def create_set_either_shm_region(shm_region_names, input_list, input_byte_size,
output_byte_size, use_system_shared_memory,
use_cuda_shared_memory):
if use_cuda_shared_memory and use_system_shared_memory:
raise ValueError(
"Cannot set both System and CUDA shared memory flags to 1")
if not (use_system_shared_memory or use_cuda_shared_memory):
return []
if use_cuda_shared_memory:
shm_ip_handle = cudashm.create_shared_memory_region(
shm_region_names[0] + "_data", input_byte_size, 0)
shm_op_handle = cudashm.create_shared_memory_region(
shm_region_names[1] + "_data", output_byte_size, 0)
cudashm.set_shared_memory_region(shm_ip_handle, input_list)
elif use_system_shared_memory:
shm_ip_handle = shm.create_shared_memory_region(
shm_region_names[0] + "_data", "/" + shm_region_names[0],
input_byte_size)
shm_op_handle = shm.create_shared_memory_region(
shm_region_names[1] + "_data", "/" + shm_region_names[1],
output_byte_size)
shm.set_shared_memory_region(shm_ip_handle, input_list)
return [shm_ip_handle, shm_op_handle]
def _configure_sever(self):
shm_ip0_handle = shm.create_shared_memory_region(
"input0_data", "/input0_data", 64)
shm_ip1_handle = shm.create_shared_memory_region(
"input1_data", "/input1_data", 64)
shm_op0_handle = shm.create_shared_memory_region(
"output0_data", "/output0_data", 64)
shm_op1_handle = shm.create_shared_memory_region(
"output1_data", "/output1_data", 64)
input0_data = np.arange(start=0, stop=16, dtype=np.int32)
input1_data = np.ones(shape=16, dtype=np.int32)
shm.set_shared_memory_region(shm_ip0_handle, [input0_data])
shm.set_shared_memory_region(shm_ip1_handle, [input1_data])
if _protocol == "http":
triton_client = httpclient.InferenceServerClient(_url, verbose=True)
else:
triton_client = grpcclient.InferenceServerClient(_url, verbose=True)
triton_client.register_system_shared_memory("input0_data",
"/input0_data", 64)
triton_client.register_system_shared_memory("input1_data",
"/input1_data", 64)
triton_client.register_system_shared_memory("output0_data",
"/output0_data", 64)
triton_client.register_system_shared_memory("output1_data",
"/output1_data", 64)
return [shm_ip0_handle, shm_ip1_handle, shm_op0_handle, shm_op1_handle]
def add_reformat_free_data_as_shared_memory(self, name, tensor, tensor_np):
byte_size = tensor_np.size * tensor_np.dtype.itemsize
self.shm_handles.append(
shm.create_shared_memory_region(name, name, byte_size))
# Put data values into shared memory
shm.set_shared_memory_region(self.shm_handles[-1], [tensor_np])
# Register shared memory with Triton Server
self.triton_client.register_system_shared_memory(name, name, byte_size)
# Set the parameters to use data from shared memory
tensor.set_shared_memory(name, byte_size)
def predict(self, input_images):
# Put input data values into shared memory
shm.set_shared_memory_region(self.input_images_handle, [input_images])
results = self.triton_client.infer(model_name=self.model_name,
inputs=self.inputs,
outputs=self.outputs)
