Category: #Andreaas Antonopoulus

Bitcoin is Freedom…

Bitcoin can serve as a first line of defense for freedom — a nonviolent tool which can disincentivize violence and control.

It is not only a hedge against currency devaluation, but a hedge against tyranny as well.

FREEDOM AS RESPONSIBILITY AND A MORAL IMPERATIVE

Owning bitcoin allows you to be your own bank, and much like maintaining freedom, it’s a hefty responsibility.

While it may be far too easy to leave your coins on an exchange, if you simply buy bitcoin but never take custody, you are leaving yourself open to a multitude of attacks. One of the most insidious, is the potential for a self-custody ban or some sort of regulatory capture of the exchanges, effectively turning bitcoin into another meme stock that must be held by a third-party custodian.

In the process, the peer-to-peer decentralized nature of the network gets degraded for millions of potential users across the country, if not the whole world.

When you have your money in banks and investment accounts, it’s not really yours. It belongs to the banks — the custodians — and it’s granted access to you at the behest of them and the government.

To these custodians, granting you access to your money is an inconvenient privilege that can be rescinded at a moment’s notice.

It’s a testament to how powerful western nations have become and a cautionary tale for what could happen if you ever see yourself in the outgroup in the event of a heated disagreement.

Anarcho-capitalists to Communists alike, whatever your views, whatever your political proclivities, Bitcoin has your back.

It is a completely voluntary system of censorship-resistant, peer-to-peer, electronic money. It is a digital bearer instrument if you use it correctly.

It is simply a tool; a tool that does not discriminate and does not care who you are or what you believe.

Bitcoin is a tool that just is; a tool that just does.

It exists everywhere and nowhere, simultaneously.

All you need to do is learn.

It is perhaps the largest peaceful protest in the history of mankind, and it is your best way to preserve freedom.

Loss of freedoms typically require violence to reinstate; opt in to peace through buying and holding bitcoin.

Every purchase you make is a vote for the future that you want. Through buying and holding bitcoin, holding your keys and taking back your self-sovereignty, you move the country back toward a sound money standard that can do much to fix our divisive problems.

Furthermore, you are making it harder for tyranny and government overreach to take hold. You are sowing the seeds for a better tomorrow

Source: https://bitcoinmagazine.com

Best Pool Rules

Best Pool Rules

In my opinion, more or less in order:

1)  Lowest fees

1a)  Shares transaction fees

1b)  Any pool that does NOT share transaction fees should be rejected from consideration (which, unfortunately, is most, if not all, Chinese based pools)

2)  Reasonable variance – You need to get paid often enough to be happy. This is a tough one.

Variance is the close cousin to “Luck”.

The luckier a pool is, the more blocks it finds relative to its hashing speed, and the less variance it will have.  But its not a real thing!  “Luck” could change any microsecond.
 “Luck” is just mathematical statistics – over a long enough time period, all pools will average out to 100% luck.

Luck Statistik for 14 Blocks

You need to understand Variance:

A big pool finds more blocks, but distributes the earnings out to more miners.  

A small pool is just the reverse:  it finds fewer blocks, but pays those earnings to fewer people. Over the long run, Rule #1, well, rules.

3)  Wind-up/Wind-down time – Most pools use some leveling algorithm.

4)  User Interface – That doesn’t matter much if you have a few miners.  If you have hundreds, the difference can be thousands of dollars a Year.

Notes:

A) In the long run #2 & #3 really don’t matter much.  Both pools show your hashing rate in minutes, payouts just lag on Kano compared to Slushpool, but would continue longer if you changed in the future

B) Bigger is not better.  Sure Antpool is #1 in size, in no small part to Bitmain using their own pool (no fees for them!).   Your profit will be determined mostly by rule #1 – lower fees mean more profit.

C) More, smaller, pools is healthier for the blockchain.  If you can live with the variance, support the pool with the longest average payout you are happy with.

D) For pools with long ramp up times that are relatively small, like Kano, you MIGHT suffer due to difficulty changes while you ramp up.

For smaller pools, make sure you understand what happens to your efforts (based on their scoring system) when a difficulty change occurs.

The Laws are Unjust

As we’ve seen over the many years that this rag has been written (and beyond) companies who are able to fund whole teams dedicated to data security have been wholly ineffective at storing that data safely.

With the passage of this new law EU officials are actively putting citizens in harm’s way by irresponsibly trying to force bitcoin users to collect and store each other’s data. This is if you believe that is the actual intention behind this move.

In reality, this move likely serves as a pure intimidation tactic to coerce people to use trusted third parties when transacting with bitcoin.

A heavy handed shove into easily controlled vectors. If too many users are in control of their own private keys, run their own nodes, and are up to date on best privacy practices when transacting it is much harder to stop bitcoin.

And make no mistake, these people want to stop bitcoin at all costs.

They do not want you to be free.

They are quickly losing their grasp of control on the populace and they are moving as quickly as possible to clamp down in an attempt to retain control.

You are not meant to have privacy in their eyes. You are inherently a criminal in their eyes. These people think you are disgusting cattle who needs to be led at every turn.

It does not have to be this way. You do not have to succumb to the madness of these people. All it takes are a few decisions.

Speak up!

Act!

Disobey!

There is a silent majority out there who knows this type of attempted control is inherently wrong.

It is anti-human!

It is evil!

This silent majority needs to begin developing the courage to speak up.

Call out the abject insanity of allowing unelected institutions like the Financial Action Task Force write freedom restricting guidelines that get adopted by governments like the EU.

Learn how to run your own node, how to produce your own private/public key pairs, and how to destroy chain analysis heuristics with privacy best practices.

Make the tyrant’s job as hard as possible!

Disobey!

Stand up and defend freedom in the Digital Age by actively defying their unjust laws.

“If a law is unjust, a man is not only right to disobey it, he obligated to do so.”

It is your duty as an individual to disobey these incredibly invasive and tyrannical “laws”.

If you don’t disobey your progeny may not have the opportunity to. The time to counter punch is right now. Get on it.

