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utils.py
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utils.py
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import os
import tvm
from tvm import relay
def get_network(name, batch_size, dtype, layout):
"""Get the symbol definition and random weight of a network"""
input_name = "data"
input_shape = (batch_size, 3, 224, 224)
output_shape = (batch_size, 1000)
if "resnet" in name:
import mxnet
n_layer = int(name.split("_")[1])
block = mxnet.gluon.model_zoo.vision.get_resnet(1, n_layer, pretrained=True)
mod, params = relay.frontend.from_mxnet(
block, shape={"data": input_shape}, dtype=dtype
)
if layout == "NHWC":
mod = convert_to_nhwc(mod)
else:
assert layout == "NCHW"
elif name == "mobilenet_v2":
import mxnet
multiplier = 1
block = mxnet.gluon.model_zoo.vision.get_mobilenet_v2(
multiplier, pretrained=True
)
mod, params = relay.frontend.from_mxnet(
block, shape={"data": input_shape}, dtype=dtype
)
if layout == "NHWC":
mod = convert_to_nhwc(mod)
else:
assert layout == "NCHW"
elif name == "bert":
import gluonnlp
seq_length = 128
# Instantiate a BERT classifier using GluonNLP
model_name = "bert_12_768_12"
dataset = "book_corpus_wiki_en_uncased"
model, _ = gluonnlp.model.get_model(
name=model_name,
dataset_name=dataset,
pretrained=True,
use_pooler=True,
use_decoder=False,
use_classifier=False,
)
# Convert the MXNet model into TVM Relay format
shape_dict = {
"data0": (batch_size, seq_length),
"data1": (batch_size, seq_length),
"data2": (batch_size,),
}
mod, params = relay.frontend.from_mxnet(model, shape_dict)
input_shape = (shape_dict["data0"], shape_dict["data1"], shape_dict["data2"])
mod = tvm.relay.transform.FastMath()(mod)
mod = tvm.relay.transform.EliminateCommonSubexpr()(mod)
BindPass = tvm.relay.transform.function_pass(
lambda fn, new_mod, ctx: tvm.relay.build_module.bind_params_by_name(
fn, params
),
opt_level=1,
)
mod = BindPass(mod)
mod = tvm.relay.transform.FoldConstant()(mod)
mod = tvm.relay.transform.CombineParallelBatchMatmul()(mod)
mod = tvm.relay.transform.FoldConstant()(mod)
else:
raise ValueError("Unsupported network: " + name)
return mod, params, input_name, input_shape, output_shape
def make_network_key(network_name, batch_size, dtype):
return "%s-B%s-%s" % (network_name, batch_size, dtype)
def use_graph_tuner(network_name, batch_size, dtype, target):
"""Return whether use graph tuner for a network on a target"""
# Only use graph tuner for CNNs on CPUs
return "cpu" in target.keys and not (network_name in ["bert"])
def convert_to_nhwc(mod):
"""Convert to NHWC layout"""
desired_layouts = {"nn.conv2d": ["NHWC", "default"]}
seq = tvm.transform.Sequential(
[
relay.transform.RemoveUnusedFunctions(),
relay.transform.ConvertLayout(desired_layouts),
]
)
with tvm.transform.PassContext(opt_level=3):
mod = seq(mod)
return mod