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Proof of History is the latest feature to solve consensus challenges, but how does it compare to its predecessors?
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Surely the greatest irony in the blockchain space is that there has never been any agreement on “the best” consensus model. Bitcoin and Ethereum are widely lauded for pioneering the concepts of blockchain and smart contract platforms respectively, but both also come under heavy criticism for their lack of scalability. The scalability challenge is largely due to their use of the proof-of-work (PoW) consensus method. Therefore, teams of developers have been focusing for years on devising a different method for achieving consensus among network participants. One that removes the bottlenecks caused by PoW, but still achieves the security of decentralization, while maintaining the right balance of incentivizing honest actors and deterring bad ones. So far, there have been dozens of attempts at solving this quandary. However, only a few have emerged as main contenders, namely proof-of-stake (PoS) and delegated proof-of-stake (dPoS.) However, a new horse just entered the race. It’s not a new consensus protocol – rather, a means of speeding up consensus. A blockchain project called Solana is developing a secure, scalable blockchain that can handle up to 50,000 transactions per second on its testnet. How does it achieve this? It uses a feature called Proof of History to determine the passage of time, which, in turn, considerably reduces the weight of consensus. Proof of History, Explained Proof of History (PoH) aims to lighten the load of the network nodes in processing blocks by providing a means of encoding time itself into the blockchain. In a regular blockchain, reaching consensus over the time a particular block was mined is as much a requirement as reaching consensus over the existence of the transactions in that block. Timestamping is critical because it tells the network (and any observer) that transactions took place in a particular sequence. In a PoW scenario, the successful block miner is the first to find the correct nonce, which requires a certain amount of computing power to perform. However, PoH uses a newer cryptographic concept called Verifiable Delay Functions (VDFs.) A VDF can only be solved by a single CPU core applying a particular set of sequential steps. No parallel processing is allowed, so it’s easy to define exactly how long it takes to apply those steps. Therefore, the passage of time is evident. PoH solves the time challenge, and thus reduces the processing weight of the blockchain, making it lighter and faster. Solana combines PoH with a security protocol called Tower Byzantine Fault Tolerance (Tower BFT), which allows participants to stake tokens so they can vote on the validity of a PoH hash. This protocol penalizes bad actors if they vote in favor of a fork that doesn’t match the PoH records. Furthermore, Solana deploys proof-of-stake (PoS) as a means of determining who can participate as a block validator. The Evolution of Blockchains So how does Proof of History stack up to its predecessors? Proof-of-Work There are some similarities between Proof of Work and the Proof of History feature. Mainly, that both methods rely on a defined expenditure of computing power to produce blocks, or hashes as they are known in PoH. Like Bitcoin and most other PoW blockchains, Solana also uses the SHA-256 algorithm. This may raise the question of whether an ASIC could significantly speed up solving the VDF function in PoH. Solana believes that this isn’t a challenge and that the processing power of most ASICs would be within an acceptable range of what’s available to the wider network. Because PoH removes the timestamping burden from the network, it results in a far lighter, faster blockchain than anyone has been able to achieve so far using PoW. The incentive mechanisms are protected by combining with Tower BFT. Regardless, PoH can work together with Proof of Work as well, thereby improving its scalability. Proof-of-Stake Proof of Stake (PoS) has been the long-promised solution to Ethereum’s scalability. In PoS, net...