Source: https://tftc.io/

Seven common mistakes crypto investors and traders make?

Cryptocurrency markets are volatile enough without making simple, easily avoidable mistakes.

Investing in cryptocurrencies and digital assets is now easier than ever before. Online brokers, centralized exchanges and even decentralized exchanges give investors the flexibility to buy and sell tokens without going through a traditional financial institution and the hefty fees and commissions that come along with them.

Cryptocurrencies were designed to operate in a decentralized manner. This means that while they’re an innovative avenue for global peer-to-peer value transfers, there are no trusted authorities involved that can guarantee the security of your assets. Your losses are your responsibility once you take your digital assets into custody.

Here we’ll explore some of the more common mistakes that cryptocurrency investors and traders make and how you can protect yourself from unnecessary losses.

Losing your keys

Cryptocurrencies are built on blockchain technology, a form of distributed ledger technology that offers high levels of security for digital assets without the need for a centralized custodian. However, this puts the onus of protection on asset holders, and storing the cryptographic keys to your digital asset wallet safely is an integral part of this.

On the blockchain, digital transactions are created and signed using private keys, which act as a unique identifier to prevent unauthorized access to your cryptocurrency wallet. Unlike a password or a PIN, you cannot reset or recover your keys if you lose them. This makes it extremely important to keep your keys safe and secure, as losing them would mean losing access to all digital assets stored in that wallet.

Lost keys are among the most common mistakes that crypto investors make. According to a report from Chainalysis, of the 18.5 million Bitcoin (BTC) mined so far, over 20% has been lost to forgotten or misplaced keys.

Storing coins in online wallets

Centralized cryptocurrency exchanges are probably the easiest way for investors to get their hands on some cryptocurrencies. However, these exchanges do not give you access to the wallets holding the tokens, instead offering you a service similar to banks. While the user technically owns the coins stored on the platform, they are still held by the exchange, leaving them vulnerable to attacks on the platform and putting them at risk.

There have been many documented attacks on high-profile cryptocurrency exchanges that have led to millions of dollars worth of cryptocurrency stolen from these platforms. The most secure option to protect your assets against such risk is to store your cryptocurrencies offline, withdrawing assets to either a software or hardware wallet after purchase.

Not keeping a hard copy of your seed phrase

To generate a private key for your crypto wallet, you will be prompted to write down a seed phrase consisting of up to 24 randomly generated words in a specific order. If you ever lose access to your wallet, this seed phrase can be used to generate your private keys and access your cryptocurrencies.

Keeping a hard copy record, such as a printed document or a piece of paper with the seed phrase written on it, can help prevent needless losses from damaged hardware wallets, faulty digital storage systems, and more. Just like losing your private keys, traders have lost many a coin to crashed computers and corrupted hard drives.

Fat-finger error

A fat-finger error is when an investor accidentally enters a trade order that isn’t what they intended. One misplaced zero can lead to significant losses, and mistyping even a single decimal place can have considerable ramifications.

One instance of this fat-finger error was when the DeversiFi platform erroneously paid out a $24-million fee. Another unforgettable tale was when a highly sought-after Bored Ape nonfungible token was accidentally sold for $3,000 instead of $300,000.

Sending to the wrong address

Investors should take extreme care while sending digital assets to another person or wallet, as there is no way to retrieve them if they are sent to the wrong address. This mistake often happens when the sender isn’t paying attention while entering the wallet address. Transactions on the blockchain are irreversible, and unlike a bank, there are no customer support lines to help with the situation.

This kind of error can be fatal to an investment portfolio. Still, in a positive turn of events, Tether, the firm behind the world’s most popular stablecoin, recovered and returned $1 million worth of Tether (USDT) to a group of crypto traders who sent the funds to the wrong decentralized finance platform in 2020. However, this story is a drop in the ocean of examples where things don’t work out so well. Hodlers should be careful while dealing with digital asset transactions and take time to enter the details. Once you make a mistake, there’s no going back.

Over diversification

Diversification is crucial to building a resilient cryptocurrency portfolio, especially with the high volatility levels in the space. However, with the sheer number of options out there and the predominant thirst for outsized gains, cryptocurrency investors often end up over-diversifying their portfolios, which can have immense consequences.

Over-diversification can lead to an investor holding a large number of heavily underperforming assets, leading to significant losses. It’s vital to only diversify into cryptocurrencies where the fundamental value is clear and to have a strong understanding of the different types of assets and how they will likely perform in various market conditions.

Not setting up a stop-loss arrangement

A stop-loss is an order type that enables investors to sell a security only when the market reaches a specific price. Investors use this to prevent losing more money than they are willing to, ensuring they at least make back their initial investment.

In several cases, investors have experienced huge losses because of incorrectly setting up their stop losses before asset prices dropped. However, it’s also important to remember that stop-loss orders aren’t perfect and can sometimes fail to trigger a sale in the event of a large, sudden crash.

That being said, the importance of setting up stop losses to protect investments cannot be understated and can significantly help mitigate losses during a market downturn.

Crypto investing and trading is a risky business with no guarantees of success. Like any other form of trading, patience, caution and understanding can go a long way. Blockchain places the responsibility on the investor, so it’s crucial to take the time to figure out the various aspects of the market and learn from past mistakes before putting your money at risk.

Source: https://bitcointalk.org/

Seven common mistakes crypto investors and traders make?

Cryptocurrency markets are volatile enough without making simple, easily avoidable mistakes.

Investing in cryptocurrencies and digital assets is now easier than ever before. Online brokers, centralized exchanges and even decentralized exchanges give investors the flexibility to buy and sell tokens without going through a traditional financial institution and the hefty fees and commissions that come along with them.

Cryptocurrencies were designed to operate in a decentralized manner. This means that while they’re an innovative avenue for global peer-to-peer value transfers, there are no trusted authorities involved that can guarantee the security of your assets. Your losses are your responsibility once you take your digital assets into custody.

Here we’ll explore some of the more common mistakes that cryptocurrency investors and traders make and how you can protect yourself from unnecessary losses.

