Kasparov: Crypto means Freedom

Garry Kasparov: Crypto Means Freedom

The chess grandmaster expects a basket of coins to replace the dollar within a decade.

Garry Kasparov (Mark Wilson/Getty Images)

Garry Kasparov knows math. He knows logic, strategy and decision-making. Widely regarded as the greatest chess player in the history of mankind, the Russian grandmaster – ranked No. 1 from 1984 to 2005 – sees the world with a certain clarity.

So it will delight many in the blockchain industry to learn that Kasparov, easily one of the smartest people alive, is now a champion of cryptocurrency. And it’s partly because of math. Kasparov has spent his “retirement” opposing Russian President Vladimir Putin (a defiance that once got him tossed in jail), fighting for humanitarian causes and serving as chairman of the Human Rights Foundation (a nonprofit that strongly supports bitcoin as a freedom-giving tool). Now he views crypto as a way to check government power. Bitcoin offers protection against rampant government spending, says Kasparov, “because you’re protected by math” – by the logic of the code itself.

Kasparov also sees merit in non-fungible tokens. In December, in partnership with 1Kind, he dropped a series of 32 NFTs that showcase iconic moments from his life: the 1985 match that crowned him as the youngest world chess champion, the epic battle against International Business Machines’ artificial intelligence-powered “Deep Blue” and speeches against totalitarian governments.

It’s this battle against totalitarianism that has defined the current chapter of his life, and Kasparov sees crypto as part of that struggle. Or as the grandmaster puts it, “I believe that supporting crypto is an important part of my contribution to the future of humanity.”

CoinDesk: How’d you get into the crypto space?

Kasparov: If you followed my career and read about my early interest in computers and technology, you should not be surprised that I was very excited when I recognized the value of cryptocurrencies and NFTs.

This goes all the way back to the ‘80s; I always tried to be at the cutting edge. It started with chess. But I also saw an opportunity to use computers and new tools to advance individual freedoms. It’s my belief that technology should help people fight back against the power of the state.

How do cryptocurrencies fit into that?

Cryptocurrencies become an inseparable part of or progress, because the whole world is moving digital.

And if the economy becomes more digital, so does the money. Another philosophical reason is that … governments [have] unlimited opportunities to print money. And printing money is the most exquisite form of borrowing from us and from future generations.

And I believe that cryptocurrencies – with bitcoin as a standard – offer a protection against this onslaught of the government, because you’re protected by math. You’re protected by the limited number of any code behind the respective currency. Cryptocurrencies, and all the products related to cryptocurrencies, are absolutely vital for the future development of our world.

How, specifically, did you first get involved?

My first indirect involvement was through the Human Rights Foundation. Because in the Human Rights Foundation, we had a few experts that have been advocating cryptocurrencies at a very early stage. And as an organization, we offer support to the dissidents around the world.

We thought about using crypto as a way to help them to get material help, because in many countries it was impossible – and it’s still impossible – to actually get proper funding. So crypto offered an opportunity to support these activists indirectly. And the more I learned about it, the more interested I got in the whole mechanism.

Can you elaborate on why this is important to you?

Look, crypto is a controversial thing. Because you hear a lot of people say, “Oh, that’s money laundering. That helps bad guys.” True. I mean, no technology is uniquely good, because it’s technology. Humans still have a monopoly for evil.

So, I’ve been doing a lot of talks about it, and I’ll say, “Look, it’s not the magic wand or the terminator. It’s not a harbinger of utopia or dystopia. It’s a tool.” Crypto is a tool. And of course it could benefit some bad guys with maligned intentions. But it’s about the balance, it’s about trade-offs. And I think the balance is so much in favor of progress.It’s like the dot-com bubble. 99.9% will be gone. But those that survive will become the Googles of the world.

You mentioned crypto’s ability to help protect human rights in undemocratic countries. What do you see as the benefits in democratic countries?

In the democratic countries in America and Europe, trillions of dollars will be printed. I’m an American taxpayer. And I understand that you need to build new infrastructure. But I’m not happy to see that the government has a free hand to use my taxes, basically to devalue [the dollar].

So I think it’s very important that technology would offer me an opportunity to fight back, to protect my hard-earned fortune. And I think that bitcoin – which I believe is online gold – and other cryptocurrencies are the way to the future. I’m not a financial expert, but I would not be surprised if, I would not be surprised if, in 10 years’ time, the dollar will be replaced by the basket of coins as a standard.

I’m guessing it’s safe to say you own bitcoin?

I’m a great believer in the future of coins.

I suppose if you believe that, then it would almost be foolish not to be buying Bitcoin?

Yes.

Thoughts on the future of bitcoin?

Well, I think bitcoin will remain as a standard. But of course it cannot stay alone. So that’s why you have more coins coming in. It’s a natural process. Now we have thousands and thousands of coins. It’s like the dot-com bubble. Ninety-nine point nine percent will be gone. But those that survive will become the Googles of the world. I’m not here to judge which one, but there will be few that will survive – that’s why I said basket of coins.

In the past, your championing of human rights has gotten you in trouble with the Russian authorities. Given that background, are you concerned that your support for cryptocurrency can get you in hot water?

Well, this is definitely a no. [In the past,] I was in hot water. To give you an idea, one of the NFTs is a picture of my first arrest in Russia. So it’s all reflected in my NFT. Look, this is much less perilous than to attack Putin directly.

I grew up in the Soviet Union, and learned from my mother and my teacher the motto of Soviet dissidents, “Do what you must, and so be it.” And I believe that supporting crypto is an important part of my contribution to the future of humanity. And, again, I [view it] as a much less risky endeavor than speaking publicly about Putin or other dictators.

How would you describe your NFT project?

I don’t pretend to be a great expert in NFTs, but I’m not aware of anything similar that exists. It’s a collection of 30-plus NFTs that are related to special events in my life and special people in my life. This is a story that connects you to very personal moments. Every NFT has a video message.

It’s all connected to the physical assets, like my notebooks from the ‘70s. Thanks to my late mother, who preserved this archive, you can actually look at me scribbling in 1973.

The NFTs all reflect the moments of me growing up, learning from my mother, and from my teachers, and then fighting for the title, and then shifting my life and moving into human rights and computers.

Interesting. This feels almost like a memoir, in a sense. I’ve worked with CEOs before to collaborate on their memoirs, and one thing I’ve found is that the process can almost be emotional, or even a bit therapeutic. Did you have any sense of that?

The whole story starts from a very emotional moment, though it’s a tragic one. My mother died on Christmas day last year, from COVID. And I couldn’t be next to her, and that was a really big blow because we were so close.

While she was alive, I didn’t even know that she preserved all these archives. She was not happy to talk about the past. That’s why I [held off] on any major publication that would highlight [the past]. I wrote two books, but not the one that could tell everything.

