Skip to content
Projects
Groups
Snippets
Help
This project
Loading...
Sign in / Register
Toggle navigation
T
tic
Overview
Overview
Details
Activity
Cycle Analytics
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Charts
Issues
0
Issues
0
List
Board
Labels
Milestones
Merge Requests
0
Merge Requests
0
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Charts
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Charts
Create a new issue
Jobs
Commits
Issue Boards
Open sidebar
wenyuanbo
tic
Commits
502cf264
Unverified
Commit
502cf264
authored
Feb 11, 2020
by
Zhi
Committed by
GitHub
Feb 11, 2020
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
[Refactor] move vm.py under runtime and adt to runtime.container.py (#4855)
parent
4fce5137
Hide whitespace changes
Inline
Side-by-side
Showing
23 changed files
with
481 additions
and
440 deletions
+481
-440
python/tvm/container.py
+1
-54
python/tvm/relay/__init__.py
+0
-1
python/tvm/relay/backend/interpreter.py
+1
-1
python/tvm/relay/backend/vm.py
+9
-340
python/tvm/relay/testing/py_converter.py
+2
-2
python/tvm/runtime/container.py
+56
-0
python/tvm/runtime/profiler_vm.py
+4
-3
python/tvm/runtime/vm.py
+365
-0
src/runtime/container.cc
+5
-5
src/runtime/vm/executable.cc
+5
-5
src/runtime/vm/profiler/vm.cc
+1
-1
src/runtime/vm/vm.cc
+1
-1
tests/python/frontend/tensorflow/test_forward.py
+1
-1
tests/python/relay/benchmarking/benchmark_vm.py
+4
-2
tests/python/relay/test_adt.py
+1
-1
tests/python/relay/test_backend_interpreter.py
+2
-1
tests/python/relay/test_external_codegen.py
+3
-3
tests/python/relay/test_pass_partition_graph.py
+4
-3
tests/python/relay/test_py_converter.py
+1
-1
tests/python/relay/test_vm.py
+6
-6
tests/python/relay/test_vm_serialization.py
+4
-3
tests/python/unittest/test_container.py
+1
-1
tests/python/unittest/test_runtime_vm_profiler.py
+4
-5
No files found.
python/tvm/container.py
View file @
502cf264
...
...
@@ -17,7 +17,7 @@
"""Container data structures used in TVM DSL."""
import
tvm._ffi
from
tvm.runtime
import
Object
,
ObjectTypes
from
tvm.runtime
import
Object
from
tvm.runtime.container
import
getitem_helper
from
tvm.runtime
import
_ffi_node_api
from
.
import
_api_internal
...
...
@@ -104,56 +104,3 @@ class LoweredFunc(Object):
MixedFunc
=
0
HostFunc
=
1
DeviceFunc
=
2
@tvm._ffi.register_object
(
"vm.ADT"
)
class
ADT
(
Object
):
"""Algebatic data type(ADT) object.
Parameters
----------
tag : int
The tag of ADT.
fields : list[Object] or tuple[Object]
The source tuple.
"""
def
__init__
(
self
,
tag
,
fields
):
for
f
in
fields
:
assert
isinstance
(
f
,
ObjectTypes
),
"Expect object or "
\
"tvm NDArray type, but received : {0}"
.
format
(
type
(
f
))
self
.
__init_handle_by_constructor__
(
_ADT
,
tag
,
*
fields
)
@property
def
tag
(
self
):
return
_GetADTTag
(
self
)
def
__getitem__
(
self
,
idx
):
return
getitem_helper
(
self
,
_GetADTFields
,
len
(
self
),
idx
)
def
__len__
(
self
):
return
_GetADTSize
(
self
)
def
tuple_object
(
fields
=
None
):
"""Create a ADT object from source tuple.
Parameters
----------
fields : list[Object] or tuple[Object]
The source tuple.
Returns
-------
ret : ADT
The created object.
"""
fields
=
fields
if
fields
else
[]
for
f
in
fields
:
assert
isinstance
(
f
,
ObjectTypes
),
"Expect object or tvm "
\
"NDArray type, but received : {0}"
.
format
(
type
(
f
))
return
_Tuple
(
*
fields
)
tvm
.
_ffi
.
_init_api
(
"tvm.container"
)
python/tvm/relay/__init__.py
View file @
502cf264
...
...
@@ -37,7 +37,6 @@ from . import debug
from
.
import
param_dict
from
.
import
feature
from
.backend
import
vm
from
.backend
import
profiler_vm
# Root operators
from
.op
import
Op
...
...
python/tvm/relay/backend/interpreter.py
View file @
502cf264
...
...
@@ -20,7 +20,7 @@ from __future__ import absolute_import
import
numpy
as
np
from
tvm
import
container
from
tvm
.runtime
import
container
from
.
import
_backend
from
..
import
_make
,
analysis
,
transform
from
..
import
module
...
...
python/tvm/relay/backend/vm.py
View file @
502cf264
...
...
@@ -24,343 +24,11 @@ import numpy as np
import
tvm
import
tvm.runtime.ndarray
as
_nd
from
tvm.runtime
import
Objec
t
from
tvm
import
autotvm
,
container
import
tvm.runtime.vm
as
vm_r
t
from
tvm
import
autotvm
from
tvm.relay
import
expr
as
_expr
from
tvm._ffi.runtime_ctypes
import
TVMByteArray
from
tvm._ffi
import
base
as
_base
from
tvm.relay.backend.interpreter
import
Executor
from
.
import
_vm
from
.interpreter
import
Executor
def
_convert
(
arg
,
cargs
):
if
isinstance
(
arg
,
_expr
.
Constant
):
cargs
.
append
(
arg
.
data
)
elif
isinstance
(
arg
,
Object
):
cargs
.
append
(
arg
)
elif
isinstance
(
arg
,
np
.
ndarray
):
nd_arr
=
tvm
.
nd
.
array
(
arg
,
ctx
=
tvm
.
cpu
(
0
))
cargs
.
append
(
nd_arr
)
elif
isinstance
(
arg
,
tvm
.
nd
.
