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[TESTS] Decrease test times by introducing testing model
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Adds a new testing model `tvm.relay.testing.synthetic` which is a small,
but representative model. Replaces resnet with this model in many tests.
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tkonolige committed Aug 13, 2020
1 parent 16b2a4b commit 1eede50
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Showing 14 changed files with 209 additions and 73 deletions.
1 change: 1 addition & 0 deletions python/tvm/relay/testing/__init__.py
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Expand Up @@ -39,6 +39,7 @@
from . import densenet
from . import yolo_detection
from . import temp_op_attr
from . import synthetic

from .config import ctx_list
from .init import create_workload
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10 changes: 10 additions & 0 deletions python/tvm/relay/testing/init.py
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Expand Up @@ -15,11 +15,13 @@
# specific language governing permissions and limitations
# under the License.
"""Initializer of parameters."""
from functools import reduce
import numpy as np

import tvm
from tvm import relay


class Initializer(object):
"""The base class of an initializer."""
def __init__(self, **kwargs):
Expand Down Expand Up @@ -128,6 +130,14 @@ def _init_weight(self, name, arr):
raise ValueError("Unknown random type")


class Constant(Initializer):
""" Constant initialization of weights. Sum of weights in the matrix is 1.
"""
def _init_weight(self, name, arr):
num_elements = reduce(lambda x, y: x*y, arr.shape)
arr[:] = 1./num_elements


def create_workload(net, initializer=None, seed=0):
"""Helper function to create benchmark image classification workload.
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120 changes: 120 additions & 0 deletions python/tvm/relay/testing/synthetic.py
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@@ -0,0 +1,120 @@
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
"""
Synthetic networks for testing purposes. Ideally, these networks are similar in
structure to real world networks, but are much smaller in order to make testing
faster.
"""
from __future__ import absolute_import
from tvm import relay
from .init import create_workload, Constant
from . import layers


def get_net(input_shape=(1, 3, 24, 12), dtype="float32", wtype=None):
"""Get synthetic testing network.
Parameters
----------
image_shape : tuple, optional
The input shape as (batch_size, channels, height, width).
dtype : str, optional
The data type for the input.
wtype : str, optional
The data type for weights. Defaults to `dtype`.
Returns
-------
net : relay.Function
The dataflow.
"""
if wtype is None:
wtype = dtype
data = relay.var("data", shape=input_shape, dtype=dtype)
dense_shape = [-1, input_shape[3]]
dense = relay.nn.relu(
relay.nn.dense(
relay.reshape(data, dense_shape),
relay.var(
"dense_weight", shape=[input_shape[3], dense_shape[1]], dtype=wtype
),
)
)
dense = relay.reshape_like(dense, data)
conv_shape = [input_shape[1], input_shape[1], 3, 3]
conv = relay.nn.softmax(
relay.nn.conv2d(
data,
relay.var("conv_weight", shape=conv_shape, dtype=wtype),
padding=1,
kernel_size=3,
)
)
added = relay.add(dense, conv)
biased = layers.batch_norm_infer(
relay.nn.bias_add(added, relay.var("bias", dtype=wtype)), name="batch_norm"
)
dense = relay.nn.relu(
relay.nn.dense(
relay.reshape(biased, dense_shape),
relay.var(
"dense2_weight", shape=[input_shape[3], dense_shape[1]], dtype=wtype
),
)
)
dense = relay.reshape_like(dense, data)
conv = relay.nn.softmax(
relay.nn.conv2d(
biased,
relay.var("conv2_weight", shape=conv_shape, dtype=wtype),
padding=1,
kernel_size=3,
)
)
added = relay.add(dense, conv)
args = relay.analysis.free_vars(added)
return relay.Function(args, added)


def get_workload(input_shape=(1, 3, 24, 12), dtype="float32", wtype=None):
"""Get benchmark workload for the synthetic net.
Parameters
----------
image_shape : tuple, optional
The input shape as (batch_size, channels, height, width).
dtype : str, optional
The data type for the input.
wtype : str, optional
The data type for weights. Defaults to `dtype`.
Returns
-------
mod : tvm.IRModule
The relay module that contains a synthetic network.
params : dict of str to NDArray
The parameters.
"""
return create_workload(
get_net(input_shape=input_shape, dtype=dtype, wtype=wtype),
initializer=Constant(),
)
1 change: 0 additions & 1 deletion tests/micro/test_runtime_micro_on_arm.py
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Expand Up @@ -23,7 +23,6 @@
from tvm import relay
import tvm.micro as micro
from tvm.micro import create_micro_mod
from tvm.relay.testing import resnet