After she died, I thought it would be right for me [to honor] her memory to actually start doing things. I’m doing a documentary now; it’s in Russian. The first segment will be ready early next year. And I hope I can cover my entire chess career, and it’s for her. It’s dedicated for her. And this [NFT] project was inspired by this tragedy. I thought it was very important to show my personal life and her connection, and why she was so important.


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Crypto Terminology

Crypto Terminology


Glossary of Terms


Bags

Cryptoassets being held, generally as longer-term plays; sometimes used self-deprecatingly for soft or losing positions one should close, but can’t for whatever reason. “Too bad none of my alt bags saw the moon that I did today. #cryptoeclipse”

Bitcoin Maximalists

The truest believers in bitcoin’s original mission and design, often paired with a disdain for altcoins.

Block

Blocks are found in the Bitcoin block chain. Blocks connect all transactions together.

Transactions are combined into single blocks and are verified every ten minutes through mining.

Each subsequent block strengthens the verification of the previous blocks, making it impossible to double spend bitcoin transactions (see double spend below).

BIP

Bitcoin Improvement Proposal or BIP, is a technical design document providing information to the bitcoin community, or describing a new feature for bitcoin or its processes or environment which affect the Bitcoin protocol.

New features, suggestions, and design changes to the protocol should be submitted as a BIP.

The BIP author is responsible for building consensus within the community and documenting dissenting opinions.

Black Swans

A black swan is an event or occurrence that deviates beyond what is normally expected of a situation and is extremely difficult to predict.

Black swan events are typically random and unexpected.

The term was popularized by Nassim Nicholas Taleb, a finance professor, writer, and former Wall Street trader.

Block Chain

The Bitcoin block chain is a public record of all Bitcoin transactions. You might also hear the term used as a “public ledger”.

The block chain shows every single record of bitcoin transactions in order, dating back to the very first one.

The entire block chain can be downloaded and openly reviewed by anyone, or you can use a block explorer to review the block chain online.

Block Height

The block height is just the number of blocks connected together in the block chain. Height 0 for example refers to the very first block, called the “genesis block”.

Block Reward

When a block is successfully mined on the bitcoin network, there is a block reward that helps incentivize miners to secure the network.

The block reward is part of a “coinbase” transaction which may also include transaction fees.

The block rewards halves roughly every four years; see also “halving”.

BTFD | #BTFD

“Buy the Fucking Dip” Advice to other traders to pick up a coin that’s presumably hit its bottom.

“$GNT Golem making moves. Underpriced @ 7.5K If U are buying GNT under 10K still a good price 3 X LETS GO $ETH #CRYPTO #trading #BTFD”

Change

Let’s say you are spending $9.90 in your local supermarket, and you give the cashier $10.00. You will get back .10 cents in change.

The same logic applies to bitcoin transactions.

Bitcoin transactions are made up of inputs and outputs.

When you send bitcoins, you can only send them in a whole “output”.

The change is then sent back to the sender.

Cold Storage

The term cold storage is a general term for different ways of securing cryptocurrency offline (disconnected from the internet).

This would be the opposite of a hot wallet or hosted wallet, which is connected to the web for day-to-day transactions.

The purpose of using cold storage is to minimize the chances of your bitcoins being stolen from a malicious hacker and is commonly used for larger sums of bitcoins.

Cold Wallet and Hot Wallet

Cold storage is an offline wallet provided for storing cryptocurrency.

With cold storage, the digital wallet is stored on a platform that is not connected to the internet, thereby, protecting the wallet from unauthorized access, cyber hacks, and other vulnerabilities that a system connected to the internet is susceptible to.

Confirmation

A confirmation means that the bitcoin transaction has been verified by the network, through the process known as mining.

Once a transaction is confirmed, it cannot be reversed or double spent.

Transactions are included in blocks.

Cryptocurrency

Cryptocurrency is the broad name for digital currencies that use blockchain technology to work on a peer-to-peer basis.

Cryptocurrencies don’t need a bank to carry out transactions between individuals.

The nature of the blockchain means that individuals can transact with each other, even if they don’t trust each other.

The cryptocurrency network keeps track of all the transactions and ensures that no one tries to renege on a transaction.

Cryptocurrency 2.0

Also known as a decentralized app,(Dapp) a cryptocurrency 2.0 project uses the blockchain for something other than simply creating and sending money.

They typically involve decentralized versions of online services that were previously operated by a trusted third party.

Cryptography

Cryptography is used in multiple places to provide security for the Bitcoin network.

Cryptography, which is essentially mathematical and computer science algorithms used to encrypt and decrypt information, is used in bitcoin addresses, hash functions, and the block chain.

Cypherpunk

1. A person with an interest in encryption and privacy, especially one who uses encrypted email.

2. Cypherpunk, a term that appeared in Eric Hughes’ “A Cypherpunk’s Manifesto” in 1993, combines the ideas of cyberpunk, the spirit of individualism in cyberspace, with the use of strong  encryption ( ciphertext is encrypted text) to preserve privacy.

Cypherpunk advocates believe that the use of strong encryption algorithms will enable individuals to have safely private transactions.

They oppose any kind of government regulation of cryptography.

They admit the likelihood that criminals and terrorists will exploit the use of strong encryption systems, but accept the risk as the price to be paid for the individual’s right to privacy.

Dark Web

The part of the World Wide Web that is only accessible by means of special software, allowing users and website operators to remain anonymous or untraceable.

The Dark Web poses new and formidable challenges for law enforcement agencies around the world.

Decentralized

Having a decentralized bitcoin network is a critical aspect.

The network is “decentralized”, meaning that it’s void of a centralized company or entity that governs the network.

Bitcoin is a peer-to-peer protocol, where all users within the network work and communicate directly with each other, instead of having their funds handled by a middleman, such as a bank or credit card company.

Difficulty

Difficulty is directly related to Bitcoin mining (see mining below), and how hard it is to verify blocks in the Bitcoin network.

Bitcoin adjusts the mining difficulty of verifying blocks every 2016 blocks.

Difficulty is automatically adjusted to keep block verification times at ten minutes.

Dogecoin

Dogecoin is an altcoin that first started as a joke in late 2013. Dogecoin, which features a Japanese fighting dog as its mascot, gained a broad international following and quickly grew to have a multi-million dollar market capitalization.

Double Spend

If someone tries to send a bitcoin transaction to two different recipients at the same time, this is double spending. Once a bitcoin transaction is confirmed, it makes it nearly impossible to double spend it. The more confirmations that a transaction has, the harder it is to double spend the bitcoins.

DYOR | #DYOR

“Do Your Own Research.” The trader’s caveat that advice shouldn’t be taken at face value.

“$BCY has an appealing risk/reward here. Could take a few months to play out, however, and will require patience. #DYOR”

Exit Scam

Traditionally a term for darknet markets and vendors that, after building up a good reputation, accumulate bitcoins and disappear; exit scams are also feared by ICO participants who worry that, once they’ve raised hundreds of millions in hard-to-trace money, the developers will take the money and run.

Fiat

Government-issued money.