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Manage episode 330765718 series 3274534
Content provided by CryptoSlate. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by CryptoSlate or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Surely the greatest irony in the blockchain space is that there has never been any agreement on “the best” consensus model. Bitcoin and Ethereum are widely lauded for pioneering the concepts of blockchain and smart contract platforms respectively, but both also come under heavy criticism for their lack of scalability. The scalability challenge is largely due to their use of the proof-of-work (PoW) consensus method. Therefore, teams of developers have been focusing for years on devising a different method for achieving consensus among network participants. One that removes the bottlenecks caused by PoW, but still achieves the security of decentralization, while maintaining the right balance of incentivizing honest actors and deterring bad ones. So far, there have been dozens of attempts at solving this quandary. However, only a few have emerged as main contenders, namely proof-of-stake (PoS) and delegated proof-of-stake (dPoS.) However, a new horse just entered the race. It’s not a new consensus protocol – rather, a means of speeding up consensus. A blockchain project called Solana is developing a secure, scalable blockchain that can handle up to 50,000 transactions per second on its testnet. How does it achieve this? It uses a feature called Proof of History to determine the passage of time, which, in turn, considerably reduces the weight of consensus. Proof of History, Explained Proof of History (PoH) aims to lighten the load of the network nodes in processing blocks by providing a means of encoding time itself into the blockchain. In a regular blockchain, reaching consensus over the time a particular block was mined is as much a requirement as reaching consensus over the existence of the transactions in that block. Timestamping is critical because it tells the network (and any observer) that transactions took place in a particular sequence. In a PoW scenario, the successful block miner is the first to find the correct nonce, which requires a certain amount of computing power to perform. However, PoH uses a newer cryptographic concept called Verifiable Delay Functions (VDFs.) A VDF can only be solved by a single CPU core applying a particular set of sequential steps. No parallel processing is allowed, so it’s easy to define exactly how long it takes to apply those steps. Therefore, the passage of time is evident. PoH solves the time challenge, and thus reduces the processing weight of the blockchain, making it lighter and faster. Solana combines PoH with a security protocol called Tower Byzantine Fault Tolerance (Tower BFT), which allows participants to stake tokens so they can vote on the validity of a PoH hash. This protocol penalizes bad actors if they vote in favor of a fork that doesn’t match the PoH records. Furthermore, Solana deploys proof-of-stake (PoS) as a means of determining who can participate as a block validator. The Evolution of Blockchains So how does Proof of History stack up to its predecessors? Proof-of-Work There are some similarities between Proof of Work and the Proof of History feature. Mainly, that both methods rely on a defined expenditure of computing power to produce blocks, or hashes as they are known in PoH. Like Bitcoin and most other PoW blockchains, Solana also uses the SHA-256 algorithm. This may raise the question of whether an ASIC could significantly speed up solving the VDF function in PoH. Solana believes that this isn’t a challenge and that the processing power of most ASICs would be within an acceptable range of what’s available to the wider network. Because PoH removes the timestamping burden from the network, it results in a far lighter, faster blockchain than anyone has been able to achieve so far using PoW. The incentive mechanisms are protected by combining with Tower BFT. Regardless, PoH can work together with Proof of Work as well, thereby improving its scalability. Proof-of-Stake Proof of Stake (PoS) has been the long-promised solution to Ethereum’s scalability. In PoS, net...
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Similar to CryptoSlate Daily Crypto Newscast
Show notes are at https://stevelitchfield.com/sshow/chat.html
…
continue reading
This feed includes all episodes of Paul's Security Weekly, Enterprise Security Weekly, Business Security Weekly, Application Security Weekly, and Security Weekly News! Your one-stop shop for all things Security Weekly!
…
continue reading
Hungry for Technology Talk? Get All You Can Eat at the Android Buffet
…
continue reading
1
Defensive Security Podcast - Malware, Hacking, Cyber Security & Infosec
Jerry Bell and Andrew Kalat
Defensive Security is a weekly information security podcast which reviews recent high profile cyber security breaches, data breaches, malware infections and intrusions to identify lessons that we can learn and apply to the organizations we protect.
…
continue reading
On The Bike Shed, hosts Joël Quenneville and Stephanie Minn discuss development experiences and challenges at thoughtbot with Ruby, Rails, JavaScript, and whatever else is drawing their attention, admiration, or ire this week.
…
continue reading
Risky Business is a weekly information security podcast featuring news and in-depth interviews with industry luminaries. Launched in February 2007, Risky Business is a must-listen digest for information security pros. With a running time of approximately 50-60 minutes, Risky Business is pacy; a security podcast without the waffle.
…
continue reading
Android Backstage, a podcast by and for Android developers. Hosted by developers from the Android engineering team, this show covers topics of interest to Android programmers, with in-depth discussions and interviews with engineers on the Android team at Google. Subscribe to Android Developers YouTube → https://goo.gle/AndroidDevs
…
continue reading
We help founders make something people want.
…
continue reading
WIRED’s Gadget Lab podcast breaks down which gadgets, apps, and services you need to know about, and which ones you can move to the virtual trash bin. Learn how today’s tech shapes our lives—plus get your hosts’ personal recommendations at the end of each episode.
…
continue reading
Weekly Linux news and analysis by Chris and Wes. The show every week we hope you'll go to when you want to hear an informed discussion about what’s happening.
…
continue reading
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