10 Bitcoin Mining Calculator Websites For Cryptocurrency ...
Bitcoin Mining Calculator CoinWarz
Bitcoin Calculator Bitcoin Mining Calculator
AITD class lesson 4: Mining will bring fortune, Consensus will generate value faster.
As we all know, Bitcoin is a decentralized digital currency, there is no central currency publisher. The question is that how first Bitcoin was generated if there are no publishers for Bitcoin. The answer is: Through Mining. https://preview.redd.it/ebm9zfvbotr51.jpg?width=640&format=pjpg&auto=webp&s=798802bf75101284a9e6b111a66188c2b9b78d2a In January of 2009, Bitcoin father Satoshi nakamoto got the First Genesis Block through data mining on Bitcoin network and received 50 Bitcoins as rewards, therefore, first set of Bitcoins was official revealed. Since then, more and more Bitcoin mining labors started mining,as a result, they got tones of Bitcoins. Mining is not like real mining in Bitcoin, it depends on the consensus algorithm from Bitcoin networks, using mining machine continuously to calculate Block password. The mining machine which gets the correct answer will unlock Blocks and get Bitcoins ( In the Block) as rewards. The whole mining processes are kind of like purchase lottery, people who gets more numbers will get higher chance to match the winning number; The differences are that there are no second position prizes or third position prizes and people can not share prizes with other people. After explaining mining, let's take a look at consensus algorithm we mention earlier. The whole mining processes will count on consensus algorithm to process, we can consider consensus algorithm as “ Mining rules". Let's take Bitcoin as an example. POW algorithm used in Bitcoin network can be simply considering as contribution force algorithm . The algorithm requires that every single node has the right to start mining, it is the computing processes for Block password; In Blockchain Industry, it usually consider continuously computing processes for nodes mining as Hashrate contribution, unlock Blocks, gaining Bitcoin rewards possibilities will be higher if node's Hashrate contribution is higher. In the beginning period of Bitcoin, the difficulty is not high for mining, mining labor can unlocked Blocks easily and got rewards, as Bitcoin consensus is getting stronger, more and more people are starting joining mining Bitcoins. Difficulty will be higher if there are more competitors, Hashrate consumed by mining machine will be higher, at the same time, due to output has been cut into half for Bitcoin blocks, the profits from mining are continuously compressing, the Hashrate resources waste caused by POW algorithm was causing criticism from public. According to the developing Blockchain techniques, members within the industry are looking for low cost mining mode, therefore, POS, DPOS, POC algorithms started continuously appearing. These algorithms are getting ride of contribution forces algorithm from Bitcoin, building "Gaining Bitcoin will generate revenue""Small amount of witnesses are starting mining for blocks", "Disc capacity prove" multiple mining methods, enabling digital currency to apply in various scenarios.( Detail transformation processes will be explained in the next episode.) Currently, Consensus algorithm is transforming to simplify procedures, reducing resources usage direction, Only improved algorithm mechanism will get strong consensus. In the future, there will be many more algorithms appearing in the market, mining procedure will be simpler, fair, energy reduced. Next episode preview: The transformation path for consensus algorithm mechanism.
﷽ The Federal Reserve and the United States government are pumping extreme amounts of money into the economy, already totaling over $484 billion. They are doing so because it already had a goal to inflate the United States Dollar (USD) so that the market can continue to all-time highs. It has always had this goal. They do not care how much inflation goes up by now as we are going into a depression with the potential to totally crash the US economy forever. They believe the only way to save the market from going to zero or negative values is to inflate it so much that it cannot possibly crash that low. Even if the market does not dip that low, inflation serves the interest of powerful people. The impending crash of the stock market has ramifications for Bitcoin, as, though there is no direct ongoing-correlation between the two, major movements in traditional markets will necessarily affect Bitcoin. According to the Blockchain Center’s Cryptocurrency Correlation Tool, Bitcoin is not correlated with the stock market. However, when major market movements occur, they send ripples throughout the financial ecosystem which necessary affect even ordinarily uncorrelated assets. Therefore, Bitcoin will reach X price on X date after crashing to a price of X by X date.
Stock Market Crash
The Federal Reserve has caused some serious consternation with their release of ridiculous amounts of money in an attempt to buoy the economy. At face value, it does not seem to have any rationale or logic behind it other than keeping the economy afloat long enough for individuals to profit financially and politically. However, there is an underlying basis to what is going on which is important to understand in order to profit financially. All markets are functionally price probing systems. They constantly undergo a price-discovery process. In a fiat system, money is an illusory and a fundamentally synthetic instrument with no intrinsic value – similar to Bitcoin. The primary difference between Bitcoin is the underlying technology which provides a slew of benefits that fiat does not. Fiat, however, has an advantage in being able to have the support of powerful nation-states which can use their might to insure the currency’s prosperity. Traditional stock markets are composed of indices (pl. of index). Indices are non-trading market instruments which are essentially summaries of business values which comprise them. They are continuously recalculated throughout a trading day, and sometimes reflected through tradable instruments such as Exchange Traded Funds or Futures. Indices are weighted by market capitalizations of various businesses. Price theory essentially states that when a market fails to take out a new low in a given range, it will have an objective to take out the high. When a market fails to take out a new high, it has an objective to make a new low. This is why price-time charts go up and down, as it does this on a second-by-second, minute-by-minute, day-by-day, and even century-by-century basis. Therefore, market indices will always return to some type of bull market as, once a true low is formed, the market will have a price objective to take out a new high outside of its’ given range – which is an all-time high. Instruments can only functionally fall to zero, whereas they can grow infinitely. So, why inflate the economy so much? Deflation is disastrous for central banks and markets as it raises the possibility of producing an overall price objective of zero or negative values. Therefore, under a fractional reserve system with a fiat currency managed by a central bank – the goal of the central bank is to depreciate the currency. The dollar is manipulated constantly with the intention of depreciating its’ value. Central banks have a goal of continued inflated fiat values. They tend to ordinarily contain it at less than ten percent (10%) per annum in order for the psyche of the general populace to slowly adjust price increases. As such, the markets are divorced from any other logic. Economic policy is the maintenance of human egos, not catering to fundamental analysis. Gross Domestic Product (GDP) growth is well-known not to be a measure of actual growth or output. It is a measure of increase in dollars processed. Banks seek to produce raising numbers which make society feel like it is growing economically, making people optimistic. To do so, the currency is inflated, though inflation itself does not actually increase growth. When society is optimistic, it spends and engages in business – resulting in actual growth. It also encourages people to take on credit and debts, creating more fictional fiat. Inflation is necessary for markets to continue to reach new heights, generating positive emotional responses from the populace, encouraging spending, encouraging debt intake, further inflating the currency, and increasing the sale of government bonds. The fiat system only survives by generating more imaginary money on a regular basis. Bitcoin investors may profit from this by realizing that stock investors as a whole always stand to profit from the market so long as it is managed by a central bank and does not collapse entirely. If those elements are filled, it has an unending price objective to raise to new heights. It also allows us to realize that this response indicates that the higher-ups believe that the economy could crash in entirety, and it may be wise for investors to have multiple well-thought-out exit strategies.
Economic Analysis of Bitcoin
The reason why the Fed is so aggressively inflating the economy is due to fears that it will collapse forever or never rebound. As such, coupled with a global depression, a huge demand will appear for a reserve currency which is fundamentally different than the previous system. Bitcoin, though a currency or asset, is also a market. It also undergoes a constant price-probing process. Unlike traditional markets, Bitcoin has the exact opposite goal. Bitcoin seeks to appreciate in value and not depreciate. This has a quite different affect in that Bitcoin could potentially become worthless and have a price objective of zero. Bitcoin was created in 2008 by a now famous mysterious figure known as Satoshi Nakamoto and its’ open source code was released in 2009. It was the first decentralized cryptocurrency to utilize a novel protocol known as the blockchain. Up to one megabyte of data may be sent with each transaction. It is decentralized, anonymous, transparent, easy to set-up, and provides myriad other benefits. Bitcoin is not backed up by anything other than its’ own technology. Bitcoin is can never be expected to collapse as a framework, even were it to become worthless. The stock market has the potential to collapse in entirety, whereas, as long as the internet exists, Bitcoin will be a functional system with a self-authenticating framework. That capacity to persist regardless of the actual price of Bitcoin and the deflationary nature of Bitcoin means that it has something which fiat does not – inherent value. Bitcoin is based on a distributed database known as the “blockchain.” Blockchains are essentially decentralized virtual ledger books, replete with pages known as “blocks.” Each page in a ledger is composed of paragraph entries, which are the actual transactions in the block. Blockchains store information in the form of numerical transactions, which are just numbers. We can consider these numbers digital assets, such as Bitcoin. The data in a blockchain is immutable and recorded only by consensus-based algorithms. Bitcoin is cryptographic and all transactions are direct, without intermediary, peer-to-peer. Bitcoin does not require trust in a central bank. It requires trust on the technology behind it, which is open-source and may be evaluated by anyone at any time. Furthermore, it is impossible to manipulate as doing so would require all of the nodes in the network to be hacked at once – unlike the stock market which is manipulated by the government and “Market Makers”. Bitcoin is also private in that, though the ledge is openly distributed, it is encrypted. Bitcoin’s blockchain has one of the greatest redundancy and information disaster recovery systems ever developed. Bitcoin has a distributed governance model in that it is controlled by its’ users. There is no need to trust a payment processor or bank, or even to pay fees to such entities. There are also no third-party fees for transaction processing. As the ledge is immutable and transparent it is never possible to change it – the data on the blockchain is permanent. The system is not easily susceptible to attacks as it is widely distributed. Furthermore, as users of Bitcoin have their private keys assigned to their transactions, they are virtually impossible to fake. No lengthy verification, reconciliation, nor clearing process exists with Bitcoin. Bitcoin is based on a proof-of-work algorithm. Every transaction on the network has an associated mathetical “puzzle”. Computers known as miners compete to solve the complex cryptographic hash algorithm that comprises that puzzle. The solution is proof that the miner engaged in sufficient work. The puzzle is known as a nonce, a number used only once. There is only one major nonce at a time and it issues 12.5 Bitcoin. Once it is solved, the fact that the nonce has been solved is made public. A block is mined on average of once every ten minutes. However, the blockchain checks every 2,016,000 minutes (approximately four years) if 201,600 blocks were mined. If it was faster, it increases difficulty by half, thereby deflating Bitcoin. If it was slower, it decreases, thereby inflating Bitcoin. It will continue to do this until zero Bitcoin are issued, projected at the year 2140. On the twelfth of May, 2020, the blockchain will halve the amount of Bitcoin issued when each nonce is guessed. When Bitcoin was first created, fifty were issued per block as a reward to miners. 6.25 BTC will be issued from that point on once each nonce is solved. Unlike fiat, Bitcoin is a deflationary currency. As BTC becomes scarcer, demand for it will increase, also raising the price. In this, BTC is similar to gold. It is predictable in its’ output, unlike the USD, as it is based on a programmed supply. We can predict BTC’s deflation and inflation almost exactly, if not exactly. Only 21 million BTC will ever be produced, unless the entire network concedes to change the protocol – which is highly unlikely. Some of the drawbacks to BTC include congestion. At peak congestion, it may take an entire day to process a Bitcoin transaction as only three to five transactions may be processed per second. Receiving priority on a payment may cost up to the equivalent of twenty dollars ($20). Bitcoin mining consumes enough energy in one day to power a single-family home for an entire week.
Trading or Investing?
The fundamental divide in trading revolves around the question of market structure. Many feel that the market operates totally randomly and its’ behavior cannot be predicted. For the purposes of this article, we will assume that the market has a structure, but that that structure is not perfect. That market structure naturally generates chart patterns as the market records prices in time. In order to determine when the stock market will crash, causing a major decline in BTC price, we will analyze an instrument, an exchange traded fund, which represents an index, as opposed to a particular stock. The price patterns of the various stocks in an index are effectively smoothed out. In doing so, a more technical picture arises. Perhaps the most popular of these is the SPDR S&P Standard and Poor 500 Exchange Traded Fund ($SPY). In trading, little to no concern is given about value of underlying asset. We are concerned primarily about liquidity and trading ranges, which are the amount of value fluctuating on a short-term basis, as measured by volatility-implied trading ranges. Fundamental analysis plays a role, however markets often do not react to real-world factors in a logical fashion. Therefore, fundamental analysis is more appropriate for long-term investing. The fundamental derivatives of a chart are time (x-axis) and price (y-axis). The primary technical indicator is price, as everything else is lagging in the past. Price represents current asking price and incorrectly implementing positions based on price is one of the biggest trading errors. Markets and currencies ordinarily have noise, their tendency to back-and-fill, which must be filtered out for true pattern recognition. That noise does have a utility, however, in allowing traders second chances to enter favorable positions at slightly less favorable entry points. When you have any market with enough liquidity for historical data to record a pattern, then a structure can be divined. The market probes prices as part of an ongoing price-discovery process. Market technicians must sometimes look outside of the technical realm and use visual inspection to ascertain the relevance of certain patterns, using a qualitative eye that recognizes the underlying quantitative nature Markets and instruments rise slower than they correct, however they rise much more than they fall. In the same vein, instruments can only fall to having no worth, whereas they could theoretically grow infinitely and have continued to grow over time. Money in a fiat system is illusory. It is a fundamentally synthetic instrument which has no intrinsic value. Hence, the recent seemingly illogical fluctuations in the market. According to trade theory, the unending purpose of a market or instrument is to create and break price ranges according to the laws of supply and demand. We must determine when to trade based on each market inflection point as defined in price and in time as opposed to abandoning the trend (as the contrarian trading in this sub often does). Time and Price symmetry must be used to be in accordance with the trend. When coupled with a favorable risk to reward ratio, the ability to stay in the market for most of the defined time period, and adherence to risk management rules; the trader has a solid methodology for achieving considerable gains. We will engage in a longer term market-oriented analysis to avoid any time-focused pressure. The Bitcoin market is open twenty-four-hours a day, so trading may be done when the individual is ready, without any pressing need to be constantly alert. Let alone, we can safely project months in advance with relatively high accuracy. Bitcoin is an asset which an individual can both trade and invest, however this article will be focused on trading due to the wide volatility in BTC prices over the short-term.
