🔥 nostr:nevent1qqsqla6t6cajgjxgr3g6javv3tfp3ulmzg7kxfsu286qn9thh8sj8gqpzamhxue69uhhyetvv9ujuurjd9kkzmpwdejhgtczyp489kuw70emnmj7ekqga4ksvvw3unw6t3w6murcsugy6vu406aysqcyqqqqqqg9zt7dn

🔥 nostr:nevent1qqsqla6t6cajgjxgr3g6javv3tfp3ulmzg7kxfsu286qn9thh8sj8gqpzamhxue69uhhyetvv9ujuurjd9kkzmpwdejhgtczyp489kuw70emnmj7ekqga4ksvvw3unw6t3w6murcsugy6vu406aysqcyqqqqqqg9zt7dn

🔥 nostr:nevent1qqsqla6t6cajgjxgr3g6javv3tfp3ulmzg7kxfsu286qn9thh8sj8gqpzamhxue69uhhyetvv9ujuurjd9kkzmpwdejhgtczyp489kuw70emnmj7ekqga4ksvvw3unw6t3w6murcsugy6vu406aysqcyqqqqqqg9zt7dn

Is this crazy or genius? Cool anyway! nostr:nevent1qvzqqqqqqypzpk4kccr9csumnwhmpv83ladqc6p88089cx2e5s2c4448ppgl2pakqqsvxuhasyq4f4qkada7ydgp47d2vqp24p2yxqekm754ktgqfdkkcactgs7lw

Is this crazy or genius? Cool anyway! nostr:nevent1qvzqqqqqqypzpk4kccr9csumnwhmpv83ladqc6p88089cx2e5s2c4448ppgl2pakqqsvxuhasyq4f4qkada7ydgp47d2vqp24p2yxqekm754ktgqfdkkcactgs7lw

Is this crazy or genius? Cool anyway! nostr:nevent1qvzqqqqqqypzpk4kccr9csumnwhmpv83ladqc6p88089cx2e5s2c4448ppgl2pakqqsvxuhasyq4f4qkada7ydgp47d2vqp24p2yxqekm754ktgqfdkkcactgs7lw

Please let me know if you need any help with npub.pro

Please let me know if you need any help with npub.pro

Please let me know if you need any help with npub.pro

Die Grundwerte von #Bitcoin sind in Stein 🪨 gemeißelt‼️ 🧡 Tick Tock Next Block! 🧡 #BTC 💪🏻😊👍🏻 #Bitcoin

Die Grundwerte von #Bitcoin sind in Stein 🪨 gemeißelt‼️ 🧡 Tick Tock Next Block! 🧡 #BTC 💪🏻😊👍🏻 #Bitcoin

Die Grundwerte von #Bitcoin sind in Stein 🪨 gemeißelt‼️ 🧡 Tick Tock Next Block! 🧡 #BTC 💪🏻😊👍🏻 #Bitcoin

Die Grundwerte von #Bitcoin sind in Stein 🪨 gemeißelt‼️ 🧡 Tick Tock Next Block! 🧡 #BTC 💪🏻😊👍🏻 #Bitcoin

Fantastic writeup of the case by the law firm Bird & Bird who represented COPA in the trial against Craig Wright https://www.twobirds.com/en/insights/2024/global/a-different-way-to-defraud-the-lessons-from-the-trial-of-bitcoins-origins

Fantastic writeup of the case by the law firm Bird & Bird who represented COPA in the trial against Craig Wright https://www.twobirds.com/en/insights/2024/global/a-different-way-to-defraud-the-lessons-from-the-trial-of-bitcoins-origins

Fantastic writeup of the case by the law firm Bird & Bird who represented COPA in the trial against Craig Wright https://www.twobirds.com/en/insights/2024/global/a-different-way-to-defraud-the-lessons-from-the-trial-of-bitcoins-origins

