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Deep Learning with TensorFlow

Empowering Innovation: Harnessing the Power of TensorFlow for Cutting-Edge Solutions. Become Deep Learning engineer with specialization in TensorFlow.
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Course Duration: 50 Hours
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TensorFlow is an end-to-end open source platform for machine learning. It has a comprehensive, flexible ecosystem of tools, libraries and community resources that lets researchers push the state-of-the-art in ML and developers easily build and deploy ML powered applications.

If you are a software developer who wants to build scalable AI-powered algorithms, you need to understand how to use the tools to build them. This course is part of the upcoming Machine Learning in Tensorflow Specialization and will teach you best practices for using TensorFlow, a popular open-source framework for machine learning.

 

TensorFlow is an open source software library for numerical computation using data flow graphs. Nodes in the graph represent mathematical operations, while the graph edges represent the multidimensional data arrays (tensors) communicated between them. The flexible architecture allows you to deploy computation to one or more CPUs or GPUs in a desktop, server, or mobile device with a single API. TensorFlow was originally developed by researchers and engineers working on the Google Brain Team within Google's Machine Intelligence research organization for the purposes of conducting machine learning and deep neural networks research, but the system is general enough to be applicable in a wide variety of other domains as well.

It is used by major companies all over the world, including Airbnb, Ebay, Dropbox, Snapchat, Twitter, Uber, SAP, Qualcomm, IBM, Intel, and of course, Google!

 

This TensorFlow course by Uplatz will guide you through how to use Google's TensorFlow framework to create artificial neural networks for deep learning! This course aims to give you an easy to understand guide to the complexities of Google's TensorFlow framework in a way that is easy to understand. Other courses and tutorials have tended to stay away from pure tensorflow and instead use abstractions that give the user less control. Here we present a course that finally serves as a complete guide to using the TensorFlow framework as intended, while showing you the latest techniques available in deep learning!

Course/Topic - Deep Learning with TensorFlow - all lectures

  • In this lecture session we learn about the introduction of tensorflow and also talk about tensorflow is the learning framework of machine learning and deep learning.

    • 19:19
  • In this tutorial we learn that TensorFlow has significant use in voice recognition systems like Telecom, Mobile companies, security systems, search engines, etc. It uses the voice recognition systems for giving commands, performing operations and giving inputs without using keyboards, mouse.

    • 15:19
  • In this lecture session we learn about Tensorflow basic functions and also talk about Tensorflow is basically a software library for numerical computation using data flow.

    • 17:13
  • In this lecture session we learn about TensorFlow is a machine learning framework developed by Google Brain Team. It is derived from its core framework: Tensor. In TensorFlow, all the computations involve tensors. A tensor is a vector or a matrix of n-dimensions which represents the types of data.

    • 14:26
  • In this tutorial we learn about The TensorBoard enables us to monitor graphically and visually what TensorFlow is doing. Tensorflow’s name is directly derived from its core framework: Tensor. In Tensorflow, all the computations involve tensors. A tensor is a vector or matrix of n-dimensions that represents all types of data.

    • 19:32
  • In this lecture session we learn about In TensorFlow, all operations are conducted inside a graph. The group is a set of calculations that takes place successively. Each transaction is called an op node. TensorFlow makes use of a graph framework.

    • 17:32
  • In this lecture session we learn about ensorFlow Extended (TFX) is an end-to-end platform for deploying production ML pipelines. When you’re ready to move your models from research to production, use TFX to create and manage a production pipeline.

    • 10:10
  • In this lecture session we learn about In TensorFlow, codes are written to create a graph, run a session, and execute the graph. Every variable we assign becomes a node where we can perform mathematical operations such as multiplication and addition.

    • 19:40
  • In this lecture session we learn about Tensor algebra. In mathematics, the tensor algebra of a vector space V, denoted T(V) or T•(V), is the algebra of tensors on V (of any rank) with multiplication being the tensor product.

    • 33:06
  • In this lecture session we learn about Linear algebra is the study of linear combinations. It is the study of vector spaces, lines and planes, and some mappings that are required to perform the linear transformations. It includes vectors, matrices and linear functions.

    • 27:08
  • In this lecture session we learn about Python. It is a very simple programming language so even if you are new to programming, you can learn python without facing any issues. Interesting fact: Python is named after the comedy television show Monty Python’s Flying Circus.