Losing your keys

Cryptocurrencies are built on blockchain technology, a form of distributed ledger technology that offers high levels of security for digital assets without the need for a centralized custodian. However, this puts the onus of protection on asset holders, and storing the cryptographic keys to your digital asset wallet safely is an integral part of this.

On the blockchain, digital transactions are created and signed using private keys, which act as a unique identifier to prevent unauthorized access to your cryptocurrency wallet. Unlike a password or a PIN, you cannot reset or recover your keys if you lose them. This makes it extremely important to keep your keys safe and secure, as losing them would mean losing access to all digital assets stored in that wallet.

Lost keys are among the most common mistakes that crypto investors make. According to a report from Chainalysis, of the 18.5 million Bitcoin (BTC) mined so far, over 20% has been lost to forgotten or misplaced keys.

Storing coins in online wallets

Centralized cryptocurrency exchanges are probably the easiest way for investors to get their hands on some cryptocurrencies. However, these exchanges do not give you access to the wallets holding the tokens, instead offering you a service similar to banks. While the user technically owns the coins stored on the platform, they are still held by the exchange, leaving them vulnerable to attacks on the platform and putting them at risk.

There have been many documented attacks on high-profile cryptocurrency exchanges that have led to millions of dollars worth of cryptocurrency stolen from these platforms. The most secure option to protect your assets against such risk is to store your cryptocurrencies offline, withdrawing assets to either a software or hardware wallet after purchase.

Not keeping a hard copy of your seed phrase

To generate a private key for your crypto wallet, you will be prompted to write down a seed phrase consisting of up to 24 randomly generated words in a specific order. If you ever lose access to your wallet, this seed phrase can be used to generate your private keys and access your cryptocurrencies.

Keeping a hard copy record, such as a printed document or a piece of paper with the seed phrase written on it, can help prevent needless losses from damaged hardware wallets, faulty digital storage systems, and more. Just like losing your private keys, traders have lost many a coin to crashed computers and corrupted hard drives.

Fat-finger error

A fat-finger error is when an investor accidentally enters a trade order that isn’t what they intended. One misplaced zero can lead to significant losses, and mistyping even a single decimal place can have considerable ramifications.

One instance of this fat-finger error was when the DeversiFi platform erroneously paid out a $24-million fee. Another unforgettable tale was when a highly sought-after Bored Ape nonfungible token was accidentally sold for $3,000 instead of $300,000.

Sending to the wrong address

Investors should take extreme care while sending digital assets to another person or wallet, as there is no way to retrieve them if they are sent to the wrong address. This mistake often happens when the sender isn’t paying attention while entering the wallet address. Transactions on the blockchain are irreversible, and unlike a bank, there are no customer support lines to help with the situation.

This kind of error can be fatal to an investment portfolio. Still, in a positive turn of events, Tether, the firm behind the world’s most popular stablecoin, recovered and returned $1 million worth of Tether (USDT) to a group of crypto traders who sent the funds to the wrong decentralized finance platform in 2020. However, this story is a drop in the ocean of examples where things don’t work out so well. Hodlers should be careful while dealing with digital asset transactions and take time to enter the details. Once you make a mistake, there’s no going back.

Over diversification

Diversification is crucial to building a resilient cryptocurrency portfolio, especially with the high volatility levels in the space. However, with the sheer number of options out there and the predominant thirst for outsized gains, cryptocurrency investors often end up over-diversifying their portfolios, which can have immense consequences.

Over-diversification can lead to an investor holding a large number of heavily underperforming assets, leading to significant losses. It’s vital to only diversify into cryptocurrencies where the fundamental value is clear and to have a strong understanding of the different types of assets and how they will likely perform in various market conditions.

Not setting up a stop-loss arrangement

A stop-loss is an order type that enables investors to sell a security only when the market reaches a specific price. Investors use this to prevent losing more money than they are willing to, ensuring they at least make back their initial investment.

In several cases, investors have experienced huge losses because of incorrectly setting up their stop losses before asset prices dropped. However, it’s also important to remember that stop-loss orders aren’t perfect and can sometimes fail to trigger a sale in the event of a large, sudden crash.

That being said, the importance of setting up stop losses to protect investments cannot be understated and can significantly help mitigate losses during a market downturn.

Crypto investing and trading is a risky business with no guarantees of success. Like any other form of trading, patience, caution and understanding can go a long way. Blockchain places the responsibility on the investor, so it’s crucial to take the time to figure out the various aspects of the market and learn from past mistakes before putting your money at risk.

Source: https://bitcointalk.org/

19 Million bitcoin in Circulation

Source: https://coinpayments.com/

The monetary properties of Bitcoin

bitcoin vs gold
bitcoin vs fiat

Bitcoin is a monetary good — a new form of money. As Bitcoin is a money, it must be compared to other monies to consider the comparative advantages of Bitcoin and from that consider further the probabilities of Bitcoin winning ground or not in the competition between monies.

Brief summarization of the monetary properties

Summarization of the monetary properties of Bitcoin compared to precious metals and fiat currencies

As the exhibit above showcases, Bitcoin offers many different distinct and compelling competitive advantages to the alternatives.

These include, but are not limited to:

1. Bitcoin is the first asset in the human history to provide any holder a very sure case of unseizability and censorship- and judgment-resistance for their funds.

Unseizability: With precious metals and fiat currencies, the custodianship is mostly in the hands of trusted custodians that is subject to any intervention by a government or authority.

Bitcoin, with self-custody being orders of magnitude easier than with precious metals and fiat currencies, and access to the corresponding private key of funds being the sole way to access and move funds, no one can seize your bitcoins.

Censorship- and judgment resistance: With precious metals and fiat currencies, the payment clearing for small value transactions can with not much hassle be somewhat censorship resistant if the involved parties are willing to transact in the physical units of precious metals and fiat currencies and to self-custody the funds going forward.

