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9 changes: 8 additions & 1 deletion deepmd/tf/descriptor/descriptor.py
Original file line number Diff line number Diff line change
Expand Up @@ -105,7 +105,8 @@ def get_dim_rot_mat_1(self) -> int:
int
the first dimension of the rotation matrix
"""
raise NotImplementedError
# by default, no rotation matrix
return 0

def get_nlist(self) -> tuple[tf.Tensor, tf.Tensor, list[int], list[int]]:
"""Returns neighbor information.
Expand Down Expand Up @@ -534,3 +535,9 @@ def serialize(self, suffix: str = "") -> dict:
def input_requirement(self) -> list[DataRequirementItem]:
"""Return data requirements needed for the model input."""
return []

def get_rot_mat(self) -> tf.Tensor:
"""Get rotational matrix."""
nframes = tf.shape(self.dout)[0]
natoms = tf.shape(self.dout)[1]
return tf.zeros([nframes, natoms, 0], dtype=GLOBAL_TF_FLOAT_PRECISION)
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18 changes: 18 additions & 0 deletions deepmd/tf/descriptor/hybrid.py
Original file line number Diff line number Diff line change
Expand Up @@ -492,3 +492,21 @@ def deserialize(cls, data: dict, suffix: str = "") -> "DescrptHybrid":
if hasattr(ii, "type_embedding"):
raise NotImplementedError("hybrid + type embedding is not supported")
return obj

def get_dim_rot_mat_1(self) -> int:
"""Returns the first dimension of the rotation matrix. The rotation is of shape
dim_1 x 3.

Returns
-------
int
the first dimension of the rotation matrix
"""
return sum([ii.get_dim_rot_mat_1() for ii in self.descrpt_list])

def get_rot_mat(self) -> tf.Tensor:
"""Get rotational matrix."""
all_rot_mat = []
for ii in self.descrpt_list:
all_rot_mat.append(ii.get_rot_mat())
return tf.concat(all_rot_mat, axis=2)
5 changes: 5 additions & 0 deletions deepmd/tf/model/model.py
Original file line number Diff line number Diff line change
Expand Up @@ -668,6 +668,11 @@ def __init__(
else:
if fitting_net["type"] in ["dipole", "polar"]:
fitting_net["embedding_width"] = self.descrpt.get_dim_rot_mat_1()
if fitting_net["embedding_width"] == 0:
raise ValueError(
"This descriptor cannot provide a rotation matrix "
"for a tensorial fitting."
)
self.fitting = Fitting(
**fitting_net,
descrpt=self.descrpt,
Expand Down
143 changes: 143 additions & 0 deletions source/tests/tf/test_dipole_hybrid_descrpt.py
Original file line number Diff line number Diff line change
@@ -0,0 +1,143 @@
# SPDX-License-Identifier: LGPL-3.0-or-later
import numpy as np

from deepmd.tf.descriptor.hybrid import (
DescrptHybrid,
)
from deepmd.tf.env import (
tf,
)
from deepmd.tf.fit import (
DipoleFittingSeA,
)
from deepmd.tf.model import (
DipoleModel,
)

from .common import (
DataSystem,
gen_data,
j_loader,
)

GLOBAL_ENER_FLOAT_PRECISION = tf.float64
GLOBAL_TF_FLOAT_PRECISION = tf.float64
GLOBAL_NP_FLOAT_PRECISION = np.float64


class TestModel(tf.test.TestCase):
def setUp(self) -> None:
gen_data()

def test_model(self) -> None:
jfile = "polar_se_a.json"
jdata = j_loader(jfile)

systems = jdata["systems"]
set_pfx = "set"
batch_size = 1
test_size = 1
rcut = jdata["model"]["descriptor"]["rcut"]

data = DataSystem(systems, set_pfx, batch_size, test_size, rcut, run_opt=None)

test_data = data.get_test()
numb_test = 1

descrpt = DescrptHybrid(
list=[
{
"type": "se_e2_a",
"sel": [20, 20],
"rcut_smth": 1.8,
"rcut": 6.0,
"neuron": [2, 4, 8],
"resnet_dt": False,
"axis_neuron": 8,
"precision": "float64",
"type_one_side": True,
"seed": 1,
},
{
"type": "se_e2_a",
"sel": [20, 20],
"rcut_smth": 1.8,
"rcut": 6.0,
"neuron": [2, 4, 8],
"resnet_dt": False,
"axis_neuron": 8,
"precision": "float64",
"type_one_side": True,
"seed": 1,
},
{
"type": "se_e3",
"sel": [5, 5],
"rcut_smth": 1.8,
"rcut": 2.0,
"neuron": [2],
"resnet_dt": False,
"precision": "float64",
"seed": 1,
},
]
)
jdata["model"]["fitting_net"].pop("type", None)
jdata["model"]["fitting_net"].pop("fit_diag", None)
jdata["model"]["fitting_net"]["ntypes"] = descrpt.get_ntypes()
jdata["model"]["fitting_net"]["dim_descrpt"] = descrpt.get_dim_out()
jdata["model"]["fitting_net"]["embedding_width"] = descrpt.get_dim_rot_mat_1()
fitting = DipoleFittingSeA(**jdata["model"]["fitting_net"], uniform_seed=True)
model = DipoleModel(descrpt, fitting)

# model._compute_dstats([test_data['coord']], [test_data['box']], [test_data['type']], [test_data['natoms_vec']], [test_data['default_mesh']])
input_data = {
"coord": [test_data["coord"]],
"box": [test_data["box"]],
"type": [test_data["type"]],
"natoms_vec": [test_data["natoms_vec"]],
"default_mesh": [test_data["default_mesh"]],
"fparam": [test_data["fparam"]],
}
model._compute_input_stat(input_data)

t_prop_c = tf.placeholder(tf.float32, [5], name="t_prop_c")
t_coord = tf.placeholder(GLOBAL_TF_FLOAT_PRECISION, [None], name="i_coord")
t_type = tf.placeholder(tf.int32, [None], name="i_type")
t_natoms = tf.placeholder(tf.int32, [model.ntypes + 2], name="i_natoms")
t_box = tf.placeholder(GLOBAL_TF_FLOAT_PRECISION, [None, 9], name="i_box")
t_mesh = tf.placeholder(tf.int32, [None], name="i_mesh")
is_training = tf.placeholder(tf.bool)
t_fparam = None

model_pred = model.build(
t_coord,
t_type,
t_natoms,
t_box,
t_mesh,
t_fparam,
suffix="dipole_hybrid",
reuse=False,
)
dipole = model_pred["dipole"]
gdipole = model_pred["global_dipole"]
force = model_pred["force"]
virial = model_pred["virial"]
atom_virial = model_pred["atom_virial"]

feed_dict_test = {
t_prop_c: test_data["prop_c"],
t_coord: np.reshape(test_data["coord"][:numb_test, :], [-1]),
t_box: test_data["box"][:numb_test, :],
t_type: np.reshape(test_data["type"][:numb_test, :], [-1]),
t_natoms: test_data["natoms_vec"],
t_mesh: test_data["default_mesh"],
is_training: False,
}

sess = self.cached_session().__enter__()
sess.run(tf.global_variables_initializer())
[p, gp, f, v, av] = sess.run(
[dipole, gdipole, force, virial, atom_virial], feed_dict=feed_dict_test
)