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05fd6d10
编写于
4月 12, 2023
作者:
C
CHANGer
提交者:
GitHub
4月 12, 2023
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电子邮件补丁
差异文件
[Auto Parallel]Add the single-node topology detection (#52723)
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2 changed file
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python/paddle/distributed/auto_parallel/topology.py
python/paddle/distributed/auto_parallel/topology.py
+351
-0
python/paddle/fluid/tests/unittests/auto_parallel/test_topology.py
...ddle/fluid/tests/unittests/auto_parallel/test_topology.py
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python/paddle/distributed/auto_parallel/topology.py
0 → 100644
浏览文件 @
05fd6d10
# Copyright (c) 2023 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed 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.
import
json
import
subprocess
import
warnings
def
call_cmd
(
cmd
,
err_msg
,
default_value
):
process
=
subprocess
.
Popen
(
cmd
,
stdout
=
subprocess
.
PIPE
,
stderr
=
subprocess
.
PIPE
,
universal_newlines
=
True
,
shell
=
True
,
)
stdout
,
stderr
=
process
.
communicate
()
if
stderr
:
warnings
.
warn
(
err_msg
)
stdout
=
default_value
return
stdout
class
SingleNodeTopology
:
def
__init__
(
self
):
self
.
pcie_latency
=
0.0
self
.
pcie_bandwidth
=
float
(
'inf'
)
self
.
nvlink_bandwidth
=
-
1.0
self
.
nb_devices
=
8
self
.
machine
=
{}
self
.
devices
=
[]
self
.
links
=
[]
self
.
json_object
=
None
def
calculate_cpu_flops
(
self
):
# Get number sockets
cmd
=
"lscpu | grep 'Socket(s)' | awk '{print $NF}'"
err_msg
=
"Failed to get number of sockets"
default_value
=
4
nb_sockets
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
# Get number of cores per socket
cmd
=
"lscpu | grep 'Core(s) per socket' | awk '{print $NF}'"
err_msg
=
"Failed to get number of cores per socket"
default_value
=
20
nb_cores_per_socket
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
# Get clock speed
cmd
=
"lscpu | grep GHz | awk -F '@' '{print $NF}' | awk -F 'G' '{print $1}'"
err_msg
=
"Failed to get cpu clock rate"
default_value
=
2.4
clock_rate
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
# Get number of FMA units
# TODO(changtao02): find a way to detect this value
nb_fmas
=
2
# Get SIMD width
simd_width_sp
=
0
simd_width_dp
=
0
cmd
=
"lscpu | grep sse"
err_msg
=
"Failed to get cpu vector size"
default_value
=
"sse"
vector_size
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
if
vector_size
:
simd_width_sp
=
4
# 128 / 32
simd_width_dp
=
2
# 128 / 64
cmd
=
"lscpu | grep avx2"
err_msg
=
"Failed to get cpu vector size"
default_value
=
"avx2"
vector_size
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
if
vector_size
:
simd_width_sp
=
8
# 256 / 32
simd_width_dp
=
4
# 256 / 64
cmd
=
"lscpu | grep avx512"
err_msg
=
"Failed to get cpu vector size"
default_value
=
"avx512"
vector_size
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
if
vector_size
:
simd_width_sp
=
16
# 512 / 32
simd_width_dp
=
8
# 512 / 64
gflops_per_element
=
(
int
(
nb_sockets
)
*
int
(
nb_cores_per_socket
)
*
float
(
clock_rate
)
*
nb_fmas
)
sp_gflops
=
gflops_per_element
*
simd_width_sp
dp_gflops
=
gflops_per_element
*
simd_width_dp
self
.
machine
[
'sp_gflops'
]
=
sp_gflops
self
.
machine
[
'dp_gflops'
]
=
dp_gflops
def
pcie_gen2bandwidth
(
self
,
pcie_generation
):
if
pcie_generation
==
1
:
return
0.25
elif
pcie_generation
==
2
:
return
0.5
elif
pcie_generation
==
3
:
return
1.0
elif
pcie_generation
==
4
:
return
2.0
elif
pcie_generation
==
5
:
return
4.0
elif
pcie_generation
==
6
:
return
8.0
def
model2gflops
(
self
,
model
):
if
"H100"
in
model
and
"SXM5"
in
model
:
return
60000
,
30000
elif
"H100"
in
model
and
"PCIe"
in
model
:
return
48000
,
24000
elif
"A100"
in
model
:
return
19500
,
9700
elif
"V100"
in
model
:
return
15700
,
7800
elif
"P100"
in
model
:
return
10600
,
5300
def
get_link_bandwidth
(
self
,
source_id
,
target_id
):
# Get link type
row_id
=
2
+
source_id
column_id
=
2
+
target_id
cmd
=
(
"cat matrix.txt | awk 'FNR=="
+
str
(
row_id
)
+
" {print $"
+
str
(
column_id
)
+
"}'"
)
err_msg
=
"Failed to get topo matrix"
default_value
=
"NVL"
link_type
=
call_cmd
(
cmd
,
err_msg
,
default_value
)
link_bandwidth
=
self
.
