Knowledge Distillation (LDP-DL)

Locally Differentially Private Distributed Deep Learning via Knowledge Distillation (LDP-DL) A preprint version of our paper: Link here This is a samp

3 Jan 08, 2023

DiffWave is a fast, high-quality neural vocoder and waveform synthesizer.

DiffWave DiffWave is a fast, high-quality neural vocoder and waveform synthesizer. It starts with Gaussian noise and converts it into speech via itera

498 Jan 03, 2023

Code and hyperparameters for the paper "Generative Adversarial Networks"

Generative Adversarial Networks This repository contains the code and hyperparameters for the paper: "Generative Adversarial Networks." Ian J. Goodfel

3.5k Jan 08, 2023

A set of tools for Namebase and HNS

HNS-TOOLS A set of tools for Namebase and HNS To install: pip install -r requirements.txt To run: py main.py My Namebase referral code: http://namebas

7 Apr 08, 2022

This is a JAX implementation of Neural Radiance Fields for learning purposes.

learn-nerf This is a JAX implementation of Neural Radiance Fields for learning purposes. I've been curious about NeRF and its follow-up work for a whi

62 Dec 20, 2022

Patient-Survival - Using Python, I developed a Machine Learning model using classification techniques such as Random Forest and SVM classifiers to predict a patient's survival status that have undergone breast cancer surgery.

Patient-Survival - Using Python, I developed a Machine Learning model using classification techniques such as Random Forest and SVM classifiers to predict a patient's survival status that have underg

1 Dec 28, 2021

A Large-Scale Dataset for Spinal Vertebrae Segmentation in Computed Tomography

75 Dec 26, 2022

I-SECRET: Importance-guided fundus image enhancement via semi-supervised contrastive constraining

I-SECRET This is the implementation of the MICCAI 2021 Paper "I-SECRET: Importance-guided fundus image enhancement via semi-supervised contrastive con

13 Dec 02, 2022

Tensorflow implementation and notebooks for Implicit Maximum Likelihood Estimation

tf-imle Tensorflow 2 and PyTorch implementation and Jupyter notebooks for Implicit Maximum Likelihood Estimation (I-MLE) proposed in the NeurIPS 2021

69 Dec 13, 2022

ML model to classify between cats and dogs

Cats-and-dogs-classifier This is my first ML model which can classify between cats and dogs. Here the accuracy is around 75%, however , the accuracy c

4 Aug 20, 2021

The official repository for "Revealing unforeseen diagnostic image features with deep learning by detecting cardiovascular diseases from apical four-chamber ultrasounds"

Revealing unforeseen diagnostic image features with deep learning by detecting cardiovascular diseases from apical four-chamber ultrasounds The why Im

3 Mar 29, 2022