NDArray
):
cargs
.
append
(
arg
)
elif
isinstance
(
arg
,
(
tuple
,
list
)):
field_args
=
[]
for
field
in
arg
:
_convert
(
field
,
field_args
)
cargs
.
append
(
container
.
tuple_object
(
field_args
))
elif
isinstance
(
arg
,
(
_base
.
numeric_types
,
bool
)):
dtype
=
"int32"
if
isinstance
(
arg
,
(
int
,
bool
))
else
"float32"
value
=
tvm
.
nd
.
array
(
np
.
array
(
arg
,
dtype
=
dtype
),
ctx
=
tvm
.
cpu
(
0
))
cargs
.
append
(
value
)
else
:
raise
TypeError
(
"Unsupported type:
%
s"
%
(
type
(
arg
)))
def
convert
(
args
):
cargs
=
[]
for
arg
in
args
:
_convert
(
arg
,
cargs
)
return
cargs
class
Executable
(
object
):
"""Relay VM executable"""
def
__init__
(
self
,
mod
):
self
.
mod
=
mod
self
.
_function_params
=
{}
self
.
_save
=
self
.
mod
[
"save"
]
self
.
_get_lib
=
self
.
mod
[
"get_lib"
]
self
.
_get_bytecode
=
self
.
mod
[
"get_bytecode"
]
self
.
_get_stats
=
self
.
mod
[
"get_stats"
]
self
.
_get_function_arity
=
self
.
mod
[
"get_function_arity"
]
self
.
_get_function_param_name
=
self
.
mod
[
"get_function_param_name"
]
def
save
(
self
):
"""Save the Relay VM Executable.
Returns
-------
code : bytearray
The binary blob representing a serialized Relay VM executable. It
can then be saved to disk and later deserialized into a new
Executable.
lib : :py:class:`~tvm.runtime.Module`
The runtime module that contains the generated code. It is
basically a library that is composed of hardware dependent code.
Notes
-----
The returned code is organized with the following sections in order.
- Global section. This section contains the globals used by the
virtual machine.
- Constant section. This section is used to store the constant pool of
a virtual machine.
- Primitive name section. This section is introduced to accommodate
the list of primitive operator names that will be invoked by the
virtual machine.
- Code section. The VM functions, including bytecode, are sitting in
this section.
Examples
--------
.. code-block:: python
import numpy as np
import tvm
from tvm import relay
# define a simple network.
x = relay.var('x', shape=(10, 10))
f = relay.Function([x], x + x)
mod = relay.Module({"main": f})
# create a Relay VM.
ctx = tvm.cpu()
target = "llvm"
executable = relay.vm.compile(mod, target)
code, lib = executable.save()
# save and load the code and lib file.
tmp = tvm.contrib.util.tempdir()
path_lib = tmp.relpath("lib.so")
lib.export_library(path_lib)
with open(tmp.relpath("code.ro"), "wb") as fo:
fo.write(code)
loaded_lib = tvm.runtime.load_module(path_lib)
loaded_code = bytearray(open(tmp.relpath("code.ro"), "rb").read())
# deserialize.
des_exec = relay.vm.Executable.load_exec(loaded_code, loaded_code)
# execute the deserialized executable.
x_data = np.random.rand(10, 10).astype('float32')
des_vm = relay.vm.VirtualMachine(des_exec)
des_vm.init(ctx)
res = des_vm.run(x_data)
print(res.asnumpy())
"""
return
self
.
_save
(),
self
.
_get_lib
()
@staticmethod
def
load_exec
(
bytecode
,
lib
):
"""Construct an executable from saved artifacts.
Parameters
----------
bytecode : bytearray
The binary blob representing a the Relay VM bytecode.
lib : :py:class:`~tvm.runtime.Module`
The runtime module that contains the generated code.
Returns
-------
exec: Executable
An executable constructed using the provided artifacts.
"""
if
isinstance
(
bytecode
,
(
bytes
,
str
)):
code
=
bytearray
(
bytecode
)
elif
not
isinstance
(
bytecode
,
(
bytearray
,
TVMByteArray
)):
raise
TypeError
(
"bytecode is expected to be the type of bytearray "
+
"or TVMByteArray, but received {}"
.
format
(
type
(
code
)))
if
lib
is
not
None
and
not
isinstance
(
lib
,
tvm
.
runtime
.
Module
):
raise
TypeError
(
"lib is expected to be the type of tvm.runtime.Module"
+
", but received {}"
.
format
(
type
(
lib
)))
return
Executable
(
_vm
.
Load_Executable
(
bytecode
,
lib
))
@property
def
lib
(
self
):
"""Get the library that contains hardware dependent code.
Returns
-------
ret : :py:class:`~tvm.Module`
The runtime module that contains hardware dependent code.
"""
return
self
.
_get_lib
()
@property
def
stats
(
self
):
"""Get the statistics of the Relay VM executable.
Returns
-------
ret : String
The statistic information of the VM executable.
"""
return
self
.
_get_stats
()
@property
def
primitive_ops
(
self
):
"""Get the name of the primitive ops contained in the executable.
Returns
-------
ret : List[String]
The list of primitive ops.
"""
ret
=
[]
num_primitives
=
_vm
.
GetNumOfPrimitives
(
self
.
module
)
for
i
in
range
(
num_primitives
):
ret
.
append
(
_vm
.
GetPrimitiveFields
(
self
.
module
,
i
))
return
ret
@property
def
bytecode
(
self
):
"""Get the bytecode of the Relay VM executable.
Returns
-------
ret : String
The bytecode of the executable.
Notes
-----
The bytecode is in the following format:
func_name reg_file_size num_instructions
param1 param2 ... paramM
instruction1
instruction2
...
instructionN
Each instruction is printed in the following format:
hash opcode field1 ... fieldX # The text format.
The part starting from # is only used for visualization and debugging.
The real serialized code doesn't contain it, therefore the deserializer
doesn't need to deal with it as well.
"""
return
self
.
_get_bytecode
()
@property
def
globals
(
self
):
"""Get the globals used by the Relay VM executable.
Returns
-------
ret : List[String]
The globals contained in the executable.
"""
ret
=
[]
num_globals
=
_vm
.
GetNumOfGlobals
(
self
.
module
)
for
i
in
range
(
num_globals
):
ret
.
append
(
_vm
.
GetGlobalFields
(
self
.
module
,
i
))
return
ret
@property
def
module
(
self
):
"""Return the runtime module contained in a virtual machine executable."""
return
self
.
mod
def
get_function_params
(
self
,
func_name
):
"""Get VM Function parameters"""
if
func_name
in
self
.
_function_params
:
return
self
.
_function_params
[
func_name
]
arity
=
self
.