However, with non-small value transactions it is exceedingly inconvenient and costly for transactions of precious metals and fiat currencies to happen in the offline, with physical units and self-custody going forward, leaving the centralized intermediaries as the only option and these are subject to any intervention by a government or authority.

Bitcoin, with the payment clearing involving no centralized intermediaries but instead a decentralized and distributed setup requiring no AML/KYC, the result is that of a the payment clearing process being permissionless, allowing anyone with cryptographic access to funds to move them at their will.

2. Bitcoin provides an inherently apolitical global monetary unit. It is truly border-less, with no recognition of any jurisdictional rules and laws, allowing the jurisdiction of a counterpart in any transaction to be of no relevance.

◦ Fiat currencies are highly political and precious metals are less political than fiat currencies, but still much more political than Bitcoin.

◦ Bitcoin is truly border-less: any bitcoin funds can be accessed anywhere on the planet by having access to information that can even be stored inside a human brain and reliably retrieved at small effort — and, crucially, with no intermediary and no permission required the bitcoin funds can be moved to anywhere in the world with final settlement in the next block.

3. Bitcoin provides scarcity and salability through time characteristics vastly superior to any other monetary options, including fiat currencies and precious metals.

◦ The non-discretionary monetary policy of the bitcoin networking allowing for the asymptotic money supply* of 21 million BTC is built into the literal definition of the protocol. This is a drastic contrast to the arbitrary scarcity of fiat currencies governed by politics.

The scarcity of precious metals is much better than fiat currencies, but Bitcoin with the strictly fixed money supply outperforms any precious metal.

Bitcoin provides any holder a reassurance stronger than any other asset in the world that their ownership stake in the total quantity of Bitcoin on the market will never diluted.

One BTC of 21 million will always be one BTC of 21 million.

◦ Bitcoins are infinitely durable, impossible to counterfeit or dilute, can be stored at no cost and at no degradation.

* By inventing Bitcoin, Satoshi Nakamoto created the first example of a digital good (in this case, monetary good) that is impossible to reproduce ad infinitum, thereby creating the first instance of human history of digital scarcity.

Less talked about it, but perhaps more important, Satoshi Nakamoto with Bitcoin also created the first example of a good being absolute scarce.

Previously, any consideration of scarcity of a good was relative. Any physical good is never absolutely scarce, onlyrelatively scarce when compared to other goods — simply because any limit on a physical goods is a function of the time and human effort put towards producing the good.

Bitcoin, with the asymptotic monetary supply built into the protocol, is therefore the first example of absolute scarcity in a liquid commodity and good that cannot have its fixed quantity of supply increased.

People’s Money
Power to the People
The seed has been planted
Make it Thrive !!!
Choose
Veritas non Auctoritas …
Choose Wisely

Trilemma of International Finance

Trilemma of International Finance

The relative value of any two curren-
cies—the exchange rate—is determined
through their sale and purchase on the global foreign exchange market. If government policy interferes with this market by changing the relative supply or demand of currencies, the exchange rate is managed.

The trilemma of international finance, is a restriction on government policy that follows immediately from the interaction of exchange rates, monetary policy and international capital flows.

Trilemma of International Finance

The trilemma states that any country can have only two of the following:

  • (1) Unrestricted international capital markets.
  • (2) A managed exchange rate.
  • (3) An independent monetary policy.

If the government wants a managed exchange rate but does not want to interfere
with international capital flows, it must use
monetary policy to accommodate changes
in the demand for its currency in order to
stabilize the exchange rate.

In the extreme, this would take the form of a currency board arrangement, where the domestic currency is fully backed by a foreign currency (as in the case of Hong Kong).

In such a situation, monetary policy can no longer be used for domestic purposes (it is no longer independent).

If a country wishes to maintain control over monetary policy to reduce domestic unemployment or inflation, for example, it must limit trades of its currency in the international capital market (it no longer has free international capital markets).

A country that chooses to have both unrestricted inter-national capital flows and an independent monetary policy can no longer influence its exchange rate and, therefore, cannot have a managed exchange rate.

Pieters and Vivanco (2016), government
attempts to regulate the globally accessible
bitcoin markets are generally unsuccessful,
and, as shown in Pieters (2016), bitcoin exchange rates tend to reflect the
market, not official exchange rates.

Should the flows allowed by bitcoin become big enough, all countries will have, by default, unrestricted international capital markets.

Thus, with bitcoin, (1) unrestricted
international capital markets is chosen by
default.

Therefore, the only remaining policy choice is between (2) managed exchange rates or (3) independent monetary policy.

If the country chooses (1) and (2), it must use reactive monetary policy to achieve the managed exchange rate.

If the country chooses (1) and (3), it must have a floating exchange rate because it has no remaining tools with which to maintain a managed exchange rate.

Ali et al. (2014), the European Central
Bank (2015) and the Bank for International
Settlements (2015) all concur that cryptocur-
rencies may eventually undermine monetary policy.

With 💚

Convergence of blockchain with AI and IOT

IoT and AI are growing exponentially

Internet of Things – IoT

A future of transacting intelligent machines

• Individually, each of these technologies deserves all the attention they’re getting as enablers and disruptors

• But, taken together?

• Their transformative effect becomes multiplicative

A future driven by machine connectivity, data exchange and commercial services:

  • IoT connects billions of machines and sensors generate unprecedented quantities of real-time data
  • AI enables the machines to act on data and trigger services
  • Blockchain functions are the transaction layer where data and service contracts are securely stored and payments for services are settled

How does blockchain support intelligent connected machines?

Smart Contracts enable self-executing and self-enforcing contractual states

  • Custom financial instruments (tokens), records of ownership of an underlying physical asset (smart property), any
  • complex business logic that can be programmable
  • Can such applications be ideal for intelligent (AI) and connected (IoT) machines?
  • These machines are intelligent enough to negotiate contracts, but need a technology allowing them to securely sign and enforce them

Digital currencies create new forms of money

  • Programmable and active
  • Will such money be ideal for intelligent (AI) and connected (IoT) machines?
  • These machines will need digital currency to pay for services assigned through the smart contracts

How will the three technologies work together?

