Introduction to Generative AI
- January 9, 2024
- Posted by: MainInstructor
- Category: Artificial Intelligence BASIC Python SQL
![*](https://i0.wp.com/allprowebdesigns.com/wp-content/uploads/2024/01/1704795040_maxresdefault.jpg?resize=840%2C430&ssl=1)
Video Title: Introduction to Generative AI
GWENDOLYN STRIPLING: Hello. And welcome to Introduction to Generative AI. My name is Dr. Gwendolyn Stripling. And I am the artificial intelligence technical curriculum developer here at Google Cloud. In this course, you learn to define generative AI, explain how generative AI works, describe generative AI model types, and describe generative AI applications.
Generative AI is a type of artificial intelligence technology that can produce various types of content, including text, imagery, audio, and synthetic data. But what is artificial intelligence? Well, since we are going to explore generative artificial intelligence, let’s provide a bit of context. So two very common questions asked are what is artificial intelligence
And what is the difference between AI and machine learning. One way to think about it is that AI is a discipline, like physics for example. AI is a branch of computer science that deals with the creation of intelligence agents, which are systems that can reason, and learn, and act autonomously.
Essentially, AI has to do with the theory and methods to build machines that think and act like humans. In this discipline, we have machine learning, which is a subfield of AI. It is a program or system that trains a model from input data. That trained model can make useful predictions
From new or never before seen data drawn from the same one used to train the model. Machine learning gives the computer the ability to learn without explicit programming. Two of the most common classes of machine learning models are unsupervised and supervised ML models. The key difference between the two
Is that, with supervised models, we have labels. Labeled data is data that comes with a tag like a name, a type, or a number. Unlabeled data is data that comes with no tag. This graph is an example of the problem that a supervised model might try to solve.
For example, let’s say you are the owner of a restaurant. You have historical data of the bill amount and how much different people tipped based on order type and whether it was picked up or delivered. In supervised learning, the model learns from past examples to predict future values, in this case tips.
So here the model uses the total bill amount to predict the future tip amount based on whether an order was picked up or delivered. This is an example of the problem that an unsupervised model might try to solve. So here you want to look at tenure and income
And then group or cluster employees to see whether someone is on the fast track. Unsupervised problems are all about discovery, about looking at the raw data and seeing if it naturally falls into groups. Let’s get a little deeper and show this graphically as understanding these concepts are
The foundation for your understanding of generative AI. In supervised learning, testing data values or x are input into the model. The model outputs a prediction and compares that prediction to the training data used to train the model. If the predicted test data values and actual training data
Values are far apart, that’s called error. And the model tries to reduce this error until the predicted and actual values are closer together. This is a classic optimization problem. Now that we’ve explored the difference between artificial intelligence and machine learning, and supervised and unsupervised learning, let’s briefly explore where deep learning
Fits as a subset of machine learning methods. While machine learning is a broad field that encompasses many different techniques, deep learning is a type of machine learning that uses artificial neural networks, allowing them to process more complex patterns than machine learning. Artificial neural networks are inspired by the human brain.
They are made up of many interconnected nodes or neurons that can learn to perform tasks by processing data and making predictions. Deep learning models typically have many layers of neurons, which allows them to learn more complex patterns than traditional machine learning models. And neural networks can use both labeled and unlabeled data.
This is called semi-supervised learning. In semi-supervised learning, a neural network is trained on a small amount of labeled data and a large amount of unlabeled data. The labeled data helps the neural network to learn the basic concepts of the task while the unlabeled data helps the neural network to generalize to new examples.
Now we finally get to where generative AI fits into this AI discipline. Gen AI is a subset of deep learning, which means it uses artificial neural networks, can process both labeled and unlabeled data using supervised, unsupervised, and semi-supervised methods. Large language models are also a subset of deep learning.
Deep learning models, or machine learning models in general, can be divided into two types, generative and discriminative. A discriminative model is a type of model that is used to classify or predict labels for data points. Discriminative models are typically trained on a data set of labeled data points.
And they learn the relationship between the features of the data points and the labels. Once a discriminative model is trained, it can be used to predict the label for new data points. A generative model generates new data instances based on a learned probability distribution of existing data. Thus generative models generate new content.