_get_function_arity
(
func_name
)
assert
arity
>=
0
params
=
[]
for
i
in
range
(
arity
):
p
=
self
.
_get_function_param_name
(
func_name
,
i
)
assert
p
params
.
append
(
p
)
self
.
_function_params
[
func_name
]
=
params
return
params
class
VirtualMachine
(
object
):
"""Relay VM runtime."""
def
__init__
(
self
,
mod
):
if
not
isinstance
(
mod
,
(
Executable
,
tvm
.
runtime
.
Module
)):
raise
TypeError
(
"mod is expected to be the type of Executable or "
+
"tvm.Module, but received {}"
.
format
(
type
(
mod
)))
m
=
mod
.
module
if
isinstance
(
mod
,
Executable
)
else
mod
self
.
mod
=
_vm
.
_VirtualMachine
(
m
)
self
.
_exec
=
mod
self
.
_init
=
self
.
mod
[
"init"
]
self
.
_invoke
=
self
.
mod
[
"invoke"
]
self
.
_set_input
=
self
.
mod
[
"set_input"
]
def
init
(
self
,
ctx
):
"""Initialize the context in the VM.
Parameters
----------
ctx : :py:class:`TVMContext`
The runtime context to run the code on.
"""
args
=
[
ctx
.
device_type
,
ctx
.
device_id
]
self
.
_init
(
*
args
)
def
set_input
(
self
,
func_name
,
*
args
,
**
kwargs
):
"""Set the input to a function.
Parameters
----------
func_name : str
The name of the function.
args : list[NDArray] or list[np.ndarray]
The arguments to the function.
kwargs: dict of str to NDArray or np.ndarray
Named arguments to the function.
"""
if
kwargs
:
func_params
=
self
.
_exec
.
get_function_params
(
func_name
)
new_args
=
[
None
]
*
len
(
func_params
)
assert
len
(
args
)
+
len
(
kwargs
)
==
len
(
func_params
)
for
k
in
kwargs
:
idx
=
func_params
.
index
(
k
)
new_args
[
idx
]
=
kwargs
[
k
]
idx
=
0
for
i
,
arg
in
enumerate
(
new_args
):
if
arg
is
None
:
new_args
[
i
]
=
args
[
idx
]
idx
+=
1
args
=
new_args
cargs
=
convert
(
args
)
self
.
_set_input
(
func_name
,
*
cargs
)
def
invoke
(
self
,
func_name
,
*
args
,
**
kwargs
):
"""Invoke a function.
Parameters
----------
func_name : str
The name of the function.
args : list[NDArray] or list[np.ndarray]
The arguments to the function.
kwargs: dict of str to NDArray or np.ndarray
Named arguments to the function.
Returns
-------
result : Object
The output.
"""
if
args
or
kwargs
:
self
.
set_input
(
func_name
,
*
args
,
**
kwargs
)
return
self
.
_invoke
(
func_name
)
def
run
(
self
,
*
args
,
**
kwargs
):
"""Run the main function.
Parameters
----------
args : list[NDArray] or list[np.ndarray]
The arguments to the function.
kwargs: dict of str to NDArray or np.ndarray
Named arguments to the function.
Returns
-------
result : Object
The output.
"""
return
self
.
invoke
(
"main"
,
*
args
,
**
kwargs
)
def
compile
(
mod
,
target
=
None
,
target_host
=
None
,
params
=
None
):
...
...
@@ -391,7 +59,7 @@ def compile(mod, target=None, target_host=None, params=None):
Returns
-------
exec : Executable
exec :
tvm.runtime.vm.
Executable
The VM executable that contains both library code and bytecode.
"""
compiler
=
VMCompiler
()
...
...
@@ -501,10 +169,10 @@ class VMCompiler(object):
Returns
-------
exec : Executable
exec :
tvm.runtime.vm.
Executable
The VM executable that contains both library code and bytecode.
"""
return
Executable
(
self
.
_get_exec
())
return
vm_rt
.
Executable
(
self
.
_get_exec
())
def
_update_target
(
self
,
target
):
"""Update target."""
...
...
@@ -549,6 +217,7 @@ class VMCompiler(object):
tophub_context
=
autotvm
.
util
.
EmptyContext
()
return
tophub_context
class
VMExecutor
(
Executor
):
"""
An implementation of the executor interface for
...
...
@@ -556,7 +225,7 @@ class VMExecutor(Executor):
Useful interface for experimentation and debugging
the VM can also be used directly from the API.
supported by `tvm.r
elay
.vm`.
supported by `tvm.r
untime
.vm`.
Parameters
----------
...
...
@@ -576,7 +245,7 @@ class VMExecutor(Executor):
self
.
ctx
=
ctx
self
.
target
=
target
self
.
executable
=
compile
(
mod
,
target
)
self
.
vm
=
VirtualMachine
(
self
.
executable
)
self
.
vm
=
vm_rt
.
VirtualMachine
(
self
.
executable
)
self
.
vm
.
init
(
ctx
)
def
_make_executor
(
self
,
expr
=
None
):
...
...
python/tvm/relay/testing/py_converter.py
View file @
502cf264
...
...
@@ -32,15 +32,15 @@ OUTPUT_VAR_NAME = '_py_out'
# import numpy
# import tvm
# from tvm import relay
# from tvm import import container as _container
# from tvm import nd
# from tvm.runtime import import container as _container
# from tvm.relay.backend.interpreter import RefValue, ConstructorValue
PROLOGUE
=
[
ast
.
Import
([
alias
(
'numpy'
,
None
)]),
ast
.
Import
([
alias
(
'tvm'
,
None
)]),
ast
.
ImportFrom
(
'tvm'
,
[
alias
(
'relay'
,
None
)],
0
),
ast
.
ImportFrom
(
'tvm'
,
[
alias
(
'nd'
,
None
)],
0
),
ast
.
ImportFrom
(
'tvm'
,
[
alias
(
'container'
,
'_container'
)],
ast
.
ImportFrom
(
'tvm
.runtime
'
,
[
alias
(
'container'
,
'_container'
)],
0
),
ast
.
ImportFrom
(
'tvm.relay.backend.interpreter'
,
[
alias
(
'RefValue'
,
None
),
...
...
python/tvm/runtime/container.py
View file @
502cf264
...
...