# Read results from the shared memory.
output = results.get_output("output")
output_data = shm.get_contents_as_numpy(
self.output_handle, utils.triton_to_np_dtype(output.datatype),
output.shape)
return output_data
def test_valid_create_set_register(self):
# Create a valid system shared memory region, fill data in it and register
if _protocol == "http":
triton_client = httpclient.InferenceServerClient(_url, verbose=True)
else:
triton_client = grpcclient.InferenceServerClient(_url, verbose=True)
shm_op0_handle = shm.create_shared_memory_region(
"dummy_data", "/dummy_data", 8)
shm.set_shared_memory_region(shm_op0_handle,
[np.array([1, 2], dtype=np.float32)])
triton_client.register_system_shared_memory("dummy_data", "/dummy_data",
8)
shm_status = triton_client.get_system_shared_memory_status()
if _protocol == "http":
self.assertTrue(len(shm_status) == 1)
else:
self.assertTrue(len(shm_status.regions) == 1)
shm.destroy_shared_memory_region(shm_op0_handle)
"/output0_simple",
output0_byte_size)
triton_client.register_system_shared_memory("output1_data",
"/output1_simple",
output1_byte_size)
# Create Input0 and Input1 in Shared Memory and store shared memory handles
shm_ip0_handle = shm.create_shared_memory_region("input0_data",
"/input0_simple",
input0_byte_size)
shm_ip1_handle = shm.create_shared_memory_region("input1_data",
"/input1_simple",
input1_byte_size)
# Put input data values into shared memory
shm.set_shared_memory_region(shm_ip0_handle, [input0_data_serialized])
shm.set_shared_memory_region(shm_ip1_handle, [input1_data_serialized])
# Register Input0 and Input1 shared memory with Triton Server
triton_client.register_system_shared_memory("input0_data",
"/input0_simple",
input0_byte_size)
triton_client.register_system_shared_memory("input1_data",
"/input1_simple",
input1_byte_size)
# Set the parameters to use data from shared memory
inputs = []
inputs.append(grpcclient.InferInput('INPUT0', [1, 16], "BYTES"))
inputs[-1].set_shared_memory("input0_data", input0_byte_size)
def infer_shape_tensor(tester,
pf,
tensor_dtype,
input_shape_values,
dummy_input_shapes,
use_http=True,
use_grpc=True,
use_streaming=True,
shm_suffix="",
use_system_shared_memory=False,
priority=0,
timeout_us=0,
batch_size=1):
tester.assertTrue(use_http or use_grpc or use_streaming)
tester.assertTrue(pf == "plan" or pf == "plan_nobatch")
tester.assertEqual(len(input_shape_values), len(dummy_input_shapes))
configs = []
if use_http:
configs.append(("localhost:8000", "http", False))
if use_grpc:
configs.append(("localhost:8001", "grpc", False))
if use_streaming:
configs.append(("localhost:8001", "grpc", True))
io_cnt = len(input_shape_values)
# FIXME wrap up shm handle cleanup
# item is (handle, byte_size)
input_shm_handle_list = []
output_shm_handle_list = []
dummy_input_list = []
input_list = []
expected_dict = dict()
# Prepare IO in advance
for io_num in range(io_cnt):
dummy_input_name = "DUMMY_INPUT{}".format(io_num)
input_name = "INPUT{}".format(io_num)
dummy_output_name = "DUMMY_OUTPUT{}".format(io_num)
output_name = "OUTPUT{}".format(io_num)
# Prepare the dummy tensor
rtensor_dtype = _range_repr_dtype(tensor_dtype)
if (rtensor_dtype != np.bool):
dummy_in0 = np.random.randint(low=np.iinfo(rtensor_dtype).min,
high=np.iinfo(rtensor_dtype).max,
size=dummy_input_shapes[io_num],
dtype=rtensor_dtype)
else:
dummy_in0 = np.random.choice(a=[False, True],
size=dummy_input_shapes[io_num])
if tensor_dtype != np.object:
dummy_in0 = dummy_in0.astype(tensor_dtype)
else:
dummy_in0 = np.array([str(x) for x in dummy_in0.flatten()],
dtype=object).reshape(dummy_in0.shape)
dummy_input_list.append(dummy_in0)
# Prepare shape input tensor
in0 = np.asarray(input_shape_values[io_num], dtype=np.int32)
input_list.append(in0)
# Prepare the expected value for the output. Skip dummy output as we
# only care about its shape (== value of OUTPUT*)
expected_dict[output_name] = np.ndarray.copy(in0)
# Only need to create region once
input_byte_size = in0.size * np.dtype(np.int32).itemsize