pcie_bandwidth
if
"NV"
in
link_type
:
if
self
.
nvlink_bandwidth
==
-
1.0
:
cmd
=
"nvidia-smi nvlink -s -i 0 | tail -n 1 | awk '{print $3}'"
err_msg
=
"Failed to get nvlink bandwidth"
default_value
=
"25"
self
.
nvlink_bandwidth
=
float
(
call_cmd
(
cmd
,
err_msg
,
default_value
)
)
link_bandwidth
=
int
(
link_type
[
2
:])
*
self
.
nvlink_bandwidth
link_type
=
"NVL"
return
link_type
,
link_bandwidth
def
get_host_info
(
self
):
# Get hostname
cmd
=
"hostname -s"
err_msg
=
"Failed to get hostname"
default_value
=
"localhost"
hostname
=
call_cmd
(
cmd
,
err_msg
,
default_value
).
strip
()
# Get ip address
cmd
=
"hostname -i"
err_msg
=
"Failed to get host ip address"
default_value
=
"127.0.0.1"
ip_addr
=
call_cmd
(
cmd
,
err_msg
,
default_value
).
strip
()
# Get CPU memory (GB)
cmd
=
"cat /proc/meminfo | grep 'MemAvailable' | awk -F ':' '{print $NF}' | awk '{print $1}'"
err_msg
=
"Failed to get cpu memory"
default_value
=
"41366484"
cpu_memory
=
int
(
call_cmd
(
cmd
,
err_msg
,
default_value
))
//
1e6
# Get single-point flops and double-point flops (GFLOPs)
self
.
calculate_cpu_flops
()
self
.
machine
[
'hostname'
]
=
hostname
self
.
machine
[
'addr'
]
=
ip_addr
self
.
machine
[
'memory'
]
=
cpu_memory
def
get_device_info
(
self
):
# Get device count
cmd
=
"nvidia-smi -L | wc -l"
err_msg
=
"Failed to get device count"
default_value
=
"8"
self
.
nb_devices
=
int
(
call_cmd
(
cmd
,
err_msg
,
default_value
))
# Get PCIe latency and bandwidth (ms, GB/s)
for
i
in
range
(
self
.
nb_devices
):
cmd
=
(
"nvidia-smi --id="
+
str
(
i
)
+
" --query-gpu=pcie.link.gen.max --format=csv,noheader"
)
err_msg
=
"Failed to get max pcie link generation"
default_value
=
"4"
pcie_generation
=
int
(
call_cmd
(
cmd
,
err_msg
,
default_value
))
cmd
=
(
"nvidia-smi --id="
+
str
(
i
)
+
" --query-gpu=pcie.link.width.max --format=csv,noheader"
)
err_msg
=
"Failed to get max pcie link width"
default_value
=
"16"
pcie_width
=
int
(
call_cmd
(
cmd
,
err_msg
,
default_value
))
self
.
pcie_bandwidth
=
min
(
self
.
pcie_bandwidth
,
self
.
pcie_gen2bandwidth
(
pcie_generation
)
*
pcie_width
,
)
dev_global_ids
=
[]
dev_local_ids
=
[]
dev_types
=
[]
dev_models
=
[]
dev_memories
=
[]
# GiB
dev_sp_gflops
=
[]
# GB/s
dev_dp_gflops
=
[]
# GB/s
# Get device info
for
i
in
range
(
self
.
nb_devices
):
dev_global_ids
.
append
(
i
)
dev_local_ids
.
append
(
i
)
dev_types
.
append
(
"GPU"
)
cmd
=
(
"nvidia-smi --id="
+
str
(
i
)
+
" --query-gpu=name --format=csv,noheader"
)
err_msg
=
"Failed to get device name"
default_value
=
"NVIDIA A100-SXM4-40GB"
dev_models
.
append
(
call_cmd
(
cmd
,
err_msg
,
default_value
).
strip
())
cmd
=
(
"nvidia-smi --id="
+
str
(
i
)
+
" --query-gpu=memory.free --format=csv,noheader | awk '{print $1}'"
)
err_msg
=
"Failed to get device available memory"
default_value
=
"40536"
dev_memories
.