Technical Indicator Analysis of Bitcoin
Technical indicators are often considered self-fulfilling prophecies due to mass-market psychology gravitating towards certain common numbers yielded from them. They are also often discounted when it comes to BTC. That means a trader must be especially aware of these numbers as they can prognosticate market movements. Often, they are meaningless in the larger picture of things.
Volume – derived from the market itself, it is mostly irrelevant. The major problem with volume for stocks is that the US market open causes tremendous volume surges eradicating any intrinsic volume analysis. This does not occur with BTC, as it is open twenty-four-seven. At major highs and lows, the market is typically anemic. Most traders are not active at terminal discretes (peaks and troughs) because of levels of fear. Volume allows us confidence in time and price symmetry market inflection points, if we observe low volume at a foretold range of values. We can rationalize that an absolute discrete is usually only discovered and anticipated by very few traders. As the general market realizes it, a herd mentality will push the market in the direction favorable to defending it. Volume is also useful for swing trading, as chances for swing’s validity increases if an increase in volume is seen on and after the swing’s activation. Volume is steadily decreasing. Lows and highs are reached when volume is lower.
Therefore, due to the relatively high volume on the 12th of March, we can safely determine that a low for BTC was not reached.
VIX – Volatility Index, this technical indicator indicates level of fear by the amount of options-based “insurance” in portfolios. A low VIX environment, less than 20 for the S&P index, indicates a stable market with a possible uptrend. A high VIX, over 20, indicates a possible downtrend. VIX is essentially useless for BTC as BTC-based options do not exist. It allows us to predict the market low for $SPY, which will have an indirect impact on BTC in the short term, likely leading to the yearly low. However, it is equally important to see how VIX is changing over time, if it is decreasing or increasing, as that indicates increasing or decreasing fear. Low volatility allows high leverage without risk or rest. Occasionally, markets do rise with high VIX.
As VIX is unusually high, in the forties, we can be confident that a downtrend for the S&P 500 is imminent.
RSI (Relative Strength Index): The most important technical indicator, useful for determining highs and lows when time symmetry is not availing itself. Sometimes analysis of RSI can conflict in different time frames, easiest way to use it is when it is at extremes – either under 30 or over 70. Extremes can be used for filtering highs or lows based on time-and-price window calculations. Highly instructive as to major corrective clues and indicative of continued directional movement. Must determine if longer-term RSI values find support at same values as before. It is currently at 73.56.
Secondly, RSI may be used as a high or low filter, to observe the level that short-term RSI reaches in counter-trend corrections. Repetitions based on market movements based on RSI determine how long a trade should be held onto. Once a short term RSI reaches an extreme and stay there, the other RSI’s should gradually reach the same extremes. Once all RSI’s are at extreme highs, a trend confirmation should occur and RSI’s should drop to their midpoint.
Trend Definition Analysis of Bitcoin
Trend definition is highly powerful, cannot be understated. Knowledge of trend logic is enough to be a profitable trader, yet defining a trend is an arduous process. Multiple trends coexist across multiple time frames and across multiple market sectors. Like time structure, it makes the underlying price of the instrument irrelevant. Trend definitions cannot determine the validity of newly formed discretes. Trend becomes apparent when trades based in counter-trend inflection points continue to fail. Downtrends are defined as an instrument making lower lows and lower highs that are recurrent, additive, qualified swing setups. Downtrends for all instruments are similar, except forex. They are fast and complete much quicker than uptrends. An average downtrend is 18 months, something which we will return to. An uptrend inception occurs when an instrument reaches a point where it fails to make a new low, then that low will be tested. After that, the instrument will either have a deep range retracement or it may take out the low slightly, resulting in a double-bottom. A swing must eventually form. A simple way to roughly determine trend is to attempt to draw a line from three tops going upwards (uptrend) or a line from three bottoms going downwards (downtrend). It is not possible to correctly draw a downtrend line on the BTC chart, but it is possible to correctly draw an uptrend – indicating that the overall trend is downwards. The only mitigating factor is the impending stock market crash.
Time Symmetry Analysis of Bitcoin
Time is the movement from the past through the present into the future. It is a measurement in quantified intervals. In many ways, our perception of it is a human construct. It is more powerful than price as time may be utilized for a trade regardless of the market inflection point’s price. Were it possible to perfectly understand time, price would be totally irrelevant due to the predictive certainty time affords. Time structure is easier to learn than price, but much more difficult to apply with any accuracy. It is the hardest aspect of trading to learn, but also the most rewarding. Humans do not have the ability to recognize every time window, however the ability to define market inflection points in terms of time is the single most powerful trading edge. Regardless, price should not be abandoned for time alone. Time structure analysis It is inherently flawed, as such the markets have a fail-safe, which is Price Structure. Even though Time is much more powerful, Price Structure should never be completely ignored. Time is the qualifier for Price and vice versa. Time can fail by tricking traders into counter-trend trading. Time is a predestined trade quantifier, a filter to slow trades down, as it allows a trader to specifically focus on specific time windows and rest at others. It allows for quantitative measurements to reach deterministic values and is the primary qualifier for trends. Time structure should be utilized before price structure, and it is the primary trade criterion which requires support from price. We can see price structure on a chart, as areas of mathematical support or resistance, but we cannot see time structure. Time may be used to tell us an exact point in the future where the market will inflect, after Price Theory has been fulfilled. In the present, price objectives based on price theory added to possible future times for market inflection points give us the exact time of market inflection points and price. Time Structure is repetitions of time or inherent cycles of time, occurring in a methodical way to provide time windows which may be utilized for inflection points. They are not easily recognized and not easily defined by a price chart as measuring and observing time is very exact. Time structure is not a science, yet it does require precise measurements. Nothing is certain or definite. The critical question must be if a particular approach to time structure is currently lucrative or not. We will measure it in intervals of 180 bars. Our goal is to determine time windows, when the market will react and when we should pay the most attention. By using time repetitions, the fact that market inflection points occurred at some point in the past and should, therefore, reoccur at some point in the future, we should obtain confidence as to when SPY will reach a market inflection point. Time repetitions are essentially the market’s memory. However, simply measuring the time between two points then trying to extrapolate into the future does not work. Measuring time is not the same as defining time repetitions. We will evaluate past sessions for market inflection points, whether discretes, qualified swings, or intra-range. Then records the times that the market has made highs or lows in a comparable time period to the future one seeks to trade in. What follows is a time Histogram – A grouping of times which appear close together, then segregated based on that closeness. Time is aligned into combined histogram of repetitions and cycles, however cycles are irrelevant on a daily basis. If trading on an hourly basis, do not use hours.
Daily Lows Mode for those Months: 1, 1, 2, 4, 12, 17, 18, 24, 25, 28, 29, 30
Hourly Lows Mode for those Months (Military time): 0100, 0200, 0200, 0400, 0700, 0700, 0800, 1200, 1200, 1700, 2000, 2200
Minute Lows Mode for those Months: 00, 00, 00, 00, 00, 00, 09, 09, 59, 59, 59, 59
Day of the Week Lows (last twenty-six weeks):
Weighted Times are repetitions which appears multiple times within the same list, observed and accentuated once divided into relevant sections of the histogram. They are important in the presently defined trading time period and are similar to a mathematical mode with respect to a series. Phased times are essentially periodical patterns in histograms, though they do not guarantee inflection points Evaluating the yearly lows, we see that BTC tends to have its lows primarily at the beginning of every year, with a possibility of it being at the end of the year. Following the same methodology, we get the middle of the month as the likeliest day. However, evaluating the monthly lows for the past year, the beginning and end of the month are more likely for lows. Therefore, we have two primary dates from our histogram. 1/1/21, 1/15/21, and 1/29/21 2:00am, 8:00am, 12:00pm, or 10:00pm In fact, the high for this year was February the 14th, only thirty days off from our histogram calculations. The 8.6-Year Armstrong-Princeton Global Economic Confidence model states that 2.15 year intervals occur between corrections, relevant highs and lows. 2.15 years from the all-time peak discrete is February 9, 2020 – a reasonably accurate depiction of the low for this year (which was on 3/12/20). (Taking only the Armstrong model into account, the next high should be Saturday, April 23, 2022). Therefore, the Armstrong model indicates that we have actually bottomed out for the year! Bear markets cannot exist in perpetuity whereas bull markets can. Bear markets will eventually have price objectives of zero, whereas bull markets can increase to infinity. It can occur for individual market instruments, but not markets as a whole. Since bull markets are defined by low volatility, they also last longer. Once a bull market is indicated, the trader can remain in a long position until a new high is reached, then switch to shorts. The average bear market is eighteen months long, giving us a date of August 19th, 2021 for the end of this bear market – roughly speaking. They cannot be shorter than fifteen months for a central-bank controlled market, which does not apply to Bitcoin. (Otherwise, it would continue until Sunday, September 12, 2021.) However, we should expect Bitcoin to experience its’ exponential growth after the stock market re-enters a bull market. Terry Laundy’s T-Theory implemented by measuring the time of an indicator from peak to trough, then using that to define a future time window. It is similar to an head-and-shoulders pattern in that it is the process of forming the right side from a synthetic technical indicator. If the indicator is making continued lows, then time is recalculated for defining the right side of the T. The date of the market inflection point may be a price or indicator inflection date, so it is not always exactly useful. It is better to make us aware of possible market inflection points, clustered with other data. It gives us an RSI low of May, 9th 2020. The Bradley Cycle is coupled with volatility allows start dates for campaigns or put options as insurance in portfolios for stocks. However, it is also useful for predicting market moves instead of terminal dates for discretes. Using dates which correspond to discretes, we can see how those dates correspond with changes in VIX. Therefore, our timeline looks like:
2/14/20 – yearly high ($10372 USD)
3/12/20 – yearly low thus far ($3858 USD)
5/9/20 – T-Theory true yearly low (BTC between 4863 and 3569)
The One Thing EVERYONE Must Know About the Dev Funding Plan: IT'S COMPLETELY FREE.