output_byte_size = input_byte_size * batch_size
if use_system_shared_memory:
input_shm_handle_list.append(
(shm.create_shared_memory_region(input_name + shm_suffix,
'/' + input_name + shm_suffix,
input_byte_size),
input_byte_size))
output_shm_handle_list.append((shm.create_shared_memory_region(
output_name + shm_suffix, '/' + output_name + shm_suffix,
output_byte_size), output_byte_size))
shm.set_shared_memory_region(input_shm_handle_list[-1][0], [
in0,
])
model_name = tu.get_zero_model_name(pf, io_cnt, tensor_dtype)
# Run inference and check results for each config
for config in configs:
client_utils = grpcclient if config[1] == "grpc" else httpclient
triton_client = client_utils.InferenceServerClient(config[0],
verbose=True)
inputs = []
outputs = []
# Set IOs
for io_num in range(io_cnt):
dummy_input_name = "DUMMY_INPUT{}".format(io_num)
input_name = "INPUT{}".format(io_num)
dummy_output_name = "DUMMY_OUTPUT{}".format(io_num)
output_name = "OUTPUT{}".format(io_num)
inputs.append(
client_utils.InferInput(dummy_input_name,
dummy_input_shapes[io_num],
np_to_triton_dtype(tensor_dtype)))
inputs.append(
client_utils.InferInput(input_name, input_list[io_num].shape,
"INT32"))
outputs.append(
client_utils.InferRequestedOutput(dummy_output_name))
outputs.append(client_utils.InferRequestedOutput(output_name))
# -2: dummy; -1: input
inputs[-2].set_data_from_numpy(dummy_input_list[io_num])
if (not use_system_shared_memory):
inputs[-1].set_data_from_numpy(input_list[io_num])
else:
input_byte_size = input_shm_handle_list[io_num][1]
output_byte_size = output_shm_handle_list[io_num][1]
triton_client.register_system_shared_memory(
input_name + shm_suffix, "/" + input_name + shm_suffix,
input_byte_size)
triton_client.register_system_shared_memory(
output_name + shm_suffix, "/" + output_name + shm_suffix,
output_byte_size)
inputs[-1].set_shared_memory(input_name + shm_suffix,
input_byte_size)
outputs[-1].set_shared_memory(output_name + shm_suffix,
output_byte_size)
if config[2]:
user_data = UserData()
triton_client.start_stream(partial(completion_callback, user_data))
try:
results = triton_client.async_stream_infer(model_name,
inputs,
outputs=outputs,
priority=priority,
timeout=timeout_us)
except Exception as e:
triton_client.stop_stream()
raise e
triton_client.stop_stream()
(results, error) = user_data._completed_requests.get()
if error is not None:
raise error
else:
results = triton_client.infer(model_name,
inputs,
outputs=outputs,
priority=priority,
timeout=timeout_us)
for io_num in range(io_cnt):
output_name = "OUTPUT{}".format(io_num)
dummy_output_name = "DUMMY_OUTPUT{}".format(io_num)
expected = expected_dict[output_name]
# get outputs as numpy array
dummy_out = results.as_numpy(dummy_output_name)
if (not use_system_shared_memory):
out = results.as_numpy(output_name)
else:
output = results.get_output(output_name)
if config[1] == "grpc":
output_shape = output.shape
else:
output_shape = output["shape"]
out = shm.get_contents_as_numpy(
output_shm_handle_list[io_num][0], np.int32, output_shape)
# if out shape is 2D, it is batched
if (len(out.shape) == 2):
# The shape of the dummy output should be equal to the shape values
# specified in the shape tensor
tester.assertTrue(
np.array_equal(dummy_out.shape[1:], out[0]),
"{}, {} shape, expected: {}, got {}".format(
model_name, dummy_output_name, out[0],
dummy_out.shape[1:]))
for b in range(1, out.shape[0]):
tester.assertTrue(
np.array_equal(out[b - 1], out[b]),
"expect shape tensor has consistent value, "
"expected: {}, got {}".format(out[b - 1], out[b]))
out = out[0]
else:
tester.assertTrue(
np.array_equal(dummy_out.shape, out),
"{}, {} shape, expected: {}, got {}".format(
model_name, dummy_output_name, out, dummy_out.shape))
tester.assertTrue(
np.array_equal(out, expected),
"{}, {}, expected: {}, got {}".format(model_name, output_name,
expected, out))
# unregister shared memory region for next config
if use_system_shared_memory:
triton_client.unregister_system_shared_memory(input_name +
