From T3_KR_KNU
(→Ex 3) Singularity & TensorFlow - cvmfs image) |
(→Ex 4) Singularity & TensorFlow - local image) |
||
Line 110: | Line 110: | ||
=== Ex 4) Singularity & TensorFlow - local image === | === Ex 4) Singularity & TensorFlow - local image === | ||
+ | |||
+ | sing-local.sub | ||
+ | |||
+ | executable = sing.sh | ||
+ | arguments = $(ClusterId)$(ProcId) | ||
+ | output = sing.$(ClusterId).$(ProcId).out | ||
+ | error = sing.$(ClusterId).$(ProcId).err | ||
+ | log = sing.$(ClusterId).log | ||
+ | should_transfer_files = YES | ||
+ | when_to_transfer_output = ON_EXIT | ||
+ | transfer_input_files = tf_ex.py | ||
+ | request_GPUs = 1 | ||
+ | request_CPUs = 1 | ||
+ | +SingularityImage = "/u/user/hanbi/tensorflow-gpu.sif" | ||
+ | queue | ||
=== Ex 5) Singularity & TensorFlow - docker image === | === Ex 5) Singularity & TensorFlow - docker image === | ||
=== 참고자료 === | === 참고자료 === |
Revision as of 02:12, 12 May 2021
Contents
HTCondor에서 GPU 사용하기
Ex 1) Matrix
matrix.py
import numpy as np from timeit import default_timer as timer from numba import vectorize @vectorize(['float32(float32, float32)'], target='cuda') def pow(a, b): return a ** b vec_size = 100000000 a = b = np.array(np.random.sample(vec_size), dtype=np.float32) c = np.zeros(vec_size, dtype=np.float32) start = timer() c = pow(a,b) duration = timer() - start print(duration)
matrix.sh
#!/bin/bash python3.6 -m virtualenv myvenv source myvenv/bin/activate pip3 install numba python3.6 matrix.py
matrix.sub
executable = matrix.sh arguments = $(ClusterId)$(ProcId) output = matrix.$(ClusterId).$(ProcId).out error = matrix.$(ClusterId).$(ProcId).err log = matrix.$(ClusterId).log should_transfer_files = YES transfer_input_files = matrix.py when_to_transfer_output = ON_EXIT request_GPUs = 1 request_CPUs = 1 queue
Ex 2) TensorFlow
tf_ex.py
import tensorflow as tf mnist = tf.keras.datasets.mnist (x_train, y_train), (x_test, y_test) = mnist.load_data() x_train, x_test = x_train / 255.0, x_test / 255.0 model = tf.keras.models.Sequential([ tf.keras.layers.Flatten(input_shape=(28, 28)), tf.keras.layers.Dense(128, activation='relu'), tf.keras.layers.Dropout(0.2), tf.keras.layers.Dense(10, activation='softmax') ]) model.compile(optimizer='adam',loss='sparse_categorical_crossentropy',metrics=['accuracy']) model.fit(x_train, y_train, epochs=5) model.evaluate(x_test, y_test, verbose=2)
tf_ex.sh
#!/bin/bash python3.6 -m virtualenv myvenv source myvenv/bin/activate pip3 install tensorflow-gpu==2.0.0-rc1 python3.6 tf_ex.py
tf_ex.sub
executable = tf_ex.sh arguments = $(ClusterId)$(ProcId) output = tf_ex.$(ClusterId).$(ProcId).out error = tf_ex.$(ClusterId).$(ProcId).err log = tf_ex.$(ClusterId).log transfer_input_files = tf_ex.py when_to_transfer_output = ON_EXIT request_GPUs = 1 request_CPUs = 1 queue
Ex 3) Singularity & TensorFlow - cvmfs image
sing.sh
#!/bin/bash python3.6 tf_ex.py
sing.sub
arguments = $(ClusterId)$(ProcId) output = sing.$(ClusterId).$(ProcId).out error = sing.$(ClusterId).$(ProcId).err log = sing.$(ClusterId).log should_transfer_files = YES when_to_transfer_output = ON_EXIT transfer_input_files = tf_ex.py request_GPUs = 1 request_CPUs = 1 +SingularityImage = "/cvmfs/singularity.opensciencegrid.org/opensciencegrid/tensorflow-gpu:latest" queue
Ex 4) Singularity & TensorFlow - local image
sing-local.sub
executable = sing.sh arguments = $(ClusterId)$(ProcId) output = sing.$(ClusterId).$(ProcId).out error = sing.$(ClusterId).$(ProcId).err log = sing.$(ClusterId).log should_transfer_files = YES when_to_transfer_output = ON_EXIT transfer_input_files = tf_ex.py request_GPUs = 1 request_CPUs = 1 +SingularityImage = "/u/user/hanbi/tensorflow-gpu.sif" queue