Forwarded from Hamid list
YouTube
ZK Whiteboard Sessions - Module One: What is a SNARK? by Dan Boneh
Full playlist here: https://www.youtube.com/playlist?list=PLj80z0cJm8QErn3akRcqvxUsyXWC81OGq
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In the first Module of our introductory series, we learn about the initial set of building blocks in zero knowledge – a SNARK and how different proving…
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In the first Module of our introductory series, we learn about the initial set of building blocks in zero knowledge – a SNARK and how different proving…
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Crypto Tools
Useful free-to-use tools for everyday, divided into sections:
• Security
• Analytics
• Portfolio
• Trading
• Airdrops
• NFT
• News
• Twitter
• Different
https://twitter.com/splinter0n/status/1666794505398530051?s=20
Useful free-to-use tools for everyday, divided into sections:
• Security
• Analytics
• Portfolio
• Trading
• Airdrops
• NFT
• News
• Different
https://twitter.com/splinter0n/status/1666794505398530051?s=20
X (formerly Twitter)
Splin Teron (@splinter0n) on X
Increase gains!
Save time by using these tools!
Let's explore 🧵👇
Save time by using these tools!
Let's explore 🧵👇
https://github.com/fullstack-development/blockchain-wiki-en
مرجع جامعی از تعارف و توضیحات بلاکچین، smart contract, DeFi, Solidity و ابزارها
مرجع جامعی از تعارف و توضیحات بلاکچین، smart contract, DeFi, Solidity و ابزارها
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Our recent "Review Article" ennoscriptd "NFT-based identity management in metaverses: challenges and opportunities" was published at Springer Nature - Applied Sciences.
🌐 You can find the abstract page via the link below:
https://link.springer.com/article/10.1007/s42452-023-05487-5
AND
🔽 Download from this link:
https://link.springer.com/content/pdf/10.1007/s42452-023-05487-5.pdf?pdf=button
✏ Please cite it as:
Banaeian Far, S., Hosseini Bamakan, S. NFT-based identity management in metaverses: challenges and opportunities. SN Appl. Sci. 5, 260 (2023). https://doi.org/10.1007/s42452-023-05487-5
🌐 You can find the abstract page via the link below:
https://link.springer.com/article/10.1007/s42452-023-05487-5
AND
🔽 Download from this link:
https://link.springer.com/content/pdf/10.1007/s42452-023-05487-5.pdf?pdf=button
✏ Please cite it as:
Banaeian Far, S., Hosseini Bamakan, S. NFT-based identity management in metaverses: challenges and opportunities. SN Appl. Sci. 5, 260 (2023). https://doi.org/10.1007/s42452-023-05487-5
SpringerLink
NFT-based identity management in metaverses: challenges and opportunities
Discover Applied Sciences - A considerable number of people worldwide start their second lives in the digital world soon. The 3D Internet reflects the digital world. Metaverse, the most famous...
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آزمایشگاه بلاکچین نویان
Our recent "Review Article" ennoscriptd "NFT-based identity management in metaverses: challenges and opportunities" was published at Springer Nature - Applied Sciences. 🌐 You can find the abstract page via the link below: https://link.springer.com/article/10.1007/s42452…
مقاله جدید منتشر شد ما، در مورد کاربرد NFT در مدیریت هویت در متاورس
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If you are a Blockchain Developer, then these are the 5 ChatGPT Plugins you must know about:
1. Alchemy
Request real-time blockchain data for chains like Ethereum, Polygon, Arbitrum, and Optimism through natural language.
https://www.alchemy.com/alchemy-ai?utm_source=substack&utm_medium=email
2. Chainstack
Enables natural language interaction with EVM blockchains using Chainstack's infrastructure. https://docs.chainstack.com/docs/chainstack-chat-gpt-plugin-introduction?utm_source=substack&utm_medium=email
3. CheckTheChain
Look for anything on the blockchain and get instant analysis.
https://openworldai.com/plugins/check-the-chain?utm_source=substack&utm_medium=email
4. Mobula
Fetching real-time data for all crypto & blockchain metrics.
https://docs.mobula.fi/?utm_source=substack&utm_medium=email
5. Toolblox
Text to smart contract. Describe a process to generate a smart contract and deploy it to any blockchain.
https://www.toolblox.net/?utm_source=substack&utm_medium=email
🌐 Join us: @NoyanBlockchainLab
1. Alchemy
Request real-time blockchain data for chains like Ethereum, Polygon, Arbitrum, and Optimism through natural language.