shm_suffix)
triton_client.unregister_system_shared_memory(output_name +
shm_suffix)
for handle in input_shm_handle_list:
shm.destroy_shared_memory_region(handle[0])
for handle in output_shm_handle_list:
shm.destroy_shared_memory_region(handle[0])
def create_set_shm_regions(input0_list, input1_list, output0_byte_size,
output1_byte_size, outputs, shm_region_names,
precreated_shm_regions, use_system_shared_memory,
use_cuda_shared_memory):
if use_system_shared_memory and use_cuda_shared_memory:
raise ValueError(
"Cannot set both System and CUDA shared memory flags to 1")
if not (use_system_shared_memory or use_cuda_shared_memory):
return [], []
input0_byte_size = sum([i0.nbytes for i0 in input0_list])
input1_byte_size = sum([i1.nbytes for i1 in input1_list])
if shm_region_names is None:
shm_region_names = ['input0', 'input1', 'output0', 'output1']
shm_op0_handle = None
shm_op1_handle = None
if use_system_shared_memory:
shm_ip0_handle = shm.create_shared_memory_region(
shm_region_names[0] + '_data', '/' + shm_region_names[0],
input0_byte_size)
shm_ip1_handle = shm.create_shared_memory_region(
shm_region_names[1] + '_data', '/' + shm_region_names[1],
input1_byte_size)
i = 0
if "OUTPUT0" in outputs:
if precreated_shm_regions is None:
shm_op0_handle = shm.create_shared_memory_region(
shm_region_names[2] + '_data', '/' + shm_region_names[2],
output0_byte_size)
else:
shm_op0_handle = precreated_shm_regions[0]
i += 1
if "OUTPUT1" in outputs:
if precreated_shm_regions is None:
shm_op1_handle = shm.create_shared_memory_region(
shm_region_names[2 + i] + '_data',
'/' + shm_region_names[2 + i], output1_byte_size)
else:
shm_op1_handle = precreated_shm_regions[i]
shm.set_shared_memory_region(shm_ip0_handle, input0_list)
shm.set_shared_memory_region(shm_ip1_handle, input1_list)
if use_cuda_shared_memory:
shm_ip0_handle = cudashm.create_shared_memory_region(
shm_region_names[0] + '_data', input0_byte_size, 0)
shm_ip1_handle = cudashm.create_shared_memory_region(
shm_region_names[1] + '_data', input1_byte_size, 0)
i = 0
if "OUTPUT0" in outputs:
if precreated_shm_regions is None:
shm_op0_handle = cudashm.create_shared_memory_region(
shm_region_names[2] + '_data', output0_byte_size, 0)
else:
shm_op0_handle = precreated_shm_regions[0]
i += 1
if "OUTPUT1" in outputs:
if precreated_shm_regions is None:
shm_op1_handle = cudashm.create_shared_memory_region(
shm_region_names[2 + i] + '_data', output1_byte_size, 0)
else:
shm_op1_handle = precreated_shm_regions[i]
cudashm.set_shared_memory_region(shm_ip0_handle, input0_list)
cudashm.set_shared_memory_region(shm_ip1_handle, input1_list)
return shm_region_names, [
shm_ip0_handle, shm_ip1_handle, shm_op0_handle, shm_op1_handle
]
shm_op_handle = shm.create_shared_memory_region("output_data",
"/output_simple",
output_byte_size * 2)
# Register shared memory region for outputs with Triton Server
triton_client.register_system_shared_memory("output_data",
"/output_simple",
output_byte_size * 2)
# Create shared memory region for input and store shared memory handle
shm_ip_handle = shm.create_shared_memory_region("input_data",
"/input_simple",
input_byte_size * 2)
# Put input data values into shared memory
shm.set_shared_memory_region(shm_ip_handle, [input0_data])
shm.set_shared_memory_region(shm_ip_handle, [input1_data],
offset=input_byte_size)
# Register shared memory region for inputs with Triton Server
triton_client.register_system_shared_memory("input_data", "/input_simple",
input_byte_size * 2)
# Set the parameters to use data from shared memory
inputs = []
inputs.append(httpclient.InferInput('INPUT0', [1, 16], "INT32"))
inputs[-1].set_shared_memory("input_data", input_byte_size)
inputs.append(httpclient.InferInput('INPUT1', [1, 16], "INT32"))
inputs[-1].set_shared_memory("input_data",
input_byte_size,
def create_set_shm_regions(input0_list, input1_list, output0_byte_size,
output1_byte_size, outputs, shm_region_names,
precreated_shm_regions, use_system_shared_memory,
use_cuda_shared_memory):