    • 13:55
  • In this tutorial we learn about basic introduction to python programming and also talk about features and functions of python programming in brief.

    • 13:39
  • In this lecture session we learn about Python is a popular programming language. It was created by Guido van Rossum, and released in 1991. It is used for: web development (server-side), software development, mathematics.

    • 11:20
  • In this tutorial we learn about Functions that can be both built-in or user-defined. It helps the program to be concise, non-repetitive, and organized. We can create a Python function using the def keyword. After creating a function we can call it by using the name of the function followed by parenthesis containing parameters of that particular function.

    • 06:46
  • In this tutorial we learn about There are the following advantages of Python functions. Using functions, we can avoid rewriting the same logic/code again and again in a program. We can call Python functions multiple times in a program and anywhere in a program. We can track a large Python program easily when it is divided into multiple functions.

    • 08:40
  • In this tutorial we learn about The purpose is to make your code more manageable and extensible. In-built functions in Python are the in-built codes for direct use. For example, print () function prints the given object to the standard output device (screen) or to the text stream file. In Python 3.6 (latest version), there are 68 built-in functions.

    • 16:32
  • In this lecture session we learn that These operators are used to perform similar operations as that of logical gates; there are 3 types of logical operators in python. Python Operators are the backbone of any operations and functions in the programming context. This has been a guide to Python Operators.

    • 22:12
  • In this lecture session we learn about There are various compound operators in Python like a += 5 that adds to the variable and later assigns the same. It is equivalent to a = a + 5. Python language offers some special types of operators like the identity operator or the membership operator. They are described below with examples. is and is not are the identity operators in Python.

    • 18:39
  • In this lecture session we learn about Functions that can be both built-in or user-defined. It helps the program to be concise, non-repetitive, and organized. We can create a Python function using the def keyword. After creating a function we can call it by using the name of the function followed by parenthesis containing parameters of that particular function.

    • 16:53
  • In this lecture session we learn about When the function is called, we pass along a first name, which is used inside the function to print the full name: Arguments are often shortened to args in Python documentations.

    • 18:40
  • In this tutorial we learn about There are 3 types of arguments that you'll most likely encounter while writing an argumentative essay. These are: 1. Classical Argument The classical or Aristotelian model of argument is the most common type of argument. It was developed by a Greek philosopher and rhetorician, Aristotle.

    • 10:36
  • In this lecture session we learn about Variable type in Python: Data types are the classification or categorization of data items. It represents the kind of value that tells what operations can be performed on a particular data. Since everything is an object in Python programming, data types are actually classes and variables are instances (object) of these classes.

    • 06:37
  • In this lecture session we learn about functions by calling the function with required arguments, without having to worry about how they actually work. There's a whole wealth of built-in functions in Python. In this post, we shall see how we can define and use our own functions.

    • 32:18
  • In this lecture session we learn about how to find the number is prime or not and also talk about more examples of finding prime numbers

    • 20:48
  • In this lecture session we learn about Num function in python programming and also talk about different functions in python in brief.

    • 17:05
  • In this tutorial we learn about Matplotlib is a Python 2D plotting library which produces publication quality figures in a variety of hardcopy formats and interactive environments across platforms. Matplotlib can be used in Python scripts, the Python and IPython shells, the Jupyter notebook, web application servers, and four graphical user interface toolkits.

    • 1:04:09
  • In this tutorial we learn about the points that explain the advantages of NumPy: 1 The core of Numpy is its arrays. ... 2 Numpy supports some specific scientific functions such as linear algebra. ... 3 Numpy supports vectorized operations, like element wise addition and multiplication, computing Kronecker product, etc.

    • 24:43
  • In this lecture session we learn about At the core of the NumPy package, is the ndarray object. This encapsulates n -dimensional arrays of homogeneous data types, with many operations being performed in compiled code for performance. There are several important differences between NumPy arrays and the standard Python sequences.

    • 29:55
  • In this lecture session we learn about The Python library to do the mathematical operations in a flexible manner is called Pandas library. This is an open-source library used in data analysis and also in data manipulation so that data scientists can retrieve information from the data. It has a BSD license, and the number tables are manipulated easily.

    • 15:57
  • In this lecture session we learn about Pandas DataFrame is two-dimensional size-mutable, potentially heterogeneous tabular data structure with labeled axes (rows and columns). A Data frame is a two-dimensional data structure.

