4

Tensorflow-gpu version - 1.4.0

CUDA version - 8.0

cuDNN - v6.0

output from nvidia-smi:

+-----------------------------------------------------------------------------+
| NVIDIA-SMI 388.59                 Driver Version: 388.59                    |
|-------------------------------+----------------------+----------------------+
| GPU  Name            TCC/WDDM | Bus-Id        Disp.A | Volatile Uncorr. ECC |
| Fan  Temp  Perf  Pwr:Usage/Cap|         Memory-Usage | GPU-Util  Compute M. |
|===============================+======================+======================|
|   0  GeForce GTX 106... WDDM  | 00000000:01:00.0  On |                  N/A |
|  0%   39C    P8    14W / 139W |    246MiB /  3072MiB |      2%      Default |
+-------------------------------+----------------------+----------------------+

+-----------------------------------------------------------------------------+
| Processes:                                                       GPU Memory |
|  GPU       PID   Type   Process name                             Usage      |
|=============================================================================|
|    0      1128    C+G   Insufficient Permissions                   N/A      |
|    0      2600    C+G   Insufficient Permissions                   N/A      |
|    0      2652    C+G   ...mmersiveControlPanel\SystemSettings.exe N/A      |
|    0      4168    C+G   ...\Corsair\Corsair Utility Engine\CUE.exe N/A      |
|    0      4828    C+G   ...5.0_x64__8wekyb3d8bbwe\WinStore.App.exe N/A      |
|    0      5404    C+G   C:\Windows\explorer.exe                    N/A      |
|    0      5832    C+G   ...t_cw5n1h2txyewy\ShellExperienceHost.exe N/A      |
|    0      5936    C+G   ...dows.Cortana_cw5n1h2txyewy\SearchUI.exe N/A      |
+-----------------------------------------------------------------------------+

The error I am getting is:

InvalidArgumentError (see above for traceback): Cannot assign a device for operation 'gradients/Mean_grad/Prod_1': Operation was explicitly assigned to /device:GPU:0 but available devices are [ /job:localhost/replica:0/task:0/device:CPU:0 ]. Make sure the device specification refers to a valid device.

from the code:

from __future__ import print_function
from datetime import datetime
from urllib.request import Request
from io import BytesIO
from IPython.display import clear_output, Image, display, HTML
from imgurpython import ImgurClient
from PIL import Image
import praw
import time
import re
import urllib.request as rlib
import io
import numpy as np
import PIL.Image
import tensorflow as tf
import os

from imgurpython.imgur.models import album

USERAGENT = 'web:DreamProcessor:v0.1 (by /u/ThePeskyWabbit)'
FOOTER = "^^I ^^am ^^a ^^bot!! ^^I ^^am ^^being ^^tested ^^at ^^the ^^moment! ^^I ^^work ^^on ^^i.redd.it ^^and ^^all ^^imgur ^^posts!"
PATH = "C:\\Users\\Josh\\PycharmProjects\\DreamBot\\commented.txt"
stringList = ["!dreambot"]

_image_formats = ['bmp', 'dib', 'eps', 'ps', 'gif', 'im', 'jpg', 'jpe', 'jpeg',
                  'pcd', 'pcx', 'png', 'pbm', 'pgm', 'ppm', 'psd', 'tif', 'tiff',
                  'xbm', 'xpm', 'rgb', 'rast', 'svg']

model_fn = "tensorflow_inception_graph.pb"

graph = tf.Graph()
sess = tf.InteractiveSession(graph=graph)

with tf.gfile.FastGFile(model_fn, 'rb') as f:
    graph_def = tf.GraphDef()
    graph_def.ParseFromString(f.read())
t_input = tf.placeholder(np.float32, name = 'input')
imagenet_mean = 117.0
t_preprocessed = tf.expand_dims(t_input-imagenet_mean, 0)
tf.import_graph_def(graph_def, {'input':t_preprocessed})

layers = [op.name for op in graph.get_operations() if op.type=='Conv2D' and 'import/' in op.name]
print(layers)

feature_nums = [int(graph.get_tensor_by_name(name + ':0').get_shape()[-1]) for name in layers]

print('Number of layers', len(layers))
print('Total number of feature channels:', sum(feature_nums))


# Helper functions for TF Graph visualization

def strip_consts(graph_def, max_const_size=32):
    """Strip large constant values from graph_def."""
    strip_def = tf.GraphDef()
    for n0 in graph_def.node:
        n = strip_def.node.add()
        n.MergeFrom(n0)
        if n.op == 'Const':
            tensor = n.attr['value'].tensor
            size = len(tensor.tensor_content)
            if size > max_const_size:
                tensor.tensor_content = tf.compat.as_bytes("<stripped %d bytes>" % size)
    return strip_def


def rename_nodes(graph_def, rename_func):
    res_def = tf.GraphDef()
    for n0 in graph_def.node:
        n = res_def.node.add()
        n.MergeFrom(n0)
        n.name = rename_func(n.name)
        for i, s in enumerate(n.input):
            n.input[i] = rename_func(s) if s[0] != '^' else '^' + rename_func(s[1:])
    return res_def

# Visualizing the network graph. Be sure expand the "mixed" nodes to see their
# internal structure. We are going to visualize "Conv2D" nodes.
tmp_def = rename_nodes(graph_def, lambda s: "/".join(s.split('_', 1)))
#show_graph(tmp_def)

print("selecting Layer and channel")
layer = 'mixed4d_3x3_bottleneck_pre_relu'
channel = 139  # picking some feature channel to visualize

print("generating noise")
# start with a gray image with a little noise
img_noise = np.random.uniform(size=(224, 224, 3)) + 130.0


def showarray(a, fmt='jpeg'):
    print("Entered showArray")
    a = np.uint8(np.clip(a, 0, 1) * 255)
    f = BytesIO()
    PIL.Image.fromarray(a).save(f, fmt)
    display(Image(data=f.getvalue()))



def visstd(a, s=0.1):
    '''Normalize the image range for visualization'''
    return (a - a.mean()) / max(a.std(), 1e-4) * s + 0.5


def T(layer):
    print("Entered T function")
    print(graph.get_tensor_by_name("import/%s:0" % layer))
    '''Helper for getting layer output tensor'''
    return graph.get_tensor_by_name("import/%s:0" % layer)

def tffunc(*argtypes):
    '''Helper that transforms TF-graph generating function into a regular one.
    See "resize" function below.
    '''
    placeholders = list(map(tf.placeholder, argtypes))
    def wrap(f):
        out = f(*placeholders)
        def wrapper(*args, **kw):
            return out.eval(dict(zip(placeholders, args)), session=kw.get('session'))
        return wrapper
    return wrap

# Helper function that uses TF to resize an image
def resize(img, size):
    img = tf.expand_dims(img, 0)
    return tf.image.resize_bilinear(img, size)[0,:,:,:]
resize = tffunc(np.float32, np.int32)(resize)


def calc_grad_tiled(img, t_grad, tile_size=512):
    '''Compute the value of tensor t_grad over the image in a tiled way.
    Random shifts are applied to the image to blur tile boundaries over
    multiple iterations.'''
    sz = tile_size
    h, w = img.shape[:2]
    sx, sy = np.random.randint(sz, size=2)
    img_shift = np.roll(np.roll(img, sx, 1), sy, 0)
    grad = np.zeros_like(img)
    for y in range(0, max(h-sz//2, sz),sz):
        for x in range(0, max(w-sz//2, sz),sz):
            sub = img_shift[y:y+sz,x:x+sz]
            g = sess.run(t_grad, {t_input:sub})
            grad[y:y+sz,x:x+sz] = g
    return np.roll(np.roll(grad, -sx, 1), -sy, 0)

'''step increases the intesity. iter_n increases how many times the filter runs
defaults: step = 1.5    iter_n = 10     octave_n = 4     octave_scale = 1.4
pretty good settings: iter_n=20, step=1.5 octave_n=4 octave_scale=1.4
'''

def render_deepdream(t_obj, img0=img_noise,
                     iter_n=20, step=1.5, octave_n=4, octave_scale=1.4):
    t_score = tf.reduce_mean(t_obj)  # defining the optimization objective
    t_grad = tf.gradients(t_score, t_input)[0]  # behold the power of automatic differentiation!

    # split the image into a number of octaves
    img = img0
    octaves = []
    for i in range(octave_n - 1):
        hw = img.shape[:2]
        lo = resize(img, np.int32(np.float32(hw) / octave_scale))
        hi = img - resize(lo, hw)
        img = lo
        octaves.append(hi)

    # generate details octave by octave
    for octave in range(octave_n):
        if octave > 0:
            hi = octaves[-octave]
            img = resize(img, hi.shape[:2]) + hi
        for i in range(iter_n):
            g = calc_grad_tiled(img, t_grad)
            img += g * (step / (np.abs(g).mean() + 1e-7))
            print('.', end=' ')
        clear_output()

    a = img / 255.0
    a = np.uint8(np.clip(a, 0, 1) * 255)

    pic = PIL.Image.fromarray(a).save("temp.jpg")
    #Image.open(io.BytesIO(pic)).save("temp.jpg")
    print("DeepDream image saved.")


def get_config():
    ''' Create a config parser for reading INI files '''
    try:
        import ConfigParser
        return ConfigParser.ConfigParser()
    except:
        import configparser
        return configparser.ConfigParser()

def directDownload(url):
    request = rlib.Request(url)
    response = rlib.urlopen(request)
    data = response.read()
    try:
        im = Image.open(io.BytesIO(data))
        im.verify()
        fname = "temp.jpg"
        print("saving picture")
        Image.open(io.BytesIO(data)).save(fname)
    except:
        print("an error occurred in saving the image")

def albumDownload(album):
    picture = album[0]
    request = rlib.Request(picture.link)
    response = rlib.urlopen(request)
    data = response.read()
    try:
        im = Image.open(io.BytesIO(data))
        im.verify()
        fname = "temp.jpg"
        print("saving picture " + fname)
        Image.open(io.BytesIO(data)).save(fname)
    except:
        print("an error occurred in saving the image")

def uploadImgur():
    album = None
    image_path = 'C:\\Users\\Josh\\PycharmProjects\\DreamBot\\temp.jpg'
    config = {
        'album': album,
        'name': 'Deep Dream Pic!',
        'title': 'Deep Dream Pic!',
        'description': 'Image processed through Deepdream filter {0}'.format(datetime.now())
    }


    print("Uploading...")
    image = imgurClient.upload_from_path(image_path, config=config, anon=False)
    print("done")
    return image

def imgurAuth():
    config = get_config()
    config.read('auth.ini')
    client_id = config.get('credentials', 'client_id')
    client_secret = config.get('credentials', 'client_secret')

    client = ImgurClient(client_id, client_secret)

    print("Authenticated as " + client_id + " on imgur client.\n")

    return client

def renderAndReply(comment):
    img0 = PIL.Image.open('temp.jpg')
    img0 = np.float32(img0)
    with tf.device('/gpu:0'):
        render = render_deepdream(tf.square(T('mixed4c')), img0)
    with tf.Session(config=tf.ConfigProto(allow_soft_placement=True, log_device_placement=True)) as sess:
        sess.run(render)
    try:
        image = uploadImgur()
        comment.reply("[Here is your Deep Dream picture]({0})".format(image['link']) + "\n\n" + FOOTER)
    except:
        print("Comment or upload failed...")

I have uninstalled tensorflow as well as tensorflow-gpu and then only reinstalled tensorflow-gpu via pip.

My path environment variable contains:

I am running on Windows 10 64 bit with a gtx 1060 3gb card. I have tried multiple different ways of assigning tensorflow to the GPU but it simply will not see it. Its not that the code is wrong but there is something deeper causing it to not be recognized. Does anyone have any ideas or troubleshooting thoughts?

Regards

EDIT

when I run:

from tensorflow.python.client import device_lib
print(device_lib.list_local_devices())

I get the following

[name: "/device:CPU:0"
device_type: "CPU"
2017-12-12 12:16:59.022113: I C:\tf_jenkins\home\workspace\rel-win\M\windows\PY\36\tensorflow\core\platform\cpu_feature_guard.cc:137] Your CPU supports instructions that this TensorFlow binary was not compiled to use: AVX AVX2
memory_limit: 268435456
  • Is this still a problem? If so, check your cuDNN and CUDA installations. – Evan Weissburg Jan 18 '18 at 15:14
2

This was solved by uninstalling tensorflow via pycharms package manager and installing tensorflow-gpu via cmd using command pip install tensorflow-gpu

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