# Lazy shm imports...
if use_system_shared_memory:
import tritonclient.utils.shared_memory as shm
if use_cuda_shared_memory:
import tritonclient.utils.cuda_shared_memory as cudashm
if use_system_shared_memory and use_cuda_shared_memory:
raise ValueError(
"Cannot set both System and CUDA shared memory flags to 1")
if not (use_system_shared_memory or use_cuda_shared_memory):
return [], []
if input0_list[0].dtype == np.object_:
input0_byte_size = sum(
[serialized_byte_size(i0) for i0 in input0_list])
else:
input0_byte_size = sum([i0.nbytes for i0 in input0_list])
if input1_list[0].dtype == np.object_:
input1_byte_size = sum(
[serialized_byte_size(i1) for i1 in input1_list])
else:
input1_byte_size = sum([i1.nbytes for i1 in input1_list])
if shm_region_names is None:
shm_region_names = ['input0', 'input1', 'output0', 'output1']
shm_op0_handle = None
shm_op1_handle = None
if use_system_shared_memory:
shm_ip0_handle = shm.create_shared_memory_region(
shm_region_names[0] + '_data', '/' + shm_region_names[0],
input0_byte_size)
shm_ip1_handle = shm.create_shared_memory_region(
shm_region_names[1] + '_data', '/' + shm_region_names[1],
input1_byte_size)
i = 0
if "OUTPUT0" in outputs:
if precreated_shm_regions is None:
shm_op0_handle = shm.create_shared_memory_region(
shm_region_names[2] + '_data', '/' + shm_region_names[2],
output0_byte_size)
else:
shm_op0_handle = precreated_shm_regions[0]
i += 1
if "OUTPUT1" in outputs:
if precreated_shm_regions is None:
shm_op1_handle = shm.create_shared_memory_region(
shm_region_names[2 + i] + '_data',
'/' + shm_region_names[2 + i], output1_byte_size)
else:
shm_op1_handle = precreated_shm_regions[i]
shm.set_shared_memory_region(shm_ip0_handle, input0_list)
shm.set_shared_memory_region(shm_ip1_handle, input1_list)
if use_cuda_shared_memory:
shm_ip0_handle = cudashm.create_shared_memory_region(
shm_region_names[0] + '_data', input0_byte_size, 0)
shm_ip1_handle = cudashm.create_shared_memory_region(
shm_region_names[1] + '_data', input1_byte_size, 0)
i = 0
if "OUTPUT0" in outputs:
if precreated_shm_regions is None:
shm_op0_handle = cudashm.create_shared_memory_region(
shm_region_names[2] + '_data', output0_byte_size, 0)
else:
shm_op0_handle = precreated_shm_regions[0]
i += 1
if "OUTPUT1" in outputs:
if precreated_shm_regions is None:
shm_op1_handle = cudashm.create_shared_memory_region(
shm_region_names[2 + i] + '_data', output1_byte_size, 0)
else:
shm_op1_handle = precreated_shm_regions[i]
cudashm.set_shared_memory_region(shm_ip0_handle, input0_list)
cudashm.set_shared_memory_region(shm_ip1_handle, input1_list)
return shm_region_names, [
shm_ip0_handle, shm_ip1_handle, shm_op0_handle, shm_op1_handle
]
def check_sequence(self,
trial,
model_name,
input_dtype,
correlation_id,
sequence_thresholds,
values,
expected_result,
protocol,
batch_size=1,
sequence_name="<unknown>",
tensor_shape=(1,)):
"""Perform sequence of inferences. The 'values' holds a list of
tuples, one for each inference with format:
(flag_str, value, (ls_ms, gt_ms), (pre_delay_ms, post_delay_ms)
"""
if (("savedmodel" not in trial) and ("graphdef" not in trial) and
("custom" not in trial) and ("onnx" not in trial) and
("libtorch" not in trial) and ("plan" not in trial)):
self.assertFalse(True, "unknown trial type: " + trial)
# Can only send the request exactly once since it is a
# sequence model with state, so can have only a single config.
configs = []
if protocol == "http":
configs.append((f"{_tritonserver_ipaddr}:8000", "http", False))
if protocol == "grpc":
configs.append((f"{_tritonserver_ipaddr}:8001", "grpc", False))
if protocol == "streaming":
configs.append((f"{_tritonserver_ipaddr}:8001", "grpc", True))
self.assertFalse(
_test_system_shared_memory and _test_cuda_shared_memory,
"Cannot set both System and CUDA shared memory flags to 1")
self.assertEqual(len(configs), 1)
full_shape = tensor_shape if "nobatch" in trial else (
batch_size,) + tensor_shape
# create and register shared memory output region in advance,
# knowing that this function will not be called concurrently.
if _test_system_shared_memory or _test_cuda_shared_memory:
self.triton_client_.unregister_system_shared_memory()
self.triton_client_.unregister_cuda_shared_memory()
output_byte_size = 512
if _test_system_shared_memory:
shm_op_handle = shm.create_shared_memory_region(
"output_data", "/output", output_byte_size)
self.triton_client_.register_system_shared_memory(
"output_data", "/output", output_byte_size)
elif _test_cuda_shared_memory:
shm_op_handle = cudashm.create_shared_memory_region(
"output_data", output_byte_size, 0)
self.triton_client_.register_cuda_shared_memory(
"output_data", cudashm.get_raw_handle(shm_op_handle), 0,
output_byte_size)
shm_ip_handles = []
for config in configs:
client_utils = grpcclient if config[1] == "grpc" else httpclient
triton_client = client_utils.InferenceServerClient(config[0],
verbose=True)
if config[2]:
user_data = UserData()
triton_client.start_stream(
partial(completion_callback, user_data))