Is it possible to implement bitcoin protocol in erlang would ther be any benefits ? #AskGPT #Erlang #Bitcoin Yes, it is possible to implement the Bitcoin protocol in Erlang, and there could be several benefits to doing so, given Erlang's unique properties. Erlang is designed for building scalable, fault-tolerant, and distributed systems, which aligns well with the requirements of the Bitcoin protocol. Benefits of Implementing Bitcoin in Erlang: 1. Concurrency Model: Erlang's lightweight process model allows for massive concurrency, which is ideal for handling many peer-to-peer (P2P) connections in the Bitcoin network. This could improve node scalability when dealing with multiple transactions and block propagation. 2. Fault Tolerance: Erlang was designed with fault tolerance in mind, using the "let it crash" philosophy. Bitcoin nodes need to be resilient against various failures like network issues, disk failures, or unexpected crashes. Erlang’s supervisor trees and recovery mechanisms can help in creating more reliable Bitcoin nodes. 3. Distributed Computing: Bitcoin relies on a distributed network of nodes to validate and propagate transactions. Erlang is optimized for distributed systems, making it easier to handle the communication and state synchronization between nodes. 4. Hot Code Upgrades: One of Erlang's strengths is its ability to perform hot code upgrades, allowing a Bitcoin node to update without stopping. This can be particularly useful for applying protocol updates, patches, or performance improvements without interrupting the node’s operation. 5. Soft Real-Time: Bitcoin’s mining process and transaction validation can benefit from soft real-time guarantees to meet latency and response time requirements. Erlang's ability to handle soft real-time systems could improve transaction throughput and node responsiveness. 6. Scalability: Erlang is designed for distributed systems that need to scale horizontally. A Bitcoin node implemented in Erlang could potentially scale more effectively across multiple machines, making it easier to handle higher transaction volumes as the network grows. Drawbacks and Challenges: Performance: Erlang is not as fast as lower-level languages like C++ or Rust, which are traditionally used for Bitcoin implementations. Some performance-critical parts, like cryptographic operations, would likely need to be offloaded to external libraries for efficiency. Existing Ecosystem: Most of the Bitcoin ecosystem is based around existing implementations like Bitcoin Core (written in C++), so adopting Erlang would require building or adapting many tools from scratch, which could slow down adoption. Community and Maintenance: The Bitcoin Core community is large and has many contributors. Moving to Erlang would mean fewer developers familiar with the language, potentially creating maintenance challenges unless you build a strong community around it. Given these considerations, implementing Bitcoin in Erlang would provide significant advantages in reliability, scalability, and distributed handling, but it might require some trade-offs in terms of performance and ecosystem support.