@@ -15,6 +15,9 @@
# specific language governing permissions and limitations
# under the License.
"""Runtime container structures."""
import
tvm._ffi
from
tvm.runtime
import
Object
,
ObjectTypes
def
getitem_helper
(
obj
,
elem_getter
,
length
,
idx
):
"""Helper function to implement a pythonic getitem function.
...
...
@@ -54,3 +57,56 @@ def getitem_helper(obj, elem_getter, length, idx):
if
idx
<
0
:
idx
+=
length
return
elem_getter
(
obj
,
idx
)
@tvm._ffi.register_object
(
"vm.ADT"
)
class
ADT
(
Object
):
"""Algebatic data type(ADT) object.
Parameters
----------
tag : int
The tag of ADT.
fields : list[Object] or tuple[Object]
The source tuple.
"""
def
__init__
(
self
,
tag
,
fields
):
for
f
in
fields
:
assert
isinstance
(
f
,
ObjectTypes
),
"Expect object or "
\
"tvm NDArray type, but received : {0}"
.
format
(
type
(
f
))
self
.
__init_handle_by_constructor__
(
_ADT
,
tag
,
*
fields
)
@property
def
tag
(
self
):
return
_GetADTTag
(
self
)
def
__getitem__
(
self
,
idx
):
return
getitem_helper
(
self
,
_GetADTFields
,
len
(
self
),
idx
)
def
__len__
(
self
):
return
_GetADTSize
(
self
)
def
tuple_object
(
fields
=
None
):
"""Create a ADT object from source tuple.
Parameters
----------
fields : list[Object] or tuple[Object]
The source tuple.
Returns
-------
ret : ADT
The created object.
"""
fields
=
fields
if
fields
else
[]
for
f
in
fields
:
assert
isinstance
(
f
,
ObjectTypes
),
"Expect object or tvm "
\
"NDArray type, but received : {0}"
.
format
(
type
(
f
))
return
_Tuple
(
*
fields
)
tvm
.
_ffi
.
_init_api
(
"tvm.runtime.container"
)
python/tvm/r
elay/backend
/profiler_vm.py
→
python/tvm/r
untime
/profiler_vm.py
View file @
502cf264
...
...
@@ -20,18 +20,19 @@ The Relay Virtual Machine profiler.
Provides extra APIs for profiling vm execution.
"""
from
.
import
vm
,
_vm
from
tvm.runtime
import
_ffi_api
from
.
import
vm
def
enabled
():
"""Whether vm profiler is enabled."""
return
hasattr
(
_
vm
,
"_VirtualMachineDebug"
)
return
hasattr
(
_
ffi_api
,
"_VirtualMachineDebug"
)
class
VirtualMachineProfiler
(
vm
.
VirtualMachine
):
"""Relay profile VM runtime."""
def
__init__
(
self
,
mod
):
super
(
VirtualMachineProfiler
,
self
)
.
__init__
(
mod
)
m
=
mod
.
module
if
isinstance
(
mod
,
vm
.
Executable
)
else
mod
self
.
mod
=
_
vm
.
_VirtualMachineDebug
(
m
)
self
.
mod
=
_
ffi_api
.
_VirtualMachineDebug
(
m
)
self
.
_init
=
self
.
mod
[
"init"
]
self
.
_invoke
=
self
.
mod
[
"invoke"
]
self
.
_get_stat
=
self
.
mod
[
"get_stat"
]
...
...
python/tvm/runtime/vm.py
0 → 100644
View file @
502cf264
# License .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.
# pylint: disable=no-else-return, unidiomatic-typecheck, undefined-variable, invalid-name, redefined-builtin
"""
The Relay Virtual Machine runtime.
Implements a Python interface to executing the compiled VM object.
"""
import
numpy
as
np
import
tvm
from
tvm._ffi.runtime_ctypes
import
TVMByteArray
from
tvm._ffi
import
base
as
_base
from
.object
import
Object
from
.
import
_ffi_api
,
container
def
_convert
(
arg
,
cargs
):
if
isinstance
(
arg
,
Object
):
cargs
.
append
(
arg
)
elif
isinstance
(
arg
,
np
.
ndarray
):
nd_arr
=
tvm
.
nd
.
array
(
arg
,
ctx
=
tvm
.
cpu
(
0
))
cargs
.
append
(
nd_arr
)
elif
isinstance
(
arg
,
tvm
.
runtime
.
NDArray
):
cargs
.
append
(
arg
)
elif
isinstance
(
arg
,
(
tuple
,
list
)):
field_args
=
[]
for
field
in
arg
:
_convert
(
field
,
field_args
)
cargs
.
append
(
container
.
tuple_object
(
field_args
))
elif
isinstance
(
arg
,
(
_base
.
numeric_types
,
bool
)):
dtype
=
"int32"
if
isinstance
(
arg
,
(
int
,
bool
))
else
"float32"
value
=
tvm
.
nd
.
array
(
np
.
array
(
arg
,
dtype
=
dtype
),
ctx
=
tvm
.
cpu
(
0
))
cargs
.
append
(
value
)
else
:
raise
TypeError
(
"Unsupported type:
%
s"
%
(
type
(
arg
)))
def
convert
(
args
):
cargs
=
[]
for
arg
in
args
:
_convert
(
arg
,
cargs
)
return
cargs
class
Executable
(
object
):
"""Relay VM executable"""
def
__init__
(
self
,
mod
):
self
.
mod
=
mod
self
.
_function_params
=
{}
self
.
_save
=
self
.
mod
[
"save"
]
self
.
_get_lib
=
self
.
mod
[
"get_lib"
]
self
.
_get_bytecode
=
self
.
mod
[
"get_bytecode"
]
self
.
_get_stats
=
self
.
mod
[
"get_stats"
]
self
.
_get_function_arity
=
self
.
mod
[
"get_function_arity"
]
self
.
_get_function_param_name
=
self
.
mod
[
"get_function_param_name"
]
def
save
(
self
):
"""Save the Relay VM Executable.
Returns
-------
code : bytearray
The binary blob representing a serialized Relay VM executable. It
can then be saved to disk and later deserialized into a new
Executable.
lib : :py:class:`~tvm.runtime.Module`
The runtime module that contains the generated code. It is
basically a library that is composed of hardware dependent code.
Notes
-----
The returned code is organized with the following sections in order.
- Global section. This section contains the globals used by the
virtual machine.
- Constant section. This section is used to store the constant pool of
a virtual machine.