# Execute the sequence of inference...
try:
seq_start_ms = int(round(time.time() * 1000))
INPUT = "INPUT__0" if trial.startswith("libtorch") else "INPUT"
OUTPUT = "OUTPUT__0" if trial.startswith(
"libtorch") else "OUTPUT"
for flag_str, value, thresholds, delay_ms in values:
if _test_valgrind or _test_jetson:
if delay_ms is not None:
delay_ms[0] = max(_valgrind_delay_ms, delay_ms[0])
delay_ms[1] = max(_valgrind_delay_ms, delay_ms[1])
else:
delay_ms = (_valgrind_delay_ms, _valgrind_delay_ms)
if delay_ms is not None:
time.sleep(delay_ms[0] / 1000.0)
seq_start = False
seq_end = False
if flag_str is not None:
seq_start = ("start" in flag_str)
seq_end = ("end" in flag_str)
# Construct request IOs
inputs = []
outputs = []
inputs.append(
client_utils.InferInput(
INPUT, full_shape, np_to_triton_dtype(input_dtype)))
outputs.append(client_utils.InferRequestedOutput(OUTPUT))
if input_dtype == np.object_:
in0 = np.full(full_shape, value, dtype=np.int32)
in0n = np.array([str(x) for x in in0.reshape(in0.size)],
dtype=object)
in0 = in0n.reshape(full_shape)
else:
in0 = np.full(full_shape, value, dtype=input_dtype)
# create input shared memory and copy input data values into it
if _test_system_shared_memory or _test_cuda_shared_memory:
if input_dtype == np.object_:
input_list_tmp = iu.serialize_byte_tensor_list(
[in0])
input_byte_size = sum([
serialized_byte_size(i0)
for i0 in input_list_tmp
])
else:
input_list_tmp = [in0]
input_byte_size = sum(
[i0.nbytes for i0 in input_list_tmp])
ip_name = "ip{}".format(len(shm_ip_handles))
if _test_system_shared_memory:
shm_ip_handles.append(
shm.create_shared_memory_region(
ip_name, "/" + ip_name, input_byte_size))
shm.set_shared_memory_region(
shm_ip_handles[-1], input_list_tmp)
triton_client.register_system_shared_memory(
ip_name, "/" + ip_name, input_byte_size)
elif _test_cuda_shared_memory:
shm_ip_handles.append(
cudashm.create_shared_memory_region(
ip_name, input_byte_size, 0))
cudashm.set_shared_memory_region(
shm_ip_handles[-1], input_list_tmp)
triton_client.register_cuda_shared_memory(
ip_name,
cudashm.get_raw_handle(shm_ip_handles[-1]), 0,
input_byte_size)
inputs[0].set_shared_memory(ip_name, input_byte_size)
outputs[0].set_shared_memory("output_data",
output_byte_size)
else:
inputs[0].set_data_from_numpy(in0)
start_ms = int(round(time.time() * 1000))
if config[2]:
triton_client.async_stream_infer(
model_name,
inputs,
outputs=outputs,
sequence_id=correlation_id,
sequence_start=seq_start,
sequence_end=seq_end)
(results, error) = user_data._completed_requests.get()
if error is not None:
raise error
else:
results = triton_client.infer(
model_name,
inputs,
outputs=outputs,
sequence_id=correlation_id,
sequence_start=seq_start,
sequence_end=seq_end)
end_ms = int(round(time.time() * 1000))
# Get value of "OUTPUT", for shared memory, need to get it via
# shared memory utils
if (not _test_system_shared_memory) and (
not _test_cuda_shared_memory):
out = results.as_numpy(OUTPUT)
else:
output = results.get_output(OUTPUT)
if config[1] == "http":
output_shape = output["shape"]
else:
output_shape = output.shape
output_type = input_dtype
if _test_system_shared_memory:
out = shm.get_contents_as_numpy(
shm_op_handle, output_type, output_shape)
else:
out = cudashm.get_contents_as_numpy(
shm_op_handle, output_type, output_shape)
result = out[0] if "nobatch" in trial else out[0][0]
print("{}: {}".format(sequence_name, result))
if thresholds is not None:
lt_ms = thresholds[0]
gt_ms = thresholds[1]
if lt_ms is not None:
self.assertTrue((end_ms - start_ms) < lt_ms,
"expected less than " + str(lt_ms) +
"ms response time, got " +
str(end_ms - start_ms) + " ms")
if gt_ms is not None:
self.assertTrue(
(end_ms - start_ms) > gt_ms,
"expected greater than " + str(gt_ms) +