Full Node

A full node is when you download the entire block chain using a bitcoin client, and you relay, validate, and secure the data within the block chain.

The data is bitcoin transactions and blocks, which is validated across the entire network of users.

FOMO | #FOMO

“Fear of Missing Out.” When a coin starts to moon, dumb money rushes in. “$LGD on a TEAR right now!!! It has major highs right now! Some major #FOMO going on!!! Sell while it’s high. It WILL drop before fight!!!”

FUD

“Fear, Uncertainty, and Doubt.”

Another non-crypto term that describes attempts to scare weak-handed coin-holders into selling their positions, often with rumors of exit scams or hacks; the cheap, dumped coins are then picked up by the FUD-ers.

Fungibility

Fungibility is a good or asset’s interchangeability with other individual goods or assets of the same type.

Assets possessing this fungibility property simplify the exchange and trade processes, as interchangeability assumes everyone values all goods of that class the same.

HODL

HOLD ON FOR DEAR LIFE!

The intentionally misspelled word hodl has its roots in a December 2013 post on the Bitcoin Talk forum, “I AM HODLING”; when the author, GameKyuubi, couldn’t be bothered to fix his typo, the community instantly turned it into a verb: to hodl.


Along with other terms, hodl is an effective litmus test for sussing out newcomers, carpetbaggers, and tourists.

Halving

Bitcoins have a finite supply, which makes them scarce.

The total amount that will ever be issued is 21 million.

The number of bitcoins generated per block is decreased 50% every 210,000 blocks,roughtly four years.

This is called “halving.”

The final halving will take place in the year 2140.

Hash

A cryptographic hash is a mathematical function that takes a file and produces a relative shortcode that can be used to identify that file.

A hash has a couple of key properties:

• It is unique. 

Only a particular file can produce a particular hash, and two different files will never produce the same hash.

It cannot be reversed.

You can’t work out what a file was by looking at its hash.

Hashing is used to prove that a set of data has not been tampered with.

It is what makes bitcoin mining possible.

Hash Rate

The hash rate is how the Bitcoin mining network processing power is measured.

In order for miners to confirm transactions and secure the block chain, the hardware they use must perform intensive computational operations which is output in hashes per second.

Hash Converter

Use an online hash converter, such as https://hash.online-convert.com and enter the text you want to convert.

Then, try changing just a letter in the input text to see how the resulting hash varies significantly

Hard Fork

A hard fork is when a single cryptocurrency splits in two.

It occurs when a cryptocurrency’s existing code is changed, resulting in both an old and new version.

Meanwhile a soft fork is essentially the same thing, but the idea is that only one blockchain (and thus one coin) will remain valid as users adopt the update.

So both fork types create a split, but a hard fork is meant to create two blockchain/coins and a soft fork is meant to result in one.

Segwit was a soft fork, Bitcoin Cash, Bitcoin Gold, and Segwit2x are all hard forks.

Immutability

In object-oriented and functional programming, an immutable object (unchangeable object) is an object whose state cannot be modified after it is created.

This is in contrast to a mutable object (changeable object), which can be modified after it is created.

Lambo | #Lambo

A running joke among traders, you’re cryptorich when you can buy a Lamborghini; though absurd, it’s not unheard of — when Alexandre Cazes, the suspected founder of a major darknet marketplace, was found hanged in his Bangkok jail cell, Thai media reported that he owned four Lamborghinis.

Mining

Bitcoin mining is the process of using computer hardware to do mathematical calculations for the Bitcoin network in order to confirm transactions.

Miners collect transaction fees for the transactions they confirm and are awarded bitcoins for each block they verify.

Moon | #Moon

A rapid price increase.

Peer-to-Peer

Typically, online applications are provided by a central party that organizes all the transactions.

Your bank runs its own computers, and all the customers log into the bank’s computer to handle their transactions.

If Bob wants to send money to Alice, he asks the bank to do it, and the bank controls everything.

In a peer-to-peer arrangement, technology cuts out the middleman, meaning that people deal directly with each other.

Bob would send the money directly to Alice, and there wouldn’t be any bank involved at all.

Pool

As part of bitcoin mining, mining “pools” are a network of miners that work together to mine a block, then split the block reward among the pool miners.

Mining pools are a good way for miners to combine their resources to increase the probability of mining a block, and also contribute to the overall health and decentralization of the bitcoin network.

Private Key

A private key is a string of data that shows you have access to bitcoins in a specific wallet.

Think of a private key like a password; private keys must never be revealed to anyone but you, as they allow you to spend the bitcoins from your bitcoin wallet through a cryptographic signature.

Proof of Work

Proof of work refers to the hash of a block header (blocks of bitcoin transactions).

A block is considered valid only if its hash is lower than the current target.

Each block refers to a previous block adding to previous proofs of work, which forms a chain of blocks, known as a block chain.

Once a chain is formed, it confirms all previous Bitcoin transactions and secures the network.

Pump

A rapid price increase believed to be the result of market manipulation, a.k.a. pump and dump.

Public Address

A public bitcoin address is cryptographic hash of a public key.

A public address typically starts with the number “1.”

Think of a public address like an email address.

It can be published anywhere and bitcoins can be sent to it, just like an email can be sent to an email address.

Private Key

A private key is a string of data that shows you have access to bitcoins in a specific wallet.

Think of a private key like a password; private keys must never be revealed to anyone but you, as they allow you to spend the bitcoins from your bitcoin wallet through a cryptographic signature.

Rekt | #Rekt

Meaning “wrecked”.

“I never sell because of #FUD, and I never buy because of #FOMO.

That’s the easiest way to get #Rekt

Sats

Satoshis, currently the smallest unit of a single bitcoin, useful for tracking coin prices. “At the rate $XRP’s moving, I wouldn’t be surprised if it hits 10K sats by the end of the day.”

Security Tokens

A security token (sometimes called an authentication token) is a small hardware device that the owner carries to authorize access to a network service.

The device may be in the form of a smart card or may be embedded in a commonly used object such as a key fob.

Shitcoins

Pejorative term for altcoins, especially low-cap coins, often affectionately used by shitcoin hodlers.

SEGWIT

SegWit is the process by which the block size limit on a blockchain is increased by removing signature data from Bitcoin transactions.

When certain parts of a transaction are removed, this frees up space or capacity to add more transactions to the chain.

Transaction

A transaction is when data is sent to and from one bitcoin address to another.

Just like financial transactions where you send money from one person to another, in bitcoin you do the same thing by sending data (bitcoins) to each other.

Bitcoins have value because it’s based on the properties of mathematics, rather than relying on physical properties (like gold and silver) or trust in central authorities, like fiat currencies.

Wallet

Just like with paper dollars you hold in your physical wallet, a bitcoin wallet is a digital wallet where you can store, send, and receive bitcoins securely.

There are many varieties of wallets available, whether you’re looking for a web or mobile solution.

Ideally, a bitcoin wallet will give you access to your public and private keys.

This means that only you have rightful access to spend these bitcoins, whenever you choose to.