https://www.alchemy.com/alchemy-ai?utm_source=substack&utm_medium=email
2. Chainstack
Enables natural language interaction with EVM blockchains using Chainstack's infrastructure. https://docs.chainstack.com/docs/chainstack-chat-gpt-plugin-introduction?utm_source=substack&utm_medium=email
3. CheckTheChain
Look for anything on the blockchain and get instant analysis.
https://openworldai.com/plugins/check-the-chain?utm_source=substack&utm_medium=email
4. Mobula
Fetching real-time data for all crypto & blockchain metrics.
https://docs.mobula.fi/?utm_source=substack&utm_medium=email
5. Toolblox
Text to smart contract. Describe a process to generate a smart contract and deploy it to any blockchain.
https://www.toolblox.net/?utm_source=substack&utm_medium=email
🌐 Join us: @NoyanBlockchainLab
Alchemy
Blockchain for AI Agents | Alchemy
Build AI agents that manage wallets, execute secure transactions, and move assets across every chain.
Tokenization of Assets on the Blockchain
= Authentication
+ Provenance
+ Fractionalization
+ Trading
Tokenization of Assets on the Blockchain is a 4-step process: Authentication, Provenance, Fractionalization, and Trading.
Step 1: Authentication
Authentication ensures the legitimacy of the asset being tokenized.
This involves:
Verification of the Asset: Depending on the asset type, experts ensure its legitimacy e.g. Artwork requires expert validation, while real estate relies on property noscript verifications.
Digital Identity Creation: A unique digital identity for the asset is crafted.
Immutable Recording: The asset's digital identity is permanently stored on the blockchain, ensuring a verifiable authentication trail.
2. Provenance
Provenance is the detailed history of the asset—its origins, previous ownership, significant alterations, and other critical events. For many assets, like artwork or collectibles, provenance adds immense value and is a measure of authenticity and trust.
This involves:
History Documentation: Each significant event or change in the asset's life is documented. For artworks, this might include exhibitions, restorations, or sales.
Integration with Token: The asset's provenance is encoded into the token, ensuring that its entire history is always linked with it.
Immutable Recording: Once recorded on the blockchain, the asset's provenance cannot be altered, ensuring a permanent, tamper-proof record. This offers potential buyers or stakeholders greater trust in the asset's history.
3. Fractionalization
This phase democratizes asset ownership by breaking the asset's value into smaller, purchasable tokens.
This involves:
Dividing the Asset: The asset's total value is fractionalized into individual tokens, each representing a portion of the asset's worth.
Issuance of Tokens: These tokens, each bearing a share of the asset's value and rights, are issued on the blockchain.
Legal and Regulatory Compliance: Ensuring token issuance and management adhere to legal standards is crucial.
4. Trading
Trading boosts the asset's liquidity.
This involves:
Creation of a Marketplace: A platform, be it a decentralized exchange or a bespoke platform, is necessary for trading asset-backed tokens.
Peer-to-Peer Transactions: Direct transactions via blockchain bypass intermediaries, reducing cost and transaction speed.
Price Discovery and Liquidity: The easily traded tokens enable better price discovery and enhanced asset liquidity.
Redemption and Rights Execution: Token holders can exercise their token-associated rights, such as benefiting from dividends or claiming a portion of the physical asset.
Suitable Asset Classes
The Asset Classes best suited for Tokenization are:
Art & Collectibles
Bonds & other Debt instruments
Carbon Credits
Intellectual Property Licenses
Luxury Liquors
Private Equity & Venture Capital
Real Estate
Stressed Assets
🌐 Join us: @NoyanBlockchainLab
= Authentication
+ Provenance
+ Fractionalization
+ Trading
Tokenization of Assets on the Blockchain is a 4-step process: Authentication, Provenance, Fractionalization, and Trading.
Step 1: Authentication
Authentication ensures the legitimacy of the asset being tokenized.
This involves:
Verification of the Asset: Depending on the asset type, experts ensure its legitimacy e.g. Artwork requires expert validation, while real estate relies on property noscript verifications.
Digital Identity Creation: A unique digital identity for the asset is crafted.
Immutable Recording: The asset's digital identity is permanently stored on the blockchain, ensuring a verifiable authentication trail.
2. Provenance
Provenance is the detailed history of the asset—its origins, previous ownership, significant alterations, and other critical events. For many assets, like artwork or collectibles, provenance adds immense value and is a measure of authenticity and trust.