"ms response time, got " +
str(end_ms - start_ms) + " ms")
if delay_ms is not None:
time.sleep(delay_ms[1] / 1000.0)
seq_end_ms = int(round(time.time() * 1000))
if input_dtype == np.object_:
self.assertEqual(int(result), expected_result)
else:
self.assertEqual(result, expected_result)
if sequence_thresholds is not None:
lt_ms = sequence_thresholds[0]
gt_ms = sequence_thresholds[1]
if lt_ms is not None:
if _test_jetson:
lt_ms *= _jetson_slowdown_factor
self.assertTrue((seq_end_ms - seq_start_ms) < lt_ms,
"sequence expected less than " +
str(lt_ms) + "ms response time, got " +
str(seq_end_ms - seq_start_ms) + " ms")
if gt_ms is not None:
self.assertTrue((seq_end_ms - seq_start_ms) > gt_ms,
"sequence expected greater than " +
str(gt_ms) + "ms response time, got " +
str(seq_end_ms - seq_start_ms) + " ms")
except Exception as ex:
self.add_deferred_exception(ex)
if config[2]:
triton_client.stop_stream()
if _test_system_shared_memory or _test_cuda_shared_memory:
self.triton_client_.unregister_system_shared_memory()
self.triton_client_.unregister_cuda_shared_memory()
destroy_func = shm.destroy_shared_memory_region if _test_system_shared_memory else cudashm.destroy_shared_memory_region
destroy_func(shm_op_handle)
for shm_ip_handle in shm_ip_handles:
destroy_func(shm_ip_handle)
def precreate_register_dynaseq_shape_tensor_regions(self,
value_list,
dtype,
i,
batch_size=1,
tensor_shape=(1,)):
self.assertFalse(_test_cuda_shared_memory,
"Shape tensors does not support CUDA shared memory")
if _test_system_shared_memory:
shm_region_handles = []
for j, (shape_value, value) in enumerate(value_list):
input_list = list()
shape_input_list = list()
dummy_input_list = list()
for b in range(batch_size):
if dtype == np.object_:
dummy_in0 = np.full(tensor_shape, value, dtype=np.int32)
dummy_in0n = np.array(
[str(x) for x in dummy_in0.reshape(in0.size)],
dtype=object)
dummy_in0 = dummy_in0n.reshape(tensor_shape)
else:
dummy_in0 = np.full(tensor_shape, value, dtype=dtype)
dummy_input_list.append(dummy_in0)
in0 = np.full(tensor_shape, value, dtype=np.int32)
input_list.append(in0)
# Only one shape tensor input per batch
shape_input_list.append(
np.full(tensor_shape, shape_value, dtype=np.int32))
if dtype == np.object_:
input_list_tmp = iu.serialize_byte_tensor_list(input_list)
input_byte_size = sum(
[serialized_byte_size(i0) for i0 in input_list_tmp])
else:
input_list_tmp = input_list
input_byte_size = sum([i0.nbytes for i0 in input_list_tmp])
dummy_input_byte_size = sum(
[i0.nbytes for i0 in dummy_input_list])
shape_input_byte_size = sum(
[i0.nbytes for i0 in shape_input_list])
shape_output_byte_size = shape_input_byte_size
output_byte_size = np.dtype(np.int32).itemsize + 2
resized_output_byte_size = 32 * shape_value
# create shared memory regions and copy data for input values
ip_name = 'ip{}{}'.format(i, j)
shape_ip_name = 'shape_ip{}{}'.format(i, j)
dummy_ip_name = 'dummy_ip{}{}'.format(i, j)
shape_op_name = 'shape_op{}{}'.format(i, j)
op_name = 'op{}{}'.format(i, j)
resized_op_name = 'resized_op{}{}'.format(i, j)
shm_ip_handle = shm.create_shared_memory_region(
ip_name, '/' + ip_name, input_byte_size)
shm_shape_ip_handle = shm.create_shared_memory_region(
shape_ip_name, '/' + shape_ip_name, shape_input_byte_size)
shm_dummy_ip_handle = shm.create_shared_memory_region(
dummy_ip_name, '/' + dummy_ip_name, dummy_input_byte_size)
shm_shape_op_handle = shm.create_shared_memory_region(
shape_op_name, '/' + shape_op_name, shape_output_byte_size)
shm_op_handle = shm.create_shared_memory_region(
op_name, '/' + op_name, output_byte_size)
shm_resized_op_handle = shm.create_shared_memory_region(
resized_op_name, '/' + resized_op_name,
resized_output_byte_size)
