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How did the Ethereum fork in 2017 address scalability and security issues?

avatarrosenyDec 24, 2021 · 3 years ago3 answers

Can you explain how the Ethereum fork in 2017 tackled the challenges of scalability and security? What were the specific changes made to address these issues?

How did the Ethereum fork in 2017 address scalability and security issues?

3 answers

  • avatarDec 24, 2021 · 3 years ago
    The Ethereum fork in 2017, also known as the Byzantium hard fork, aimed to address the scalability and security issues faced by the Ethereum network. One of the key changes introduced was the implementation of the Ethereum Improvement Proposal (EIP) 649, which introduced the concept of 'state tree pruning'. This allowed for the removal of old and unnecessary data from the blockchain, making it more efficient and scalable. Additionally, the fork also implemented EIP 669, which introduced the 'difficulty bomb' to slow down the mining process and encourage the transition to a more scalable consensus mechanism known as Proof of Stake (PoS). These changes collectively helped improve the scalability and security of the Ethereum network.
  • avatarDec 24, 2021 · 3 years ago
    The Ethereum fork in 2017 addressed scalability and security issues by implementing various changes. One of the notable changes was the introduction of the 'state tree pruning' concept, which helped reduce the size of the blockchain by removing unnecessary data. This made the network more scalable and efficient. Additionally, the fork also introduced the 'difficulty bomb' to slow down the mining process and incentivize the transition to PoS. These changes were crucial in improving the scalability and security of the Ethereum network.
  • avatarDec 24, 2021 · 3 years ago
    The Ethereum fork in 2017, also known as the Byzantium hard fork, was a significant milestone in addressing scalability and security issues. One of the key changes made was the introduction of 'state tree pruning', which allowed for the removal of redundant data from the blockchain. This helped improve the scalability of the network by reducing the storage requirements. Additionally, the fork also implemented the 'difficulty bomb' to encourage the transition to PoS, a more scalable consensus mechanism. These changes played a crucial role in enhancing the scalability and security of the Ethereum network.