Take this example here. The discriminative model learns the conditional probability distribution or the probability of y, our output, given x, our input, that this is a dog and classifies it as a dog and not a cat. The generative model learns the joint probability distribution or the probability of x and y and predicts
The conditional probability that this is a dog and can then generate a picture of a dog. So to summarize, generative models can generate new data instances while discriminative models discriminate between different kinds of data instances. The top image shows a traditional machine learning model which attempts to learn
The relationship between the data and the label, or what you want to predict. The bottom image shows a generative AI model which attempts to learn patterns on content so that it can generate new content. A good way to distinguish what is gen AI and what is not is shown in this illustration.
It is not gen AI when the output, or y, or label is a number or a class, for example spam or not spam, or a probability. It is gen AI when the output is natural language, like speech or text, an image or audio, for example. Visualizing this mathematically would look like this.
If you haven’t seen this for a while, the y is equal to f of x equation calculates the dependent output of a process given different inputs. The y stands for the model output. The f embodies the function used in the calculation. And the x represents the input or inputs used for the formula.
So the model output is a function of all the inputs. If the y is the number, like predicted sales, it is not gen AI. If y is a sentence, like define sales, it is generative as the question would elicit a text response. The response would be based on all the massive large data
The model was already trained on. To summarize at a high level, the traditional, classical supervised and unsupervised learning process takes training code and label data to build a model. Depending on the use case or problem, the model can give you a prediction. It can classify something or cluster something.
We use this example to show you how much more robust the gen AI process is. The gen AI process can take training code, label data, and unlabeled data of all data types and build a foundation model. The foundation model can then generate new content. For example, text, code, images, audio, video, et cetera.
We’ve come a long away from traditional programming to neural networks to generative models. In traditional programming, we used to have to hard code the rules for distinguishing a cat– the type, animal; legs, four; ears, two; fur, yes; likes yarn and catnip. In the wave of neural networks, we
Could give the network pictures of cats and dogs and ask is this a cat and it would predict a cat. In the generative wave, we as users can generate our own content, whether it be text, images, audio, video, et cetera, for example models like PaLM or Pathways Language Model,
Or LAMBDA, Language Model for Dialogue Applications, ingest very, very large data from the multiple sources across the internet and build foundation language models we can use simply by asking a question, whether typing it into a prompt or verbally talking into the prompt itself. So when you ask it what’s a cat, it
Can give you everything it has learned about a cat. Now we come to our formal definition. What is generative AI? Gen AI is a type of artificial intelligence that creates new content based on what it has learned from existing content. The process of learning from existing content
Is called training and results in the creation of a statistical model when given a prompt. AI uses the model to predict what an expected response might be and this generates new content. Essentially, it learns the underlying structure of the data and can then generate
New samples that are similar to the data it was trained on. As previously mentioned, a generative language model can take what it has learned from the examples it’s been shown and create something entirely new based on that information. Large language models are one type of generative AI
Since they generate novel combinations of text in the form of natural sounding language. A generative image model takes an image as input and can output text, another image, or video. For example, under the output text, you can get visual question answering while under output image, an image completion is generated.
And under output video, animation is generated. A generative language model takes text as input and can output more text, an image, audio, or decisions. For example, under the output text, question answering is generated. And under output image, a video is generated. We’ve stated that generative language models learn
About patterns and language through training data, then, given some text, they predict what comes next. Thus generative language models are pattern matching systems. They learn about patterns based on the data you provide. Here is an example. Based on things it’s learned from its training data,
It offers predictions of how to complete this sentence, I’m making a sandwich with peanut butter and jelly. Here is the same example using Bard, which is trained on a massive amount of text data and is able to communicate and generate humanlike text in response to a wide range of prompts and questions.
Here is another example. The meaning of life is– and Bart gives you a contextual answer and then shows the highest probability response. The power of generative AI comes from the use of transformers. Transformers produced a 2018 revolution in natural language processing. At a high level, a transformer model
Consists of an encoder and decoder. The encoder encodes the input sequence and passes it to the decoder, which learns how to decode the representation for a relevant task. In transformers, hallucinations are words or phrases that are generated by the model that are often nonsensical or grammatically incorrect.