shm.set_shared_memory_region(shm_ip_handle, input_list_tmp)
shm.set_shared_memory_region(shm_shape_ip_handle,
shape_input_list)
shm.set_shared_memory_region(shm_dummy_ip_handle,
dummy_input_list)
self.triton_client_.register_system_shared_memory(
ip_name, '/' + ip_name, input_byte_size)
self.triton_client_.register_system_shared_memory(
shape_ip_name, '/' + shape_ip_name, shape_input_byte_size)
self.triton_client_.register_system_shared_memory(
dummy_ip_name, '/' + dummy_ip_name, dummy_input_byte_size)
self.triton_client_.register_system_shared_memory(
shape_op_name, '/' + shape_op_name, shape_output_byte_size)
self.triton_client_.register_system_shared_memory(
op_name, '/' + op_name, output_byte_size)
self.triton_client_.register_system_shared_memory(
resized_op_name, '/' + resized_op_name,
resized_output_byte_size)
shm_region_handles.append(
(ip_name, input_byte_size, shm_ip_handle))
shm_region_handles.append(
(shape_ip_name, shape_input_byte_size, shm_shape_ip_handle))
shm_region_handles.append(
(dummy_ip_name, dummy_input_byte_size, shm_dummy_ip_handle))
shm_region_handles.append(
(shape_op_name, shape_output_byte_size,
shm_shape_op_handle))
shm_region_handles.append(
(op_name, output_byte_size, shm_op_handle))
shm_region_handles.append(
(resized_op_name, resized_output_byte_size,
shm_resized_op_handle))
return shm_region_handles
else:
return []
def precreate_register_regions(self,
value_list,
dtype,
i,
batch_size=1,
tensor_shape=(1,)):
if _test_system_shared_memory or _test_cuda_shared_memory:
shm_region_handles = []
for j, value in enumerate(value_list):
# For string we can't know the size of the output
# so we conservatively assume 64 bytes for each
# element of the output
if dtype == np.object_:
output_byte_size = 4 # size of empty string
else:
output_byte_size = 0
# create data
input_list = list()
for b in range(batch_size):
if dtype == np.object_:
in0 = np.full(tensor_shape, value, dtype=np.int32)
in0n = np.array([
str(x).encode('utf-8')
for x in in0.reshape(in0.size)
],
dtype=object)
in0 = in0n.reshape(tensor_shape)
output_byte_size += 64 * in0.size
else:
in0 = np.full(tensor_shape, value, dtype=dtype)
output_byte_size += np.dtype(dtype).itemsize * in0.size
input_list.append(in0)
if dtype == np.object_:
input_list_tmp = iu.serialize_byte_tensor_list(input_list)
input_byte_size = sum(
[serialized_byte_size(i0) for i0 in input_list_tmp])
else:
input_list_tmp = input_list
input_byte_size = sum([i0.nbytes for i0 in input_list_tmp])
# create shared memory regions and copy data for input values
ip_name = 'ip{}{}'.format(i, j)
op_name = 'op{}{}_data'.format(i, j)
if _test_system_shared_memory:
shm_ip_handle = shm.create_shared_memory_region(
ip_name, '/' + ip_name, input_byte_size)
shm_op_handle = shm.create_shared_memory_region(
op_name, '/' + op_name, output_byte_size)
shm.set_shared_memory_region(shm_ip_handle, input_list_tmp)
self.triton_client_.register_system_shared_memory(
ip_name, '/' + ip_name, input_byte_size)
self.triton_client_.register_system_shared_memory(
op_name, '/' + op_name, output_byte_size)
elif _test_cuda_shared_memory:
shm_ip_handle = cudashm.create_shared_memory_region(
ip_name, input_byte_size, 0)
shm_op_handle = cudashm.create_shared_memory_region(
op_name, output_byte_size, 0)
cudashm.set_shared_memory_region(shm_ip_handle,
input_list_tmp)
self.triton_client_.register_cuda_shared_memory(
ip_name, cudashm.get_raw_handle(shm_ip_handle), 0,
input_byte_size)
self.triton_client_.register_cuda_shared_memory(
op_name, cudashm.get_raw_handle(shm_op_handle), 0,
output_byte_size)
shm_region_handles.append(
(ip_name, input_byte_size, shm_ip_handle))
shm_region_handles.append(
(op_name, output_byte_size, shm_op_handle))
return shm_region_handles
else:
return []