- Primitive name section. This section is introduced to accommodate
the list of primitive operator names that will be invoked by the
virtual machine.
- Code section. The VM functions, including bytecode, are sitting in
this section.
Examples
--------
.. code-block:: python
import numpy as np
import tvm
from tvm import relay
# define a simple network.
x = relay.var('x', shape=(10, 10))
f = relay.Function([x], x + x)
mod = relay.Module({"main": f})
# create a Relay VM.
ctx = tvm.cpu()
target = "llvm"
executable = relay.vm.compile(mod, target)
code, lib = executable.save()
# save and load the code and lib file.
tmp = tvm.contrib.util.tempdir()
path_lib = tmp.relpath("lib.so")
lib.export_library(path_lib)
with open(tmp.relpath("code.ro"), "wb") as fo:
fo.write(code)
loaded_lib = tvm.runtime.load_module(path_lib)
loaded_code = bytearray(open(tmp.relpath("code.ro"), "rb").read())
# deserialize.
des_exec = tvm.runtime.vm.Executable.load_exec(loaded_code, loaded_code)
# execute the deserialized executable.
x_data = np.random.rand(10, 10).astype('float32')
des_vm = tvm.runtime.vm.VirtualMachine(des_exec)
des_vm.init(ctx)
res = des_vm.run(x_data)
print(res.asnumpy())
"""
return
self
.
_save
(),
self
.
_get_lib
()
@staticmethod
def
load_exec
(
bytecode
,
lib
):
"""Construct an executable from saved artifacts.
Parameters
----------
bytecode : bytearray
The binary blob representing a the Relay VM bytecode.
lib : :py:class:`~tvm.runtime.Module`
The runtime module that contains the generated code.
Returns
-------
exec: Executable
An executable constructed using the provided artifacts.
"""
if
isinstance
(
bytecode
,
(
bytes
,
str
)):
code
=
bytearray
(
bytecode
)
elif
not
isinstance
(
bytecode
,
(
bytearray
,
TVMByteArray
)):
raise
TypeError
(
"bytecode is expected to be the type of bytearray "
+
"or TVMByteArray, but received {}"
.
format
(
type
(
code
)))
if
lib
is
not
None
and
not
isinstance
(
lib
,
tvm
.
runtime
.
Module
):
raise
TypeError
(
"lib is expected to be the type of tvm.runtime.Module"
+
", but received {}"
.
format
(
type
(
lib
)))
return
Executable
(
_ffi_api
.
Load_Executable
(
bytecode
,
lib
))
@property
def
lib
(
self
):
"""Get the library that contains hardware dependent code.
Returns
-------
ret : :py:class:`~tvm.runtime.Module`
The runtime module that contains hardware dependent code.
"""
return
self
.
_get_lib
()
@property
def
stats
(
self
):
"""Get the statistics of the Relay VM executable.
Returns
-------
ret : String
The statistic information of the VM executable.
"""
return
self
.
_get_stats
()
@property
def
primitive_ops
(
self
):
"""Get the name of the primitive ops contained in the executable.
Returns
-------
ret : List[String]
The list of primitive ops.
"""
ret
=
[]
num_primitives
=
_ffi_api
.
GetNumOfPrimitives
(
self
.
module
)
for
i
in
range
(
num_primitives
):
ret
.
append
(
_ffi_api
.
GetPrimitiveFields
(
self
.
module
,
i
))
return
ret
@property
def
bytecode
(
self
):
"""Get the bytecode of the Relay VM executable.
Returns
-------
ret : String
The bytecode of the executable.
Notes
-----
The bytecode is in the following format:
func_name reg_file_size num_instructions
param1 param2 ... paramM
instruction1
instruction2
...
instructionN
Each instruction is printed in the following format:
hash opcode field1 ... fieldX # The text format.
The part starting from # is only used for visualization and debugging.
The real serialized code doesn't contain it, therefore the deserializer
doesn't need to deal with it as well.
"""
return
self
.
_get_bytecode
()
@property
def
globals
(
self
):
"""Get the globals used by the Relay VM executable.
Returns
-------
ret : List[String]
The globals contained in the executable.
"""
ret
=
[]
num_globals
=
_ffi_api
.
GetNumOfGlobals
(
self
.
module
)
for
i
in
range
(
num_globals
):
ret
.
append
(
_ffi_api
.
GetGlobalFields
(
self
.
module
,
i
))
return
ret
@property
def
module
(
self
):
"""Return the runtime module contained in a virtual machine executable."""
return
self
.
mod
def
get_function_params
(
self
,
func_name
):
"""Get VM Function parameters"""
if
func_name
in
self
.
_function_params
:
return
self
.
_function_params
[
func_name
]
arity
=
self
.
_get_function_arity
(
func_name
)
assert
arity
>=
0
params
=
[]
for
i
in
range
(
arity
):
p
=
self
.
_get_function_param_name
(
func_name
,
i
)
assert
p
params
.
append
(
p
)
self
.
_function_params
[
func_name
]
=
params
return
params
class
VirtualMachine
(
object
):
"""Relay VM runtime."""
def
__init__
(
self
,
mod
):
if
not
isinstance
(
mod
,
(
Executable
,
tvm
.
runtime
.
Module
)):
raise
TypeError
(
"mod is expected to be the type of Executable or "
+
"tvm.runtime.Module, but received {}"
.
format
(
type
(
mod
)))
m
=
mod
.
module
if
isinstance
(
mod
,
Executable
)
else
mod
self
.
mod
=
_ffi_api
.
_VirtualMachine
(
m
)
self
.
_exec
=
mod
self
.
_init
=
self
.
mod
[
"init"
]
self
.
_invoke
=
self
.
mod
[
"invoke"
]
self
.
_set_input
=
self
.
mod
[
"set_input"
]
def
init
(
self
,
ctx
):
"""Initialize the context in the VM.
Parameters
----------
ctx : :py:class:`TVMContext`
The runtime context to run the code on.
"""
args
=
[
ctx
.
device_type
,
ctx
.
device_id
]
self
.
_init
(
*
args
)
def
set_input
(
self
,
func_name
,
*
args
,
**
kwargs
):
"""Set the input to a function.
Parameters
----------
func_name : str
The name of the function.
args : list[tvm.runtime.NDArray] or list[np.ndarray]
The arguments to the function.
kwargs: dict of str to tvm.runtime.NDArray or np.ndarray
Named arguments to the function.