sigh I get so tired of having to stop working to put out a post explaining issues. If anyone else wants to join in I could use help. (actually I've seen Jonald F. do this before too, so thanks JF!) Things are bad when even developers don't understand what's going on. So I'll try to clearly explain an important point on the Dev Funding Plan (DFP from now on) for the community: it's completely free. Yet we still get panicked posts saying Please Save Us from the TAX!!! Somebody Help! You may be for or against the DFP, but either way please at least understand what you're forming an opinion on. Let's start from the beginning. We know Bitcoin works on blocks and block coin rewards. The block reward, which started at 50 coins per block, and cuts in half approximately every 4 years, serves two purposes: it's a fair way to bring coins into circulation, but more importantly it provides security for the network. For simplicity, please think of "security" as being measured in power bars. When the network first started, with just Satoshi and Hal Finney, there was 1 power bar. This power bar was made up of the electricity their combined computer hardware used to find blocks. They were the first miners. Bitcoin uses a difficulty level to adjust how hard or easy it is to find blocks. This level is important for a key reason: we want the inflation rate of coins (how fast they come into circulation) to stay about the same, regardless how many miners (computing power) suddenly comes online. If the difficulty is set at super easy, but suddenly a super computer comes online that computer can gobble up thousands of coins in minutes if not seconds, creating massive rapid inflation. So the first thing to understand is that due to the Difficulty Level Adjustment the rate of coins coming into circulation will always stay about the same, regardless how many miners join or leave the network. Getting back to power bars. So the point of Bitcoin is there is no center, no fixed authority. The problem is we still need a decision made about which chain is valid. This is where proof-of-work comes in. Satoshi's fairly brilliant solution to a consensus decision, with no leader, was to simply look for the longest chain (technically the chain with most hashing work). The reasoning was: as there are far more ordinary people than there are governments and dictators a Bitcoin supported by the all the world's people should always be able to muster more hashrate than even rich governments. So Bitcoin began and people saw the brilliance: even with a weak power bar level of 1 (a couple computers), Bitcoin was safe from 51% attacks and attacking govs competing for control of the chain because a super low hashrate meant Bitcoin wasn't popular and govs wouldn't bother paying attention. By the time Bitcoin was big enough for govs to worry about attacking it should also have so many participants the power bar level would be far higher, providing strong defense. Let's say the ideal power bar level is 50,000. At this level no government on earth has enough resources to beat the grassroots network. We hear people brag about how much security BTC has. However, the marketcap for all of BTC is about $160B. Countries like the U.S. and China have GDP measured in many trillions; a trillion is 1,000 billion. Does 160B really seem untouchable? For numeric comparison the main U.S. federal food assistance program cost the government $70B in 2016, representing about 2% of the budget. So the entirety of the BTC market cap is about twice the size of one welfare program, representing 2% of the overall budget. Where should we place the current security power bars if we want guaranteed safety from a determined U.S. gov? If 50,000 is guaranteed safe we're far from it. I'd say BTC is more like 5,000. That's still pretty decent. Of course, BCH split from BTC... and didn't carry over all the miners and accompanying security. That's not an immediate concern because if BTC isn't on government's radar yet BCH sure isn't. However, that doesn't mean BCH doesn't need security from hostile forces. It's still a valuable network and needs defenses. Where would we put power bars for BCH? If BTC is 5,000 and BCH only has 3% of that hashrate then BCH has just 150. That's it. How the Developer Funding Plan Works Back to the DFP. What this says is as a community we agree to break off a piece of the block reward and instead of giving 100% to miners we give a small percent to developers. If each block is 10 coins and the price is $300 then winning a block means winning $3,000. Of course that's not all profit because miners have electricity and other expenses to pay before calculating profit. So if we reduce the portion of the miner reward by 10% so they get just 9 coins per block yet the price stays the same what happens? It means miners receive $2,700 for the same effort. We've just made it more expensive to mine BCH from the point of view of miners. What would any miner then rationally do? Seek profitability elsewhere if available. Suddenly BTC SHA256 hashing looks slightly more attractive so they'll go there. Hashrate leaves BCH and goes to BTC, but the key important point is BOTH chains have a difficulty adjustment algorithm which adjusts to account for rising or lowering miners overall, which keeps the coin inflation rate steady. This means BTC total hashrate rises (more miners compete for BTC) and its Difficulty Level rises accordingly, so the same rate of BTC pumps out; on BCH total hashrate falls (less miners compete for BCH) and its Difficulty falls, so the same rate of BCH pumps out. Inflation remains about the same on both coins so the price of both coins doesn't change any, beyond what it normally does based on news/events etc. So what difference is there? The difference is total network security. Hashrate totals have changed. BTC gains more miner securing hashrate while BCH loses it. So BTC goes from 5,000 to say 5,100 power bars. BCH goes from about 150 to 140. Does any of that matter in the grand scheme of things? Not in the slightest. Part of the reason is due to our emergency circumstances with BCH we had to rework our security model. Our primary defense is an idea I came up with, which BitcoinABC implemented, saying it's not sheer hashpower that dictates what chain we follow. We won't replace a chain we're working on if a new one suddenly appears if it means changing more than 10 blocks deep of history. This prevents all the threatening hashrate hanging over our heads from mining a secret chain and creating havoc unleashing it causing 10+ confimed txs to be undone, while exchanges, gambling sites etc. have long since paid out real world money. Switching $6M worth of block rewards from mining to devs just means we lose a bit of hashrate security, while we gain those funds for development. Nothing more. Nobody holding BCH pays in the form of inflation or any other way. It costs literally NOTHING BECAUSE The block reward is ALREADY ALLOCATED. It will EITHER go 100% to mining security if we do nothing, or go to both miners and devs if the plan is put into effect. Hopefully this helps. :) TL;DR: we switch security which we don't really need, for developer funding which we do.
White Paper, Miner, Pizza … | "Old Objects" in the Cryptocurrency Museum
https://preview.redd.it/giu1ssilga151.jpg?width=900&format=pjpg&auto=webp&s=41510785ccdc0d99544ec74229f62427d1c0ce3e Museum has played the role of a time recorder. Talking about bitcoin, more than ten years has passed since the creation of it. Although it is uncomparable to the stock market with a hundred years of history, during the ten years, in the different stages of the development of bitcoin and blockchain have continuously poured in geeks, miners, speculators, newbies, leaving keywords such as sudden rich, myth, scam, belief, revolution, etc. There are also many “old objects” with stories in the “Museum” of the cryptocurrency realm. On Museum Day, let ’s review the stories brought by these “old objects”. The First Digital Currency White Paper — Bitcoin White Paper On Oct. 31, 2008, Satoshi Nakamoto released the Bitcoin white paper — A Peer-to-Peer Electronic Cash System in the cryptographic mail group where he belongs, and Bitcoin was born since then. A white paper is a document that explains the purpose and technology used in cryptocurrency. Usually a cryptocurrency uses the white paper to help people understand what it provides, and it is also an important information channel for investors to understand a project. Therefore, the level of the white paper affects people’s confidence towards the coin. In a word, in the cryptocurrency and blockchain industry, the value of a white paper is equivalent to that of a standard financing speech. The white paper plays a vital role in this emerging market. The First Public Bitcoin-Physical Transaction — Pizza Since Satoshi Nakamoto mined the Bitcoin genesis block on January 3, 2009, Bitcoin has only been spread among the small crowd and has not realized its value. Not until May 22, 2010, Bitcoin enthusiast “Laszlo Hanyecz” bought a pizza coupon worth $25 with 10,000 bitcoins. This is the first public bitcoin-physical transaction. Bitcoin has its price with 0.3 cents per bitcoin. This day has also become the famous “Bitcoin Pizza Day” in Bitcoin history. Bitcoin as the imagination of the financial system has more practical significance. The tenth anniversary is coming. How will you commemorate it? Will you buy a pizza? The First Digital Asset Exchange — Bitcoinmarket.com After the birth of Bitcoin, in addition to mining, the only way to get Bitcoin in the early days was to conduct transactions on forums or IRC (commonly known as Internet Relay Chat). However, this method involves both long transaction time and great security risk. In March 2010, the first digital asset exchange — Bitcoinmarket.com launched. However, due to lack of liquidity and transaction depth, it disappeared soon after its establishment, but Bitcoinmarket.com opened the era of the operation of the cryptocurrency realm exchange 1.0. On June 9, 2011, China’s first Bitcoin exchange — Bitcoin China (BTCChina) launched. Its founder, Yang Linke, translated Bitcoin into Chinese “比特币” for the first time. In 2013, China’s bitcoin trading entered the golden age, and exchanges sprung up. China monopolized more than 90% of the world’s bitcoin transactions. Now, if the top three exchanges Binance, Huobi Global, OKEx are the Exchange 2.0, then the index exchange represented by 58COIN called the 3.0 version, leading the trend. The First Generation of High-Performance Miner — ASIC Miner When Satoshi Nakamoto created Bitcoin, the only way to get it is to use computers (including home computers) to mine, mainly relying on the CPU to calculate. However, as the value of digital currencies such as Bitcoin has become higher and higher, mining has become an industry with the competition is getting fiercer, accompanied by increasing difficulty of mining. Therefore, hardware performance competition starts. In July 2012, the genius Jiang Xinyu (Internet nickname is “Friedcat”) from the junior class of the University of Science and Technology declared at the forum that he could make ASIC miners (chips). As far as mining computing power is concerned, ASICs can be tens of thousands or more higher than the same-generation CPUs and GPUs. At the beginning of 2013, Zhang Nanqian (Pumpkin Zhang), a suspended doctoral student from the Beijing University of Aeronautics and Astronautics, developed the ASIC miner and named it “Avalon”. In June 2013, the Friedcat’s miner USB was finally released, and it maintained 20% of the computing power of the entire network. At the end of 2013, Wu Jihan, used the tens of millions yuan earned from Friedcat through investment, worked together with Jenke group, to develop the Antminer S1. Since then, the miner manufacturer Bitmain began to enter the stage of history. It is no exaggeration to say that Friedcat and Zhang Nangeng have opened the domestic “mining” era. The Birthplace of China’s Bitcoin — Garage Coffee It is not only the “old objects” that record history, but also a place that everyone in the cryptocurrency realm aspires to. Guo Hongcai once said, “Without no The Garage Café, there will be no cryptocurrency realm today. Since it is a very mysterious place that all waves of people from the café joint together to create today’s digital asset industry. ▲ In March 2013, American student Jake Smith successfully purchased a cup of coffee at The Garage Café with 0.131 bitcoins. This move attracted the attention of CCTV, and it conducted an interview. Indeed, The Garage Café is the world ’s first entrepreneurial-themed coffee shop. It has been legendary since its establishment in 2011. The Garage Cafét is not only the core coordinate on China’s Bitcoin map, but also the birthplace of the Chinese cryptocurrency circle, where digital asset realm tycoons including Guo Hongcai, Zhao Dong, Li Xiaolai, Li Lin have made their ways. The development of digital currency is only 11 years old. Through these “old objects”, we review the various stories of this wave of technology together, hoping to help you understand the development process of the digital currency field. Meanwhile, I also remind all practitioners to use history as a mirror and forge ahead. Website: https://www.58ex.com/ Twitter: https://twitter.com/58_coin Facebook: https://www.facebook.com/coin.58COIN Telegram: https://t.me/official58 Medium: https://medium.com/@58coin_blog/
https://preview.redd.it/5ihj6bi79dr41.jpg?width=6480&format=pjpg&auto=webp&s=babfa7255e9c017508197ec0bc7319d74b1050c9 Many of the investors and financial institutions that I talk to are hesitant to invest in cryptocurrencies, often saying that they can’t determine their real value. For example, if we were looking to buy equity in a company, we could look at its fundamentals and make a prudent decision about whether to invest in it or not. Crypto is different in that, it is in its early days and cannot present evidence of a long track record. Admittedly, the process of value assessment may not be as straightforward for cryptocurrencies as for some of the more traditional asset classes. However, we can still refer to certain other drivers to help us form an assessment of value. Let’s start with the original cryptocurrency, Bitcoin, and discuss how it compares to gold and commodities. Valuing Bitcoin — Stock to Flow Ratio Bitcoin is often valued using the stock to flow ratio, which quantifies the “hardness” of an asset. A report by Bayerische Landesbank found that: “Applied to Bitcoin, an unusually strong correlation emerges between the market value of this cryptocurrency and the ratio between existing stockpiles of Bitcoin (“stock”) and new supply (“flow”).” The book “The Bitcoin Standard” by Saifedean Ammous introduced the stock-to-flow approach in relation to valuing Bitcoin. The supply of Bitcoin can be engineered at will. Satoshi set into the protocol a drastic decline in supply growth (due to halving every 4 years). Price is decoupled from mining efforts, so as the price rises, the difficulty of mining Bitcoin increases. Subsequently, new supply, or flow, correspondingly reduces. The supply profile is guaranteed by the existing setup — if the supply profile were to change, it would adversely affect the peer to peer network that holds bitcoin and dilute the value of their coins. As a comparison, the stock to flow ratio is the way gold is valued. Gold is used as a store of value in hard times. The supply of gold cannot be increased in huge quantities, and the annual production of fresh gold (“flow”) is limited, adding only incrementally to the existing stockpile (“stock”). So gold is described as having a high stock to flow ratio. However much the price of gold increases, the amount produced will not be increased exponentially, which would dilute the stock to flow ratio. The next Bitcoin halving is due to take place in May 2020, potentially hugely increasing the stock to flow ratio of Bitcoin. It will be interesting to see what that does to the Bitcoin price. Valuing according to utility A cryptocurrency must have a strong use case to incentivize people to have the coins. How useful a coin is feeds through to the value of the coin. If we take the example of Ether, in order to execute commands and develop applications in the Ethereum blockchain, you need to own Ether. The Ether is converted into “Gas”, which is used to run the network. Ether is, therefore, the currency used to drive transactions and development on the Ethereum blockchain. The more people that are transacting with and on Ethereum, the greater the demand for Ether becomes, eventually leading to a price increase. “Users will use the infrastructure that offers them the applications they need. And yes, at the moment this is clearly Ethereum. There are more Apps and smart contracts deployed on Ethereum than on all other application-focused blockchain protocols put together.” Max Lautenschläger, Managing Partner, Iconic Holding Therefore, price of utility protocols is contingent upon the community engaging them and adoption of applications built on top of them. As long as they continue to build and adopt, because it is useful for them, the growing utility that will continue to drive value. There are many other types of cryptocurrencies and crypto assets, as my colleague highlighted in a recent article. Crypto may be in its early stages and be extremely volatile, but traditionally-minded investors and financial institutions can rest easy knowing there are standard ways through which value can be calculated. # # # This article is strictly for educational purposes and isn’t to be construed as financial advice. By Sara Sabin, Business Development, Iconic Holding
A better anti-reorg algorithm using first-seen times to punish secret/dishonest mining
Bitcoin currently allows a malicious miner with at least 51% of the network hashrate to arbitrarily rewrite blockchain history. This means that transactions are reversible if they belong to a miner with a hashrate majority, and such transactions are subject to double-spend attempts. Bitcoin SV's miners have repeatedly threatened to perform this attack against exchanges using BCH by mining a secret, hidden chain which they only publish after they have withdrawn funds in a different currency from the exchange. It would be nice if we could prevent these secret mining re-org attacks. Yesterday, I came up with a new algorithm for making secret re-org attacks very expensive and difficult to pull off. This new algorithm is designed to avoid the permanent chainsplit vulnerabilities of ABC 0.18.5 while being more effective at punishing malicious behavior. The key to the new algorithm is to punish exactly the behavior that indicates malice. First, publishing a block after another block at the same height has arrived on the network suggests malice or poor performance, and the likelihood of malice increases as the delay increases. A good algorithm would penalize blocks in proportion to how much later they were published after the competing block. Second, building upon a block that was intentionally delayed is also a sign of malice. Therefore, a good algorithm would discount the work done by blocks based not only on their own delays, but the delays that were seen earlier in that chain as well. Since the actions at the start of the fork are more culpable (as they generate the split), we want to weight those blocks more heavily than later blocks. I wrote up an algorithm that implements these features. When comparing two chains, you look at the PoW done since the fork block, and divide that PoW by a penalty score. The penalty score for each chain is calculated as the sum of the penalty scores for each block. Each block's penalty score is equal to the apparent time delay of that block relative to its sibling or cousin, divided by 120 seconds, and further divided by the square of that block's height from the fork. This algorithm has some desirable properties:
It provides smooth performance. There are no corners or sharp changes in its incentive structure or penalty curve.