Whale

Anyone who owns 5 percent of any given coin, often used as a boogeyman to explain unwanted price movements.

“Nice support $NEO. Clear whale manipulation.”


Blue Pill vs. Red Pill
Choose wisely

When You’re ready …

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Mining Pool Payouts

Mining Pool Payouts explained: PPS vs. FPPS vs. PPLNS vs. PPS+

What is a Mining Pool?

Mining Pools

A Mining pools is a hub where a group of Crypto currency miners share their processing power to the network in order to solve the blocks quicker.

The rewards will be split equally based on the amount of shares that they contributed in finding a block.

Pool mining was introduced during early Bitcoin mining days when solo mining became non-viable.

The more powerful your hardware is, the more shares you’ll submit, the more shares you submit, the more you’ll earn.

In order for the pool to pay its miners each pool uses its own payment scheme. Two of the most popular option is PPS and PPLNS.


Mining Pool payouts explained PPS vs. FPPS vs. PPLNS vs. PPS+
Mining pool payouts explained: Pay-per-share (PPS)
Pay-Per-Share (PPS)
Pay-per-last-n-shares (PPLNS) MineBest
Pay-Per-Last-N-Shares (PPLNS)
Different mining pool payouts explained: PPS vs. FPPS vs. PPLNS vs. PPS+

The first thing a miner has to decide is which pool mining payout is best for their requirements.

PROP (proportional), FPPS (Full Pay Per Share), SMPPS (Shared Maximum Pay Per Share), ESMPPS (Equalized Shared Maximum Pay Per Share), CPPSRB (Capped Pay Per Share with Recent Backpay), PPS (Pay Per Share), PPLNS (Pay Per Last N Share) and lastly PPS+ (Pay Per Share Plus).

Among them PPS and PPLNS are the two types of payment models that are mostly used by mining pools currently. Before we explain both PPS and PPLNS we’ll make a short note on mining pool.

There are numerous payment systems (over 15), but the vast majority of the pools operate on a PPS, FPPS, PPS+ and PPLNS basis.

However, before trying to understand the different settlement models, it is important to come to a consensus on some terms used in crypto mining.

Block Reward: Block reward refers to the new coins issued by the network to miners for each successfully solved block.

Hashing PowerHash rate is the speed at which a computer completes an operation in the cryptocurrency’s code. A higher hashrate increases a miner’s opportunity of finding the next block.

Luck: Luck, in mining, is the probability of success. Imagine that each miner is given a lottery ticket for a certain amount of hashing power they provide. If they are to provide 1 TH/s hashing power when the overall hashing power in the network is 10 TH/s, then they would receive 1 of 10 total lottery tickets. The probability of winning the lottery (in this case finding the block reward) would be 10%.

Transaction Fees: Some networks (like Bitcoin) also have substantial amounts of transaction fees rewarded to miners. These fees are the total fees paid by users of the network to execute transactions.

Pay-Per-Share (PPS)

PPS offers an instant flat payout for each share that is solved. With this payment method, a miner gets a standard payout rate for each share completed. Each share is worth a certain amount of mineable cryptocurrency.

After deducting the mining pool fees, the miners are given a fixed income every day. Therefore, under the PPS mode, the returns are relatively stable. Miners are exposed to risk here. They may not get the transaction fees.

It is ideal for low priced orders for an extended period. This model becomes lucrative during a bearish run of a particular coin.

Pay-Per-Last-N-Shares (PPLNS)

With this payout, profits will be allocated based on the number of shares miners contribute. This kind of allocation method is closely related to the block mined out. If the mining pool excavates multiple blocks in a day, the miners will have a high profit; if the mining pool is not able to mine a block during the whole day, the miner’s profit during the whole day is zero.

Notably, in the short term, the PPLNS model is highly correlated with a pool’s luck. If the luck factor of a particular mining pool decreases in the short term, the miner’s income will also decrease accordingly (the opposite case of the mining pool being lucky in the short term is possible too). However, in the long term, the luck factor tends to average out to the mean.

Hence, this model is ideal for fixing orders on a big pool that has a high chance of finding a block within the order time limit. Or a standard order which will have miners connected for a longer time.

Pay Per Share + (PPS+)

PPS+ is a blend of two modes mentioned above, PPS and PPLNS. The block reward is settled according to the PPS model. And the mining service charge /transaction fee is settled according to the PPLNS mode.

That is to say, in this mode, the miner can additionally obtain the income of part of the transaction fee based on the PPLNS payment method. This was a major drawback in the PPS model.

Full Pay Per Share (FPPS)

With this pool payout, both the block reward and the mining service charge are settled according to the theoretical profit. Calculate a standard transaction fee within a certain period and distribute it to miners according to their hash power contributions in the pool. It increases the miners’ earnings by sharing some of the transaction fees.

With the PPS and FPPS payment methods, you will get paid no matter if the pool finds a block or not. This is the most significant advantage over PPLNS. The risks and rewards are higher with the PPLNS plan.

The decision on which mining plan to choose from needs to be preceded by the decision of choosing the right mining infrastructure.


Difference between PPS vs PPLNS payment models?

PPLNS

PPLNS stands for Pay Per Last (luck) N Shares. This method calculates your payments based on the number of shares you submitted during a shift.

It includes shift system which is time based or by number of shares submitted by the miners on the pool.

Your pool may find blocks consistently or in overtime it may have huge variations in winning a block and that ultimately affects your payments. PPLNS greatly involves luck factor and you’ll notice huge fluctuations in your 24 hour payout.

If you maintain your mining on a single pool then your payouts will remain consistent and it only differs when new miners join or leave the pool.

PPS

Pay Per Share pays you an average of the number of shares that you contributed to the pool in finding blocks.

PPS pays you on solid rate and is more of a direct method which completely eliminates luck factor.

In PPS method regardless of the pools lucky at winning blocks you’re going to get 100% payout at the end of the day. This is because there is a standard payout set for each miners based on their hash power.

It won’t be more than 100% or less than that and with this PPS method you can easily calculate your potential earnings.

On the other hand with PPLNS payment system on average you can either get more than 100% or less than that. It is based on how lucky the pool is at finding blocks.

Should I choose PPS or PPLNS?

This is one of the common questions most miners have initially.

Should I choose Pay Per Share or Pay Per Last N Share pools?

If you are the person who don’t switch pools often then PPLNS is definitely for you as such pools are good at rewarding its loyal miners.

Pay Per Share: No matter what, if you need a fixed payouts at the end of the day to liquidate or for whatsoever reason then your choice would be PPS.

Pay Per Share works well for large mining farms who can calculate and have statistics based on their mining power.

PPS is good for large miners but really bad for pool owners as there is a guaranteed payout for work no matter if the pool hits the block or not.

For this reason and because of pool hoppers (not loyal miners of the pool) most of the mining pools have switched to PPLNS payment model.

Pay Per Last N Shares: If you are the one that is looking to accumulate and hold more coins then PPLNS is recommended.