IoT – Internet of Things

  • Sensors allow us to cost-effectively gather tremendous amounts of data.
  • Connectivity allows us to transmit/broadcast these data.
  • But, there is a missing element: intelligence to process these data.

AI – Artificial Intelligence

  • Intelligence at the very edges of the network (mini-brains).
  • Combine with IoT and you have the ability to recognize meaningful patterns buried in mountains of data in ways that would be impossible for most humans, or even non-AI algorithms, to do.
  • But, there is a missing element: a secure storage layer for data and a transaction layer for services

DLT (blockchain) – Distributed Ledger Technology

  • Decentralized governance, coupled with no single point of failure, disintermediation, unalterable and searchable records of events.
  • Digital currencies and tokenized custom financial instruments.
  • Combine with AI and IoT and you have a new world of autonomous systems interacting with each other, procuring services from each other and settling transactions.

The technology stack of the future

Technology Stack of the Future

Toward a world of machine commerce

A world of Machine Commerce

M2M will need SSI (self-sovereign identities) – for objects!

Human Identities types

Object identities can be SSI by default

  • Multi-source, multi-verifier
  • Digitally signed, verifiable credentials that can prove issuer, holder and status
  • Secure peer-to-peer connections (permanent or session-based)
  • Exchange full credentials, partial credentials or ZKPs derived from credentials

Next milestone: Decentralized Organizations (DOs)

DOs are good at:

  • Coordinating resources that do not know/trust each other (including hybrid
  • H/M)
  • Governing in a geography-agnostic, censorship-resistant manner
  • Enabling short-term or informal organizational structures  (networks/communities)
  • Tracking and rewarding contribution

Challenges

  • Jurisdictional issues
  • Legislating new types of work for humans and work rules for machines
  • Governance modalities, including external supervision

Challenges

New/upgraded system architectures

• From legacy to blockchain/AI/IoT-native systems
• Integration, interoperability, backward compatibility
• ROI obvious ex post, difficult ex ante – Bootstrapping

Advanced analytics capabilities

• As devices at the edge become smarter, the smart contracts enabled by blockchain platforms will require more advanced data analytics capabilities and gateways to the physical world.

New Business Models

  • Disruptive innovation will dominate – but not without boom-and-bust cycles and big failures along the way.
  • Winners will NOT be the ones focusing on efficiency gains, but on disruptive models.

Key takeaways

• IoT, AI and DLT (blockchain) are foundational and exponentially growing technologies

  • When combined, they will create a new internet of connected, intelligent and commercially transacting machines
  • An era machine-to-machine (M2M) and human-to-machine (H2M) commerce is likely to emerge, with profound consequences on social and economic dynamics
  • New forms of corporations or organizational formats (code-only, autonomous) will emerge

• There are numerous challenges that must be overcome

  • IoT has outpaced the human internet, but is still a largely passive, insecure and privacy-vulnerable network
  • AI has made huge leaps, but still requires immense computational resources and is largely incompatible with edge computing
  • DLT is a new technology, largely untested at scale; both smart contracts and digital assets lack the regulatory clarity required for mass adoption

This work is available under a Creative Commons Attribution-Non-Commercial-No Derivatives license
© University of Nicosia,
Institute for the Future, unic.ac.cy/blockchain

With 💚

ASICs vs. SuperComputers

Asics
SuperComputers

ASICs vs Supercomputers

Assigning the most powerful supercomputer to mine bitcoin would be comparable to hiring a grandmaster chess player to move a pile of bricks by hand.

The job would get done eventually but the chess player is much better at thinking and playing chess than exerting energy to repetitively move bricks. 

Likewise, combining the computing power of the most powerful supercomputers in the world and using them to mine bitcoin would essentially be pointless when compared to the ASIC machines used today.

ASICs are designed to do one thing as quickly and efficiently as possible, whereas a supercomputer is designed to do complicated tasks or math problems.

Since Bitcoin mining is a lottery based on random trial and error rather than complex math, specialization (ASICs) beats general excellence (supercomputers) everytime.

End of Lesson !!!

Made with 💚 by Free Spirit

✌ & 💚

With 💚

Welcome…

To the rabbit hole…

Why this crazyness with rabbits ?!? And their holes, you would ask ?!? Why is the rabbit hole so deep ?¿

And what does the rabbit hole has to do with that BitCorn thing  I keep hearing about all over the place ?¿

I like to start from the begining, as I think so I am 😋😂

Rabbit Hole is a play written by David Lindsay-Abaire. It was the recipient of the 2007 Pulitzer Prize for Drama. The play premiered on Broadway in 2006, and it has also been produced by regional theatres in cities such as Los Angeles, Philadelphia and Pittsburgh. The play had its Spanish language premiere in San Juan, Puerto Rico in Autumn of 2010.

The play deals with the ways family members survive a major loss, and includes comedy as well as tragedy. Cynthia Nixon won the 2006 Tony Award for Best Performance by a Leading Actress in a Play for her performance as Becca in the New York production, and the play was nominated for several other Tony awards.

Rabbit Hole

A situation, journey, or process that is particularly strange, problematic, difficult, complex, or chaotic, especially one that becomes increasingly so as it develops or unfolds.

An allusion to “Alice’s Adventures in Wonderland” by Lewis Carroll, it is used especially in the phrase “(go) down the rabbit hole.”

Overhauling the current tax legislation is a rabbit hole I don’t think this administration should go down at this point.I’ve stayed away from drugs and alcohol since coming to college. I have an addictive personality, so I decided to just avoid that rabbit hole altogether.

What does rabbit hole mean?

Used especially in the phrase going down the rabbit hole or falling down the rabbit hole, a rabbit hole is a metaphor for something that transports someone into a wonderfully (or troublingly) surreal state or situation.

On the internet, a rabbit hole frequently refers to an extremely engrossing and time-consuming topic.

Where does rabbit hole come from?

