Tensorflow is an open-source machine learning library developed by Google. One of its applications is to develop deep neural networks.
The module tensorflow.math provides support for many basic mathematical operations. Function tf.asin() [alias tf.math.asin] provides support for the inverse sine function in Tensorflow. It expects the input to be in the range [-1, 1] and gives the output in radian form. It returns nan if the input does not lie in the range [-1, 1]. The input type is tensor and if the input contains more than one element, element-wise inverse sine is computed.
Syntax: tf.asin(x, name=None) or tf.math.asin(x, name=None)
Parameters:
x: A tensor of any of the following types: bfloat16, half, float32, float64, int32, int64, complex64, or complex128.
name (optional): The name for the operation.Return type: A tensor with the same type as that of x.
Code #1:
Python3
# Importing the Tensorflow library import tensorflow as tf   # A constant vector of size 6 a = tf.constant([1.0, -0.5, 3.4, 0.2, 0.0, -2],                             dtype = tf.float32)   # Applying the asin function and # storing the result in 'b' b = tf.asin(a, name ='asin')   # Initiating a Tensorflow session with tf.Session() as sess:     print('Input type:', a)     print('Input:', sess.run(a))     print('Return type:', b)     print('Output:', sess.run(b)) |
Output:
Input type: Tensor("Const_6:0", shape=(6, ), dtype=float32)
Input: [ 1. -0.5 3.4 0.2 0. -2. ]
Return type: Tensor("asin_2:0", shape=(6, ), dtype=float32)
Output: [ 1.5707964 -0.5235988 nan 0.20135793 0. nan]
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Code #2: Visualization
Python3
# Importing the Tensorflow library import tensorflow as tf   # Importing the NumPy library import numpy as np   # Importing the matplotlib.pyplot function import matplotlib.pyplot as plt   # A vector of size 15 with values from -1 to 1 a = np.linspace(-1, 1, 15)   # Applying the inverse sine function and # storing the result in 'b' b = tf.asin(a, name ='asin')   # Initiating a Tensorflow session with tf.Session() as sess:     print('Input:', a)     print('Output:', sess.run(b))     plt.plot(a, sess.run(b), color = 'red', marker = "o")     plt.title("tensorflow.asin")     plt.xlabel("X")     plt.ylabel("Y")       plt.show() |
Output:
Input: [-1. -0.85714286 -0.71428571 -0.57142857 -0.42857143 -0.28571429 -0.14285714 0. 0.14285714 0.28571429 0.42857143 0.57142857 0.71428571 0.85714286 1. ] Output: [-1.57079633 -1.0296968 -0.79560295 -0.60824558 -0.44291104 -0.2897517 -0.14334757 0. 0.14334757 0.2897517 0.44291104 0.60824558 0.79560295 1.0296968 1.57079633]