For each block that your pool finds you’ll get a share based on your hashrate.

Unlike PPS, in PPLNS you’ll get payouts more often and in the long run you’ll be rewarded more with PPLNS than PPS.

However due to huge variance it’s really hard to calculate your mining income.

PPLNS is good for both mid-range miners and pool owners as the payouts is only based on the blocks found.

If your pool is more lucky  then you’ll see payments more often. This is the reason why miners stick to a pool where there is more hash power assuming the pool finds block very often.

You can find more comparison of mining pools payment system here.

How to find out if a pool is PPS or PPLNS?

Cryptocurrency mining can be a lucrative process. However it’s very important that you find out what payment scheme your pool is using before committing your hashing power.

Most of the mining pools has this information listed on FAQ page or at payouts page. If you’re unable to find this information then the only option is to contact the pool support.

Hope the information on this page is helpful for you to decide the right mining pool.


Happy Hashing


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Happy 13th BirthDay bitcoin

bitcoin – People’s Money

Brief history of Bitcoin

On January 3rd, 2009 Satoshi Nakamoto published the Genesis Block with the first 50 Bitcoins on Sourceforge. He also left a message on the blockchain at the time, quoting the headline in the British newspaper Times:

On January 3, 2009, the minister was on the verge of bailing out the banks.

Nakamoto started writing the white paper in 2008 and published it in October of that year.

The concept of a decentralized, anonymous, trusted currency emerged after the 2008 financial crisis, which left responsibility for the banks.

Satoshi neither supports the modern banking system nor does he like partial reserve banks.

A partial reserve bank is a bank that takes deposits and issues loans or investments, but only has to reserve a fraction of its liabilities for deposits. Basically, the bank is using money that it doesn’t own.

Satoshi wants to get rid of banks and seedy middlemen whom he believes are corrupt and unreliable. As such, he created a more community-centric digital currency.

13 years later, Bitcoin is still going strong with a market cap of nearly $ 900 billion. It is currently held by billionaires, banks, celebrities, governments, and corporations. This is evidence of how far BTC has come in its brief existence.

The precarious banking situation and economic uncertainty are also in crisis again.

The price of Bitcoin on its birthday 🎂

13 years: $ 47,310
12 years: $ 33,400
11 years: $ 7,319
10 years: $ 3,783
9 years: $ 14,764
8 years: $ 1,084
7 years: $ 432
6 years: $ 275
5 years: $ 816
4 years: $ 13
3 years: $ 5
2 years: $ 0.29
1 year: $ 0.05


Happpy Birthday bitcoin !!!

Thanks for all the teachings and wealth of Knowledge I do now have thanks to you !!!


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People’s Money

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Merry X-Mass – Crypto Style

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Kudos to @ChessurKot

I 💚 it so much i had to share it !!!

Amazing poster and imagination !!!

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Bitcoin Halving

Bitcoin Halving

What Is a Bitcoin Halving?

Bitcoin’s most recent halving occurred on May 11, 2020. To explain what a Bitcoin halving is, we must first explain a bit about how the Bitcoin network operates.

Bitcoin’s underlying technology, blockchain, basically consists of a collection of computers (or nodes) that run Bitcoin’s software and contain a partial or complete history of transactions occurring on its network.

Each full node, or a node containing the entire history of transactions on Bitcoin, is responsible for approving or rejecting a transaction in Bitcoin’s network.

To do that, the node conducts a series of checks to ensure that the transaction is valid. These include ensuring that the transaction contains the correct validation parameters, such as nonces, and does not exceed the required length.

A transaction occurs only after all the parties operating in Bitcoin’s network approve it within the block on which the transaction exists. After approval, the transaction is appended to the existing blockchain and broadcast to other nodes.

The blockchain serves as a pseudonymous record of transactions (i.e., its contents are visible to everyone, but it is difficult to identify transacting parties in the network). This is because the blockchain assigns encrypted addresses to each transacting party in the network. That said, even those who do not participate in the network as a node or miner can view these transactions taking place live by looking at block explorers.

More computers (or nodes) added to the blockchain increase its stability and security.

There are currently 12,035 nodes estimated to be running Bitcoin’s code. Though anyone can participate in Bitcoin’s network as a node, as long as they have enough storage to download the entire blockchain and its history of transactions, not all of them are miners.

KEY TAKEAWAYS

  • A Bitcoin halving event is when the reward for mining bitcoin transactions is cut in half.
  • This event also cuts in half Bitcoin’s inflation rate and the rate at which new bitcoins enter circulation.
  • Both previous halvings have correlated with intense boom and bust cycles that have ended with higher prices than prior to the event.
  • Bitcoin last halved on May 11, 2020, around 3 p.m. EST, resulting in a block reward of 6.25 BTC.

Bitcoin Mining

Bitcoin mining is the process by which people use their computers to participate in Bitcoin’s blockchain network as a transaction processor and validator.

Bitcoin uses a system called proof of work (PoW). This means that miners must prove they have put forth effort in processing transactions to be rewarded. This effort includes the time and energy it takes to run the computer hardware and solve complex equations.

Faster computers with certain types of hardware yield larger block rewards and some companies have designed computer chips specifically built for mining. These computers are tasked with processing Bitcoin transactions, and they are rewarded for doing so.

The term mining is not used in a literal sense but as a reference to the way precious metals are gathered.

Bitcoin miners solve mathematical problems and confirm the legitimacy of a transaction. They then add these transactions to a block and create chains of these blocks of transactions, forming the blockchain.

When a block is filled up with transactions, the miners that processed and confirmed the transactions within the block are rewarded with bitcoins.

Transactions of greater monetary value require more confirmations to ensure security. This process is called mining because the work performed to get new bitcoins out of the code is the digital equivalent to the physical work done to pull gold out of the Earth.

El Salvador made Bitcoin legal tender on June 9, 2021. It is the first country to do so. The cryptocurrency can be used for any transaction where the business can accept it. The U.S. dollar continues to be El Salvador’s primary currency.

Bitcoin Halving

After every 210,000 blocks mined, or roughly every four years, the block reward given to Bitcoin miners for processing transactions is cut in half.

This cuts in half the rate at which new bitcoins are released into circulation. This is Bitcoin’s way of using a synthetic form of inflation that halves every four years until all bitcoins are released into circulation.

This system will continue until around the year 2140.

At that point, miners will be rewarded with fees for processing transactions, which network users will pay. These fees ensure that miners still have the incentive to mine and keep the network going. The idea is that competition for these fees will cause them to remain low after the halvings are finished.

The halving is significant because it marks another drop in the rate of new Bitcoins being produced as it approaches its finite supply: the total maximum supply of bitcoins is 21 million. As of October 2021, there are about 18.85 million bitcoins already in circulation, leaving just around 2.15 million left to be released via mining rewards.

In 2009, the reward for each block in the chain mined was 50 bitcoins. After the first halving, it was 25, and then 12.5, and then it became 6.25 bitcoins per block as of May 11, 2020.