It converges over very long time scales. Eventually, if one chain has more hashrate than the other and that is sustained indefinitely, the chain with the most hashrate will win by causing the chain penalty score for the slower (less-PoW) chain to grow.
The long-term convergence means that variation in observed times early in the fork will not cause permanent chainsplits.
Long-term convergence means that nodes can follow the standard most-PoW rule during initial block download and get the same results unless an attack is underway, in which case the node will only temporarily disagree.
Over intermediate time scales (e.g. hours to weeks), the penalty given to secret-mining deep-reorg chains is very large and difficult to overcome even with a significant hashrate advantage. The penalty increases the longer the attack chain is kept secret. This makes attack attempts ineffective unless they are published within about 20 minutes of the attack starting.
Single-block orphan race behavior is identical to existing behavior unless one of the blocks has a delay of at least 120 seconds, in which case that chain would require a total of 3 blocks to win (or more) instead of just 2.
As the algorithm strongly punishes hidden chains, finalization becomes much safer as long as you prevent finalization from happening while there are known competitive alternate chains. However, this algorithm is still effective without finalization.
I wrote up this algorithm into a Python sim yesterday and have been playing around with it since. It seems to perform quite well. For example, if the attacker has 1.5x as much hashrate as the defenders (who had 100% of the hashrate before the fork), mine in secret for 20 minutes before publishing, and if finalization is enabled after 10 blocks when there's at least a 2x score advantage, then the attacker gets an orphan rate of 49.3% on their blocks and is only able to cause a >= 10 block reorg in 5.2% of cases, and none of those happen blindly, as the opposing chain shows up when most transactions have about 2 confirmations. If the attacker waits 1 hour before publishing, the attack is even less effective: 94% of their blocks are orphaned, 95.6% of their attempts fail, 94.3% of the attacks end with defenders successfully finalizing, and only 0.6% of attack attempts result in a >= 10 block reorg. The code for my algorithm and simulator can be found on my antiReorgSim Github repository. If you guys have time, I'd appreciate some review and feedback. To run it:
git clone https://github.com/jtoomim/antiReorgSim.git cd antiReorgSim python reorgsim.py # use pypy if you have it, as it's 30x faster
Thanks! Special thanks to Jonald Fyookball and Mark Lundeberg for reviewing early versions of the code and the ideas. I believe Jonald is working on a Medium post based on some of these concepts. Keep an eye out for it. Edit: I'm working on an interactive HTML visualization using Dash/Python! Here's a screenshot from a preliminary version in which convergence (or attacker victory, if you prefer) happens after 88.4 hours. In this scenario, the attacker wins because of the rule in Note 5. Edit 2: An alpha website version of the simulator is up! The code is all server-side for the simulation, so it might get overloaded if too many people hit it at the same time, but it might be fine. Feel free to play around with it! Note 1: This time delay is calculated by finding the best competing chain's last block with less work than this one and the first block with more work than this one and interpolating the time-first-seen between the two. The time at which the block was fully downloaded and verified is used as time-first-seen, not the time at which the header was received nor the block header's timestamp. Note 2: An empirical constant, intended to be similar to worst-case block propagation times. Note 3: A semi-empirical constant; this balances the effect of early blocks against late blocks. The motivation for squaring is that late blocks gain an advantage for two multiplicative reasons: First, there are more late blocks than early blocks. Second, the time deltas for late blocks are larger. Both of these factors are linear versus time, so canceling them out can be done by dividing by height squared. This way, the first block has about as much weight as the next 4 blocks; the first two blocks have as much weight as the next 9 blocks; and the first (n) blocks have about as much weight as the next (n+1)2 blocks. Any early advantage can be overcome eventually by a hashrate majority, so over very long time scales (e.g. hours to weeks), this rule is equivalent to the simple Satoshi most-PoW rule, as long as the hashrate on each chain is constant. However, over intermediate time scales, the advantage to the first seen blocks is large enough that the hashrate will likely not remain constant, and hashrate will likely switch over to whichever chain has the best score and looks the most honest. Note 4: The calculation doesn't actually use height, as that would be vulnerable to DAA manipulation. Instead, the calculation uses pseudoheight, which uses the PoW done and the fork block's difficulty to calculate what the height would be if all blocks had the fork block's difficulty. Note 5: If one chain has less PoW than the other, the shorter chain's penalty is calculated as if enough blocks had been mined at the last minute to make them equal in PoW, but these fictional blocks do not contribute to the actual PoW of that chain.
First time, long time here...I love bitcoin. I used to mine around 2013 on my gtx480, earned enough to play some satoshi dice every couple days, just to play until i lost it all. honestly, it was fun at the time. One day I had enough and just zipped it into password-i-can-no-longer-remember file and the rest is history. my latest foray into bitcoin has since focused on the keeping-them-secure side of things. (love that trezor). Anyway, here's the question- How would one manually calculate the hash-- using a sha-256 calculator, or something of that ilk -- in order to confirm the work of the latest block? My understanding is that the header with all the transactions and such is hashed with a nonce in order to get a hashed value under a certain amount of zero's, depending on network difficulty. Therefore, all anyone needs to do is compute the the header hash for themselves and confirm the hash number (along with the obvious other rules of ensuring all TX's have enough balance, coinbase fee is per protocol, etc.) This all could be nonsense, I have zero programming knowledge.
Ryan charles last video summed up: "we want to create a ridiculous expensive script so that nchain can sell you their magic patented solution that DSV obsoletes".
Honestly, this is already beyond ridiculous. The guy who says that csw is satoshi wants to centrally plan how much sats this or that use-case needs to pay, while nothing at all of the original fee design of bitcoin changes with DSV: pay x sats for y bytes. Apparently, you can do the same with some other scripts and it costs only outrageous hundreds of kilobytes. Of course no one will use it, no one will pay 2, 5, 10 bucks to validate a single RSA signature or similar. There's a reason why bitcoin is not pay-for-cpu-cycle, because this is impossible to measure and doesn't reflect the load as good as the bandwidth. But Ryan wants you to believe it is fair that you continue to use an abacus instead of a pocket calculator. There's also another reason as to why miners won't care, they can set apart those Tx to be inserted after they already exhausted a nonce round, validate them, create a new block template and voilá, no impact whatsoever in mining, and this is considering the case they just received them. This is not a problem really. TL;DR: What this is is the oldest game in the world: "create difficulty to sell solutions". Create a ridiculous equivalent to DSV so that nChain PATENTED SOLUTION THAT DSV OBSOLETES can be sold as substitute.
Constructing an Opt-In alternative reward for securing the blockchain
Since a keyboard with a monero logo got upvoted to the top I realized I should post various thoughts I have and generate some discussion. I hope others do the same. Monero is currently secured by a dwindling block reward. There is a chance that the tail emission reward + transaction fees to secure the blockchain could become insufficient and allow for a scenario where it is profitable for someone to execute a 51% attack. To understand this issue better, read this:
In Game Theory, Tragedy of the Commons is a market failure scenario where a common good is produced in lower quantities than the public desires, or consumed in greater quantities than desired. One example is pollution - it is in the public's best interest not to pollute, but every individual has incentive to pollute (e.g. because burning fossil fuel is cheap, and individually each consumer doesn't affect the environment much). The relevance to Bitcoin is a hypothetical market failure that might happen in the far future when the block reward from mining drops near zero. In the current Bitcoin design, the only fees miners earn at this time are Transaction fees. Miners will accept transactions with any fees (because the marginal cost of including them is minimal) and users will pay lower and lower fees (in the order of satoshis). It is possible that the honest miners will be under-incentivized, and that too few miners will mine, resulting in lower difficulty than what the public desires. This might mean various 51% attacks will happen frequently, and the Bitcoin will not function correctly. The Bitcoin protocol can be altered to combat this problem - one proposed solution is Dominant Assurance Contracts. Another more radical proposal (in the sense that the required change won't be accepted by most bitcoiners) is to have a perpetual reward that is constant in proportion to the monetary base. That can be achieved in two ways. An ever increasing reward (inflatacoin/expocoin) or a constant reward plus a demurrage fee in all funds that caps the monetary base (freicoin). This scenario was discussed on several threads: - Tragedy of the Commons - Disturbingly low future difficulty equilibrium https://bitcointalk.org/index.php?topic=6284.0 - Stack Exchange http://bitcoin.stackexchange.com/questions/3111/will-bitcoin-suffer-from-a-mining-tragedy-of-the-commons-when-mining-fees-drop-t Currently there is no consensus whether this problem is real, and if so, what is the best solution.
Dominant assurance contracts Dominant assurance contracts, created by Alex Tabarrok, involve an extra component, an entrepreneur who profits when the quorum is reached and pays the signors extra if it is not. If the quorum is not formed, the signors do not pay their share and indeed actively profit from having participated since they keep the money the entrepreneur paid them. Conversely, if the quorum succeeds, the entrepreneur is compensated for taking the risk of the quorum failing. Thus, a player will benefit whether or not the quorum succeeds; if it fails he reaps a monetary return, and if it succeeds, he pays only a small amount more than under an assurance contract, and the public good will be provided. Tabarrok asserts that this creates a dominant strategy) of participation for all players. Because all players will calculate that it is in their best interests to participate, the contract will succeed, and the entrepreneur will be rewarded. In a meta-game, this reward is an incentive for other entrepreneurs to enter the DAC market, driving down the cost disadvantage of dominant assurance contract versus regular assurance contracts.
Monero doesn't have a lot of scripting options to work with currently so it is very hard for me to understand how one might go about creating a Dominant Assurance Contract using Monero, especially in regards to paying out to a miner address. This is how it could work in Bitcoin:
https://en.bitcoin.it/wiki/Dominant_Assurance_Contracts This scheme is an attempt at Mike Hearn's exercise for the reader: an implementation of dominant assurance contracts. The scheme requires the use of multisignature transactions, nLockTime and transaction replacement which means it won't work until these features are available on the Bitcoin network. A vendor agrees to produce a good if X BTC are raised by date D and to pay Y BTC to each of n contributors if X BTC are not raised by date D, or to pay nY BTC if X BTC are raised and the vendor fails to produce the good to the satisfaction of 2 of 3 independent arbitrators picked through a fair process The arbitrators specify a 2-of-3 multisignature script to use as an output for the fundraiser with a public key from each arbitrator, which will allow them to judge the performance on actually producing the good For each contributor: The vendor and the contributor exchange public keys They create a 2-of-2 multisignature output from those public keys With no change, they create but do not sign a transaction with an input of X/n BTC from the contributor and an input of Y BTC from the vendor, with X/n+Y going to the output created in 3.2 The contributor creates a transaction where the output is X+nY to the address created in step 2 and the input is the output of the transaction in 3.3, signs it using SIGHASH_ALL | SIGHASH_ANYONECANPAY, with version = UINT_MAX and gives it to the vendor The vendor creates a transaction of the entire balance of the transaction in 3.3 to the contributor with nLockTime of D and version < UINT_MAX, signs it and gives it to the contributor The vendor and contributor then both sign the transaction in 3.3 and broadcast it to the network, making the transaction in 3.4 valid when enough contributors participate and the transaction in 3.5 valid when nLockTime expires As date D nears, nLockTime comes close to expiration. If enough (n) people contribute, all of the inputs from 3.4 can combine to make the output valid when signed by the vendor, creating a valid transaction sending that money to the arbitrators, which only agree to release the funds when the vendor produces a satisfactory output If not enough people ( Note that there is a limit at which it can be more profitable for the vendor to make the remaining contributions when D approaches Now the arbitrators have control of X (the payment from the contributors) + nY (the performance bond from the vendor) BTC and pay the vendor only when the vendor performs satisfactorily Such contracts can be used for crowdfunding. Notable examples from Mike Hearn include: Funding Internet radio stations which don't want to play ads: donations are the only viable revenue source as pay-for-streaming models allow undercutting by subscribers who relay the stream to their own subscribers Automatically contributing to the human translation of web pages
Monero has these features:
LockTime (but it is much different then BTCs)
A possibility to do MoJoin (CoinJoin) like transactions, even if less then optimally private. There is hope that the MoJoin Schemes will allow for better privacy in the future:
I have a draft writeup for a merged-input system called MoJoin that allows multiple parties to generate a single transaction. The goal is to complete the transaction merging with no trust in any party, but this introduces significant complexity and may not be possible with the known Bulletproofs multiparty computation scheme. My current version of MoJoin assumes partial trust in a dealer, who learns the mappings between input rings and outputs (but not true spends or Pedersen commitment data).