Alice falling down a hole with a jar in hand
Alice’s Adventures in WonderLand

Literally, a rabbit hole is what the animal digs for its home. The earliest written record of the phrase dates back to the 17th century. But the figurative rabbit hole begins with Lewis Carroll’s 1865 classic, Alice’s Adventures in Wonderland.

In its opening chapter, “Down the Rabbit-Hole,” Alice follows the White Rabbit into his burrow, which transports her to the strange, surreal, and nonsensical world of Wonderland.

Since then, Carroll’s rabbit hole has proved a popular and useful reference. The Oxford English Dictionary finds the first allusive rabbit hole in a 1938 edition of The Yale Law Journal: “It is the Rabbit-Hole down which we fell into the Law, and to him who has gone down it, no queer performance is strange.”

Over much of the 20th century, rabbit hole has been used to characterize bizarre and irrational experiences. It’s especially used to reference magical, challenging, and even dangerous places or positions, similar to Carroll’s topsy-turvy Wonderland.

Rabbit hole has many metaphorical applications—from frustrating red tape to the mind-bending complexity of science to hallucinations during altered states—all united by a common sense of passing into some labyrinthine, logic-defying realm that, once entered, is hard to get out of.

One can fall down the rabbit hole of government bureaucracy, healthcare, obtaining a green card, tax law, the political economy of modern Japan, puberty, college admissions, or quantum mechanics.

If you’re Neo in the hit film The Matrix, you can take the red pill—a pill that shows you the truth, as opposed to the blue pill, which keeps you in ignorance—and “see how deep the rabbit hole goes.”

In a related note, some people literally take pills and go down the rabbit hole of a psychedelic drug trip.

But as Kathryn Schulz observed for The New Yorker in 2015, rabbit hole has further evolved in the information age: “These days…when we say that we fell down the rabbit hole, we seldom mean that we wound up somewhere psychedelically strange. We mean that we got interested in something to the point of distraction—usually by accident, and usually to a degree that the subject in question might not seem to merit.”

Thanks to the abundance, variety, and instant access of content online, many fall down internet rabbit holes which are often spectacularly, and addictively, niche: scary stories, obscure conspiracy theories, or famous last meals, for instance.

Other rabbit holes tend to be opened up by specific services or social media, which serve users item after item, link after link: Wikipedia, Netflix, Amazon, Facebook, YouTube, and so forth.

These rabbit holes have become so common that people sometimes swap out rabbit for the name of the particular site, e.g. “I’ve fallen down an Instragram hole or “I’m falling down a wikihole.”

Who uses rabbit hole?

From formal documents to internet status updates, rabbit hole is a very popular and widespread expression. Unlike earlier iterations of the metaphor, internet rabbit holes convey less a sense of weirdness, disorientation, or difficulty than they do of an intensely captivating diversion.

Rabbit hole is also showing increasing use as a modifier, e.g. a rabbit-hole question or phenomenon.

Now… that we have a basic and broader understanding about this Hole and it’s rabbit that digged it 😋😂

Let me show you a journey that I took to get to know, understand, admire, be amazed and support the BitCorn everybody is so crazy about …

Bitcoin Glossary

Block

Blocks are found in the Bitcoin blockchain. 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.

Blockchain

The Bitcoin blockchain is a public record of all Bitcoin transactions. You might also hear the term used as a “public ledger.” The blockchain shows every single record of bitcoin transactions in order, dating back to the very first one. The entire blockchain can be downloaded and openly reviewed by anyone, or you can use a block explorer to review the blockchain 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.”

Change

Let’s say you are spending $1.90 in your local supermarket, and you give the cashier $2.00. 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 your bitcoins 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.

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.

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 blockchain.

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.

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.

Full Node

A full node is when you download the entire blockchain using a bitcoin client, and you relay, validate, and secure the data within the blockchain. The data is bitcoin transactions and blocks, which is validated across the entire network of users.

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 four years. This is called “halving.” The final halving will take place in the year 2140.

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 blockchain, the hardware they use must perform intensive computational operations which is output in hashes per second.

Hash (txid)

A transaction hash (sometimes referred to as a transaction ID or txid) is a unique identifier that can be used on any block explorer to look up all of the public details of a particular transaction. Every on-chain transaction has a unique hash made up of a long string of alphanumeric characters.

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.

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

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.

RBF

RBF stands for Replace By Fee, and refers to a method that allows a sender to replace a “stuck” or unconfirmed transaction with a new one that uses a higher fee. This is done to make sure a transaction confirms as quickly as possible. The “replacement” transaction uses the same inputs as the original one. This is not considered a double spend, as the receiving address(es) typically remain the same.

Satoshi Nakamoto

Bitcoin’s existence began with an academic paper written in 2008 by a developer under the name of Satoshi Nakamoto. Satoshi is the name used as the original inventor of Bitcoin.

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.

Sources:

https://dictionary.com/

https://wikipedia.com/

https://blockchain.com/

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P.O.W In Human History

Proof Of Work

in the

History of Humankind

Great Pyramid of Giza (a.k.a)
Pyramid of Khu
Egypt

The Great Pyramid of Giza (also known as the Pyramid of Khufu or the Pyramid of Cheops) is the oldest and largest of the  pyramids in the Giza pyramid complex  bordering present-day Giza  in Greater Cairo, Egypt.

It is the oldest of the Seven Wonders of the Ancient World, and the only one to remain largely intact.

Egyptologists conclude that the pyramid was built as a tomb for the Fourth Dynasty  Egyptian pharaoh Khufu and estimate that it was built in the 26th century BC during a period of around 27 years.

Initially standing at 146.5 metres (481 feet), the Great Pyramid was the tallest man-made structure in the world for more than 3,800 years.

Over time, most of the smooth white limestone casing was removed, which lowered the pyramid’s height to the present 138.5 metres (454.4 ft).

What is seen today is the underlying core structure. The base was measured to be about 230.3 metres (755.6 ft) square, giving a volume of roughly 2.6 million cubic metres (92 million cubic feet), which includes an internal hillock.