This involves:
History Documentation: Each significant event or change in the asset's life is documented. For artworks, this might include exhibitions, restorations, or sales.
Integration with Token: The asset's provenance is encoded into the token, ensuring that its entire history is always linked with it.
Immutable Recording: Once recorded on the blockchain, the asset's provenance cannot be altered, ensuring a permanent, tamper-proof record. This offers potential buyers or stakeholders greater trust in the asset's history.
3. Fractionalization
This phase democratizes asset ownership by breaking the asset's value into smaller, purchasable tokens.
This involves:
Dividing the Asset: The asset's total value is fractionalized into individual tokens, each representing a portion of the asset's worth.
Issuance of Tokens: These tokens, each bearing a share of the asset's value and rights, are issued on the blockchain.
Legal and Regulatory Compliance: Ensuring token issuance and management adhere to legal standards is crucial.
4. Trading
Trading boosts the asset's liquidity.
This involves:
Creation of a Marketplace: A platform, be it a decentralized exchange or a bespoke platform, is necessary for trading asset-backed tokens.
Peer-to-Peer Transactions: Direct transactions via blockchain bypass intermediaries, reducing cost and transaction speed.
Price Discovery and Liquidity: The easily traded tokens enable better price discovery and enhanced asset liquidity.
Redemption and Rights Execution: Token holders can exercise their token-associated rights, such as benefiting from dividends or claiming a portion of the physical asset.
Suitable Asset Classes
The Asset Classes best suited for Tokenization are:
Art & Collectibles
Bonds & other Debt instruments
Carbon Credits
Intellectual Property Licenses
Luxury Liquors
Private Equity & Venture Capital
Real Estate
Stressed Assets
🌐 Join us: @NoyanBlockchainLab
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a16z Research internship (USA)
Summer 2024
✅ شرکت a16z یکی از بزرگترین VCهای استارتاپ های حوزه فناوری بلاکچین میباشد.
https://a16z.com/about/jobs/?gh_jid=5766443003
🌐 Join us: @NoyanBlockchainLab
Summer 2024
✅ شرکت a16z یکی از بزرگترین VCهای استارتاپ های حوزه فناوری بلاکچین میباشد.
https://a16z.com/about/jobs/?gh_jid=5766443003
🌐 Join us: @NoyanBlockchainLab
🔥3👍1
Blockchain Architect v Blockchain Developer
✅ Core Responsibilities
🎯 Architect: Creates the blueprint.
🎯 Developer: Implements the blueprint.
✅ Vision
🎯 Architect: Overall strategy & design.
🎯 Developer: Technical aspects.
✅ Collaboration
🎯 Architect: Tech teams & business stakeholders.
🎯 Developer: Primarily with tech peers.
✅ Impact on Projects
🎯 Architect: Sets project foundation.
🎯 Developer: Ensures quality and functionality.
✅ Skill Set
🎯 Architect: Blockchain strategy & business sync.
🎯 Developer: Platform expertise & coding.
✅ Handling Risks
🎯 Architect: Spots and wards off system risks.
🎯 Developer: Fixes code-level issues.
✅ Innovation Drive
🎯 Architect: Pioneers blockchain applications.
🎯 Developer: Crafts new features.
✅ Adaptability
🎯 Architect: Refines design with trends.
🎯 Developer: Updates code for today's needs.
✅ Core Responsibilities
🎯 Architect: Creates the blueprint.
🎯 Developer: Implements the blueprint.
✅ Vision
🎯 Architect: Overall strategy & design.
🎯 Developer: Technical aspects.
✅ Collaboration
🎯 Architect: Tech teams & business stakeholders.
🎯 Developer: Primarily with tech peers.
✅ Impact on Projects
🎯 Architect: Sets project foundation.
🎯 Developer: Ensures quality and functionality.
✅ Skill Set
🎯 Architect: Blockchain strategy & business sync.
🎯 Developer: Platform expertise & coding.
✅ Handling Risks
🎯 Architect: Spots and wards off system risks.
🎯 Developer: Fixes code-level issues.
✅ Innovation Drive
🎯 Architect: Pioneers blockchain applications.
🎯 Developer: Crafts new features.
✅ Adaptability
🎯 Architect: Refines design with trends.
🎯 Developer: Updates code for today's needs.