Time to discuss the elephant in the room. Nicehash 51% Attacks.
While I've argued for ProgPoW because I'm not a fan of ASIC manufactures because of their malicious business practices, I think we all know the real problem for PoW security, Hashrate Rental sites. Let's go through a short-list of coins that are listed on Nicehash, where hashpower could be bought and then executed a 51% attack. Monacoin 51% BitcoinGold 51% EthereumClassic 51% Vertcoin 51% ZenCash(Now Horizen) 51% BitcoinPrivate 51% (Ethical Hack) Nicehash has been the #1 to go to "sell" hashpower for whatever coin they support for BTC and other rental services such as miningrigrental. While we cannot prove that this attacks were used by buying hashpower on nicehash, a ethical hacker Geocold lived streamed how easy it was to attack PoW coin BTCP. "using a couple of hundred dollars’ worth of rented hashpower he’d purchased from Nicehash with BTC" (bitcoin.com). We can assume then that other 51% attacks all follow this method. Step 1. Buy more Hashpower than the current network using rental services Step 2. moves coins on the true network to other addresses, makes deposits, then withdraws them to a safe addresses Step 3. broadcast the untruthful chain to the network Step 4. this reverts the truthful network. Step 5. Profit.
Shockingly, several crypto-currencies not only were cheap to attack but also had plenty of hash rate for sale on NiceHash with which such an attack could take place. When 51% attacks were considered in the past, most calculations included the cost of hardware, electricity, and maintenance. But this new “rent-a-attack” method is proving dangerous for smaller networks. (ccn.com)
This is what happened to ETC recently. Few people who were using nicehash services commented that they noticed a pay-bump mining ETH-HASH.
One PoW altcoin team has set up a script to constantly monitor their hashrate. In the event of a spike of over 10%, they will be automatically notified. Should the newly added hashrate emanate from an unknown pool, or be in danger of tipping an existing pool over 50%, they have a large quantity BTC on standby with Nicehash ready to purchase their own firepower to counter the attack (bitcoin.com)
Again it shows the only way that people counter this is to over-bid/buy more hashrate. While I understand PoS doesn't suffer from these type of attacks. However I find it unreasonable to say PoW is flawed because 51% attacks. Hashrental services we not envisioned by Satoshi's PoW. Any actual mining actors not using hash rentals would need a sizable amount of resources to perform a 51% and double-spend even on small cap coins. Nicehash takes your money and doesn't care. The elephant Crypto needs to deal with it shutting off nicehash and rental services. After the nicehash hack I know I saw a sizable increase in profits because difficulty dropped on so many coins. IMHO Nicehash needs to turn-off purchasing hashrate and instead turn to "auto-covert" where they mine the coin that's profitable that day and turn into bitcoin for the user. We wouldn't have the chance of 51% attacks.
[Blockchain Classroom] Lesson 11：Why hasn't Bitcoin been completely mined yet?
The Bitcoin system relies on adjusting the difficulty factor to ensure that Bitcoin will not be mined too quickly. Every 10 minutes, miners across the network calculate one problem together, competing for bookkeeping rights and Bitcoin rewards. If the computing power of the entire network continues to grow, Bitcoin will be completely mined soon. In order to ensure the mining of one block in about 10 minutes, Satoshi Nakamoto designed the difficulty for miners to obtain bitcoin through mining is dynamically adjusted every 2016 blocks (about every 2 weeks). The expected time to generate a block after adjustment is 10 minutes. The current difficulty coefficient is about 480PH/s, which is about 68 billion times that of the genesis block. In other words, with the current computing power, miners across the network need to go through about 300 trillion trillion hash operations to find a qualified answer and generate a new block.
What are cryptocurrencies? Cryptocurrencies are peer to peer technology protocols which rely on the block-chain; a system of decentralized record keeping which allows people to exchange unmodifiable and indestructible information “coins,” globally in little to no time with little to no fees – this translates into the exchange of value as these coins cannot be counterfeit nor stolen. This concept was started by Satoshi Nakamoto (allegedly a pseudonym for a single man or organization) whom described and coded Bitcoin in 2009. What is DigiByte? DigiByte (DGB) is a cryptocurrency like Bitcoin. It is also a decentralized applications protocol in a similar fashion to Neo or Ethereum. DigiByte was founded and created by Jared Tate in 2014. DigiByte allows for fast (virtually instant) and low cost (virtually free) transactions. DigiByte is hard capped at 21 billion coins which will ever be mined, over a period of 21 years. DigiByte was never an ICO and was mined/created in the same way that Bitcoin or Litecoin initially were. DigiByte is the fastest UTXO PoW scalable block-chain in the world. We’ll cover what this really means down below. DigiByte has put forth and applied solutions to many of the problems that have plagued Bitcoin and cryptocurrencies in general – those being:
Maintaining low fees.
Maintaining fast transaction times.
Maintaining robust security + the immutable ledger.
And most importantly assuring massive scalability on chain.
We will address these point by point in the subsequent sections. The DigiByte Protocol DigiByte maintains these properties through use of various technological innovations which we will briefly address below. Why so many coins? 21 Billion When initially conceived Bitcoin was the first of a kind! And came into the hands of a few! The beginnings of a coin such as Bitcoin were difficult, it had to go through a lot of initial growth pains which following coins did not have to face. It is for this reason among others why I believe Bitcoin was capped at 21 million; and why today it has thus secured a place as digital gold. When Bitcoin was first invented no one knew anything about cryptocurrencies, for the inventor to get them out to the public he would have to give them away. This is how the first Bitcoins were probably passed on, for free! But then as interest grew so did the community. For them to be able to build something and create something which could go on to have actual value, it would have to go through a steady growth phase. Therefore, the control of inflation through mining was extremely important. Also, why the cap for Bitcoin was probably set so low - to allow these coins to amass value without being destroyed by inflation (from mining) in the same way fiat is today! In my mind Satoshi Nakamoto knew what he was doing when setting it at 21 million BTC and must have known and even anticipated others would take his design and build on top of it. At DigiByte, we are that better design and capped at 21 billion. That's 1000 times larger than the supply of Bitcoin. Why though? Why is the cap on DigiByte so much higher than that of Bitcoin? Because DigiByte was conceived to be used not as a digital gold, nor as any sort of commodity, but as a real currency! Today on planet Earth, we are approximately 7.6 billion people. If each person should want or need to use and live off Bitcoin; then equally split at best each person could only own 0.00276315789 BTC. The market cap for all the money on the whole planet today is estimated to have recently passed 80 trillion dollars. That means that each whole unit of Bitcoin would be worth approximately $3,809,523.81! $3,809,523.81 This is of course in an extreme case where everyone used Bitcoin for everything. But even in a more conservative scenario the fact remains that with such a low supply each unit of a Bitcoin would become absurdly expensive if not inaccessible to most. Imagine trying to buy anything under a dollar! Not only would using Bitcoin as an everyday currency be a logistical nightmare but it would be nigh impossible. For each Satoshi of a Bitcoin would be worth much, much, more than what is realistically manageable. This is where DigiByte comes in and where it shines. DigiByte aims to be used world-wide as an international currency! Not to be hoarded in the same way Bitcoin is. If we were to do some of the same calculations with DigiByte we'd find that the numbers are a lot more reasonable. At 7.6 billion people, each person could own 2.76315789474 DGB. Each whole unit of DGB would be worth approximately $3,809.52. $3,809.52 This is much more manageable and remember in an extreme case where everyone used DigiByte for everything! I don't expect this to happen anytime soon, but with the supply of DigiByte it would allow us to live and transact in a much more realistic and fluid fashion. Without having to divide large numbers on our phone's calculator to understand how much we owe for that cup of coffee! With DigiByte it's simple, coffee cost 1.5 DGB, the cinema 2.8 DGB, a plane ticket 500 DGB! There is a reason for DigiByte's large supply, and it is a good one! Decentralisation Decentralisation is an important concept for the block-chain and cryptocurrencies in general. This allows for a system which cannot be controlled nor manipulated no matter how large the organization in play or their intentions. DigiByte’s chain remains out of the reach of even the most powerful government. This allows for people to transact freely and openly without fear of censorship. Decentralisation on the DigiByte block-chain is assured by having an accessible and fair mining protocol in place – this is the multi-algorithm (MultiAlgo) approach. We believe that all should have access to DigiByte whether through purchase or by mining. Therefore, DigiByte is minable not only on dedicated mining hardware such as Antminers, but also through use of conventional graphics cards. The multi-algorithm approach allows for users to mine on a variety of hardware types through use of one of the 5 mining algorithms supported by DigiByte. Those being:
Please note that these mining algorithms are modified and updated from time to time to assure complete decentralisation and thus ultimate security. The problem with using only one mining algorithm such as Bitcoin or Litecoin do is that this allows for people to continually amass mining hardware and hash power. The more hash power one has, the more one can collect more. This leads to a cycle of centralisation and the creation of mining centres. It is known that a massive portion of all hash power in Bitcoin comes from China. This kind of centralisation is a natural tendency as it is cheaper for large organisations to set up in countries with inexpensive electricity and other such advantages which may be unavailable to the average miner. DigiByte mitigates this problem with the use of multiple algorithms. It allows for miners with many different kinds of hardware to mine the same coin on an even playing field. Mining difficulty is set relative to the mining algorithm used. This allows for those with dedicated mining rigs to mine alongside those with more modest machines – and all secure the DigiByte chain while maintaining decentralisation. Low Fees Low fees are maintained in DigiByte thanks to the MultiAlgo approach working in conjunction with MultiShield (originally known as DigiShield). MultiShield calls for block difficulty readjustment between every single block on the chain; currently blocks last 15 seconds. This continuous difficulty readjustment allows us to combat any bad actors which may wish to manipulate the DigiByte chain. Manipulation may be done by a large pool or a single entity with a great amount of hash power mining blocks on the chain; thus, increasing the difficulty of the chain. In some coins such as Bitcoin or Litecoin difficulty is readjusted every 2016 blocks at approximately 10mins each and 2mins respectively. Meaning that Bitcoin’s difficulty is readjusted about every two weeks. This system can allow for large bad actors to mine a coin and then abandon it, leaving it with a difficulty level far too high for the present hash rate – and so transactions can be frozen, and the chain stopped until there is a difficulty readjustment and or enough hash power to mine the chain. In such a case users may be faced with a choice - pay exorbitant fees or have their transactions frozen. In an extreme case the whole chain could be frozen completely for extended periods of time. DigiByte does not face this problem as its difficulty is readjusted per block every 15 seconds. This innovation was a technological breakthrough and was adopted by several other coins in the cryptocurrency environment such as Dogecoin, Z-Cash, Ubiq, Monacoin, and Bitcoin Gold. This difficulty readjustment along with the MultiAlgo approach allows DigiByte to maintain the lowest fees of any UTXO – PoW – chain in the world. Currently fees on the DigiByte block-chain are at about 0.0001 DGB per transaction of 100 000 DGB sent. This depends on the amount sent and currently 100 000 DGB are worth around $2000.00 with the fee being less than 0.000002 cents. It would take 500 000 transactions of 100 000 DGB to equal 1 penny’s worth. This was tested on a Ledger Nano S set to the low fees setting. Fast transaction times Fast transactions are ensured by the conjunctive use of the two aforementioned technology protocols. The use of MultiShield and MultiAlgo allows the mining of the DigiByte chain to always be profitable and thus there is always someone mining your transactions. MultiAlgo allows there to a greater amount of hash power spread world-wide, this along with 15 second block times allows for transactions to be near instantaneous. This speed is also ensured by the use DigiSpeed. DigiSpeed is the protocol by which the DigiByte chain will decrease block timing gradually. Initially DigiByte started with 30 second block times in 2014; which today are set at 15 seconds. This decrease will allow for ever faster and ever more transactions per block. Robust security + The Immutable Ledger At the core of cryptocurrency security is decentralisation. As stated before decentralisation is ensured on the DigiByte block chain by use of the MultiAlgo approach. Each algorithm in the MultiAlgo approach of DigiByte is only allowed about 20% of all new blocks. This in conjunction with MultiShield allows for DigiByte to be the most secure, most reliable, and fastest UTXO block chain on the planet. This means that DigiByte is a proof of work (PoW) block-chain where all transactional activities are stored on the immutable public ledger world-wide. In DigiByte there is no need for the Lightning protocol (although we have it) nor sidechains to scale, and thus we get to keep PoW’s security. There are many great debates as to the robustness or cleanliness of PoW. The fact remains that PoW block-chains remain the only systems in human history which have never been hacked and thus their security is maximal. For an attacker to divert the DigiByte chain they would need to control over 93% of all the hashrate on one algorithm and 51% of the other four. And so DigiByte is immune to the infamous 51% attack to which