"""
if
kwargs
:
func_params
=
self
.
_exec
.
get_function_params
(
func_name
)
new_args
=
[
None
]
*
len
(
func_params
)
assert
len
(
args
)
+
len
(
kwargs
)
==
len
(
func_params
)
for
k
in
kwargs
:
idx
=
func_params
.
index
(
k
)
new_args
[
idx
]
=
kwargs
[
k
]
idx
=
0
for
i
,
arg
in
enumerate
(
new_args
):
if
arg
is
None
:
new_args
[
i
]
=
args
[
idx
]
idx
+=
1
args
=
new_args
cargs
=
convert
(
args
)
self
.
_set_input
(
func_name
,
*
cargs
)
def
invoke
(
self
,
func_name
,
*
args
,
**
kwargs
):
"""Invoke a function.
Parameters
----------
func_name : str
The name of the function.
args : list[tvm.runtime.NDArray] or list[np.ndarray]
The arguments to the function.
kwargs: dict of str to tvm.runtime.NDArray or np.ndarray
Named arguments to the function.
Returns
-------
result : Object
The output.
"""
if
args
or
kwargs
:
self
.
set_input
(
func_name
,
*
args
,
**
kwargs
)
return
self
.
_invoke
(
func_name
)
def
run
(
self
,
*
args
,
**
kwargs
):
"""Run the main function.
Parameters
----------
args : list[tvm.runtime.NDArray] or list[np.ndarray]
The arguments to the function.
kwargs: dict of str to tvm.runtime.NDArray or np.ndarray
Named arguments to the function.
Returns
-------
result : Object
The output.
"""
return
self
.
invoke
(
"main"
,
*
args
,
**
kwargs
)
src/runtime/container.cc
View file @
502cf264
...
...
@@ -32,14 +32,14 @@ namespace runtime {
using
namespace
vm
;
TVM_REGISTER_GLOBAL
(
"container._GetADTTag"
)
TVM_REGISTER_GLOBAL
(
"
runtime.
container._GetADTTag"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
ObjectRef
obj
=
args
[
0
];
const
auto
&
adt
=
Downcast
<
ADT
>
(
obj
);
*
rv
=
static_cast
<
int64_t
>
(
adt
.
tag
());
});
TVM_REGISTER_GLOBAL
(
"container._GetADTSize"
)
TVM_REGISTER_GLOBAL
(
"
runtime.
container._GetADTSize"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
ObjectRef
obj
=
args
[
0
];
const
auto
&
adt
=
Downcast
<
ADT
>
(
obj
);
...
...
@@ -47,7 +47,7 @@ TVM_REGISTER_GLOBAL("container._GetADTSize")
});
TVM_REGISTER_GLOBAL
(
"container._GetADTFields"
)
TVM_REGISTER_GLOBAL
(
"
runtime.
container._GetADTFields"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
ObjectRef
obj
=
args
[
0
];
int
idx
=
args
[
1
];
...
...
@@ -56,7 +56,7 @@ TVM_REGISTER_GLOBAL("container._GetADTFields")
*
rv
=
adt
[
idx
];
});
TVM_REGISTER_GLOBAL
(
"container._Tuple"
)
TVM_REGISTER_GLOBAL
(
"
runtime.
container._Tuple"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
std
::
vector
<
ObjectRef
>
fields
;
for
(
auto
i
=
0
;
i
<
args
.
size
();
++
i
)
{
...
...
@@ -65,7 +65,7 @@ TVM_REGISTER_GLOBAL("container._Tuple")
*
rv
=
ADT
::
Tuple
(
fields
);
});
TVM_REGISTER_GLOBAL
(
"container._ADT"
)
TVM_REGISTER_GLOBAL
(
"
runtime.
container._ADT"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
int
itag
=
args
[
0
];
size_t
tag
=
static_cast
<
size_t
>
(
itag
);
...
...
src/runtime/vm/executable.cc
View file @
502cf264
...
...
@@ -738,7 +738,7 @@ void Executable::LoadCodeSection(dmlc::Stream* strm) {
}
}
TVM_REGISTER_GLOBAL
(
"r
elay._vm
.GetNumOfGlobals"
)
TVM_REGISTER_GLOBAL
(
"r
untime
.GetNumOfGlobals"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
runtime
::
Module
mod
=
args
[
0
];
const
auto
*
exec
=
dynamic_cast
<
Executable
*>
(
mod
.
operator
->
());
...
...
@@ -746,7 +746,7 @@ TVM_REGISTER_GLOBAL("relay._vm.GetNumOfGlobals")
*
rv
=
static_cast
<
int
>
(
exec
->
global_map
.
size
());
});
TVM_REGISTER_GLOBAL
(
"r
elay._vm
.GetGlobalFields"
)
TVM_REGISTER_GLOBAL
(
"r
untime
.GetGlobalFields"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
runtime
::
Module
mod
=
args
[
0
];
const
auto
*
exec
=
dynamic_cast
<
Executable
*>
(
mod
.
operator
->
());
...
...
@@ -763,7 +763,7 @@ TVM_REGISTER_GLOBAL("relay._vm.GetGlobalFields")
*
rv
=
globals
[
idx
].
first
;
});
TVM_REGISTER_GLOBAL
(
"r
elay._vm
.GetNumOfPrimitives"
)
TVM_REGISTER_GLOBAL
(
"r
untime
.GetNumOfPrimitives"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
runtime
::
Module
mod
=
args
[
0
];
const
auto
*
exec
=
dynamic_cast
<
Executable
*>
(
mod
.
operator
->
());
...
...
@@ -772,7 +772,7 @@ TVM_REGISTER_GLOBAL("relay._vm.GetNumOfPrimitives")
});
TVM_REGISTER_GLOBAL
(
"r
elay._vm
.GetPrimitiveFields"
)
TVM_REGISTER_GLOBAL
(
"r
untime
.GetPrimitiveFields"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
runtime
::
Module
mod
=
args
[
0
];
const
auto
*
exec
=
dynamic_cast
<
Executable
*>
(
mod
.
operator
->
());
...
...
@@ -789,7 +789,7 @@ TVM_REGISTER_GLOBAL("relay._vm.GetPrimitiveFields")
}
});
TVM_REGISTER_GLOBAL
(
"r
elay._vm
.Load_Executable"
)
TVM_REGISTER_GLOBAL
(
"r
untime
.Load_Executable"
)
.
set_body_typed
([](
std
::
string
code
,
runtime
::
Module
lib
)
{
...