    • 05:53
  • In this tutorial we learn about Series is a one-dimensional labeled array capable of holding data of any type (integer, string, float, python objects, etc.). The axis labels are collectively called indexes. A pandas Series can be created using the following constructor.

    • 32:00
  • In this lecture session we learn about Series is a one-dimensional, labeled data structure present in the Pandas library. The axis label is collectively known as index. Series structure can store any type of data such as integer, float, string, python objects, and so on.

    • 20:58
  • In this lecture session we learn about Series is a one-dimensional labeled array capable of holding data of any type (integer, string, float, python objects, etc.). The axis labels are collectively called indexes.

    • 28:10
  • In this tutorial we learn about String is an array of sequenced characters and is written inside single quotes, double quotes or triple quotes. Also, Python doesn’t have character data type, so when we write ‘a’, it is taken as a string with length 1.

    • 15:19
  • In this lecture session we learn about Handling Missing Values in Python In this post, we will discuss: How to check for missing values Different methods to handle missing values Real life data sets often contain missing values. There is no single universally acceptable method to handle missing values.

    • 08:09
  • In this lecture session we learn about The slice() function that returns a slice object. A slice object is used to specify how to slice a sequence. You can specify where to start the slicing, and where to end. You can also specify the step, which allows you to e.g. slice only every other item.

    • 18:57
  • In this lecture session we learn that Python comes with functions that enable creating, opening, closing, reading, and writing files built-in. Opening a file in Python is as simple as using the open () function that is available in every Python version. The function returns a "file object.

    • 14:08
  • In this lecture session we learn about We use the open () function in Python to open a file in read or write mode. As explained above, open () will return a file object. To return a file object we use open () function along with two arguments, that accepts filename and the mode, whether to read or write. So, the syntax being: open (filename, mode).

    • 23:38
  • In this lecture session we learn about Before you can write to or read from a file, you must open the file first. To do this, you can use the open () function that comes built into Python. The function takes two arguments or parameters: one that accepts the file's name and another that saves the access mode. It returns a file object and has the following syntax.

    • 14:48
  • In this lecture session we learn about The Machine Learning process starts with inputting training data into the selected algorithm. Training data being known or unknown data to develop the final Machine Learning algorithm. The type of training data input does impact the algorithm, and that concept will be covered further momentarily.

    • 27:27
  • In this tutorial we learn Machine learning ( ML) is the study of computer algorithms that improve automatically through experience and by the use of data. It is seen as a part of artificial intelligence.

    • 17:31
  • In this lecture session we learn about In machine learning and pattern recognition, a feature is an individual measurable property or characteristic of a phenomenon being observed. Choosing informative, discriminating and independent features is a crucial step for effective algorithms in pattern recognition, classification and regression.

    • 17:36
  • In this lecture session we learn about machine language, the numeric codes for the operations that a particular computer can execute directly. The codes are strings of 0s and 1s, or binary digits(“bits”), which are frequently converted both from and to hexadecimal (base 16) for human viewing and modification.

    • 15:38
  • In this lecture session we learn that machine language is a collection of binary digits or bits that the computer reads and interprets. Machine language is the only language a computer is capable of understanding. The exact machine language for a program or action can differ by operating system.

    • 13:53
  • In this lecture session we learn about Machine language. Machine language, the numeric codes for the operations that a particular computer can execute directly. The codes are strings of 0s and 1s, or binary digits (“bits”), which are frequently converted both from and to hexadecimal (base 16) for human viewing and modification.

    • 11:55
  • In this lecture session we learn about the Machine learning life cycle is a cyclic process to build an efficient machine learning project. The main purpose of the life cycle is to find a solution to the problem or project.

    • 18:51
  • In this lecture we learn about In order to predict, you have to find a function (model) that best describes the dependency between the variables in our dataset. This is called training the model. The training dataset will be a subset of the entire dataset from the pandas data frame df that you created in part two of this series.

    • 23:55
  • In this lecture session we learn about why we need a data set in machine languages and also talk about some features and functions of a data set in machine language.

    • 22:38
  • In this lecture session we learn about Data preprocessing is required for cleaning the data and making it suitable for a machine learning model which also increases the accuracy and efficiency of a machine learning model. It involves the steps below.

    • 29:13
  • In this lecture session we learn about Machine learning (ML) is a subfield of artificial intelligence (AI) that allows computers to learn to perform tasks and improve performance over time without being explicitly programmed.