Bitcoin and Litecoin are vulnerable. Moreover, the DigiByte block-chain is currently spread over 200 000 plus servers, computers, phones, and other machines world-wide. The fact is that DigiByte is one of the easiest to mine coins there is – this is greatly aided by the recent release of the one click miner. This allows for ever greater decentralisation which in turn assures that there is no single point of failure and the chain is thus virtually un-attackable. On Chain Scalability The biggest barrier for block-chains today is scalability. Visa the credit card company can handle around 2000 transactions per second (TPS) today. This allows them to ensure customer security and transactional rates nation-wide. Bitcoin currently sits at around 7 TPS and Litecoin at 28 TPS (56 TPS with SegWit). All the technological innovations I’ve mentioned above come together to allow for DigiByte to be the fastest PoW block-chain in the world and the most scalable. DigiByte is scalable because of DigiSpeed, the protocol through which block times are decreased and block sizes are increased. It is known that a simple increase in block size can increase the TPS of any block-chain, such is the case with Bitcoin Cash. This is however not scalable. The reason a simple increase in block size is not scalable is because it would eventually lead to some if not a great amount of centralization. This centralization occurs because larger block sizes mean that storage costs and thus hardware cost for miners increases. This increase along with full blocks – meaning many transactions occurring on the chain – will inevitably bar out the average miner after difficulty increases and mining centres consolidate. Hardware cost, and storage costs decrease over time following Moore’s law and DigiByte adheres to it perfectly. DigiSpeed calls for the increase in block sizes and decrease in block timing every two years by a factor of two. This means that originally DigiByte’s block sizes were 1 MB at 30 seconds each at inception in 2014. In 2016 DigiByte increased block size by two and decreased block timing by the same factor. Perfectly following Moore’s law. Moore’s law dictates that in general hardware increases in power by a factor of two while halving in cost every year. This would allow for DigiByte to scale at a steady rate and for people to adopt new hardware at an equally steady rate and reasonable expense. Thus so, the average miner can continue to mine DigiByte on his algorithm of choice with entry level hardware. DigiByte was one of the first block chains to adopt segregated witness (SegWit in 2017) a protocol whereby a part of transactional data is removed and stored elsewhere to decrease transaction data weight and thus increase scalability and speed. This allows us to fit more transactions per block which does not increase in size! DigiByte currently sits at 560 TPS and could scale to over 280 000 TPS by 2035. This dwarfs any of the TPS capacities; even projected/possible capacities of some coins and even private companies. In essence DigiByte could scale worldwide today and still be reliable and robust. DigiByte could even handle the cumulative transactions of all the top 50 coins in coinmarketcap.com and still run smoothly and below capacity. In fact, to max out DigiByte’s actual maximum capacity (today at 560 TPS) you would have to take all these transactions and multiply them by a factor of 10! Oher Uses for DigiByte Note that DigiByte is not only to be used as a currency. Its immense robustness, security and scalability make it ideal for building decentralised applications (DAPPS) which it can host. DigiByte can in fact host DAPPS and even centralised versions which rely on the chain which are known as Digi-Apps. This application layer is also accompanied by a smart contract layer. Thus, DigiByte could host several Crypto Kitties games and more without freezing out or increasing transaction costs for the end user. Currently there are various DAPPS being built on the DigiByte block-chain, these are done independently of the DigiByte core team. These companies are simply using the DigiByte block-chain as a utility much in the same way one uses a road to get to work. One such example is Loly – a Tinderesque consensual dating application. DigiByte also hosts a variety of other platform projects such as the following:
DigiPay – A jqeury online payment protocol portal web plugin.
DigiByte DigiHash - The official DigiByte foundation mining pool.
DigiByte Digi-ID – A platform for identity verification to be used in lieu of two factor authentication and passwords.
DigiByte Emma AI – A DigiByte interactive artificial intelligence assistant.
DigiByte DigiMan – A web browser plugin to be used as a security layer two protocol.
DigiByte DigiSeeder – A background seeding service which assures all wallets quickly find other peers in the network.
DigiByte DigiMessenger – A ground-breaking messaging application built on top of DigiByte which features robust and virtually unbreakable encryption.
DigiByte OneClickMiner – An easy to set up application which allows users to quickly start mining DigiByte on their home machines.
DigiByte DigiBot – A telegram bot for users to interact with DigiByte and more.
The DigiByte Foundation As previously mentioned DigiByte was not an ICO. The DigiByte foundation was established in 2017 by founder Jared Tate. Its purpose is as a non-profit organization dedicated to supporting and developing the DigiByte block-chain. DigiByte is a community effort and a community coin, to be treated as a public resource as water or air. Know that anyone can work on DigiByte, anyone can create, and do as they wish. It is a permissionless system which encourages innovation and creation. If you have an idea and or would like to get help on your project do not hesitate to contact the DigiByte foundation either through the official website and or the telegram developer’s channel. For this reason, it is ever more important to note that the DigiByte foundation cannot exist without public support. And so, this is the reason I encourage all to donate to the foundation. All funds are used for the maintenance of DigiByte servers, marketing, and DigiByte development. DigiByte Resources and Websites DigiByte
OS X Wallet
Rasberry Pi Wallet
Ledger Hardware Wallet
Please refer to the sidebar of this sub-reddit for more resources and information. Edit - Removed Jaxx wallet. Edit - A new section was added to the article: Why so many coins? 21 Billion Edit - Adjusted max capacity of DGB's TPS - Note it's actually larger than I initially calculated. Edit – Grammar and format readjustment Hello, I hope you’ve enjoyed my article, I originally wrote this for the reddit sub-wiki where it generally will most likely, probably not, get a lot of attention. So instead I've decided to make this sort of an introductory post, an open letter, to any newcomers to DGB or for those whom are just curious. I tried to cover every aspect of DGB, but of course I may have forgotten something! Please leave a comment down below and tell me why you're in DGB? What convinced you? Me it's the decentralised PoW that really convinced me. Plus, just that transaction speed and virtually no fees! Made my mouth water! -Dereck de Mézquita I'm a student typing this stuff on my free time, help me pay my debts? Thank you! D64fAFQvJMhrBUNYpqUKQjqKrMLu76j24g https://digiexplorer.info/address/D64fAFQvJMhrBUNYpqUKQjqKrMLu76j24g
DISC may be a better choice if you didn’t seize the opportunity of Bitcoin
https://preview.redd.it/di9avv4gqx441.png?width=1211&format=png&auto=webp&s=eb92d1eaffc52764bfd4bb0f0c55dead94aabf26 At present, the mainstream consensus mechanism of the encryption world is the Proof of Work (POW) used by Bitcoin (BTC) and the Proof of Stake (POS) used by EOS. In addition, there are more than 30 kinds of consensus mechanisms such as Proof of Capacity (POC) in the encryption world. Among them, POC has caused extensive discussion. Together with POC, there is also the cryptocurrency Diskcoin in the POC ecosystem, a core algorithm based on POC, which aims to establish a cryptocurrency of a greener energy-saving mining system. Before introducing POC and Diskcoin, you need to understand POW and BTC first. Proof Of Work Ten years ago, Satoshi Nakamoto took the POW into the BTC mining, which once brought more than 200 billion US dollars in economic value to human society. BTC can sit on the throne of the encrypted world, and POW is indispensable. The BTC changed the traditional business model and the role of “miners” was born. With the development, the miners gradually increased and the competition more fierce. There are large miners, mining pools, mines and other organizations. Due to the emergence of these organizations, the limitations of BTC have gradually emerged. BTC is proud of its decentralization and is no longer decentralized. At the same time, POW was gradually occupied by ASIC. More and more mining machine manufacturers began to participate in mining. The reward of mining was slowly monopolized by giants such as mining machine manufacturers and mining pools, and small miners lost the opportunity to compete on the same stage. BTC has been labeled as a privileged label, and now, without enough assets, it is almost impossible to participate in BTC. Proof Of Capacity The original intention of Satoshi Nakamoto to design BTC is that everyone can participate in mining and participate in the casting of “currency”. Therefore, in the early BTC mining, only one ordinary computer was needed for calculation work. Now, if you want to use a computer to mine BTC, it is simply a dream. The mining is mainly based on GPU and ASIC mining machines. This makes the cost of mining and the difficulty of mining greatly increase. Most of the hashrate of the BTC full net has been controlled by a few mining pools. Power energy is also consumed in large quantities. BTC currently has a total hashrate of 43.42EH/S. It is mainly based on the popular S9 ant mining machine currently on the market. The average S9 hashrate is 13TH/S. The converted BTC full net hashrate is equivalent to 3.34 million S9 mining machines! In use, the power of the S9 is 1500 watts, and the power consumption per day is 36 watts. The power consumption of one S9 per month is 1080 watts. If multiplied by 3.34 million machines, the power consumption of the BTC for one year up to 43.2 billion degrees! The BTC full net has consumed more than 159 countries a year, accounting for 0.2% of global electricity consumption! Can the BTC face a new solution? At this point, POC boarded the stage of the encrypted world and launched a competition with POW. Principle of Proof Of Capacity Before the mining starts, the POC will calculate in advance and the hash value calculated by shabal256 will be stored in the hardisk. This process is called Plotting. The POC uses a hash algorithm called shabal256. Compared to the B256 sha256, the shabal256 algorithm requires a longer calculation and workload. The benefit of Shabal256 is that miners do not need to perform hash calculations during mining, so the verification process will be relatively fast, and shabal256 will also prevent cheating. From this we can know that the energy consumption of POC mining is extremely small. Because the repetitive and large amount of calculations are required compared to the POW, the POC simply scans the stored data. In order to make everyone understand the POC hard drive mining, I will give you a simple example. POC mining process is similar to the lottery in the hardisk, and the process of mining is that you only need to wait for the lottery to draw the prize, you will scan the lottery in the hardisk to confirm whether it is winning, nothing more. Someone here may have doubts, will it be faster to use an SSD hard drive? The clear answer is, no. Because the POC only cares the capacity of the hardisk, the larger the capacity is, the more lottery tickets you store on the hardisk, the greater the probability that you win the prize, and this has nothing to do with what kind of hardisk you use, what brand of hardisk. The POC has changed the traditional mining method, which not only reduces the energy consumption of mining, but also lower the threshold of mining, so that everyone can participate. Diskcoin Diskcoin, referred to as DISC. DISC, like Bitcoin, has a total of 21 million. Based on the consensus of hardisk capacity, DISC lowers the participation threshold and allows more participation in the casting of coins, which is more conducive to the realization of decentralization. DISC uses an upgraded version of the POC algorithm - CPOC Conditioned Proof Of Capacity. Miners need to Stake Diskcoin to get the most reward. The ratio of Staking is not fixed or gradually reduced. Instead, an algorithmic mechanism called DES (Dynamic Equilibrium Staking) is used to adjust the Staking ratio based on the difficulty of mining. DISC's Staking economy model makes it impossible for miners to sell tokens without restrictions. This initiative is also to maintain the healthy and stable development of the DISC ecosystem. Supply and demand are very important in economics. Supply and demand are the most direct factors for the decline in commodity prices, and the most effective market feedback. DISC's economic model ensures that the circulation of its currency is stable, keeping it in balance with the number of markets. CPoC mining combines miners with the entire ecological interests, and replaces the originally consumed power resources with tokens as new production materials, so that the entire ecosystem of DISC continues to expand independently, forming a virtuous cycle system.
Bitcoin, dogecoin. How I tried to make my fortune in 2014 with the sweat of my computer.
https://preview.redd.it/mv21lvsa3do31.jpg?width=1280&format=pjpg&auto=webp&s=51bf5296a06eedc178079cf0b3ab4c3cfc44f271 Make money just by working on your computer: the rise of electronic currencies, in the wake of bitcoin, can be a little dream, especially in times of crisis. We tried the experiment. Wealth at your fingertips? Not for everybody. Reading time: 6 min. We have known at least since March 2013, with the soaring Bitcoin (BTC) price during the closing of Cypriot banks: electronic currencies, it has not much virtual. Since the creation of the enigmatic Satoshi Nakamoto serves as a safe haven, a playground for speculators, interests the States and even makes it possible to pay for his trip to the space where his beer, bigger world would dare to pretend that it only serves to buy prohibited substances on SilkRoad - if it ever was. At the end of November, James Howells was mocked a lot, this Brit, caught in a household frenzy, inadvertently threw a hard disk containing 7,500 bitcoins, the equivalent of 4.8 million euros. A small fortune now lost in the depths of the Docksway dump near Newport. Nevertheless, before causing the consternation of the global Internet, Jamie still had the nose to undermine the BTC at a time when the experience mobilized a handful of hardcore geeks. Since the rise (sawtooth) bitcoin, each unit currently weighs more than 800 dollars, nearly thirty cryptocurrencies have emerged. Is it possible, this year again, to let this promising, volatile and risky train pass, or to fall into
Choose your electronic motto.