To put this in another context, imagine if the amount of gold mined out of the Earth was cut in half every four years. If gold’s value is based on its scarcity, then a “halving” of gold output every four years would theoretically drive its price higher.

Coin Metrics Bitcoin Halving
Coin Metrics logarithmic chart of Bitcoin price action following halvings.

Halving Implications

These halvings reduce the rate at which new coins are created and thus lower the available amount of new supply, even as demand might increase.

This can cause some implications for investors as other assets with low or finite supply, like gold, can have high demand and push prices higher.

In the past, these Bitcoin halvings have correlated with massive surges in Bitcoin’s price.

The first halving, which occurred on Nov. 28, 2012, saw an increase from $12 to $1,217 on Nov. 28, 2013.

The second Bitcoin halving occurred on July 9, 2016. The price at that halving was $647, and by Dec. 17, 2017, a bitcoin’s price had soared to $19,800. The price then fell over the course of a year from this peak down to $3,276 on Dec. 17, 2018, a price 506% higher than its pre-halving price.

The most recent halving occurred on May 11, 2020. On that date, a bitcoin’s price was $8,787. On April 14, 2021, a bitcoin’s price soared to $64,507 (an astonishing 634% increase from its pre-halving price). A month later, on May 11, 2021, a bitcoin’s price was $54,276, representing a 517% increase that seems more consistent with the behavior of the 2016 halving.

On May 12, 2021, Elon Musk, CEO of Tesla, announced that Tesla would no longer accept Bitcoin as payment, resulting in further price fluctuations.

In the week that followed Musk’s statements, the price of a bitcoin plunged below $40,000 after Chinese regulators announced restrictions banning financial institutions and payment companies from providing cryptocurrency-related services.

Though these two announcements may have temporarily created a price drop in Bitcoin, there is the potential that the price fluctuations are more related to the halving behavior we have observed previously.

The theory of the halving and the chain reaction that it sets off works something like this:

The reward is halved → half the inflation → lower available supply → higher demand → higher price → miners incentive still remains, regardless of smaller rewards, as the value of Bitcoin is increased in the process

In the event that a halving does not increase demand and price, then miners would have no incentive. The reward for completing transactions would be smaller, and the value of Bitcoin would not be high enough.

To prevent this, Bitcoin has a process to change the difficulty it takes to get mining rewards, or in other words, the difficulty of mining a transaction.

In the event that the reward has been halved, and the value of Bitcoin has not increased, the difficulty of mining would be reduced to keep miners incentivized.

This means that the quantity of bitcoins released as a reward is still smaller, but the difficulty of processing a transaction is reduced.

This process has proved successful twice. So far, the result of these halvings has been a ballooning in price followed by a large drop.

The crashes that have followed these gains, however, have still maintained prices higher than before these halving events.

For example, as mentioned above, the 2017 to 2018 bubble saw the value of a bitcoin rise to around $20,000, only to fall to around $3,200. This is a massive drop, but a bitcoin’s price before the halving was around $650.3

Though this system has worked so far, the halving is typically surrounded by immense speculation, hype, and volatility, and how the market will react to these events in the future is unpredictable.

The third halving occurred not only during a global pandemic, but also in an environment of heightened regulatory speculation, increased institutional interest in digital assets, and celebrity hype. Given these additional factors, where Bitcoin’s price will ultimately settle in the aftermath remains unclear.

What Happens When Bitcoin Halves?

The term “halving” as it relates to Bitcoin has to do with how many Bitcoin tokens are found in a newly created block.

Back in 2009, when Bitcoin launched, each block contained 50 BTC, but this amount was set to be reduced by 50% roughly every four years.

Today, there have been three halving events, and a block now only contains 6.25 BTC.

When the next halving occurs, a block will only contain 3.125 BTC.

When Have the Halvings Occurred?

The first bitcoin halving occurred on Nov. 28, 2012, after a total of 10,500,000 BTC had been mined. The next occurred on July 9, 2016, and the latest was on May 11, 2020. The next is expected to occur in early 2024.

Why Are the Halvings Occurring Less Than Every Four Years?

The Bitcoin mining algorithm is set with a target of finding new blocks once every 10 minutes.

However, if more miners join the network and add more hashing power, the time to find blocks will decrease.

This is remedied by resetting the mining difficulty (or how hard it is for a computer to solve the mining algorithm) once every two weeks or so to restore a 10-minute target.

As the Bitcoin network has grown exponentially over the past decade, the average time to find a block has consistently remained below 10 minutes (roughly 9.5 minutes).

Does Halving Have Any Effect on the Bitcoin Price?

The price of Bitcoin has risen steadily and significantly from its launch in 2009, when it traded for mere pennies or dollars, to April 2021 when the price of one bitcoin traded for over $63,000.3

Because halving the block reward effectively doubles the cost to miners, who are essentially the producers of bitcoins, it should have a positive impact on price because producers will need to adjust their selling price to their costs.

Empirical evidence does show that Bitcoin prices tend to rise in anticipation of a halvening, often several months prior to the actual event.

What Happens When There Are No More Bitcoins Left in a Block?

Around the year 2140, the last of the 21 million bitcoins ever to be mined will have been mined.

At this point, the halving schedule will cease because there will be no more new bitcoins to be found.

Miners, however, will still be incentivized to continue validating and confirming new transactions on the blockchain because the value of transaction fees paid to miners is expected to rise into the future, the reasons being that a greater transaction volume that has fees will be attached, plus bitcoins will have a greater nominal market value.

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Calculate Hashes/s

How can I calculate how many hashes I generate per second?

I have a function which generates hashes from a string:

string GenerateHash(string plainText);

I generate as many hashes as possible with 4 threads.

How do I calculate how many hashes (or megahashes) I generate per second?

Your problem breaks down nicely into 3 separate tasks

  1. Sharing a single count variable across threads
  2. Benchmarking thread completion time
  3. Calculating hashes per/second

Sharing a single count variable across threads

public static class GlobalCounter
{ public static int Value { get;
private set;
} public static void Increment()
{ Value =GetNextValue(Value);
} private static int GetNextValue(int curValue) { returnInterlocked.Increment(ref curValue);
} public static void Reset() { Value = 0; } }

Before you spin off the threads call GlobalCounter.Reset and then in each thread (after each successful hash) you would call GlobalCounter.Increment – using Interlocked.X performs atomic operations of Value in a thread-safe manner, it’s also much faster than lock.