    • 08:08
  • In this lecture session we learn about 1 Supervised Learning. Supervised learning is when you provide the machine with a lot of training data to perform a specific task. 2 Unsupervised Learning. 3 Reinforcement Learning.

    • 35:11
  • In this lecture session we learn about Supervised Machine Learning is an algorithm that learns from labeled training data to help you predict outcomes for unforeseen data. In Supervised learning, you train the machine using data that is well “labeled.” It means some data is already tagged with correct answers.

    • 15:03
  • In this lecture session we learn about how we determine the type of training and also talk about the importance of types of machine learning language.

    • 16:18
  • In this lecture session we learn about regression analysis that helps one understand how the typical value of the dependent variable (or 'criterion variable') changes when any one of the independent variables is varied, while the other independent variables are held fixed.

    • 13:58
  • In this lecture session we learn about logistic regression is the statistical technique used to predict the relationship between the dependent variable (Y) and the independent variable (X), where the dependent variable is binary in nature. For example, the output can be Success/Failure, 0/1, True/False, or Yes/No.

    • 19:45
  • In this lecture session we learn about regression analyses, the logistic regression is a predictive analysis. Logistic regression is used to describe data and to explain the relationship between one dependent binary variable and one or more nominal, ordinal, interval or ratio-level independent variables.

    • 05:12
  • In this tutorial we learn about how we classify the implementation of machine learning and also talk about some more examples of implementation of machine learning.

    • 31:39
  • In this lecture session we learn about Linear regression is one of the easiest and most popular Machine Learning algorithms. It is a statistical method that is used for predictive analysis. Linear regression makes predictions for continuous/real or numeric variables such as sales, salary, age, product price, etc.

    • 28:19
  • In this lecture session we learn about A feature that is a measurable property of the object you’re trying to analyze. In datasets, features appear as columns: The image above contains a snippet of data from a public dataset with information about passengers on the ill-fated Titanic maiden voyage.

    • 17:36
  • In this lecture session we learn about basic examples of machine learning and also talk about more examples of machine learning.

    • 25:08
  • In this session we learn about developing the model in machine learning and also talk about different models and how we develop it in machine learning.

    • 31:56
  • In this lecture session we learn about how TensorFlow Playground solves this particular problem. On the Playground, click the Play button in the upper left corner. The line between blue and orange data points begins to move slowly. Hit the reset button and click play again a few times to see how the line moves with different initial values.

    • 36:00
  • In this lecture session we learn about A Perceptron is an algorithm for supervised learning of binary classifiers. This algorithm enables neurons to learn and process elements in the training set one at a time.

    • 22:00
  • In this lecture session we learn about Multi-Layer perceptrons, define the most complicated architecture of artificial neural networks and also talk about functions of multilayer perceptrons.

    • 16:45
  • In this lecture session we learn about Single Layer Perceptrons. For understanding single layer perceptrons, it is important to understand Artificial Neural Networks (ANN). Artificial neural networks is the information processing system the mechanism of which is inspired by the functionality of biological neural circuits.

    • 12:00
  • In this lecture session we learn about Artificial Intelligence (AI) Artificial intelligence leverages computers and machines to mimic the problem-solving and decision-making capabilities of the human mind.

    • 19:39
  • In this tutorial we learn about Artificial neural networks. An ANN is based on a collection of connected units or nodes called artificial neurons, which loosely model the neurons in a biological brain. Each connection, like the synapses in a biological brain, can transmit a signal from one artificial neuron to another.

    • 11:20
  • In this tutorial we learn that there are two types of ANN. Such as FeedForward and Feedback. a. FeedForward ANN In this network flow of information is unidirectional.here are two types of ANN. Such as FeedForward and Feedback. a. FeedForward ANN In this network flow of information is unidirectional.

    • 21:55
  • In this lecture session we learn about the structure of the ANN affected by a flow of information. Hence, neural network changes were based on input and output. Basically, we can consider ANN as nonlinear statistical data.

    • 17:10
  • In this lecture session we learn about Artificial neural networks (ANNs) that consist of a node layer, containing an input layer, one or more hidden layers, and an output layer. Each node, or artificial neuron, connects to another and has an associated weight and threshold.