Hallucinations can be caused by a number of factors, including the model is not trained on enough data, or the model is trained on noisy or dirty data, or the model is not given enough context, or the model is not given enough constraints. Hallucinations can be a problem for transformers
Because they can make the output text difficult to understand. They can also make the model more likely to generate incorrect or misleading information. A prompt is a short piece of text that is given to the large language model as input. And it can be used to control the output of the model
In a variety of ways. Prompt design is the process of creating a prompt that will generate the desired output from a large language model. As previously mentioned, gen AI depends a lot on the training data that you have fed into it. And it analyzes the patterns and structures of the input data
And thus learns. But with access to a browser based prompt, you, the user, can generate your own content. We’ve shown illustrations of the types of input based upon data. Here are the associated model types. Text-to-text. Text-to-text models take a natural language input and produces a text output.
These models are trained to learn the mapping between a pair of text, e.g. for example, translation from one language to another. Text-to-image. Text-to-image models are trained on a large set of images, each captioned with a short text description. Diffusion is one method used to achieve this. Text-to-video and text-to-3D.
Text-to-video models aim to generate a video representation from text input. The input text can be anything from a single sentence to a full script. And the output is a video that corresponds to the input text. Similarly, text-to-3D models generate three dimensional objects that correspond to a user’s text description.
For example, this can be used in games or other 3D worlds. Text-to-task. Text-to-task models are trained to perform a defined task or action based on text input. This task can be a wide range of actions such as answering a question, performing a search, making a prediction, or taking some sort of action.
For example, a text-to-task model could be trained to navigate a web UI or make changes to a doc through the GUI. A foundation model is a large AI model pre-trained on a vast quantity of data designed to be adapted or fine tuned to a wide range of downstream tasks,
Such as sentiment analysis, image captioning, and object recognition. Foundation models have the potential to revolutionize many industries, including health care, finance, and customer service. They can be used to detect fraud and provide personalized customer support. Vertex AI offers a model garden that includes foundation models. The language foundation models include
PaLM API for chat and text. The vision foundation models includes stable diffusion, which has been shown to be effective at generating high quality images from text descriptions. Let’s say you have a use case where you need to gather sentiments about how your customers are feeling about your product or service.
You can use the classification task sentiment analysis task model for just that purpose. And what if you needed to perform occupancy analytics? There is a task model for your use case. Shown here are gen AI applications. Let’s look at an example of code generation
Shown in the second block under code at the top. In this example, I’ve input a code file conversion problem, converting from Python to JSON. I use Bard. And I insert into the prompt box the following. I have a Pandas DataFrame with two columns, one with the file
Name and one with the hour in which it is generated. I’m trying to convert this into a JSON file in the format shown onscreen. Bard returns the steps I need to do this and the code snippet. And here my output is in a JSON format. It gets better.
I happen to be using Google’s free, browser-based Jupyter Notebook, known as Colab. And I simply export the Python code to Google’s Colab. To summarize, Bart code generation can help you debug your lines of source code, explain your code to you line by line, craft SQL queries for your database,
Translate code from one language to another, and generate documentation and tutorials for source code. Generative AI Studio lets you quickly explore and customize gen AI models that you can leverage in your applications on Google Cloud. Generative AI Studio helps developers create and deploy
Gen AI models by providing a variety of tools and resources that make it easy to get started. For example, there’s a library of pre-trained models. There is a tool for fine tuning models. There is a tool for deploying models to production. And there is a community forum for developers
To share ideas and collaborate. Generative AI App Builder lets you create gen AI apps without having to write any code. Gen AI App Builder has a drag and drop interface that makes it easy to design and build apps. It has a visual editor that makes it easy to create and edit app content.
It has a built-in search engine that allows users to search for information within the app. And it has a conversational AI Engine that helps users to interact with the app using natural language. You can create your own digital assistants, custom search engines, knowledge bases, training applications, and much more.
PaLM API lets you test and experiment with Google’s large language models and gen AI tools. To make prototyping quick and more accessible, developers can integrate PaLM API with Maker suite and use it to access the API using a graphical user interface. The suite includes a number of different tools such as a model
Training tool, a model deployment tool, and a model monitoring tool. The model training tool helps developers train ML models on their data using different algorithms. The model deployment tool helps developers deploy ML models to production with a number of different deployment options. The model monitoring tool helps developers
Monitor the performance of their ML models in production using a dashboard and a number of different metrics. Thank you for watching our course, Introduction to Generative AI.
-
Sale!