Benchmarking thread completion time

var sw = Stopwatch.StartNew(); Parallel.ForEach(someCollection, someValue => 
{ // generate hash GlobalCounter.Increment();
}); sw.Stop();

Parallel.ForEach will block until all threads have finished

Calculating hashes per second

... sw.Stop(); var hashesPerSecond = GlobalCounter.Value / sw.Elapsed.Seconds;

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Bitcoin (BTC) :
1P1tTNFGRZabK65RhqQxVmcMDHQeRX9dJJ

LiteCoin(LTC) :
LYAdiSpsTJ36EWCJ5HF9EGy9iWGCwoLhed

Ethereum(ETH) :
0x602e8Ca3984943cef57850BBD58b5D0A6677D856

EthereumClassic(ETC) :
0x602e8Ca3984943cef57850BBD58b5D0A6677D856

Cardano(ADA)
addr1q88c5cccnrqy6xesszzvf7rd4tcz87klt0m0h6uvltywqe8txwmsrrqdnpq27594tyn9vz59zv0n8367lvyc2atvrzvqlvdm9d

BinanceCoin(BNB)
bnb1wwfnkzs34knsrv2g026t458l0mwp5a3tykeylx

BitcoinCash (BCH)
1P1tTNFGRZabK65RhqQxVmcMDHQeRX9dJJ

BitcoinSV(BSV)
1P1tTNFGRZabK65RhqQxVmcMDHQeRX9dJJ

ZCash(ZEC)
t1fSSQX4gEhove9ngcvFafQaMPq5dtNNsNF

Dash(DASH)
XcWmbFw1VmxEPxvF9CWdjzKXwPyDTrbMwj

Shiba(SHIB)
0x602e8Ca3984943cef57850BBD58b5D0A6677D856

Tron(TRX)
TCsJJkqt9xk1QZWQ8HqZHnqexR15TEowk8

Stellar(XLM)
GBL4UKPHP2SXZ6Y3PRF3VRI5TLBL6XFUABZCZC7S7KWNSBKCIBGQ2Y54

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Anarchy Legacy

A Crypto Anarchist’s Legacy

Airfoil Dec 20, 2018

Timothy May on the cover of the second issue of Wired magazine with 2 fellow cypherpunks

Sadly, this past week we lost an icon that helped to spur the cypherpunk movement. Timothy May, who wrote The Crypto Anarchist Manifesto in 1988, lauched a movement that is still very prominent today.

For the uninitiated, a Crypto-Anarchist focuses on subverting the current laws and using new technologies to the benefit of the common man.

In the original manifesto, May says crypto-anarchy focuses on “encryption, digital money, anonymous networks, digital pseudonyms, zero-knowledge, reputations, information markets, black markets, collapse of governments”.

The manifesto was written just before the first crypto wars began during the early 1990’s.

The governments of the world fiercely opposed the general public using cryptographic encryption protocols.

The idea that a normal citizen could completely hide what they say in an electronic message was their biggest concern.

The governments cited national security as a concern (We’ve heard this excuse used many times before).

Tim May was embroiled in the center of this alongside his group of fellow cypherpunks.

RSA Security, a leading computer securty company founded by world-renowned cryptologists, created this poster against a hardware chip that used a US-government supplied encryption standard

The legislation of the anti-encryption laws would also affect payment processing technology. There was a large push back from tech companies that would have to deal with these issues first-hand.

The crypto wars of the 1990’s ended with the concession from the government that encryption was readily available around the world.

The public had won their first bout against the government surveillance state. Alongside the public, you had the cypherpunks and large tech companies that were all fighting a common threat.

There was not much of an issue in terms of encryption for quite a few more years.

Every few years afterward, the idea of backdoors into encryption schemes were brought up but nothing ever came about these new ideations.

The Crypto Wars Redux

The expansion of computational power and development of more efficient processing equipment closed the gap as to who can gain access to encryption software.

The widespread availabilty of software/hardware that can perform these cryptographic calculations involved in encryption and the ease of use has made it possible for the layman to encrypt their own personal messages, video calls,emails, and notes.

Encrypting an email with someone who has never imported a key to their keyring, or generated their own PGP public/private key pair is a thing of the past.

Many of the services that exist today offer these solutions out of the box. The process has become much easier for all parties involved.

Anyone that is now using this technology benefits from this on a privacy and security level.

With all parties benefitting, the leviathan rears its head once more. Australia has passed an anti-encryption bill that will force large tech companies to allow the Australian government to obtain hardware access(citing national security as a major reason).

Outrage has spilled out of the larger tech companies. The end-to-end zero knowledge messaging/calling app, Signal, has taken a stand against this bill.

This sounds very similar to the issues Tim May was battling with during the early days of the First Crypto War.

The cypherpunks came out on top and I’m sure this legislation will face a similar fate.

May’s Impact on the World

The imprint that Timothy May left on the world is profound. The mass adoption of encryption as well as cryptocurrencies shows just how far ahead of the times he was.

May urged the importance of privacy.

He insisted on the use of encryption to keep your communications private.

Currently on a majority of mobile phones there are applications that provide encrypted communications. Whatsapp uses the Signal protocol which was developed by cypherpunk Moxie Marlinspike.

The rise of cryptocurrencies is an ideal that May was very hopeful for.

May did come out against the anti-privacy issues of bitcoin.

There are projects that offer solutions for this privacy debate.

Much of the developer-base of these certain cryptocurrencies have their foundation based in the cypherpunk tradition.

The Cryptocurrencies that aim for a privacy by default mechanism are monero and the soon to launch GRIN which uses the Mimblewimble Protocol (To see an extremely entertaining introduction to the GRIN project via talk-to-text chat for privacy preservation, listen to the creator of Grin).

Zcash is moving in the direction of private by default and the superior cryptography of the ZK range proofs will help to create a very private cryptocurrency.

Cody WIlson and Amir Taaki who worked on projects focused on the crypto-anarchic tradition including Dark Wallet and Defense Distributed

The impact Tim May made on the world by helping to create a social movement shows the importance and strength of his ideals.

He has impacted a generation of people that are growing up in the digital age.

He influenced builders in the 21st century.

You have people creating new currencies, exposing government surveillance on a national scale, circumventing the broken bueracratic system by creating their own markets, anonymous internet protocols, as well as making encryption applicable to the common man (You can find a list of prominent cypherpunks here and also here).

There isn’t enough that can be said about the applications in which he believed could positively affect us.

May was cognizant of the encroaching all-seeing eye of the state but I believe we are in much better shape now than we’ve ever been.

There may be negative news about what we currently face as individuals, from the unprecedented surveillance of the Snowden leaks to the aforementioned Australian anti-encryption bill, but looking at the grand scheme of our daily lives, these tools and their functions have helped to create a much better day than May could have imagined in 1988.

He was a proponent for the industriousness of human nature to outpace the slow moving regulation that would try to bog down any progress.

You can listen here to what he thought people/creators should do when they develop ground breaking technology.

Arise, you have nothing to lose but your barbed wire fences!

Timothy C. May – “The Crypto Anarchist Manifesto”

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Return on Investment (ROI)

What Is Return on Investment (ROI)?

Return on investment (ROI) is a performance measure used to evaluate the efficiency or profitability of an investment or compare the efficiency of a number of different investments.

ROI tries to directly measure the amount of return on a particular investment, relative to the investment’s cost.