    • 14:25
  • In this tutorial we learn about In order to build a model, it is recommended to have GPU support, or you may use the Google colab notebooks as well. Attention geek! Strengthen your foundations with the Python Programming Foundation Course and learn the basics.

    • 14:07
  • In this tutorial we learn that there are basically two classes- “≤50K” and “>50K. However, we can not leave our target labels in the current string format. This is because TensorFlow does not understand strings as labels.

    • 17:00
  • In this lecture session we learn about The data can be accessed at my GitHub profile in the TensorFlow repository. Here is the link to access the data. My code and Jupyter notebook can be accessed below.

    • 20:00
  • In this lecture session we learn about features of Tensorflow in deep learning and also talk about some functions and importance of Tensorflow in brief.

    • 25:00
  • In this tutorial we learn about The data can be accessed at my GitHub profile in the TensorFlow repository. Here is the link to access the data. My code and Jupyter notebook can be accessed below.

    • 30:25
  • In this lecture session we learn about Linear regression strives to show the relationship between two variables by applying a linear equation to observed data.

    • 37:10
  • In this lecture session we learn about Keras used in prominent organizations like CERN, Yelp, Square or Google, Netflix, and Uber. Theano is a deep learning library developed by the Université de Montréal in 2007. Comparing Theano vs TensorFlow, it offers fast computation and can be run on both CPU and GPU. Theano has been developed to train deep neural network algorithms.

    • 21:30
  • In this lecture session we learn about TensorFlow Object Detection Object detection is a process of discovering real-world object detail in images or videos such as cars or bikes, TVs, flowers, and humans. It allows identification, localization, and identification of multiple objects within an image, giving us a better understanding of an image.

    • 08:10
  • In this tutorial we learn about The super keyword refers to the objects of immediate parent class. Before learning super keywords you must have the knowledge of inheritance in Java so that you can understand the examples given in this guide.

    • 21:00
  • In this tutorial we learn about The Blender is an open source 3D computer graphics software. With the help of Blender, we can do 3D visualizations such as still images, 3D animations, VFX shots, video editing and a lot of more cool stuff.

    • 32:40
  • In this lecture session we learn about features of super keywords and also talk about some functions and importance of super keywords in brief.

    • 18:00
  • In this lecture session we learn about deep learning CNN models to train and test, each input image will pass it through a series of convolution layers with filters (Kernels), Pooling, fully connected layers (FC) and apply Softmax function to classify an object with probabilistic values between 0 and 1.

    • 16:00
  • In this lecture session we learn about machine learning called deep learning, they're likely talking about neural networks. Neural networks are modeled after our brains.

    • 22:10
  • In this lecture session we learn about In deep learning, a convolutional neural network ( CNN/ConvNet) is a class of deep neural networks, most commonly applied to analyze visual imagery.

    • 24:00
  • In this lecture session we learn about An RNN (Recurrent Neural Network) is a type of artificial neural network that can process sequential data, recognize patterns and predict the final output.

    • 13:34
  • In this lecture session we learn about how RNNs can gain more in-depth insight into a sequence and its context from such datasets to derive significant meaning and arrive at an accurate prediction as per the targeted problem at hand.

    • 17:03
  • In this lecture session we learn that the Time series is dependent on the previous time, which means past values include significant information that the network can learn.

    • 29:41
  • In this tutorial we learn about NNs containing recurrent layers that are designed to process sequences of inputs. You can feed in batches of sequences into RNNs and it will output a batch of forecasts after going through a dense layer.

    • 17:28
  • In these lecture sessions we learn about TensorFlow includes a visualization tool, which is called the TensorBoard. It is used for analyzing Data Flow Graph and also used to understand machine-learning models.

    • 11:00
Course Objectives Back to Top

·       Understand how Neural Networks Work

·       Build your own Neural Network from Scratch with Python

·       Use TensorFlow for Classification and Regression Tasks

·       Use TensorFlow for Image Classification with Convolutional Neural Networks

·       Use TensorFlow for Time Series Analysis with Recurrent Neural Networks

·       Use TensorFlow for solving Unsupervised Learning Problems with AutoEncoders

·       Learn how to conduct Reinforcement Learning with OpenAI Gym

·       Create Generative Adversarial Networks with TensorFlow

·       Become a Deep Learning expert

Course Syllabus Back to Top

Deep Learning with TensorFlow - Course Syllabus

Module 1 – Introduction to TensorFlow

HelloWorld with TensorFlow

Linear Regression

Nonlinear Regression

Logistic Regression

Activation Functions

Module 2 – Convolutional Neural Networks (CNN)

