Anyone help me grow this cute little tree? Let's follow each other to grow our garden. @lensgardennft.lens @hascoin.lens @aliii.lens #LensGardenNFT
The blockchain trilemma model serves as a three-sided scale, representing the tradeoffs between the three properties. A blockchain can be positioned on one of the sides of the triangle, signifying that a network has chosen to prioritize the two neighboring properties and sacrifice the property opposite to them. This creates three broad profiles for blockchain networks:
1. Scalable and decentralized, but not secure: This profile prioritizes scalability and decentralization over security. Examples of networks that fall into this category include Nano, IOTA, and VeChain.
2. Scalable and secure, but not decentralized: This profile prioritizes scalability and security over decentralization. Examples of networks that fall into this category include Post-merge Ethereum, Binance Smart Chain, and Ripple.
3. Secure and decentralized, but not scalable: This profile prioritizes security and decentralization over scalability. Examples of networks that fall into this category include Bitcoin, Pre-merge Ethereum, and Monero.
#lenster #blockchain #ethereum #bitcoin
Vitalik Buterin proposed the Scalability Trilemma, also known as the Blockchain Trilemma, as a theoretical framework for evaluating blockchain networks. This framework highlights the tradeoffs that exist between scalability (speed), security, and decentralization when designing a blockchain network.
In this model, the three corners of the triangle represent the following:
1. Scalability (speed): This refers to a blockchain's capability to handle a high volume of transactions, often measured in Transfers Per Second (TPS).
2. Security: This describes the degree to which the network is resistant to both technical and economic attacks, as well as its ability to function as intended.
3. Decentralization: This pertains to the level of control concentrated in a small number of actors or intermediaries, and is frequently assessed based on the number of nodes within a network, as well as the obstacles to entry for new nodes wishing to join the network.
#lenster #blockchain #vitalik
Web3 Infrastructure Overview that you must know:
1. On-chain ecosystem 2. Off-chain Environment 3. Interoperability layer (“middleware”)
#lenster #blockchain #web3
After you learn & grind knowledge & skills. Don’t forget to Build your Portfolio, Share it!
#lenster
And for those who don’t like to code and prefer the design, you can learn #3D modeling. #Blender #Unity3D #Houdini #Cinema4D are good choices.
Where you can learn it?
This is my top list recommendation:
#lenster #blockchain #cryptocurrency
Now the question is How to Become a Metaverse Developer?
As a Metaverse developer, one needs to have the skills of creating a digital and immersive world that the users can communicate with. Developers need to build such applications and games which could interact with the users with the help of #VR, #AR, and #AI technology.
A Metaverse #Developer would also help find new ways for devices to interact with the users apart from voice and touch. Since the possibilities in the virtual Metaverse world are unlimited, there is a lot that a metaverse developer can do.
I recommend you must gain extensive knowledge on #Blockchain & #Cryptocurrency first. Understanding how this technology works behind the wheels is crucial.
7. Edge Computing & 5G
Users often faced issues with their network while engaging in the metaverse due to slow rendering and data transfer speed due to the unavailability of fast internet speed. However, with the advent of #5G being rolled out and made available at affordable rates, more users can experience the metaverse from their desktops and other devices without facing any issues regarding network speed lag. #EdgeComputing and #5G have enabled users to engage in the metaverse and enjoy a truly immersive experience.