Peter Todd é Satoshi Nakamoto! Pelo menos para HBO #BTC #Bitcoin #HBO

Is it possible to implement bitcoin protocol in erlang would ther be any benefits ? #AskGPT #Erlang #Bitcoin Yes, it is possible to implement the Bitcoin protocol in Erlang, and there could be several benefits to doing so, given Erlang's unique properties. Erlang is designed for building scalable, fault-tolerant, and distributed systems, which aligns well with the requirements of the Bitcoin protocol. Benefits of Implementing Bitcoin in Erlang: 1. Concurrency Model: Erlang's lightweight process model allows for massive concurrency, which is ideal for handling many peer-to-peer (P2P) connections in the Bitcoin network. This could improve node scalability when dealing with multiple transactions and block propagation. 2. Fault Tolerance: Erlang was designed with fault tolerance in mind, using the "let it crash" philosophy. Bitcoin nodes need to be resilient against various failures like network issues, disk failures, or unexpected crashes. Erlang’s supervisor trees and recovery mechanisms can help in creating more reliable Bitcoin nodes. 3. Distributed Computing: Bitcoin relies on a distributed network of nodes to validate and propagate transactions. Erlang is optimized for distributed systems, making it easier to handle the communication and state synchronization between nodes. 4. Hot Code Upgrades: One of Erlang's strengths is its ability to perform hot code upgrades, allowing a Bitcoin node to update without stopping. This can be particularly useful for applying protocol updates, patches, or performance improvements without interrupting the node’s operation. 5. Soft Real-Time: Bitcoin’s mining process and transaction validation can benefit from soft real-time guarantees to meet latency and response time requirements. Erlang's ability to handle soft real-time systems could improve transaction throughput and node responsiveness. 6. Scalability: Erlang is designed for distributed systems that need to scale horizontally. A Bitcoin node implemented in Erlang could potentially scale more effectively across multiple machines, making it easier to handle higher transaction volumes as the network grows. Drawbacks and Challenges: Performance: Erlang is not as fast as lower-level languages like C++ or Rust, which are traditionally used for Bitcoin implementations. Some performance-critical parts, like cryptographic operations, would likely need to be offloaded to external libraries for efficiency. Existing Ecosystem: Most of the Bitcoin ecosystem is based around existing implementations like Bitcoin Core (written in C++), so adopting Erlang would require building or adapting many tools from scratch, which could slow down adoption. Community and Maintenance: The Bitcoin Core community is large and has many contributors. Moving to Erlang would mean fewer developers familiar with the language, potentially creating maintenance challenges unless you build a strong community around it. Given these considerations, implementing Bitcoin in Erlang would provide significant advantages in reliability, scalability, and distributed handling, but it might require some trade-offs in terms of performance and ecosystem support.

Peter Todd é Satoshi Nakamoto! Pelo menos para HBO #BTC #Bitcoin #HBO

Is it possible to implement bitcoin protocol in erlang would ther be any benefits ? #AskGPT #Erlang #Bitcoin Yes, it is possible to implement the Bitcoin protocol in Erlang, and there could be several benefits to doing so, given Erlang's unique properties. Erlang is designed for building scalable, fault-tolerant, and distributed systems, which aligns well with the requirements of the Bitcoin protocol. Benefits of Implementing Bitcoin in Erlang: 1. Concurrency Model: Erlang's lightweight process model allows for massive concurrency, which is ideal for handling many peer-to-peer (P2P) connections in the Bitcoin network. This could improve node scalability when dealing with multiple transactions and block propagation. 2. Fault Tolerance: Erlang was designed with fault tolerance in mind, using the "let it crash" philosophy. Bitcoin nodes need to be resilient against various failures like network issues, disk failures, or unexpected crashes. Erlang’s supervisor trees and recovery mechanisms can help in creating more reliable Bitcoin nodes. 3. Distributed Computing: Bitcoin relies on a distributed network of nodes to validate and propagate transactions. Erlang is optimized for distributed systems, making it easier to handle the communication and state synchronization between nodes. 4. Hot Code Upgrades: One of Erlang's strengths is its ability to perform hot code upgrades, allowing a Bitcoin node to update without stopping. This can be particularly useful for applying protocol updates, patches, or performance improvements without interrupting the node’s operation. 5. Soft Real-Time: Bitcoin’s mining process and transaction validation can benefit from soft real-time guarantees to meet latency and response time requirements. Erlang's ability to handle soft real-time systems could improve transaction throughput and node responsiveness. 6. Scalability: Erlang is designed for distributed systems that need to scale horizontally. A Bitcoin node implemented in Erlang could potentially scale more effectively across multiple machines, making it easier to handle higher transaction volumes as the network grows. Drawbacks and Challenges: Performance: Erlang is not as fast as lower-level languages like C++ or Rust, which are traditionally used for Bitcoin implementations. Some performance-critical parts, like cryptographic operations, would likely need to be offloaded to external libraries for efficiency. Existing Ecosystem: Most of the Bitcoin ecosystem is based around existing implementations like Bitcoin Core (written in C++), so adopting Erlang would require building or adapting many tools from scratch, which could slow down adoption. Community and Maintenance: The Bitcoin Core community is large and has many contributors. Moving to Erlang would mean fewer developers familiar with the language, potentially creating maintenance challenges unless you build a strong community around it. Given these considerations, implementing Bitcoin in Erlang would provide significant advantages in reliability, scalability, and distributed handling, but it might require some trade-offs in terms of performance and ecosystem support.