All are based on the same principle: to summarize (very) big features , the issuance of money is governed by an algorithm, and the new corners put in circulation reward the resolution, by participants in a network of peer and mathematical problems, including the validation and archiving of transactions, which are public . Mining a cryptocurrency is like putting the computing power of your computer in the service of the network.
Since the program is decreasing , the mining becomes more and more difficult with time (and with the increase of the number of participants): to hope to make his pelote via the only computational activity, one must either have to at its disposal a large fleet of machines, to be a miner from the first hour. Exit the bitcoin, long since out of the reach of a personal computer.
I similarly gave up the litecoin and peercoin, already well launched (they date respectively 2011 and 2012), to set my heart on one of the most recent currencies - and certainly the hippest of the moment: the dogecoin.
As its name suggests, the cryptocurrency favorite Shiba Inus from around the world is a tribute to the Doge, one of the most famous memes of 2013, with its captions in Comic Sans, the font most sorry for the web. A geek joke, therefore, except that - the unfathomable mysteries of the Internet - its value jumped 900% in the third week of December, and she suffered a Christmas robbery online.
Admittedly, at the time when these lines are written, the dogecoin caps at 0.00023 dollars  - its quite ridiculous (and quite depressing), but even if you bet on the future, so much to go frankly.
2. The hands in the engine the billboard.
From there, things get tough (a little). Installing an electronic purse on ones computer is not very complicated (the software is available for Windows, MacOS, Android or, for the more adventurous, on a repository to compile under Linux). It is also possible to use an online wallet, but it is more risky (except, perhaps, when one is called James Howells). When opened for the first time, the purse automatically synchronizes with the Dogecoin network (be careful, it can be long), which gives you a payment address (we can generate more later).
The two most common ways to undermine electronic money are to use the computing power of the computers microprocessor (CPU) or, more efficiently, that of the graphics card processor (GPU). In the first case, the program is simple to install; in the second, it is necessary to choose the most adapted to its material . There are, thankfully, a lot of online tutorials. Still, to operate the corner board requires in all cases to trade the comfort of the GUI for aridity, so confusing to the layman, command lines - we have nothing for nothing.
Finally, at work alone, we prefer collaboration. Mining is best done in groups, or rather in pool: it distributes the gains, of course, but also the difficulty. For the dogecoin as for all the crypto-currencies, the pools are numerous. A quick tour of a dedicated section of the Reddit community site can help you make your choice.
3. Extension of the field of struggle.
And after? After, we can rest, since it is the machine that works. But the truth of a cryptocurrency - even at the exceptionally high LOL and LOL rates of the Shiba Inu - is cruel and brutal: not all computers are equal. Or rather, some are more equal than others. For while you heat your CPU or your graphics card to grapple some unfortunate corners, others will sweep the game thanks to specialized integrated circuits, computing capabilities much higher.
If the game of buying and reselling corners is basically just another stock exchange mechanism, less the intervention of the central banks - what is at stake, and the big political question they ask: are we certain to prefer speculation pure and perfect to monetary policies, however questionable they may be? -, production, it is the law of the strongest (in calculation). There are even lethal weapons at $ 10,000 each, with which your processors are like mosquitoes in front of an A bomb.
And if you think it does not matter because after all, it does not cost you anything, think again: the components, like humans, wear out faster when they work at full speed, and the bill of electricity can quickly grow. The profitability of the case is anything but certain, as evidenced by the results of online calculators. (Needless to say, our laughing dogecoin does not stand up to this kind of simulation.)
Much more boring, from a collective point of view: the carbon footprint, current and above all expected, of electronic currencies worries more and more. Last spring, Bloomberg estimated that the energy consumption of the Bitcoin network was equivalent to that of 31,000 US households. Not sure, according to the site, that their emission is less damaging to the environment than have been some physical currencies.
For exciting to analyze that is the emergence of cryptocurrencies, it is better to ask now about their cost, economic and ecological. To see it as a potential source of income, except for being a very early adopter with a hollow nose, an individual with a lot of computational capital or a clever trader, you have to make a point.
If the recurrent comparison with the famous Ponzi pyramid  is discussed (after all, the decentralized currencies do not make promises), remains that, as long as the value does not collapse, the system benefits mainly to the first entrants - except James Howells.
As the Bitcoin.fr site aptly states: all this is just an experiment, invest only the time and money you can afford to lose. LOLs love was not a worse reason than another to experiment, so I finally submitted my laptop to four days and three nights of intense activity, which makes me happy. owner of a good half a thousand dogecoins. Either the equivalent of 0.115 dollar, or 0.08 euro. It is obviously not worth the electricity consumed to generate them, it increases my carbon footprint, but it amuses my entourage. But laughter is, as everyone knows, a safe bet in times of crisis, less volatile than a real bitcoin.
And then, after all, you never know.
1. For explanations more provided (the case is quite complex), refer, for example, to the series of very detailed notes devoted to blogger Turblog.
2. And as such, searchable by everyone. It is the identity of the users that is not known, unless they reveal it, hence the reputation of anonymity (relative, therefore) cryptocurrencies.
3. In the case of bitcoin, the maximum of 21 million units should be reached around 2140.
4. For a day-to-day follow-up, see the CoinMarketCap site which lists the exchange rates of crypto-currencies, based on the dollar value of bitcoin.
5. We discover then, unfortunately, that some graphics cards do not allow the mining. This is the case for the author of these lines, reduced to working in conditions of extreme computer deprivation.
6. Comparison which is at the heart of a hilarious note on the ponzicoin, signed by the economic journalist Matthew OBrien, on The Atlantic (to read if you intend seriously to invest in the dogecoin).
An extensive list of blockchain courses, resources and articles to help you get a job working with blockchain.
u/Maximus_no and me spent some time at work collecting and analyzing learning material for blockchain development. The list contains resources for developers, as well as business analysts/consultants looking to learn more about blockchain use-cases and solutions.
Certifications and Courses
IIB Council Link to course: IIB council : Certified Blockchain Professional C|BP is an In-Depth, Industry Agnostic, Hands-On Training and Certification Course specifically tailored for Industry Professionals and Developers interested in implementing emerging technologies in the Data-Driven Markets and Digitized Economies. The IIB Council Certified Blockchain Professional (C|BP) Course was developed to help respective aspiring professionals gain excessive knowledge in Blockchain technology and its implication on businesses. WHO IS IT FOR:
C|BP is developed in line with the latest industry trends to help current and aspiring Professionals evolve in their career by implementing the latest knowledge in blockchain technology. This course will help professionals understand the foundation of Blockchain technology and the opportunities this emerging technology is offering.
If you are a Developer and you are willing to learn blockchain technology this course is for you. You will learn to build and model Blockchain solutions and Blockchain-based applications for enterprises and businesses in multiple Blockchain Technologies.
This exam is designed for non-technical business professionals who require basic knowledge about Blockchain and how it will be executed within an organization. This exam is NOT appropriate for technology professionals seeking to gain deeper understanding of Blockchain technology implementation or programming.
A person who holds this certification demonstrates their knowledge of:
· What is Blockchain? (What exactly is it?) · Non-Technical Technology Overview (How does it work?) · Benefits of Blockchain (Why should anyone consider this?) · Use Cases (Where and for what apps is it appropriate?) · Adoption (Who is using it and for what?) · Future of Blockchain (What is the future?)
A person who holds this certification demonstrates their ability to:
· Architect blockchain solutions · Work effectively with blockchain engineers and technical leaders · Choose appropriate blockchain systems for various use cases · Work effectively with both public and permissioned blockchain systems
This exam will prove that a student completely understands:
· The difference between proof of work, proof of stake, and other proof systems and why they exist · Why cryptocurrency is needed on certain types of blockchains · The difference between public, private, and permissioned blockchains · How blocks are written to the blockchain · Where cryptography fits into blockchain and the most commonly used systems · Common use cases for public blockchains · Common use cases for private & permissioned blockchains · What is needed to launch your own blockchain · Common problems & considerations in working with public blockchains · Awareness of the tech behind common blockchains · When is mining needed and when it is not · Byzantine Fault Tolerance · Consensus among blockchains · What is hashing · How addresses, public keys, and private keys work · What is a smart contract · Security in blockchain · Brief history of blockchain · The programming languages of the most common blockchains · Common testing and deployment practices for blockchains and blockchain-based apps
A person who holds this certification demonstrates their ability to:
· Plan and prepare production ready applications for the Ethereum blockchain · Write, test, and deploy secure Solidity smart contracts · Understand and work with Ethereum fees · Work within the bounds and limitations of the Ethereum blockchain · Use the essential tooling and systems needed to work with the Ethereum ecosystem
This exam will prove that a student completely understands how to:
· Implement web3.js · Write and compile Solidity smart contracts · Create secure smart contracts · Deploy smart contracts both the live and test Ethereum networks · Calculate Ethereum gas costs · Unit test smart contracts · Run an Ethereum node on development machines
Basic course with focus on Bitcoin. After this course, you’ll know everything you need to be able to separate fact from fiction when reading claims about Bitcoin and other cryptocurrencies. You’ll have the conceptual foundations you need to engineer secure software that interacts with the Bitcoin network. And you’ll be able to integrate ideas from Bitcoin in your own projects.