...
src/runtime/vm/profiler/vm.cc
View file @
502cf264
...
...
@@ -133,7 +133,7 @@ runtime::Module CreateVirtualMachineDebug(const Executable* exec) {
return
runtime
::
Module
(
vm
);
}
TVM_REGISTER_GLOBAL
(
"r
elay._vm
._VirtualMachineDebug"
)
TVM_REGISTER_GLOBAL
(
"r
untime
._VirtualMachineDebug"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
runtime
::
Module
mod
=
args
[
0
];
const
auto
*
exec
=
dynamic_cast
<
Executable
*>
(
mod
.
operator
->
());
...
...
src/runtime/vm/vm.cc
View file @
502cf264
...
...
@@ -1057,7 +1057,7 @@ runtime::Module CreateVirtualMachine(const Executable* exec) {
return
runtime
::
Module
(
vm
);
}
TVM_REGISTER_GLOBAL
(
"r
elay._vm
._VirtualMachine"
)
TVM_REGISTER_GLOBAL
(
"r
untime
._VirtualMachine"
)
.
set_body
([](
TVMArgs
args
,
TVMRetValue
*
rv
)
{
runtime
::
Module
mod
=
args
[
0
];
const
auto
*
exec
=
dynamic_cast
<
Executable
*>
(
mod
.
operator
->
());
...
...
tests/python/frontend/tensorflow/test_forward.py
View file @
502cf264
...
...
@@ -62,7 +62,7 @@ tf_dtypes = {
def
vmobj_to_list
(
o
):
if
isinstance
(
o
,
tvm
.
nd
.
NDArray
):
return
[
o
.
asnumpy
()
.
tolist
()]
elif
isinstance
(
o
,
tvm
.
container
.
ADT
):
elif
isinstance
(
o
,
tvm
.
runtime
.
container
.
ADT
):
result
=
[]
for
f
in
o
:
result
.
extend
(
vmobj_to_list
(
f
))
...
...
tests/python/relay/benchmarking/benchmark_vm.py
View file @
502cf264
...
...
@@ -19,7 +19,9 @@ import numpy as np
import
tvm
from
tvm.contrib
import
graph_runtime
from
tvm
import
relay
,
container
from
tvm
import
relay
from
tvm.runtime
import
container
from
tvm.runtime
import
vm
as
vm_rt
from
tvm.relay
import
testing
from
tvm.relay
import
vm
...
...
@@ -58,7 +60,7 @@ def benchmark_execution(mod,
number
=
2
,
repeat
=
20
):
with
relay
.
build_config
(
opt_level
=
3
):
exe
=
vm
.
compile
(
mod
,
target
,
params
=
params
)
rly_vm
=
vm
.
VirtualMachine
(
exe
)
rly_vm
=
vm
_rt
.
VirtualMachine
(
exe
)
rly_vm
.
init
(
ctx
)
result
=
rly_vm
.
run
(
data
)
...
...
tests/python/relay/test_adt.py
View file @
502cf264
...
...
@@ -117,7 +117,7 @@ def tree_to_dict(t):
def
vmobj_to_list
(
o
,
dtype
=
"float32"
):
if
isinstance
(
o
,
tvm
.
nd
.
NDArray
):
return
[
o
.
asnumpy
()
.
tolist
()]
elif
isinstance
(
o
,
tvm
.
container
.
ADT
):
elif
isinstance
(
o
,
tvm
.
runtime
.
container
.
ADT
):
if
len
(
o
)
==
0
:
tensor_nil
=
p
.
get_var
(
"tensor_nil"
,
dtype
=
dtype
)
if
tensor_nil
.
tag
==
o
.
tag
:
...
...
tests/python/relay/test_backend_interpreter.py
View file @
502cf264
...
...
@@ -18,7 +18,8 @@ import numpy as np
import
tvm
import
tvm.testing
from
tvm
import
nd
from
tvm
import
relay
,
container
from
tvm
import
relay
from
tvm.runtime
import
container
from
tvm.relay.backend.interpreter
import
RefValue
,
ConstructorValue
from
tvm.relay.scope_builder
import
ScopeBuilder
from
tvm.relay
import
testing
,
create_executor
...
...
tests/python/relay/test_external_codegen.py
View file @
502cf264
...
...
@@ -18,12 +18,12 @@
import
os
import
sys
import
numpy
as
np
import
pytest
import
tvm
import
tvm.relay.testing
import
tvm.relay.transform
from
tvm
import
relay
from
tvm
import
runtime
from
tvm.contrib
import
util
def
check_result
(
mod
,
map_inputs
,
out_shape
,
result
,
tol
=
1e-5
,
target
=
"llvm"
,
...
...
@@ -52,8 +52,8 @@ def check_result(mod, map_inputs, out_shape, result, tol=1e-5, target="llvm",
exe
=
relay
.
vm
.
compile
(
mod
,
target
=
target
)
code
,
lib
=
exe
.
save
()
lib
=
update_lib
(
lib
)
exe
=
r
elay
.
vm
.
Executable
.
load_exec
(
code
,
lib
)
vm
=
r
elay
.
vm
.
VirtualMachine
(
exe
)
exe
=
r
untime
.
vm
.
Executable
.
load_exec
(
code
,
lib
)
vm
=
r
untime
.
vm
.
VirtualMachine
(
exe
)
vm
.
init
(
ctx
)
out
=
vm
.
run
(
**
map_inputs
)
tvm
.
testing
.
assert_allclose
(
out
.
asnumpy
(),
result
,
rtol
=
tol
,
atol
=
tol
)
...
...
tests/python/relay/test_pass_partition_graph.py
View file @
502cf264
...
...
@@ -24,6 +24,7 @@ import tvm
import
tvm.relay.testing
import
tvm.relay.transform
as
transform
from
tvm
import
relay
from
tvm
import
runtime
from
tvm.contrib
import
util
from
tvm.relay.annotation
import
compiler_begin
,
compiler_end
from
tvm.relay.expr_functor
import
ExprMutator
...
...
@@ -182,7 +183,7 @@ def check_result(mod, map_inputs, out_shape, result, tol=1e-5, target="llvm",
lib_name
=
'lib.so'
lib_path
=
tmp_path
.
relpath
(
lib_name
)
lib
.
export_library
(
lib_path
,
fcompile
=
False
,
**
kwargs
)
lib
=
tvm
.
runtime
.
load_module
(
lib_path
)
lib
=
runtime
.
load_module
(
lib_path
)
return
lib
...