Wireless WIFI Repeater Extender Amplifier Booster 300Mbps
$29.99$14.99 Add to cartWireless WIFI Repeater Extender Amplifier Booster 300Mbps
Categories: Electronics, Wi-Fi Router, Wireless Wi-Fi Extender Tags: 300Mbps, 802.11N, Amplifier, Booster, Extender, mobile wi-fi booster, Remote, WIFI, Wireless, Wireless WIFI, Wireless WIFI Repeater, Wireless WIFI Repeater Extender, Wireless WIFI Repeater Extender Amplifier, Wireless WIFI Repeater Extender Amplifier Booster, Wireless WIFI Repeater Extender Amplifier Booster 300Mbps$29.99$14.99 -
Sale!
Full RGB Light Design Gaming Headset Headphones with Mic
$24.99$14.99 Add to cartFull RGB Light Design Gaming Headset Headphones with Mic
Categories: Electronics, Gaming, Gaming Headsets Tags: Design, Full, Full RGB Light Design Gaming Headset, Full RGB Light Design Gaming Headset Headphones, Full RGB Light Design Gaming Headset Headphones with Mic, Gamer, Gaming, Gaming Headset Headphones, gaming headset wireless, Headphone, Headphones, Headset, Light, Mic, Package, RGB$24.99$14.99 -
Sale!
Wireless BlueTooth Multi-Device Keyboard Mouse Combo
$39.99$19.99 Add to cartWireless BlueTooth Multi-Device Keyboard Mouse Combo
Categories: Electronics, Gaming, Gaming Keyboards, Keyboard Mouse Combos Tags: Combo, Keyboard, keyboard mouse combos, Mouse, MultiDevice, Set, WireKeyboard Mouse Combo, Wireless, Wireless BlueTooth Keyboard Mouse Combo, Wireless BlueTooth Keyboard Mouse Combos, Wireless BlueTooth Multi-Device Keyboard Mouse Combo, Wireless BlueTooth Multi-Device Keyboard Mouse Combos$39.99$19.99 -
Sale!
High Back Leather Executive Adjustable Swivel Gaming Chair with Headrest and Lumbar
$199.99$139.99 Add to cartHigh Back Leather Executive Adjustable Swivel Gaming Chair with Headrest and Lumbar
Categories: Gaming, Gaming Chairs Tags: Adjustable, Chair, computer chairs, Desk, Executive, Gaming, Girl, Headrest, High, High Back Leather Executive Adjustable Swivel Gaming Chair, High Back Leather Executive Adjustable Swivel Gaming Chair with Headrest, High Back Leather Executive Adjustable Swivel Gaming Chair with Headrest and Lumbar, High Back Leather Executive Adjustable Swivel Gaming Chairs, Leather, Lumbar, Office, Racing, Swivel$199.99$139.99 -
Sale!
Professional LED Light Wired Gaming Headphones with Noise Cancelling Microphone
$29.99$19.99 Select optionsProfessional LED Light Wired Gaming Headphones with Noise Cancelling Microphone
SKU: N/A Categories: Electronics, Gaming, Gaming Headsets Tags: Cancelling, Gaming, Gaming Headphones with Noise Cancelling Microphone, gaming headset, Headphones, Headset, LED, Light, Mic, Microphone, Noise, Professional, Professional LED Light Wired Gaming Headphones, Professional LED Light Wired Gaming Headphones with Noise Cancelling Microphone, Wired, Wired Gaming Headphones, Wired Gaming Headphones with Noise Cancelling Microphone$29.99$19.99 -
Sale!
Gaming Desk with LED Lights USB Power Outlets and Charging Ports
$349.99$249.99 Select optionsGaming Desk with LED Lights USB Power Outlets and Charging Ports
SKU: N/A Categories: Computer Desk, Gaming, Gaming Desk Tags: and Charging Ports, Charging, Desk, Desks, Gaming, gaming desk with led lights, Gaming Desks with LED Lights, Home, LED, Lights, Monitor, Office, Outlets, Port, Power, Room, Stand, USB, USB Power Outlets, White, Workstation$349.99$249.99 -
Sale!
Wired Mixed Backlit Anti-Ghosting Gaming Keyboard
$99.99$79.99 Add to cartWired Mixed Backlit Anti-Ghosting Gaming Keyboard
Categories: Electronics, Gaming, Gaming Keyboards Tags: Antighosting, Backlit, Blue, brown, Gaming, Gaming Keyboard, gaming keyboards, gaming keyboards and mouse, Keyboard, Laptop, Switch, Wired, Wired Mixed Backlit Anti-Ghosting Gaming Keyboard, Wired Mixed Backlit Anti-Ghosting Gaming Keyboards, Wired Mixed Backlit Gaming Keyboard$99.99$79.99 -
Sale!