Peter Todd é Satoshi Nakamoto! Pelo menos para HBO #BTC #Bitcoin #HBO

Is it possible to implement bitcoin protocol in erlang would ther be any benefits ? #AskGPT #Erlang #Bitcoin Yes, it is possible to implement the Bitcoin protocol in Erlang, and there could be several benefits to doing so, given Erlang's unique properties. Erlang is designed for building scalable, fault-tolerant, and distributed systems, which aligns well with the requirements of the Bitcoin protocol. Benefits of Implementing Bitcoin in Erlang: 1. Concurrency Model: Erlang's lightweight process model allows for massive concurrency, which is ideal for handling many peer-to-peer (P2P) connections in the Bitcoin network. This could improve node scalability when dealing with multiple transactions and block propagation. 2. Fault Tolerance: Erlang was designed with fault tolerance in mind, using the "let it crash" philosophy. Bitcoin nodes need to be resilient against various failures like network issues, disk failures, or unexpected crashes. Erlang’s supervisor trees and recovery mechanisms can help in creating more reliable Bitcoin nodes. 3. Distributed Computing: Bitcoin relies on a distributed network of nodes to validate and propagate transactions. Erlang is optimized for distributed systems, making it easier to handle the communication and state synchronization between nodes. 4. Hot Code Upgrades: One of Erlang's strengths is its ability to perform hot code upgrades, allowing a Bitcoin node to update without stopping. This can be particularly useful for applying protocol updates, patches, or performance improvements without interrupting the node’s operation. 5. Soft Real-Time: Bitcoin’s mining process and transaction validation can benefit from soft real-time guarantees to meet latency and response time requirements. Erlang's ability to handle soft real-time systems could improve transaction throughput and node responsiveness. 6. Scalability: Erlang is designed for distributed systems that need to scale horizontally. A Bitcoin node implemented in Erlang could potentially scale more effectively across multiple machines, making it easier to handle higher transaction volumes as the network grows. Drawbacks and Challenges: Performance: Erlang is not as fast as lower-level languages like C++ or Rust, which are traditionally used for Bitcoin implementations. Some performance-critical parts, like cryptographic operations, would likely need to be offloaded to external libraries for efficiency. Existing Ecosystem: Most of the Bitcoin ecosystem is based around existing implementations like Bitcoin Core (written in C++), so adopting Erlang would require building or adapting many tools from scratch, which could slow down adoption. Community and Maintenance: The Bitcoin Core community is large and has many contributors. Moving to Erlang would mean fewer developers familiar with the language, potentially creating maintenance challenges unless you build a strong community around it. Given these considerations, implementing Bitcoin in Erlang would provide significant advantages in reliability, scalability, and distributed handling, but it might require some trade-offs in terms of performance and ecosystem support.

Peter Todd é Satoshi Nakamoto! Pelo menos para HBO #BTC #Bitcoin #HBO

nostr:nprofile1qqs0fkyh0y2genfytjx4py229p8avtvhev8mdzme0fc0yjsh9dfzmwgpz4mhxue69uhhyetvv9ujuerpd46hxtnfduhsz9mhwden5te0wfjkccte9ec8y6tdv9kzumn9wshszythwden5te0dehhxarj9emkjmn99ujder3x Knows a lot about them, I think. But... I would buy pretty much any Toyota from that era. nostr:nevent1qqsf0skakec69tf40ph0u3dc5jqwp8mdwha35qkk2pn9tn02ssx9vaqpz4mhxue69uhhyetvv9ujuerpd46hxtnfduhsygqh2wxu9f38d8gfgsl33smuhc6cl26mh7vpzu6592nutlchrmthcspsgqqqqqqsnvkmp2