To calculate ROI, the benefit (or return) of an investment is divided by the cost of the investment. The result is expressed as a percentage or a ratio.

KEY TAKEAWAYS

  • Return on Investment (ROI) is a popular profitability metric used to evaluate how well an investment has performed.
  • ROI is expressed as a percentage and is calculated by dividing an investment’s net profit (or loss) by its initial cost or outlay.
  • ROI can be used to make apples-to-apples comparisons and rank investments in different projects or assets.
  • ROI does not take into account the holding period or passage of time, and so it can miss opportunity costs of investing elsewhere.

How to Calculate Return on Investment (ROI)

The return on investment (ROI) formula is as follows:

“Current Value of Investment” refers to the proceeds obtained from the sale of the investment of interest. Because ROI is measured as a percentage, it can be easily compared with returns from other investments, allowing one to measure a variety of types of investments against one another.

Understanding Return On Investment (ROI)

ROI is a popular metric because of its versatility and simplicity. Essentially, ROI can be used as a rudimentary gauge of an investment’s profitability. This could be the ROI on a stock investment, the ROI a company expects on expanding a factory, or the ROI generated in a real estate transaction.

The calculation itself is not too complicated, and it is relatively easy to interpret for its wide range of applications. If an investment’s ROI is net positive, it is probably worthwhile. But if other opportunities with higher ROIs are available, these signals can help investors eliminate or select the best options.

Likewise, investors should avoid negative ROIs, which imply a net loss.

For example, suppose Bill invested $1,000 in New Wave AI Corp. in 2017 and sold the shares for a total of $1,200 one year later.

To calculate the return on this investment, divide the net profits ($1,200 – $1,000 = $200) by the investment cost ($1,000), for a ROI of $200/$1,000, or 20%.

With this information, one could compare the investment in New Wave AI with any other projects.

Suppose Bill also invested $2,000 in Web Pirates Inc. in 2014 and sold the shares for a total of $2,800 in 2017. The ROI on Bill’s holdings in Web Pirates would be $800/$2,000, or 40%.

Limitations of Return on Investment (ROI)

Examples like Bill’s (above) reveal some limitations of using ROI, particularly when comparing investments. While the ROI of Jo’s second investment was twice that of the first investment, the time between Jo’s purchase and sale was one year for the first investment but three years for the second.

Bill could adjust the ROI of the multi-year investment accordingly. Since the total ROI was 40%, to obtain the average annual ROI, Bill could divide 40% by 3 to yield 13.33% annualized.

With this adjustment, it appears that although Bill’s second investment earned more profit, the first investment was actually the more efficient choice.

ROI can be used in conjunction with the rate of return (RoR), which takes into account a project’s time frame.

One may also use net present value (NPV), which accounts for differences in the value of money over time, due to inflation.

The application of NPV when calculating the RoR is often called the real rate of return.

Developments in Return On Investment (ROI)

Recently, certain investors and businesses have taken an interest in the development of a new form of the ROI metric, called “social return on investment,” or SROI.

SROI was initially developed in the late 1990s and takes into account broader impacts of projects using extra-financial value (i.e., social and environmental metrics not currently reflected in conventional financial accounts).1

SROI helps understand the value proposition of certain environmental social and governance (ESG) criteria used in socially responsible investing (SRI) practices. For instance, a company may decide to recycle water in its factories and replace its lighting with all LED bulbs. These undertakings have an immediate cost that may negatively impact traditional ROI—however, the net benefit to society and the environment could lead to a positive SROI.

There are several other new flavors of ROI that have been developed for particular purposes. Social media statistics ROI pinpoints the effectiveness of social media campaigns—for example how many clicks or likes are generated for a unit of effort. Similarly, marketing statistics ROI tries to identify the return attributable to advertising or marketing campaigns.

So-called learning ROI relates to the amount of information learned and retained as a return on education or skills training.

As the world progresses and the economy changes, several other niche forms of ROI are sure to be developed in the future.

Frequently Asked Questions

How do you calculate return on investment (ROI)?

Return on investment (ROI) is calculated by dividing the profit earned on an investment by the cost of that investment.

For instance, an investment with a profit of $100 and a cost of $100 would have a ROI of 1, or 100% when expressed as a percentage.

Although ROI is a quick and easy way to estimate the success of an investment, it has some serious limitations.

For instance, ROI fails to reflect the time value of money, and it can be difficult to meaningfully compare ROIs because some investments will take longer to generate a profit than others.

For this reason, professional investors tend to use other metrics, such as net present value (NPV) or the internal rate of return (IRR).

What is a good ROI?

What qualifies as a “good” ROI will depend on factors such as the risk tolerance of the investor and the time required for the investment to generate a return.

All else being equal, investors who are more risk-averse will likely accept lower ROIs in exchange for taking less risk.

Likewise, investments that take longer to pay off will generally require a higher ROI in order to be attractive to investors.

What industries have the highest ROI?

Historically, the average ROI for the S&P 500 has been about 10% per year. Within that, though, there can be considerable variation depending on the industry.

For instance, during 2020, technology companies such as Apple Inc., Microsoft Corp., and Amzon.com Inc. generated annual returns well above this 10% threshold.

Meanwhile, companies in other industries, such as energy companies and utilities, generated much lower ROIs and in some cases faced losses year-over-year.

Over time, it is normal for the average ROI of an industry to shift due to factors such as increased competition, technological changes, and shifts in consumer preferences.

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Bitcoin (BTC) :

1P1tTNFGRZabK65RhqQxVmcMDHQeRX9dJJ

LiteCoin(LTC) :

LYAdiSpsTJ36EWCJ5HF9EGy9iWGCwoLhed

Ethereum(ETH) :

0x602e8Ca3984943cef57850BBD58b5D0A6677D856

EthereumClassic(ETC) :

0x602e8Ca3984943cef57850BBD58b5D0A6677D856

Cardano(ADA) :

addr1q88c5cccnrqy6xesszzvf7rd4tcz87klt0m0h6uvltywqe8txwmsrrqdnpq27594tyn9vz59zv0n8367lvyc2atvrzvqlvdm9d

BinanceCoin(BNB) :

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BitcoinCash (BCH) :

1P1tTNFGRZabK65RhqQxVmcMDHQeRX9dJJ

Bitcoin SV (BSV) :

1P1tTNFGRZabK65RhqQxVmcMDHQeRX9dJJ

ZCash(ZEC) :

t1fSSQX4gEhove9ngcvFafQaMPq5dtNNsNF

Dash(DASH) :

XcWmbFw1VmxEPxvF9CWdjzKXwPyDTrbMwj

Shiba(SHIB) :

0x602e8Ca3984943cef57850BBD58b5D0A6677D856

Tron(TRX) :

TCsJJkqt9xk1QZWQ8HqZHnqexR15TEowk8

Stellar(XLM) :

GBL4UKPHP2SXZ6Y3PRF3VRI5TLBL6XFUABZCZC7S7KWNSBKCIBGQ2Y54

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