...
@@ -191,8 +192,8 @@ def check_result(mod, map_inputs, out_shape, result, tol=1e-5, target="llvm",
exe
=
relay
.
vm
.
compile
(
mod
,
target
=
target
,
params
=
params
)
code
,
lib
=
exe
.
save
()
lib
=
update_lib
(
lib
)
exe
=
r
elay
.
vm
.
Executable
.
load_exec
(
code
,
lib
)
vm
=
r
elay
.
vm
.
VirtualMachine
(
exe
)
exe
=
r
untime
.
vm
.
Executable
.
load_exec
(
code
,
lib
)
vm
=
r
untime
.
vm
.
VirtualMachine
(
exe
)
vm
.
init
(
ctx
)
out
=
vm
.
run
(
**
map_inputs
)
tvm
.
testing
.
assert_allclose
(
out
.
asnumpy
(),
result
,
rtol
=
tol
,
atol
=
tol
)
...
...
tests/python/relay/test_py_converter.py
View file @
502cf264
...
...
@@ -19,7 +19,7 @@ import tvm
from
tvm
import
relay
from
tvm.relay.testing
import
to_python
,
run_as_python
from
tvm.relay.prelude
import
Prelude
from
tvm.container
import
ADT
from
tvm.
runtime.
container
import
ADT
from
tvm.relay.backend.interpreter
import
RefValue
,
ConstructorValue
# helper: uses a dummy let binding to sequence a list
...
...
tests/python/relay/test_vm.py
View file @
502cf264
...
...
@@ -14,16 +14,16 @@
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
import
os
import
numpy
as
np
import
pytest
import
tvm
import
numpy
as
np
from
tvm
import
runtime
from
tvm
import
relay
from
tvm.relay.scope_builder
import
ScopeBuilder
from
tvm.relay.testing.config
import
ctx_list
from
tvm.relay.prelude
import
Prelude
from
tvm.relay
import
testing
import
pytest
def
check_result
(
args
,
expected_result
,
mod
=
None
):
"""
...
...
@@ -52,14 +52,14 @@ def veval(f, *args, ctx=tvm.cpu(), target="llvm"):
assert
isinstance
(
f
,
relay
.
Module
),
"expected expression or module"
mod
=
f
exe
=
relay
.
vm
.
compile
(
mod
,
target
)
vm
=
r
elay
.
vm
.
VirtualMachine
(
exe
)
vm
=
r
untime
.
vm
.
VirtualMachine
(
exe
)
vm
.
init
(
ctx
)
return
vm
.
invoke
(
"main"
,
*
args
)
def
vmobj_to_list
(
o
):
if
isinstance
(
o
,
tvm
.
nd
.
NDArray
):
return
[
o
.
asnumpy
()
.
tolist
()]
elif
isinstance
(
o
,
tvm
.
container
.
ADT
):
elif
isinstance
(
o
,
tvm
.
runtime
.
container
.
ADT
):
result
=
[]
for
f
in
o
:
result
.
extend
(
vmobj_to_list
(
f
))
...
...
@@ -573,7 +573,7 @@ def test_add_op_broadcast():
def
test_vm_optimize
():
mod
,
params
=
testing
.
resnet
.
get_workload
(
batch_size
=
1
,
num_layers
=
18
)
comp
=
relay
.
backend
.
vm
.
VMCompiler
()
comp
=
relay
.
vm
.
VMCompiler
()
opt_mod
,
_
=
comp
.
optimize
(
mod
,
"llvm"
,
params
)
if
__name__
==
"__main__"
:
...
...
tests/python/relay/test_vm_serialization.py
View file @
502cf264
...
...
@@ -19,9 +19,10 @@
import
numpy
as
np
import
tvm
from
tvm.runtime
import
vm
as
_vm
from
tvm.relay
import
vm
as
rly_vm
from
tvm
import
relay
from
tvm.relay.module
import
Module
as
rly_module
from
tvm.relay
import
vm
as
_vm
from
tvm.relay.scope_builder
import
ScopeBuilder
from
tvm.relay.prelude
import
Prelude
from
tvm.contrib
import
util
...
...
@@ -31,11 +32,11 @@ def create_exec(f, target="llvm", params=None):
if
isinstance
(
f
,
relay
.
Expr
):
mod
=
relay
.
Module
()
mod
[
"main"
]
=
f
executable
=
_vm
.
compile
(
mod
,
target
=
target
,
params
=
params
)
executable
=
rly
_vm
.
compile
(
mod
,
target
=
target
,
params
=
params
)
return
executable
else
:
assert
isinstance
(
f
,
relay
.
Module
),
"expected mod as relay.Module"
executable
=
_vm
.
compile
(
f
,
target
=
target
,
params
=
params
)
executable
=
rly
_vm
.
compile
(
f
,
target
=
target
,
params
=
params
)
return
executable
...
...
tests/python/unittest/test_container.py
View file @
502cf264
...
...
@@ -18,7 +18,7 @@
import
numpy
as
np
import
tvm
from
tvm
import
nd
,
relay
from
tvm
import
container
as
_container
from
tvm
.runtime
import
container
as
_container
def
test_adt_constructor
():
...
...
tests/python/unittest/test_runtime_vm_profiler.py
View file @
502cf264
...
...
@@ -14,11 +14,10 @@
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
import
os
import
tvm
import
numpy
as
np
import
pytest
import
tvm
from
tvm.runtime
import
profiler_vm
from
tvm
import
relay
from
tvm.relay.testing
import
resnet
...
...
@@ -26,10 +25,10 @@ def test_basic():
mod
,
params
=
resnet
.
get_workload
()
target
=
'llvm'
ctx
=
tvm
.
cpu
()
if
not
relay
.
profiler_vm
.
enabled
():
if
not
profiler_vm
.
enabled
():
return
exe
=
relay
.
vm
.
compile
(
mod
,
target
,
params
=
params
)
vm
=
relay
.
profiler_vm
.
VirtualMachineProfiler
(
exe
)
vm
=
profiler_vm
.
VirtualMachineProfiler
(
exe
)
vm
.
init
(
ctx
)
data
=
np
.
random
.
rand
(
1
,
3
,
224
,
224
)
.
astype
(
'float32'
)
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment