07. Hello, Tensor World!
Hello, Tensor World!
Let’s analyze the Hello World script you ran. For reference, I’ve added the code below.
import tensorflow as tf
# Create TensorFlow object called hello_constant
hello_constant = tf.constant('Hello World!')
with tf.Session() as sess:
# Run the tf.constant operation in the session
output = sess.run(hello_constant)
print(output)
Tensor
In TensorFlow, data isn’t stored as integers, floats, or strings. These values are encapsulated in an object called a tensor. In the case of
hello_constant = tf.constant('Hello World!')
,
hello_constant
is a 0-dimensional string tensor, but tensors come in a variety of sizes as shown below:
# A is a 0-dimensional int32 tensor
A = tf.constant(1234)
# B is a 1-dimensional int32 tensor
B = tf.constant([123,456,789])
# C is a 2-dimensional int32 tensor
C = tf.constant([ [123,456,789], [222,333,444] ])
tf.constant()
is one of many TensorFlow operations you will use in this lesson. The tensor returned by
tf.constant()
is called a constant tensor, because the value of the tensor never changes.
Session
TensorFlow’s api is built around the idea of a computational graph , a way of visualizing a mathematical process. Let’s take the TensorFlow code you ran and turn that into a graph:
A "TensorFlow Session", as shown above, is an environment for running a graph. The session is in charge of allocating the operations to GPU(s) and/or CPU(s), including remote machines. Let’s see how you use it.
with tf.Session() as sess:
output = sess.run(hello_constant)
print(output)
The code has already created the tensor,
hello_constant
, from the previous lines. The next step is to evaluate the tensor in a session.
The code creates a session instance,
sess
, using
tf.Session
. The
sess.run()
function then evaluates the tensor and returns the results.
After you run the above, you will see the following printed out:
'Hello World!'