# Use real micro device - an STM32F746 discovery board
# SETUP:
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4 changes: 2 additions & 2 deletions tests/python/relay/test_analysis_extract_fused_functions.py
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Expand Up @@ -17,7 +17,7 @@
"""Test function extraction"""
import tvm
from tvm import relay
from tvm.relay.testing.resnet import get_workload
from tvm.relay.testing.synthetic import get_workload


def get_conv_net():
Expand Down Expand Up @@ -106,7 +106,7 @@ def is_conv_add(func):
def test_extract_resnet():
mod, _params = get_workload()
items = relay.analysis.extract_fused_functions(mod)
assert len(items) == 34
assert len(items) == 6


if __name__ == '__main__':
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10 changes: 5 additions & 5 deletions tests/python/relay/test_change_batch.py
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Expand Up @@ -17,13 +17,13 @@
import tvm
from tvm import te
from tvm import relay
from tvm.relay.testing import resnet
from tvm.relay.testing import synthetic
from tvm.relay import transform

def test_change_batch_resnet():
net, params = resnet.get_workload()
def test_change_batch_synthetic():
net, params = synthetic.get_workload()
new_net = transform.ChangeBatch({net["main"].params[0]: 0}, batch_size=123)(net)
assert new_net["main"].checked_type.ret_type == relay.TensorType((123, 1000))
assert new_net["main"].checked_type.ret_type.shape[0] == 123

if __name__ == "__main__":
test_change_batch_resnet()
test_change_batch_synthetic()
13 changes: 7 additions & 6 deletions tests/python/relay/test_pass_auto_quantize.py
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Expand Up @@ -72,18 +72,19 @@ def _check_batch_flatten(node):
# check if batch_flatten is quantized
relay.analysis.post_order_visit(qmod["main"], _check_batch_flatten)

def get_calibration_dataset(input_name):
def get_calibration_dataset(mod, input_name):
dataset = []
input_shape = [int(x) for x in mod["main"].checked_type.arg_types[0].shape]
for i in range(5):
data = np.random.uniform(size=(1, 3, 224, 224))
data = np.random.uniform(size=input_shape)
dataset.append({input_name: data})
return dataset


@pytest.mark.parametrize("create_target", [True, False])
def test_calibrate_target(create_target):
mod, params = testing.resnet.get_workload(num_layers=18)
dataset = get_calibration_dataset("data")
mod, params = testing.synthetic.get_workload()
dataset = get_calibration_dataset(mod, "data")
with relay.quantize.qconfig(calibrate_mode="kl_divergence"):
if create_target:
with tvm.target.create("llvm"):
Expand All @@ -94,8 +95,8 @@ def test_calibrate_target(create_target):


def test_calibrate_memory_bound():
mod, params = testing.resnet.get_workload(num_layers=18)
dataset = get_calibration_dataset("data")
mod, params = testing.synthetic.get_workload()
dataset = get_calibration_dataset(mod, "data")
import multiprocessing
num_cpu = multiprocessing.cpu_count()
with relay.quantize.qconfig(calibrate_mode="kl_divergence",
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2 changes: 1 addition & 1 deletion tests/python/relay/test_vm.py
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Expand Up @@ -594,7 +594,7 @@ def test_add_op_broadcast():
check_result([x_data, y_data], x_data + y_data, mod=mod)

def test_vm_optimize():
mod, params = testing.resnet.get_workload(batch_size=1, num_layers=18)
mod, params = testing.synthetic.get_workload()
comp = relay.vm.VMCompiler()
opt_mod, _ = comp.optimize(mod, "llvm", params)

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9 changes: 5 additions & 4 deletions tests/python/relay/test_vm_serialization.py
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Expand Up @@ -51,13 +51,14 @@ def get_serialized_output(mod, *data, params=None, target="llvm",

def run_network(mod,
params,
data_shape=(1, 3, 224, 224),
dtype='float32'):
def get_vm_output(mod, data, params, target, ctx, dtype='float32'):
ex = relay.create_executor('vm', mod=mod, ctx=ctx)
result = ex.evaluate()(data, **params)
return result.asnumpy().astype(dtype)

print(mod["main"])
data_shape = [int(x) for x in mod["main"].checked_type.arg_types[0].shape]
data = np.random.uniform(size=data_shape).astype(dtype)
target = "llvm"
ctx = tvm.cpu(0)
Expand Down Expand Up @@ -272,8 +273,8 @@ def test_closure():
tvm.testing.assert_allclose(res.asnumpy(), 3.0)


def test_resnet():
mod, params = testing.resnet.get_workload(batch_size=1, num_layers=18)
def test_synthetic():
mod, params = testing.synthetic.get_workload()
run_network(mod, params)


Expand Down Expand Up @@ -306,6 +307,6 @@ def test_vm_shape_of():
test_adt_list()
test_adt_compose()
test_closure()
test_resnet()
test_synthetic()
test_mobilenet()
test_vm_shape_of()
4 changes: 2 additions & 2 deletions tests/python/unittest/test_autotvm_graph_tuner_utils.py
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Expand Up @@ -24,7 +24,7 @@
from tvm import te

from tvm import autotvm, relay
from tvm.relay.testing import resnet
from tvm.relay.testing import synthetic
from tvm.autotvm.graph_tuner.utils import has_multiple_inputs, get_direct_ancestor, get_in_nodes, \
get_out_nodes, expr2graph, bind_inputs
from tvm.autotvm.graph_tuner._base import OPT_OUT_OP
Expand Down Expand Up @@ -56,7 +56,7 @@ def test_has_multiple_inputs():


def test_expr2graph():
mod, _ = resnet.get_workload(num_layers=50, batch_size=1)
mod, _ = synthetic.get_workload()
node_dict = {}
node_list = []
target_ops = [relay.op.get("nn.conv2d")]
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1 change: 0 additions & 1 deletion tests/python/unittest/test_runtime_micro.py
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Expand Up @@ -23,7 +23,6 @@
from tvm import relay
import tvm.micro as micro
from tvm.micro import create_micro_mod
from tvm.relay.testing import resnet

# # Use the host emulated micro device.
DEV_CONFIG_A = micro.device.host.generate_config()
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