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What is Tokenomics in Blockchain (a.k.a Token Economy) Explained
https://medium.com/@learnwithwhiteboard_digest/what-is-tokenomics-in-blockchain-a-k-a-toke-economy-explained-f83e0c127fec
https://medium.com/@learnwithwhiteboard_digest/what-is-tokenomics-in-blockchain-a-k-a-toke-economy-explained-f83e0c127fec
Medium
What is Tokenomics in Blockchain (a.k.a Token Economy) Explained
Tokenomics 101: Everything You Need To Know
L1 v L2 Blockchains
✅ Primary Function
🎯 Layer 1: Foundation of blockchain networks.
🎯 Layer 2: Built on top of Layer 1 to enhance scalability and efficiency.
✅ Processing Transactions
🎯 Layer 1: Handles transactions natively on the blockchain.
🎯 Layer 2: Processes transactions off the main chain to reduce congestion.
✅ Scalability
🎯 Layer 1: Scalability improvements involve changes to the protocol itself.
🎯 Layer 2: Increases scalability without altering the base layer.
✅ Security
🎯 Layer 1: Security is integral, maintained by the network's consensus mechanism.
🎯 Layer 2: Leverages the security of Layer 1 but requires additional measures to ensure integrity.
✅ Examples
🎯 Layer 1: Bitcoin, Ethereum.
🎯 Layer 2: Lightning Network (for Bitcoin), Optimistic Rollups, zk-Rollups (for Ethereum).
✅ Cost
🎯 Layer 1: Can have high transaction fees due to network congestion.
🎯 Layer 2: Generally offers lower transaction costs by handling transactions off-chain.
✅ Speed
🎯 Layer 1: Transaction speed is limited by the block time and network congestion.
🎯 Layer 2: Provides faster transaction throughput by offloading the work from the main chain.
✅ Development Complexity
🎯 Layer 1: Requires in-depth protocol knowledge and broad consensus to update.
🎯 Layer 2: Developers can innovate more freely, often without needing broad network consensus.
✅ Use Cases
🎯 Layer 1: Ideal for secure, decentralized transactions and settlements.
🎯 Layer 2: Suitable for micropayments, gaming, and quick transfers.
✅ Upgradeability
🎯 Layer 1: Upgrades can be challenging and require network-wide agreement (forks).
🎯 Layer 2: Solutions can be upgraded with less friction and without impacting the underlying blockchain.
✅ User Experience
🎯 Layer 1: May face challenges with slower transaction times and higher fees.
🎯 Layer 2: Often focuses on creating a smoother user experience with fast and cheap transactions.
🌐 Join us: @NoyanBlockchainLab
✅ Primary Function
🎯 Layer 1: Foundation of blockchain networks.
🎯 Layer 2: Built on top of Layer 1 to enhance scalability and efficiency.
✅ Processing Transactions
🎯 Layer 1: Handles transactions natively on the blockchain.
🎯 Layer 2: Processes transactions off the main chain to reduce congestion.
✅ Scalability
🎯 Layer 1: Scalability improvements involve changes to the protocol itself.
🎯 Layer 2: Increases scalability without altering the base layer.
✅ Security
🎯 Layer 1: Security is integral, maintained by the network's consensus mechanism.
🎯 Layer 2: Leverages the security of Layer 1 but requires additional measures to ensure integrity.
✅ Examples
🎯 Layer 1: Bitcoin, Ethereum.
🎯 Layer 2: Lightning Network (for Bitcoin), Optimistic Rollups, zk-Rollups (for Ethereum).
✅ Cost
🎯 Layer 1: Can have high transaction fees due to network congestion.
🎯 Layer 2: Generally offers lower transaction costs by handling transactions off-chain.
✅ Speed
🎯 Layer 1: Transaction speed is limited by the block time and network congestion.
🎯 Layer 2: Provides faster transaction throughput by offloading the work from the main chain.
✅ Development Complexity
🎯 Layer 1: Requires in-depth protocol knowledge and broad consensus to update.
🎯 Layer 2: Developers can innovate more freely, often without needing broad network consensus.
✅ Use Cases
🎯 Layer 1: Ideal for secure, decentralized transactions and settlements.
🎯 Layer 2: Suitable for micropayments, gaming, and quick transfers.
✅ Upgradeability
🎯 Layer 1: Upgrades can be challenging and require network-wide agreement (forks).
🎯 Layer 2: Solutions can be upgraded with less friction and without impacting the underlying blockchain.
✅ User Experience
🎯 Layer 1: May face challenges with slower transaction times and higher fees.
🎯 Layer 2: Often focuses on creating a smoother user experience with fast and cheap transactions.
🌐 Join us: @NoyanBlockchainLab
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