Tumgik
liliesnroses · 11 months
Text
0 notes
liliesnroses · 11 months
Text
0 notes
liliesnroses · 11 months
Text
0 notes
liliesnroses · 1 year
Text
https://www.leewayhertz.com/hire-prompt-engineers/
0 notes
liliesnroses · 1 year
Text
https://www.leewayhertz.com/build-an-app-with-chatgpt/
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
What are the main characteristics of Web3?
The following are Web3's main characteristics:
Ownership Web3 provides people with unprecedented access to their digital assets. Take playing a web2 game as an example. When a player purchases an item in-game, it is immediately connected to his account. If the creators of the game delete his account, he will lose these things. Or if he stops playing the game, the value of the in-game object he bought will be lost.
With Web3, direct ownership is made feasible through non-fungible tokens (NFTs). Nobody has the power to take away players' ownership of the game, not even the game designers. In addition, if a player decides to leave playing, he can sell or trade his in-game items on public marketplaces to recoup his value.
Censorship resistance Web3 stores user information on the blockchain. When someone chooses to leave a platform and plug their reputation into another interface that more accurately represents their values, they could take that reputation with them.
A Web3 development platform has censorship resistance built in, whereas Web 2.0 requires content creators to put their trust in platforms to uphold the same principles.
Decentralized autonomous organizations Web3 users can utilise tokens that act as shares to collectively own the platform in addition to owning their data. Decentralized platform ownership coordination and upcoming platform decision-making are made possible by DAOs.
DAOs work by automating decentralised decision-making over a resource pool with specified smart contracts (tokens). Owners of tokens can vote on how resources are distributed, and the code automatically implements the results of the vote.
Web3 communities, on the other hand, are frequently referred to as DAOs. Each of these groups has varying degrees of decentralisation and coding-based automation.
Digital identity A user often creates an account for each website they visit. He'll have a Twitter account, a Facebook page, and a Reddit account, for example. He must now decide whether to change his display name or profile image.
Absolutely, social sign-ins are used in some situations. But this raises an age-old issue: censorship. With just one click, these platforms might cut off the person's access to his entire online existence. Worse, many platforms require users to trust them with personally identifying information in order to create an account.
By granting individuals authority over their digital identities, Web3 resolves these problems. A single, trustworthy, censorship-resistant, and anonymous login across platforms is made possible by using a blockchain-based address.
Native payments Because Web2's payment method is depending on banks and financial gateways, people without bank accounts cannot use it. By using tokens like SOL or ETH to deliver money directly to the browser, Web3 does away with the necessity for a reliable intermediary.
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
Building a decentralized application on Cardano
Decentralized applications (dApps) are an essential part of the blockchain ecosystem. They are software applications that run on a blockchain network and provide users with secure, decentralized, and transparent access to services and data. Cardano is a third-generation blockchain platform that offers a reliable and secure environment for building decentralized applications. In this article, we will discuss the steps involved in building a decentralized application on the Cardano blockchain.
Step 1: Define the problem and solution
The first step in building a dApp on Cardano is to define the problem you want to solve and the solution you want to offer. You should have a clear understanding of the problem and the target audience to develop an effective solution. It is essential to research the market and competition to ensure that your dApp will be unique and valuable.
Step 2: Choose a use case
Cardano is an ideal platform for building dApps that focus on financial services, supply chain management, identity management, and voting systems. Choose a use case that aligns with your problem and solution and fits within the Cardano ecosystem.
Step 3: Design the architecture
Once you have defined the problem, solution, and use case, you can start designing the architecture of your dApp. The Cardano platform offers a two-layer architecture, the settlement layer, and the computation layer. You need to decide which layer your dApp will reside in, and design the application accordingly.
Step 4: Develop the smart contract
To build a dApp on Cardano, you will need to develop a smart contract using the Plutus programming language. A smart contract is a self-executing program that can automate complex processes and transactions. Plutus is a functional programming language that is designed to be safe, efficient, and easy to use.
Step 5: Test and deploy the smart contract
Once you have developed the smart contract, you need to test it thoroughly to ensure that it works correctly and is secure. You can use the Plutus Playground to test your smart contract in a simulated environment. After testing, you can deploy the smart contract on the Cardano network.
Step 6: Develop the user interface
To interact with your dApp, you need to develop a user interface that is intuitive and easy to use. You can use web technologies like HTML, CSS, and JavaScript to develop the user interface.
Step 7: Launch the dApp
Once you have completed the development and testing, you can launch your dApp on the Cardano network. You can use the Cardano Node and Wallet to deploy and manage your dApp.
In conclusion, building a decentralized application on the Cardano blockchain development requires a solid understanding of the platform's architecture, programming languages, and tools. By following these steps, you can build a secure and reliable dApp that provides value to users while taking advantage of the benefits of the Cardano platform.
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes
liliesnroses · 1 year
Text
0 notes