· A mid / basic understanding of blockchain technology and its long-term implications for business, coupled with knowledge of its relationship to other emerging technologies such as AI and IoT · An economic framework for identifying blockchain-based solutions to challenges within your own context, guided by the knowledge of cryptoeconomics expert Christian Catalini · Recognition of your newfound blockchain knowledge in the form of a certificate of completion from the MIT Sloan School of Management — one of the world’s leading business schools Orientation Module: Welcome to Your Online Campus Module 1: An introduction to blockchain technology Module 2: Bitcoin and the curse of the double-spending problem Module 3: Costless verification: Blockchain technology and the last mile problem Module 4: Bootstrapping network effects through blockchain technology and cryptoeconomics Module 5: Using tokens to design new types of digital platforms Module 6: The future of blockchain technology, AI, and digital privacy
· A mid / basic understanding of what blockchain is and how it works, as well as insights into how it will affect the future of industry and of your organization. · The ability to make better strategic business decisions by utilizing the Oxford Blockchain Strategic framework, the Oxford Blockchain Regulation framework, the Oxford Blockchain Ecosystem map, and drawing on your knowledge of blockchain and affiliated industries and technologies. · A certificate of attendance from Oxford Saïd as validation of your newfound blockchain knowledge and skills, as well as access to a global network of like-minded business leaders and innovators. Module 1: Understanding blockchain Module 2: The blockchain ecosystem Module 3: Innovations in value transfer Module 4: Decentralized apps and smart contracts Module 5: Transforming enterprise business models Module 6: Blockchain frontiers
[Proof of Work] - very short, cuz it's well-known.  Bitcoin - to generate a new block miner must generate hash of the new block header that is in line with given requirements. Others: Ethereum, Litecoin etc. [Hybrid of PoW and PoS]  Decred - hybrid of “proof of work” and “proof of stake”. Blocks are created about every 5 minutes. Nodes in the network looking for a solution with a known difficulty to create a block (PoW). Once the solution is found it is broadcast to the network. The network then verifies the solution. Stakeholders who have locked some DCR in return for a ticket* now have the chance to vote on the block (PoS). 5 tickets are chosen pseudo-randomly from the ticket pool and if at least 3 of 5 vote ‘yes’ the block is permanently added to the blockchain. Both miners and voters are compensated with DCR : PoS - 30% and PoW - 60% of about 30 new Decred issued with a block. * 1 ticket = ability to cast 1 vote. Stakeholders must wait an average of 28 days (8,192 blocks) to vote their tickets. [Proof of Stake]  Nxt - The more tokens are held by account, the greater chance that account will earn the right to generate a block. The total reward received as a result of block generation is the sum of the transaction fees located within the block. Three values are key to determining which account is eligible to generate a block, which account earns the right to generate a block, and which block is taken to be the authoritative one in times of conflict: base target value, target value and cumulative difficulty. Each block on the chain has a generation signature parameter. To participate in the block's forging process, an active account digitally signs the generation signature of the previous block with its own public key. This creates a 64-byte signature, which is then hashed using SHA256. The first 8 bytes of the resulting hash are converted to a number, referred to as the account hit. The hit is compared to the current target value(active balance). If the computed hit is lower than the target, then the next block can be generated.  Peercoin (chain-based proof of stake) - coin age parameter. Hybrid PoW and PoS algorithm. The longer your Peercoins have been stationary in your account (to a maximum of 90 days), the more power (coin age) they have to mint a block. The act of minting a block requires the consumption of coin age value, and the network determines consensus by selecting the chain with the largest total consumed coin age. Reward - minting + 1% yearly.  Reddcoin (Proof of stake Velocity) - quite similar to Peercoin, difference: not linear coin-aging function (new coins gain weight quickly, and old coins gain weight increasingly slowly) to encourage Nodes Activity. Node with most coin age weight have a bigger chance to create block. To create block Node should calculate right hash. Block reward - interest on the weighted age of coins/ 5% annual interest in PoSV phase.  Ethereum (Casper) - uses modified BFT consensus. Blocks will be created using PoW. In the Casper Phase 1 implementation for Ethereum, the “proposal mechanism" is the existing proof of work chain, modified to have a greatly reduced block reward. Blocks will be validated by set of Validators. Block is finalised when 2/3 of validators voted for it (not the number of validators is counted, but their deposit size). Block creator rewarded with Block Reward + Transaction FEES.  Lisk (Delegated Proof-of-stake) - Lisk stakeholders vote with vote transaction (the weight of the vote depends on the amount of Lisk the stakeholder possess) and choose 101 Delegates, who create all blocks in the blockchain. One delegate creates 1 block within 1 round (1 round contains 101 blocks) -> At the beginning of each round, each delegate is assigned a slot indicating their position in the block generation process -> Delegate includes up to 25 transactions into the block, signs it and broadcasts it to the network -> As >51% of available peers agreed that this block is acceptable to be created (Broadhash consensus), a new block is added to the blockchain. *Any account may become a delegate, but only accounts with the required stake (no info how much) are allowed to generate blocks. Block reward - minted Lisks and transaction fees (fees for all 101 blocks are collected firstly and then are divided between delegates). Blocks appears every 10 sec.  Cardano (Ouroboros Proof of Stake) - Blocks(slots) are created by Slot Leaders. Slot Leaders for N Epoch are chosen during n-1 Epoch. Slot Leaders are elected from the group of ADA stakeholders who have enough stake. Election process consist of 3 phases: Commitment phase: each elector generates a random value (secret), signs it and commit as message to network (other electors) saved in to block. -> Reveal phase: Each elector sends special value to open a commitment, all this values (opening) are put into the block. -> Recovery phase: each elector verifies that commitments and openings match and extracts the secrets and forms a SEED (randomly generated bytes string based on secrets). All electors get the same SEED. -> Follow the Satoshi algorithm : Elector who have coin which corresponded to SEED become a SLOT LEADER and get a right to create a block. Slot Leader is rewarded with minted ADA and transactions Fee.  Tezos (Proof Of Stake) - generic and self-amending crypto-ledger. At the beginning of each cycle (2048 blocks), a random seed is derived from numbers that block miners chose and committed to in the penultimate cycle, and revealed in the last. -> Using this random seed, a follow the coin strategy (similar to Follow The Satoshi) is used to allocate mining rights and signing rights to stakeholders for the next cycle*. -> Blocks are mined by a random stakeholder (the miner) and includes multiple signatures of the previous block provided by random stakeholders (the signers). Mining and signing both offer a small reward but also require making a one cycle safety deposit to be forfeited in the event of a double mining or double signing. · the more coins (rolls) you have - the more your chance to be a minesigner.  Tendermint (Byzantine Fault Tolerance) - A proposal is signed and published by the designated proposer at each round. The proposer is chosen by a deterministic and non-choking round robin selection algorithm that selects proposers in proportion to their voting power. The proposer create the block, that should be validated by >2/3 of Validators, as follow: Propose -> Prevote -> Precommit -> Commit. Proposer rewarded with Transaction FEES.  Tron (Byzantine Fault Tolerance) - This blockhain is still on development stage. Consensus algorithm = PoS + BFT (similar to Tendermint): PoS algorithm chooses a node as Proposer, this node has the power to generate a block. -> Proposer broadcasts a block that it want to release. -> Block enters the Prevote stage. It takes >2/3 of nodes' confirmations to enter the next stage. -> As the block is prevoted, it enters Precommit stage and needs >2/3 of node's confirmation to go further. -> As >2/3 of nodes have precommited the block it's commited to the blockchain with height +1. New blocks appears every 15 sec.  NEO (Delegated Byzantine Fault Tolerance) - Consensus nodes* are elected by NEO holders -> The Speaker is identified (based on algorithm) -> He broadcasts proposal to create block -> Each Delegate (other consensus nodes) validates proposal -> Each Delegate sends response to other Delegates -> Delegate reaches consensus after receiving 2/3 positive responses -> Each Delegate signs the block and publishes it-> Each Delegate receives a full block. Block reward 6 GAS distributed proportionally in accordance with the NEO holding ratio among NEO holders. Speaker rewarded with transaction fees (mostly 0). * Stake 1000 GAS to nominate yourself for Bookkeeping(Consensus Node)  EOS (Delegated Proof of Stake) - those who hold tokens on a blockchain adopting the EOS.IO software may select* block producers through a continuous approval voting system and anyone may choose to participate in block production and will be given an opportunity to produce blocks proportional to the total votes they have received relative to all other producers. At the start of each round 21 unique block producers are chosen. The top 20 by total approval are automatically chosen every round and the last producer is chosen proportional to their number of votes relative to other producers. Block should be confirmed by 2/3 or more of elected Block producers. Block Producer rewarded with Block rewards. *the more EOS tokens a stakeholder owns, the greater their voting power [The XRP Ledger Consensus Process]  Ripple - Each node receives transaction from external applications -> Each Node forms public list of all valid (not included into last ledger (=block)) transactions aka (Candidate Set) -> Nodes merge its candidate set with UNLs(Unique Node List) candidate sets and vote on the veracity of all transactions (1st round of consensus) -> all transactions that received at least 50% votes are passed on the next round (many rounds may take place) -> final round of consensus requires that min 80% of Nodes UNL agreeing on transactions. It means that at least 80% of Validating nodes should have same Candidate SET of transactions -> after that each Validating node computes a new ledger (=block) with all transactions (with 80% UNL agreement) and calculate ledger hash, signs and broadcasts -> All Validating nodes compare their ledgers hash -> Nodes of the network recognize a ledger instance as validated when a 80% of the peers have signed and broadcast the same validation hash. -> Process repeats. Ledger creation process lasts 5 sec(?). Each transaction includes transaction fee (min 0,00001 XRP) which is destroyed. No block rewards. [The Stellar consensus protocol]  Stellar (Federated Byzantine Agreement) - quite similar to Ripple. Key difference - quorum slice. [Proof of Burn]  Slimcoin - to get the right to write blocks Node should “burn” amount of coins. The more coins Node “burns” more chances it has to create blocks (for long period) -> Nodes address gets a score called Effective Burnt Coins that determines chance to find blocks. Block creator rewarded with block rewards. [Proof of Importance]  NEM - Only accounts that have min 10k vested coins are eligible to harvest (create a block). Accounts with higher importance scores have higher probabilities of harvesting a block. The higher amount of vested coins, the higher the account’s Importance score. And the higher amount of transactions that satisfy following conditions: - transactions sum min 1k coins, - transactions made within last 30 days, - recipient have 10k vested coins too, - the higher account’s Important score. Harvester is rewarded with fees for the transactions in the block. A new block is created approx. every 65 sec. [Proof of Devotion]  Nebulas (Proof of Devotion + BFT) - quite similar to POI, the PoD selects the accounts with high influence. All accounts are ranked according to their liquidity and propagation (Nebulas Rank) -> Top-ranked accounts are selected -> Chosen accounts pay deposit and are qualified as the blocks Validators* -> Algorithm pseudo-randomly chooses block Proposer -> After a new block is proposed, Validators Set (each Validator is charged a deposit) participate in a round of BFT-Style voting to verify block (1. Prepare stage -> 2. Commit Stage. Validators should have > 2/3 of total deposits to validate Block) -> Block is added. Block rewards : each Validator rewarded with 1 NAS. *Validators Set is dynamic, changes in Set may occur after Epoch change. [IOTA Algorithm]  IOTA - uses DAG (Directed Acyclic Graph) instead of blockchain (TANGLE equal to Ledger). Graph consist of transactions (not blocks). To issue a new transaction Node must approve 2 random other Transactions (not confirmed). Each transaction should be validate n(?) times. By validating PAST(2) transactions whole Network achieves Consensus. in Order to issue transaction Node: 1. Sign transaction with private key 2. choose two other Transactions to validate based on MCMC(Markov chain Monte Carlo) algorithm, check if 2 transactions are valid (node will never approve conflicting transactions) 3. make some PoW(similar to HashCash). -> New Transaction broadcasted to Network. Node don’t receive reward or fee. [PBFT + PoW]  Yobicash - uses PBFT and also PoW. Nodes reach consensus on transactions by querying other nodes. A node asks its peers about the state of a transaction: if it is known or not, and if it is a doublespending transaction or not. As follow : Node receives new transaction -> Checks if valid -> queries all known nodes for missing transactions (check if already in DAG ) -> queries 2/3 nodes for doublepsending and possibility -> if everything is ok add to DAG. Reward - nodes receive transaction fees + minting coins. [Proof of Space/Proof of Capacity]  Filecoin (Power Fault Tolerance) - the probability that the network elects a miner(Leader) to create a new block (it is referred to as the voting power of the miner) is proportional to storage currently in use in relation to the rest of the network. Each node has Power - storage in use verified with Proof of Spacetime by nodes. Leaders extend the chain by creating a block and propagating it to the network. There can be an empty block (when no leader). A block is committed if the majority of the participants add their weight on the chain where the block belongs to, by extending the chain or by signing blocks. Block creator rewarded with Block reward + transaction fees. [Proof of Elapsed Time (POET)]  Hyperledger Sawtooth - Goal - to solve BFT Validating Nodes limitation. Works only with intel’s SGX. PoET uses a random leader election model or a lottery based election model based on SGX, where the protocol randomly selects the next leader to finalize the block. Every validator requests a wait time from an enclave (a trusted function). -> The validator with the shortest wait time for a particular transaction block is elected the leader. -> The BlockPublisher is responsible for creating candidate blocks to extend the current chain. He takes direction from the consensus algorithm for when to create a block and when to publish a block. He creates, Finalizes, Signs Block and broadcast it -> Block Validators check block -> Block is created on top of blockchain.  Byteball (Delegated Byzantine Fault Tolerance) - only verified nodes are allowed to be Validation nodes (list of requirements https://github.com/byteball/byteball-witness). Users choose in transaction set of 12 Validating nodes. Validating nodes(Witnesses) receive transaction fees.  Nano - uses DAG, PoW (HashCash). Nano uses a block-lattice structure. Each account has its own blockchain (account-chain) equivalent to the account’s transaction/balance history. To add transaction user should make some HashCash PoW -> When user creates transaction Send Block appears on his blockchain and Receive block appears on Recipients blockchain. -> Peers in View receive Block -> Peers verify block (Double spending and check if already in the ledger) -> Peers achieve consensus and add block. In case of Fork (when 2 or more signed blocks reference the same previous block): Nano network resolves forks via a balance-weighted voting system where representative nodes vote for the block they observe, as >50% of weighted votes received, consensus achieved and block is retained in the Node’s ledger (block that lose the vote is discarded).  Holochain - uses distributed hash table (DHT). Instead of trying to manage global consensus for every change to a huge blockchain ledger, every participant has their own signed hash chain. In case of multi-party transaction, it is signed to each party's chain. Each party signs the exact same transaction with links to each of their previous chain entries. After data is signed to local chains, it is shared to a DHT where every neighbor node validate it. Any consensus algorithms can be built on top of Holochain.  Komodo ('Delegated' Delayed Proof of Work (dPoW)) - end-to-end blockchain solutions. DPoW consensus mechanism does not recognize The Longest Chain Rule to resolve a conflict in the network, instead the dPoW looks to backups it inserted previously into the chosen PoW blockchain. The process of inserting backups of Komodo transactions into a secure PoW is “notarization.” Notarisation is performed by the elected Notary nodes. Roughly every ten minutes, the Notary nodes perform a special block hash mined on the Komodo blockchain and take note of the overall Komodo blockchain “height”. The notary nodes process this specifc block so that their signatures are cryptographically included within the content of the notarized data. There are sixty-four “Notary nodes” elected by a stake-weighted vote, where ownership of KMD represents stake in the election. They are a special type of blockchain miner, having certain features in their underlying code that enable them to maintain an effective and cost-efcient blockchain and they periodically receives the privilege to mine a block on “easy difculty.” Source: https://www.reddit.com/CryptoTechnology/comments/7znnq8/my_brief_observation_of_most_common_consensus/ Whitepapers Worth Looking Into: IOTA -http://iotatoken.com/IOTA_Whitepaper.pdf NANO -https://nano.org/en/whitepaper Bitcoin -https://bitcoin.org/bitcoin.pdf Ethereum: https://github.com/ethereum/wiki/wiki/White-Paper Ethereum Plasma (Omise-GO) -https://plasma.io/plasma.pdf Cardano - https://eprint.iacr.org/2016/889.pdf
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