CNN History

Understanding CNNs

CNN Application

Module 3 – Recurrent Neural Networks (RNN)

Intro to RNN Model

Long Short-Term memory (LSTM)

Recursive Neural Tensor Network Theory

Recurrent Neural Network Model

Module 4 - Unsupervised Learning

Applications of Unsupervised Learning

Restricted Boltzmann Machine

Collaborative Filtering with RBM

Module 5 - Autoencoders

Introduction to Autoencoders and Applications

Autoencoders

Deep Belief Network

 

Certification Back to Top

The program consists of an assessment exam developed by the TensorFlow team. Developers who pass the exam can join our Certificate Network and display their certificate and badges on their resume, GitHub, and social media platforms including LinkedIn, making it easy to share their level of TensorFlow expertise with the world.

This level one certificate exam tests a developer’s foundational knowledge of integrating machine learning into tools and applications. The certificate program requires an understanding of building TensorFlow models using Computer Vision, Convolutional Neural Networks, Natural Language Processing, and real-world image data and strategies.

 

Career & Jobs Back to Top

The demand for AI skills is so high that companies must also turn to contractors and freelancers to fill the skills gaps in Machine Learning and other AI segments. According to a recent report from freelancer platform Upwork, AI and related fields were prominent with natural language processing the second fastest-growing skill, neural networks fifth, and machine learning sixteenth.

Job Titles:

Machine Learning Senior Engineer

Data Scientist

Computer Vision Engineer

 

 

Interview Questions Back to Top

1) What is TensorFlow?

TensorFlow is a Python-based library which is used for creating machine learning applications. It is a low-level toolkit to perform complex mathematics. It offers users the customizability option to build experimental learning architectures. It also helps the users to work with them, and to turn them into running software. It was initially created by researchers and engineers working on the Google Brain Team, and It became open source in 2015.

TensorFlow is made up of two words Tensor and Flow; a tensor is known as data representation for multi-dimensional array and flow means a series of operations performed on tensors.

2) What do you know about Tensors?

The Tensor is a generalization of vectors or matrices of the n-dimensional array which is used in computer programming. It represents a multitude of data in the form of numbers. There are few other n-dimensional array libraries which are available on the internet such as Numpy, but TensorFlow stands apart from those libraries. It provides methods to create tensor functions and automatically compute derivatives.

A graph can conduct all operations in the Tensor. We can say that the edge of the node is known as Tensor. We need a feature vector as the initial input to implement a Tensor. The models are fed with the list of objects in the machine learning, and these objects are called feature vectors.

 

Here, the arrow represents multi-dimensions. There is a Tensor which is known as stress, and it describes things happening in two directions.

 

3) How many types of Tensors are there?

There are three types of Tensors used to create neural network models:

o   Constant Tensor
Constant Tensors are used as constants, as the name suggests. They create a node that takes a value and does not change it. A constant can be created using tf.constant.
tf.constant(value, dtype=None, shape=None, name='Const', verify_shape=False)
It accepts the five arguments.

o   Variable Tensor
Variable Tensors are the nodes which provide their current value as output. It means that they can retain their value over multiple executions of a graph.

o   Place Holder Tensor
Placeholders Tensors are essential than variables. These are used to assign data in a later time. Placeholders are the nodes whose value is fed at the time of execution. Assume, we have inputs to our network which are dependent on some external data. Also, we do not want our graph to depend on any real value while developing the graph, then Placeholders are useful datatype. We can even build a graph without any data.
Therefore, placeholders do not require any initial value. They only need a datatype (such as float32) and a tensor shape, so the graph still knows what to compute with even though it does not have any stored values.

4) Explain TensorBoard?

TensorBoard is a suite of visualizing tools for inspecting and understanding TensorFlow runs and graphs. It is an easy solution to Tensorflow offered by the creators that let us visualize the graphs. It plots quantitative metrics about the graph with additional data like images to pass through it.TensorBoard currently supports five visualizations techniques such as scalarsimagesaudiohistograms, and graphs. It improves the accuracy and flow of graphs.

5) What is the main feature of TensorFlow?

Tensorflow has APIs support for a wide variety of languages such as Matlab and C++. Researchers are continuously trying to making it better. A javascript library, tensorflow.js, has also been introduced for training and deploying machine learning models.