append
(
int
(
call_cmd
(
cmd
,
err_msg
,
default_value
))
//
1e3
)
sp_gflops
,
dp_gflops
=
self
.
model2gflops
(
dev_models
[
i
])
dev_sp_gflops
.
append
(
sp_gflops
)
dev_dp_gflops
.
append
(
dp_gflops
)
for
i
in
range
(
len
(
dev_global_ids
)):
device
=
{}
device
[
'global_id'
]
=
dev_global_ids
[
i
]
device
[
'local_id'
]
=
dev_local_ids
[
i
]
device
[
'type'
]
=
dev_types
[
i
]
device
[
'model'
]
=
dev_models
[
i
]
device
[
'memory'
]
=
dev_memories
[
i
]
device
[
'sp_gflops'
]
=
dev_sp_gflops
[
i
]
device
[
'dp_gflops'
]
=
dev_dp_gflops
[
i
]
self
.
devices
.
append
(
device
)
self
.
machine
[
'latency'
]
=
self
.
pcie_latency
self
.
machine
[
'bandwidth'
]
=
self
.
pcie_bandwidth
self
.
machine
[
'devices'
]
=
self
.
devices
def
get_link_info
(
self
):
link_source_global_ids
=
[]
link_target_global_ids
=
[]
link_types
=
[]
link_latencies
=
[]
# ms
link_bandwidths
=
[]
# GB/s
cmd
=
"nvidia-smi topo -m > matrix.txt"
err_msg
=
"Failed to get topo matrix"
default_value
=
""
call_cmd
(
cmd
,
err_msg
,
default_value
)
# Get link info between devices
for
i
in
range
(
self
.
nb_devices
):
for
j
in
range
(
self
.
nb_devices
):
if
i
==
j
:
link_types
.
append
(
"X"
)
link_bandwidths
.
append
(
-
1.0
)
else
:
link_source_global_ids
.
append
(
i
)
link_target_global_ids
.
append
(
j
)
link_latencies
.
append
(
0.0
)
if
i
>
j
:
index
=
j
*
self
.
nb_devices
+
i
link_types
.
append
(
link_types
[
index
])
link_bandwidths
.
append
(
link_bandwidths
[
index
])
elif
i
<
j
:
link_type
,
link_bandwidth
=
self
.
get_link_bandwidth
(
i
,
j
)
link_types
.
append
(
link_type
)
link_bandwidths
.
append
(
link_bandwidth
)
for
i
in
reversed
(
range
(
self
.
nb_devices
)):
link_types
.
pop
(
i
*
self
.
nb_devices
+
i
)
link_bandwidths
.
pop
(
i
*
self
.
nb_devices
+
i
)
cmd
=
"rm matrix.txt"
err_msg
=
"Failed to delete matrix.txt"
default_value
=
""
call_cmd
(
cmd
,
err_msg
,
default_value
)
for
i
in
range
(
len
(
link_types
)):
link
=
{}
link
[
'source_global_id'
]
=
link_source_global_ids
[
i
]
link
[
'target_global_id'
]
=
link_target_global_ids
[
i
]
link
[
'type'
]
=
link_types
[
i
]
link
[
'latency'
]
=
link_latencies
[
i
]
link
[
'bandwidth'
]
=
link_bandwidths
[
i
]
self
.
links
.
append
(
link
)
self
.
machine
[
'links'
]
=
self
.
links
def
detect
(
self
):
# Get host info
self
.
get_host_info
()
# Get device info
self
.
get_device_info
()
# Get link info between devices
self
.
get_link_info
()
self
.
json_object
=
json
.
dumps
(
self
.
machine
,
indent
=
4
)
print
(
self
.
json_object
)
def
dump
(
self
,
output_path
):
with
open
(
output_path
,
"w"
)
as
outfile
:
json
.
dump
(
self
.
machine
,
outfile
,
indent
=
4
)
python/paddle/fluid/tests/unittests/auto_parallel/test_topology.py
0 → 100644
浏览文件 @
05fd6d10
# Copyright (c) 2023 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed 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.
import
unittest
from
paddle.distributed.auto_parallel.topo
import
SingleNodeTopology
def
check_empty_json_object
(
json_object
):
return
json_object
is
not
None
class
TestSingleNodeTopology
(
unittest
.
TestCase
):
def
test_empty_topology_json_object
(
self
):
topo
=
SingleNodeTopology
()
topo
.
detect
()
self
.
assertTrue
(
check_empty_json_object
(
topo
.
json_object
))
if
__name__
==
"__main__"
:
unittest
.
main
()
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