The dimensions of the pyramid were 280 royal cubits (146.7 m; 481.4 ft) high, a base length of 440 cubits (230.6 m; 756.4 ft), with a seked of 5+1/2 palms (a slope of 51°50’40”).

The Great Pyramid was built by quarrying an estimated 2.3 million large blocks weighing 6 million tonnes total.

The majority of stones are not uniform in size or shape and are only roughly dressed.The outside layers were bound together by mortar.

Primarily local limestone from the Giza Plateau was used. Other blocks were imported by boat down the Nile: White limestone from Tura for the casing, and granite blocks from Aswan, weighing up to 80 tonnes, for the King’s Chamber structure.

There are three known chambers inside the Great Pyramid. The lowest was cut into the bedrock, upon which the pyramid was built, but remained unfinished. The so-called Queen’s Chamber and King’s Chamber, that contains a granite sarcophagus, are higher up, within the pyramid structure. Khufu’s vizier, Hemiunu (also called Hemon), is believed by some to be the architect of the Great Pyramid.

Many varying scientific and alternative hypotheses attempt to explain the exact construction techniques.

The funerary complex around the pyramid consisted of two mortuary temples  connected by a causeway (one close to the pyramid and one near the Nile), tombs for the immediate family and court of Khufu, including three smaller pyramids for Khufu’s wives, an even smaller “satellite pyramid” and five buried solar barges.

Flavian Amphitheatre
a.k.a Colloseum
Rome – Italy

The Colosseum (Colosseo[kolosˈsɛːo]) is an oval amphitheatre in the centre of the city of Rome, Italy, just east of the Roman Forum.

It is the largest ancient amphitheatre ever built, and is still the largest standing amphitheatre in the world today, despite its age.

Construction began under the emperor Vespasian (r. 69–79 AD) in 72 and was completed in 80 AD under his successor and heir, Titus (r. 79–81).

Further modifications were made during the reign of Domitian (r. 81–96).

The three emperors that were patrons of the work are known as the Flavian dynasty, and the amphitheatre was named the Flavian Amphitheatre (Latin: Amphitheatrum Flavium; Italian: Anfiteatro Flavio[aɱfiteˈaːtro ˈflaːvjo]) by later classicists and  archaeologists for its association with their family name (Flavius).

The Colosseum is built of travertine limestone, tuff (volcanic rock), and brick-faced concrete.

The Colosseum could hold an estimated 50,000 to 80,000 spectators at various points in its history  having an average audience of some 65,000; it was used for gladiatorial  contests and  public spectacles including  animal hunts, executions, re-enactments of famous battles, and dramas based on Roman mythology, and briefly mock sea battles.

The building ceased to be used for entertainment in the early medieval era.

It was later reused for such purposes as housing, workshops, quarters for a religious order, a fortress, a quarry, and a Christian shrine.

Although substantially ruined because of earthquakes and stone-robbers (for spolia), the Colosseum is still an iconic symbol of Imperial Rome and was listed as one of the New 7 Wonders of the World.

It is one of Rome’s most popular tourist attractions and also has links to the Roman Catholic Church, as each Good Friday  the Pope leads a torchlit “Way of the Cross” procession that starts in the area around the Colosseum.

The Colosseum is also depicted on the Italian version of the five-cent euro coin.

The Ming dynasty
Great Wall
at Jinshanling

The Great Wall of China (traditional Chinese: 萬里長城; simplified Chinese: 万里长城; pinyinWànlǐ Chángchéng) is a series of fortifications that were built across the historical northern borders of ancient Chinese states and Imperial China as protection against various nomadic groups from the Eurasian Steppe.

Several walls were built from as early as the 7th century BC,with selective stretches later joined together by Qin Shi Huang  (220–206 BC), the first emperor of China.

Little of the Qin wall remains. Later on, many successive dynasties built and maintained multiple stretches of border walls. The best-known sections of the wall were built by the Ming dynasty (1368–1644).

Apart from defense, other purposes of the Great Wall have included border controls, allowing the imposition of duties on goods transported along the Silk Road, regulation or encouragement of trade and the control of immigration and emigration.

Furthermore, the defensive characteristics of the Great Wall were enhanced by the construction of watchtowers, troop barracks, garrison stations, signaling capabilities through the means of smoke or fire, and the fact that the path of the Great Wall also served as a transportation corridor.

The frontier walls built by different dynasties have multiple courses. Collectively, they stretch from Liaodong in the east to Lop Lake in the west, from the present-day Sino–Russian border in the north to Tao River (Taohe) in the south; along an arc that roughly delineates the edge of the Mongolian steppe; spanning 21,196.18 km (13,170.70 mi) in total.

Today, the defensive system of the Great Wall is generally recognized as one of the most impressive architectural feats in history.

As history has left behind, monumental architectural constructions that we can admire and reamain in awe as we look at them, after thousands of years since the first stone was put, in today’s world our digital PoW can be seen and admired the same as the Great Wall of China or the Piramid of Giza !!!

Wich brings us to the question, what is Free talking about ?!?

Long Live the CypherPunks
CypherPunks Write Code
Genesis
Bitcoin Genesis Block
Mined 03 January 2009
The Times
January 3, 2009
Bitcoin – Proof Of Work


Bitcoin-type Proof Of Work

In 2009, the Bitcoin network went online. Bitcoin is a proof-of-work digital currency that, like Finney’s RPoW, is also based on the Hashcash PoW.

But in Bitcoin, double-spend protection is provided by a decentralized P2P protocol for tracking transfers of coins, rather than the hardware trusted computing function used by RPoW.

Bitcoin has better trustworthiness because it is protected by computation. Bitcoins are “mined” using the Hashcash proof-of-work function by individual miners and verified by the decentralized nodes in the P2P bitcoin network.

The difficulty is periodically adjusted to keep the block time around a target time.

Since the creation of Bitcoin, proof-of-work has been the predominant design of peer-to-peer cryptocurrency. Studies have estimated the total energy consumption of cryptocurrency mining.