6) What are the advantages of TensorFlow?

Some of the main advantages of TensorFlow are given below:

o   It can be easily trained on CPU as well as GPU for distributed computing.

o   It has auto differentiation capabilities.

o   It has platform flexibility.

o   It is easily customizable and open-source.

o   It has advanced support for threads, asynchronous computations, and queues.

7) List a few limitations of Tensorflow.

TensorFlow has some limitations, as mentioned here:

o   It does not provide support for OpenCL (Open Computing Language).

o   It requires prior knowledge of advanced calculus and linear algebra along with a pretty good understanding of Machine learning.

o   It has GPU memory conflicts with Theano if imported in the same scope.

8) Which client languages are supported in TensorFlow?

TensorFlow provides support for multiple client languages, one of the best among them is Python. There are some experimental interfaces which are available for C++, Java, and Go. A language bindings for many other languages such as C#JuliaRuby, and Scala are created and supported by the open-source community.

 

9) What are the three working components of TensorFlow Architecture?

TensorFlow architecture works in three parts:

o   Preprocessing the data

o   Building the model

o   Training and estimating the model

10) Explain few options to load data into TensorFlow.

Loading the data into TensorFlow is the first step before training a machine learning algorithm. There are two ways to load the data:

o   Load data in memory
It is the easiest method. All the data is loaded into memory as a single array. One can write a Python code which is unrelated to TensorFlow.

o   Tensorflow data pipeline
TensorFlow has built-in APIs which help to load the data, perform the operations, and feed the machine learning algorithm easily. This method is mostly used when there is a large dataset.

Course Quiz Back to Top
Start Quiz
Q1. What are the payment options?
A1. We have multiple payment options: 1) Book your course on our webiste by clicking on Buy this course button on top right of this course page 2) Pay via Invoice using any credit or debit card 3) Pay to our UK or India bank account 4) If your HR or employer is making the payment, then we can send them an invoice to pay.

Q2. Will I get certificate?
A2. Yes, you will receive course completion certificate from Uplatz confirming that you have completed this course with Uplatz. Once you complete your learning please submit this for to request for your certificate https://training.uplatz.com/certificate-request.php

Q3. How long is the course access?
A3. All our video courses comes with lifetime access. Once you purchase a video course with Uplatz you have lifetime access to the course i.e. forever. You can access your course any time via our website and/or mobile app and learn at your own convenience.

Q4. Are the videos downloadable?
A4. Video courses cannot be downloaded, but you have lifetime access to any video course you purchase on our website. You will be able to play the videos on our our website and mobile app.

Q5. Do you take exam? Do I need to pass exam? How to book exam?
A5. We do not take exam as part of the our training programs whether it is video course or live online class. These courses are professional courses and are offered to upskill and move on in the career ladder. However if there is an associated exam to the subject you are learning with us then you need to contact the relevant examination authority for booking your exam.

Q6. Can I get study material with the course?
A6. The study material might or might not be available for this course. Please note that though we strive to provide you the best materials but we cannot guarantee the exact study material that is mentioned anywhere within the lecture videos. Please submit study material request using the form https://training.uplatz.com/study-material-request.php

Q7. What is your refund policy?
A7. Please refer to our Refund policy mentioned on our website, here is the link to Uplatz refund policy https://training.uplatz.com/refund-and-cancellation-policy.php

Q8. Do you provide any discounts?
A8. We run promotions and discounts from time to time, we suggest you to register on our website so you can receive our emails related to promotions and offers.

Q9. What are overview courses?
A9. Overview courses are 1-2 hours short to help you decide if you want to go for the full course on that particular subject. Uplatz overview courses are either free or minimally charged such as GBP 1 / USD 2 / EUR 2 / INR 100

Q10. What are individual courses?
A10. Individual courses are simply our video courses available on Uplatz website and app across more than 300 technologies. Each course varies in duration from 5 hours uptop 150 hours. Check all our courses here https://training.uplatz.com/online-it-courses.php?search=individual

Q11. What are bundle courses?
A11. Bundle courses offered by Uplatz are combo of 2 or more video courses. We have Bundle up the similar technologies together in Bundles so offer you better value in pricing and give you an enhaced learning experience. Check all Bundle courses here https://training.uplatz.com/online-it-courses.php?search=bundle