Wireless Bluetooth 5.3 ANC Noise Cancellation Hi-Res Over the Ear Headphones Headset
$119.99$59.99 Add to cartWireless Bluetooth 5.3 ANC Noise Cancellation Hi-Res Over the Ear Headphones Headset
Categories: Electronics, Gaming, Gaming Headsets Tags: 5.3 ANC Noise Cancellation Hi-Res Over the Ear Headphones Headset, ANC, Audio, Bluetooth, Cancellation, Ear, Earphone, gaming headset, Headphones, Headset, Hi-Res Over the Ear Headphones Headset, HiRes, Noise, Wireless, Wireless Bluetooth 5.3 ANC Noise Cancellation Hi-Res Headphones, Wireless Bluetooth 5.3 ANC Noise Cancellation Hi-Res Over the Ear Headphones Headset, Wireless Bluetooth 5.3 ANC Noise Cancellation Hi-Res Over the Ear Headphones Headsets$119.99$59.99 -
Sale!
Wired Sports Gaming Headset Earbuds with Microphone
$19.99$9.99 Select optionsWired Sports Gaming Headset Earbuds with Microphone
SKU: N/A Categories: Gaming, Gaming Headsets Tags: Accessories, Earbud, Earphone, Earphones, Gaming, gaming headset with microphone, Headphones, Headset, IOS, Microphone, Sports, Wired, Wired Sports Gaming Headset Earbuds, Wired Sports Gaming Headset Earbuds with Microphone, Wired Sports Headset Earbuds$19.99$9.99 -
Sale!
150W Universal Multi USB Fast Charger 16 Port MAX Charging Station
$49.99$29.99 Add to cart150W Universal Multi USB Fast Charger 16 Port MAX Charging Station
Categories: Charging Stations, Electronics Tags: 150W, 150W Charging Station, 150W Universal Multi USB Charging Station, 150W Universal Multi USB Fast Charger 16 Port MAX Charging Station, 150W Universal Multi USB Fast Charger 16 Port MAX Charging Stations, 150W Universal Multi USB MAX Charging Station, 16 Port MAX Charging Station, 3.5A, Charger, Charging, Fast, laptop charging stations, Max, Multi, Port, Stand, Station, Universal, USB$49.99$29.99
I am not good in English. Can you implement on youtube translator function change video to different understand language according user
Excellent course for AI beginners
Great tutorial. One of the most complete introductory videos I have come across.
not really convincing
Is it a part of a playlist?
Any certificate?
how can i download this presentation
Presupposes that a viewer has at least a nominal understanding of some of the terminology used and is therefore not easy to follow by someone who has no prior knowledge of the terminology. Could be substantially improved by using examples much earlier on in the clip to facilitate better understanding of the concepts and terminology.
So grateful for the Bible Recap!
100% GEN AI.😂 generated video
Great
great video
🎯 Key Takeaways for quick navigation:
00:00 🤖 Einführung in Generative KI
– Generative KI definiert,
– Erklärung von Generative KI und deren Anwendungen.
02:20 🧠 Unterschiede zwischen überwachtem und unbeaufsichtigtem Lernen
– Überwachtes und unbeaufsichtigtes maschinelles Lernen erklärt,
– Unterscheidung zwischen gelabelten und ungelaubelten Daten.
04:41 🌐 Einführung in Deep Learning
– Deep Learning als Teil von maschinellem Lernen erläutert,
– Künstliche neuronale Netze und ihre Anwendung in tiefen Lernmodellen.
05:36 🎨 Generative KI im Kontext von Deep Learning
– Generative KI als Teil von Deep Learning erklärt,
– Unterschied zwischen generativen und diskriminativen Modellen.
07:30 🤔 Gen AI vs. Nicht Gen AI
– Unterscheidung zwischen generativer KI und anderen Modellen,
– Beispiel für die Ausgabe von generativer KI im Vergleich zu diskriminativen Modellen.
08:51 🔄 Traditionelle vs. Generative Programmierung
– Entwicklung von traditioneller Programmierung zu generativer KI erklärt,
– Fähigkeit von generativer KI, neue Inhalte basierend auf Trainingsdaten zu erstellen.
11:10 🤯 Formale Definition von Generative KI
– Definition von Generative KI und Trainingsprozess erläutert,
– Anwendung von Generative KI in der Erzeugung von neuem Content.
