April 30, 2020 | There’s more than just the sound of thousands of vacuumssubmitted by 1TMine to u/1TMine [link] [comments]
It is very easy to just silo the arcane bitcoin mining process as just a bunch of machines computing mathematical algorithms. Although for the most part this is true, and the veracity of this is not far off from the real truth, but what we see on the surface is not identical to what we see below the surface. Understanding bitcoin mining goes beyond the USB enabled ASIC miners we are accustomed to see on every thumbnail article we come across related to this industry.
It’s easy to understand why newbies halt their understanding of bitcoin mining to just state-of-the-art supercomputers with cool flickering neon green lights.
The following below is taken from the masterpiece of a novel, “Mastering Bitcoin”, by the great Andreas Antonopolous. As elegant as it sounds, its best to restate Andreas’ explanation of emergent consensus.
“Satoshi Nakamoto’s main invention is the decentralized mechanism for emergent consensus. Emergent, because consensus is not achieved explicitly — there is no election or fixed moment when consensus occurs. Instead, consensus is an emergent artifact of the asynchronous interaction of thousands of independent nodes, all following simple rules. All the properties of bitcoin, including currency, transactions, payments, and the security model that does not depend on central authority or trust, derive from this invention.
Bitcoin’s decentralized consensus emerges from the interplay of four processes that occur independently on nodes across the network:
“A mining node is listening for transactions, trying to mine a new block and also listening for blocks discovered by other nodes. The arrival of this block signifies the end of the competition for block 277,315 and the beginning of the competition to create block 277,316. During the previous 10 minutes, while Jing’s node was searching for a solution to block 277,315, it was also collecting transactions in preparation for the next block. By now it has collected a few hundred transactions in the memory pool. Upon receiving block 277,315 and validating it, Jing’s node will also check all the transactions in the memory pool and remove any that were included in block 277,315. Whatever transactions remain in the memory pool are unconfirmed and are waiting to be recorded in a new block. Jing’s node immediately constructs a new empty block, a candidate for block 277,316. This block is called a candidate block because it is not yet a valid block, as it does not contain a valid proof of work. The block becomes valid only if the miner succeeds in finding a solution to the proof-of-work algorithm.
These specialized machines are connected to his mining node over USB. Next, the mining node running on Jing’s desktop transmits the block header to his mining hardware, which starts testing trillions of nonces per second.”
That is essentially the process of what a miner machine and a mining node is going through each every second it is hooked up to the network. Of course this is just a high level overview with a bland taste but one could go more in depth by reading the book mentioned.
1.Mastering Bitcoin: Unlocking Digital Cryptocurrencies 1st Edition, by Andreas M. Antonopoulos, O’Reilly Media; 1 edition (December 20, 2014)
Read Out More 👉 https://www.cryptoknowmics.com/news/renewable-sources-as-the-propeller-of-bitcoin-mining-process?utm_source=reddit&utm_medium=Sakshi&utm_campaign=Promotionsubmitted by cryptoknowmics to ckm_official [link] [comments]
#CryptocurrencyNews #CryptoNews #Cryptocurrencies #Cryptocurrency #bitcoin #Bitmain #BitcoinMining #BlockchainNews #bitcoinminingrig #CryptocoinNews #Bitcoinminingfarms #Renewableenergy #CryptocurrencyMarket #AlexdeVries #Texas
|submitted by KnowbellaTech to technology [link] [comments]|
|submitted by mrsotkogaming to CryptoCurrency [link] [comments]|
|submitted by 2bStealthy to CryptoCurrencies [link] [comments]|
|submitted by JonyRotten to btc [link] [comments]|
|submitted by energyuseofaustria to btcgreen [link] [comments]|
|submitted by ulros to fbitcoin [link] [comments]|
|submitted by mrsotkogaming to CryptoMarkets [link] [comments]|
|submitted by ABitcoinAllBot to BitcoinAll [link] [comments]|
|submitted by cryptoallbot1 to cryptoall [link] [comments]|
|submitted by scgco to GGCrypto [link] [comments]|
|submitted by ABitcoinAllBot to BitcoinAll [link] [comments]|
|submitted by cryptoallbot to cryptoall [link] [comments]|
|submitted by n4bb to CoinPath [link] [comments]|
|submitted by Ranzware to BitNewsLive [link] [comments]|
|submitted by mrsotkogaming to btc [link] [comments]|
On Nov. 27, the world's second-largest semiconductor chip maker, Intel, was granted a patent for a processing system that mines Bitcoin but utilizes more "Energy-efficient hardware accelerators." According to the patent called the "Optimized SHA256 Datapath," the newly invented "High-performance" Bitcoin mining process could reduce overall power consumption by 15 percent.
Last Tuesday the company was granted a patent by the United States Patent and Trademark Office which describes a specialized processing system for mining the SHA256 algorithm.
The Intel patent explains that Bitcoin's technology "Resolves the 'double spending' problem," but further emphasizes that processors today that are mining cryptocurrencies consume enormous amounts of power.
Intel stepping into the Bitcoin mining arena is interesting but it's not the corporation's first taste of cryptocurrency solutions.
The Bitcoin mining process developed by Intel shows the corporation definitely wants in on this innovative and growing industry of "SHA engines."
What do you think about Intel's Bitcoin mining patent? Do you think Intel plans on being more involved within the cryptocurrency industry? Let us know what you think about this subject in the comments section below.
Bitcoin mining is the process of adding transaction records to Bitcoin's public ledger of past transactions or blockchain. This ledger of past transactions is called the block chain as it is a chain of blocks. The block chain serves to confirm transactions to the rest of the network as having taken place. Bitcoin miners can earn Bitcoins through verifying the Bitcoin transaction. Miners are confirming the transaction by how much data is stored during the transaction as well as they have solved a complex math problem to verify the transaction. The mining process of Bitcoin is a very critical and complicated task. Bitcoin mining is a transaction record process with bitcoins to blockchain – the public database of all the operations with Bitcoin, which is responsible for the transaction confirmation. Network nodes use blockchain to differ the real transactions from the attempt to spend the same facilities twice. The main mining objective is reaching a consensus between network nodes on which ... Knowing the basics of how to get started with mining bitcoins is important to have a clear understanding of the process. You don’t have to be a computer wizard, but you do need to be able to understand the basics of the mining process and be able to protect yourself from harmful outcomes that can occur. Bitcoin mining is the process by which new bitcoins are entered into circulation, but it is also a critical component of the maintenance and development of the blockchain ledger.
[index]          
David Grossman enters a cryptocurrency maze to find out how powerful computers mine digital currencies such as Bitcoin. Newsnight is the BBC's flagship news ... Bitcoin Mining Process and Blockchain. Loading... Autoplay When autoplay is enabled, a suggested video will automatically play next. Up next Start trading Bitcoin and cryptocurrency here: http://bit.ly/2Vptr2X IMPORTANT!! This method only illustrates how mining works. You will not make any money f... What it really takes to mine a Bitcoin in 10 Minutes. Firstly I'll show you a special free method to mine Bitcoin and send funds directly to your wallet in 1... This video will show you how to start bitcoin mining from home. It's very easy and "free" to do if you have a gaming PC. *****...