Q12. What are Career Path programs?
A12. Career Path programs are our comprehensive learning package of video course. These are combined in a way by keeping in mind the career you would like to aim after doing career path program. Career path programs ranges from 100 hours to 600 hours and covers wide variety of courses for you to become an expert on those technologies. Check all Career Path Programs here https://training.uplatz.com/online-it-courses.php?career_path_courses=done

Q13. What are Learning Path programs?
A13. Learning Path programs are dedicated courses designed by SAP professionals to start and enhance their career in an SAP domain. It covers from basic to advance level of all courses across each business function. These programs are available across SAP finance, SAP Logistics, SAP HR, SAP succcessfactors, SAP Technical, SAP Sales, SAP S/4HANA and many more Check all Learning path here https://training.uplatz.com/online-it-courses.php?learning_path_courses=done

Q14. What are Premium Career tracks?
A14. Premium Career tracks are programs consisting of video courses that lead to skills required by C-suite executives such as CEO, CTO, CFO, and so on. These programs will help you gain knowledge and acumen to become a senior management executive.

Q15. How unlimited subscription works?
A15. Uplatz offers 2 types of unlimited subscription, Monthly and Yearly. Our monthly subscription give you unlimited access to our more than 300 video courses with 6000 hours of learning content. The plan renews each month. Minimum committment is for 1 year, you can cancel anytime after 1 year of enrolment. Our yearly subscription gives you unlimited access to our more than 300 video courses with 6000 hours of learning content. The plan renews every year. Minimum committment is for 1 year, you can cancel the plan anytime after 1 year. Check our monthly and yearly subscription here https://training.uplatz.com/online-it-courses.php?search=subscription

Q16. Do you provide software access with video course?
A16. Software access can be purchased seperately at an additional cost. The cost varies from course to course but is generally in between GBP 20 to GBP 40 per month.

Q17. Does your course guarantee a job?
A17. Our course is designed to provide you with a solid foundation in the subject and equip you with valuable skills. While the course is a significant step toward your career goals, its important to note that the job market can vary, and some positions might require additional certifications or experience. Remember that the job landscape is constantly evolving. We encourage you to continue learning and stay updated on industry trends even after completing the course. Many successful professionals combine formal education with ongoing self-improvement to excel in their careers. We are here to support you in your journey!

Q18. Do you provide placement services?
A18. While our course is designed to provide you with a comprehensive understanding of the subject, we currently do not offer placement services as part of the course package. Our main focus is on delivering high-quality education and equipping you with essential skills in this field. However, we understand that finding job opportunities is a crucial aspect of your career journey. We recommend exploring various avenues to enhance your job search:
a) Career Counseling: Seek guidance from career counselors who can provide personalized advice and help you tailor your job search strategy.
b) Networking: Attend industry events, workshops, and conferences to build connections with professionals in your field. Networking can often lead to job referrals and valuable insights.
c) Online Professional Network: Leverage platforms like LinkedIn, a reputable online professional network, to explore job opportunities that resonate with your skills and interests.
d) Online Job Platforms: Investigate prominent online job platforms in your region and submit applications for suitable positions considering both your prior experience and the newly acquired knowledge. e.g in UK the major job platforms are Reed, Indeed, CV library, Total Jobs, Linkedin.
While we may not offer placement services, we are here to support you in other ways. If you have any questions about the industry, job search strategies, or interview preparation, please dont hesitate to reach out. Remember that taking an active role in your job search process can lead to valuable experiences and opportunities.

Q19. How do I enrol in Uplatz video courses?
A19. To enroll, click on "Buy This Course," You will see this option at the top of the page.
a) Choose your payment method.
b) Stripe for any Credit or debit card from anywhere in the world.
c) PayPal for payments via PayPal account.
d) Choose PayUmoney if you are based in India.
e) Start learning: After payment, your course will be added to your profile in the student dashboard under "Video Courses".

Q20. How do I access my course after payment?
A20. Once you have made the payment on our website, you can access your course by clicking on the "My Courses" option in the main menu or by navigating to your profile, then the student dashboard, and finally selecting "Video Courses".

Q21. Can I get help from a tutor if I have doubts while learning from a video course?
A21. Tutor support is not available for our video course. If you believe you require assistance from a tutor, we recommend considering our live class option. Please contact our team for the most up-to-date availability. The pricing for live classes typically begins at USD 999 and may vary.



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