Generative AI Guide: Creating The Future Using The Prowess Of AI

Rapidops, Inc.
6 min readMar 14, 2023


Hey, have you heard the news? Generative AI is taking over the world and is here to stay!

"According to Tractica, the market for AI software, hardware and services is expected to skyrocket from $644 million in 2016 to a whopping $37.3 billion by 2025."

The possibilities are endless for AI, and as technology continues to evolve and take new shapes, it can be challenging for businesses to keep up.

Feeling overwhelmed? Not to worry.

In this guide, we will break down one exciting application of Ai, Generative Ai, with use cases and future projections to help you determine whether to implement it in your business.

So, whether you're a tech enthusiast or simply curious about the future of AI, we're here to keep you up to date on the latest trends and technologies to make your business successful in the digital age.

What is Generative AI?

Generative AI refers to a class of artificial intelligence algorithms designed to generate new content, whether images, text, music or some other type of media.

These algorithms learn patterns and structures from existing data and then use that knowledge to generate new, previously unseen examples similar in style or content to the original data.

These algorithms have been used for many applications, including creating realistic images, writing poetry and fiction, composing music, and generating code.

Generative AI has come a long way in recent years. Here are three fundamental algorithms that have helped shape Generative AI into what it is today:

1. Generative Adversarial Networks (GANs)

GANs are a type of neural network trained to generate new data like a training dataset. They consist of two neural networks: a generator and a discriminator.

The generator creates new data samples while the discriminator evaluates how realistic those generated samples are.

The two networks are trained together, with the generator attempting to fool the discriminator into thinking its generated samples are accurate.

2. Variational Autoencoders (VAEs)

Variational autoencoders (VAEs) are generative models that use neural networks in a specific way.

The neural network has two parts

  • The encoder

The encoder transforms the input data into a latent space that can be used to generate different samples.

  • The decoder

The decoder does the opposite, mapping from the latent space to the input space to create new data points.

These two neural networks are trained together using a technique called the reparameterization trick.

VAEs can produce multiple samples from the same distribution and are helpful in applications such as generating new images or text. The variance of the noise model can be learned separately, and VAEs can be considered a type of probabilistic model.

3. Transformer Networks

Transformer Networks are neural networks designed for working with sequential data, such as natural language.

They use self-attention to allow the network to focus on different parts of the input sequence. This makes them particularly effective for tasks like machine translation, where the network needs to understand the context of the input text.

Intelligent models that Generative AI uses

Generative AI models are built using various technologies and frameworks. Some standard technologies and frameworks include:

1. Deep Learning Frameworks

TensorFlow, PyTorch, and Caffe are popular deep learning frameworks often used to build generative AI models.

They provide pre-built modules and libraries for tasks such as image and video processing, natural language processing, and audio processing, which can be used to build generative models.

2. Markov Chain Monte Carlo (MCMC)

MCMC is a generative model that utilizes statistical methods to generate samples from a probability distribution.

3. Reinforcement Learning

Reinforcement learning algorithms are often used in Generative AI, especially in generative models for games and simulations, as it allows the models to learn from the outcomes of their generated actions and improve over time.

4. Language Models

GPT, BERT, and RoBERTa, are used in various tasks such as text generation, language translation, and question answering.

These are just a few examples of the technologies and frameworks that can be used to build generative AI models.

New technologies and frameworks are constantly being developed to improve the performance and capabilities of generative AI.

Other algorithms for building Generative AI

While GANs, VAEs, and Transformers Networks are crucial for building generative AI, many other algorithms have helped it become more accurate, accredited and accepted by users. Here are a few:

1. Recurrent Neural Networks (RNNs)

RNNs are neural networks well-suited for working with sequential data, such as time series data or natural language. RNNs have a feedback loop that maintains a "memory" of previous inputs.

This makes them useful for tasks like language modelling, where the network can use its memory of last words to generate new text that is coherent and grammatically correct.

2. Convolutional Neural Networks (CNNs)

CNNs are a type of neural network designed to work with image data. CNNs use a series of convolutional layers to extract features from the input image and then use these features to make predictions.

They have been used for many tasks, from image classification to object detection and segmentation.

3. Boltzmann Machines

Boltzmann Machines are a type of neural network that can be used for unsupervised learning tasks.

They work by simulating the behaviour of particles in a physical system and can be used to learn the underlying structure of a dataset without the need for labelled training data.

4. Deep Belief Networks (DBNs)

DBNs are neural networks comprising multiple restricted Boltzmann machines (RBMs) layers. DBNs are a form of unsupervised learning and can be used to learn the underlying structure of a dataset.

5. Restricted Boltzmann Machines (RBMs)

RBMs are a type of neural network that can be used for unsupervised learning tasks. They work by simulating the behaviour of particles in a physical system.

They can be used to learn the underlying structure of a dataset without the need for labelled training data.

6. Neuro Evolution of Augmenting Topologies (NEAT)

NEAT is an algorithm used for evolving neural networks. NEAT works by starting with a small, simple neural network and gradually changing the network over time to improve its performance on a given task.

It has been used to evolve neural networks for a wide range of tasks, from playing video games to controlling robots.

7. Evolutionary Strategies (ES)

ES is a type of optimization algorithm based on natural selection principles. ES works by generating a population of candidate solutions and then using random mutations and selection to evolve the population over time.

What's the difference between AI and Generative AI?

Artificial intelligence will reach human levels by around 2029. Follow that out further to, say, 2045; we will have multiplied our civilization's human biological machine intelligence a billion-fold."

– Ray Kurzweil, Futurist and Inventor

While Generative AI and Artificial Intelligence are widely known, used, and relied on across industries, understanding the differences is crucial in identifying your business needs.

AI (Artificial Intelligence) is a broad field encompassing various technologies and techniques to enable machines to perform tasks that typically require human intelligence, such as recognizing speech or images, making decisions, or translating languages.

On the other hand, generative AI refers to a subfield that focuses on creating new content or data, such as generating images, music, or text, using machine learning algorithms.

The algorithms learn from a set of examples and then use that knowledge to generate new, similar outputs that are not identical to the samples but have the same characteristics.

This is achieved using generative models such as Generative Adversarial Networks (GANs) or Variational Autoencoders (VAEs).

What's the difference between generative AI and generative design?

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Rapidops, Inc.

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