The PoW mechanism requires a vast amount of computing resources, which consume a significant amount of electricity. Recent estimates from the University of Cambridge put Bitcoin’s energy consumption as equal to that of Switzerland.

History modification

Each block that is added to the blockchain, starting with the block containing a given transaction, is called a confirmation of that transaction.

Ideally, merchants and services that receive payment in the cryptocurrency should wait for at least one confirmation to be distributed over the network, before assuming that the payment was done.

The more confirmations that the merchant waits for, the more difficult it is for an attacker to successfully reverse the transaction in a blockchain—unless the attacker controls more than half the total network power, in which case it is called a 51% attack.

2ASICs and mining pools

Within the Bitcoin community there are groups working together in mining pools.

Some miners use application-specific integrated circuits (ASICs) for PoW. This trend toward mining pools and specialized ASICs has made mining some cryptocurrencies economically infeasible for most players without access to the latest ASICs, nearby sources of inexpensive energy, or other special advantages.

Some PoWs claim to be ASIC-resistant,  i.e. to limit the efficiency gain that an ASIC can have over commodity hardware, like a GPU, to be well under an order of magnitude.

ASIC resistance has the advantage of keeping mining economically feasible on commodity hardware, but also contributes to the corresponding risk that an attacker can briefly rent access to a large amount of unspecialized commodity processing power to launch a 51% attack against a cryptocurrency.

Plant the Seed
The choice is Yours
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Bitcoin Mining – Where the Profitable Future Lies

The Times – January 3, 2009
Bitcoin Genesis Block
Mined 03 January 2009
Cypherpunks Write Code
CODE IS LAW
THE SOONER HUMANKIND ACCEPTS IT,
THE SOONER IT CAN BUILD AROUND IT
Yeah.. I wonder Why 😂
Bitcoin made easy
How a Bitcoin transaction works
A humble Miner
How Bitcoin Mining Works
Mining Difficulty
Bitcoin Halving
Bitcoin Previous Halvings
Pools
Bitcoin Wallets
Bitcoin Stakeholders
Bitcoin Facts
Power to the People
Totalitarian Governments can kiss my 256-bit key
Bitcoin – People’s Money
Bitcoin cannot be Shut Down
The power of the long tail…
Central Bank’s 3 Strategies
F**k them, Enough !!!
Upcoming Smart Contracts Networks
Bitcoin Yearly Candles
Bitcoin Price History – Log Scale
Bitcoin Mining Ecosystem Map
Defi Ecosystem in Ethereum
DeFi Stack: Product& Application View
Syscoin Ecosystem
Syscoin
BSC Ecosystem
Popular Cryptocurrency
Crpto Ecosystem
Public Companies that own Bitcoin
Top Banks investing in Crypto
Bitcoin Inflation vs. Time
When you’re Ready…
Choose Wisely
Make bitcoin thrive, let fiat become humus…
Veritas non Auctoritas
Facit Legem

Most people misunderstand what bitcoin miners actually do, and as a result they don’t fully grasp the level of security provided by bitcoin’s hashrate.

In this article, we’ll explain proof of work in a non-technical way so that you’ll be able to counter the misinformation about supercomputers and quantum computers attacking the Bitcoin network in the future. 

Simply put, mining is a lottery to create new blocks in the Bitcoin blockchain. There are two main purposes for mining:

  1. To permanently add transactions to the blockchain without the permission of any entity.
  2. To fairly distribute the 21 million bitcoin supply by rewarding new coins to miners who spend real world resources (i.e. electricity) to secure the network.

To understand what is actually happening in this lottery system, let’s look at a simple analogy where every Bitcoin hash is equivalent to a dice roll.

Luck, Gambling, and SHA-256

Imagine that miners in the Bitcoin Network are all individuals gambling at a casino. In this example, each of these gamblers have a 1000 sided dice. They roll their die as quickly as possible, trying to get a number less than 10. Statistically, this may take a very long time, but as more gamblers join the game, the time it takes to hit a number less than 10 gets reduced. In short, more gamblers equals quicker rounds.

Once somebody successfully rolls a number less than 10, all gamblers at the table can look down and verify the number. This lucky gambler takes the prize money and the next round begins.

Ultimately, the process of mining bitcoin is very similar. All miners on the network are using Application Specific Integrated Circuits (ASICs), which are specialized computers designed to compute hashes as quickly as possible.

To “compute a hash” simply means plugging any random input into a mathematical function and producing an output.

More hashes per second (i.e. higher hashrate) is equivalent to more dice rolls per second, and thus a greater probability of success.

Miners propose a potential Bitcoin block of transactions, and use this for an input. The block is plugged into the SHA256 hash function which yields a fixed-sized output, known as a hash. A single hash can be computed in less than a millisecond, as it involves no complex math.

If the hash value is lower than the Bitcoin Network difficulty, then the miner who proposed the block wins. If not, then the miner continues trying by computing more hashes.

The successful miner’s block is then added to the blockchain, the miner is rewarded with newly issued bitcoin for their work, and the “next round” begins.

Sources :

https://wikipedia.com/

https://braiins.com/

https://blockdata.com/

https://coin98analytics.com/

https://scoopwhoop.com/

https://stakingrewards.com/

https://syscoin.org/

https://galaxydigitalresearch.com/

https://surveycrest.com/

The Times

The Economist

"Internet of Money" - Andreas Antonopoulus

Hal Finney Quotes

Timothy C. May Quote

Free Spirit Digital Art

!°! If I forgot someone, sorry ! Do tell and I'll add you as a source of inspiration on the list !!! Thanks for understanding !!!

Questions, opinions, critics and requests always welcomed and as time allows will be accomodated !!! 🤓 🙂 😉

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LiteCoin(LTC) :

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Ethereum(ETH) :

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EthereumClassic(ETC) :

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Cardano(ADA) :

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BitcoinCash (BCH)

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Bitcoin SV (BSV)

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ZCash(ZEC) :

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Dash(DASH) :

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Shiba(SHIB) :

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Tron(TRX) :

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Stellar(XLM) :

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