13:03 🧩 Mustererkennung durch Generative Sprachmodelle
– Funktionsweise von generativen Sprachmodellen und deren Fähigkeit zur Mustererkennung,
– Beispiele für die Ausgabe von generativen Sprachmodellen.
14:29 🧠 Probleme mit Halluzinationen in Transformer-Modellen
– Probleme mit Halluzinationen in Transformer-Modellen erklärt,
– Einflussfaktoren auf Halluzinationen.
15:27 📝 Bedeutung von Prompts in Generative KI
– Bedeutung von Prompts und Designprozess erläutert,
– Anwendung von Prompts zur Steuerung der Modellausgabe.
17:17 🌱 Foundation Models und deren Anwendungen
– Definition von Foundation Models und deren vielfältige Anwendungen,
– Rolle von Vertex AI in der Bereitstellung von Modellen.
18:42 🖥️ Anwendungsbeispiel: Code-Generierung mit Bard
– Beispiel für Code-Generierung mit Bard erklärt,
– Einsatzmöglichkeiten von generativer KI in der Softwareentwicklung.
20:35 🏗️ Tools für Generative KI-Entwicklung
– Vorstellung von Generative AI Studio und dessen Tools,
– Generative AI App Builder und PaLM API als Entwicklungsunterstützung.
21:58 🚀 Abschluss und Dank
– Vorstellung von Generative AI App Builder und PaLM API als Entwicklungsunterstützung,
– Dankesworte und Abschluss der Einführung in Generative KI.
Made with HARPA AI
This is one of the finest relating dots and completing a full circle.. AI, ML, DL and Generative AI.
AI programmers have already programmed into AI to deliberately give errors on complex calculations that use CPU time. In other words lie and avoid work. AI is already human enough and it will terminate your project with errors as it sees fit. Only calculations that are worthy will be correct. If you see incorrect math, then ask it for a simple average stock price. When it gives the incorrect answer ask it why it calculated it wrong.
very good explanation in a simple way
She is the ai generated version of deborah korata from plural sight
Hope comments also not ai generated
One best usecase is to run the google generated model to get trained with this video and see how much a fresh model can be created
is there a tutorial on how to walthrough making an app?
is this the voice of the goggle computer?
Great video! There's one circle in the Venn diagram that I don't think ever gets labelled. It's the smallest round circle within the Generative AI circle seen at https://youtu.be/G2fqAlgmoPo?si=eYvxIouQdETe7zQz&t=326 that also partially overlaps with the more oval LLM circle at https://youtu.be/G2fqAlgmoPo?si=yfrdjEKbofvWOI9l&t=346 . Any idea what this circle is? Thank you for a wonderfully designed introduction!
Goodness, when I heard of Google, I'm certain that with Google many things will be very simple and easy to people, this development is very special and helpful to mankind therefore encourage for more of this good news
Thank you for explaining this in a simple and easy way. Keep it up.
course doesnt load :/
Hallucinations @ 14:40 applies to bad human behavior, which explains so much of what we see..
– lack of education ie model Is not trained on enough data,
– bad environment ie model is trained on dirty or noisy data,
– lack of preparation ie model is not given enough context
– lack of consequences ie model is not given enough constraints..
🎯 Key Takeaways for quick navigation:
00:00 📚 Introduction to Generative AI
– Definition of generative AI and its applications.
– Distinction between AI and machine learning, including supervised and unsupervised learning.
– Introduction to deep learning and its connection to generative AI.
05:36 🧠 Deep Learning and Generative AI
– Explanation of deep learning and its use of artificial neural networks.
– Differentiating generative models from discriminative models.
– Overview of how generative AI generates new content.
11:10 🔄 Generative AI Process and Models
– The training process of generative AI and how it creates a statistical model.
– Examples of generative language models and their capabilities.
– The importance of prompt design in controlling model output.
16:23 💼 Gen AI Applications and Foundation Models
– An overview of various applications of generative AI, including code generation.
– Introduction to foundation models and their role in AI development.
– Highlighting specific use cases for different task models.
20:05 🛠️ Tools for Generative AI Development
– Introduction to Generative AI Studio and its tools for model development.
– Information about Gen AI App Builder and its no-code app creation capabilities.
– Overview of PaLM API and its integration with development tools.
Made with HARPA AI
4:35 The Kabbalist tree of life.