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Discussion about Primecoin and its infra. Primecoin is a very innovative cryptocurrency, being the 1st non Hash-Cash PoW crypto, naturally scarce (not artificially), with very fast confirmations (1min), elastic readjusting reward & a useful mining (byproducts are primes). Primecoin is sustainable (miners are guaranteed to have revenues), and decentralized (ASIC/FPGA are not particularly advantaged). Sidechain for decentralized data applications (e.g. Storj) currently in development.
Yesterday a post of mine got a good amount of attention in this, my favourite, sub. So I have decided to post it here in full... More than mildly, it annoys us that we have the tools to be truly sovereign and yet we continue to submit our ourselves, and our bitcoin, to centralised authorities. "Privacy is necessary for an open society in the electronic age"; yet KYC is demanded before we can trade. "Not your keys, not your coins"; yet millions of bitcoin sit in the vaults of custodial exchanges and wallets. For monetary liberty to be widespread it must be part of the social contract. We must come together to deploy decentralised systems that maintain Bitcoin's promise of sovereignty. These tools already exist and they are improving.
Bitcoin maintains its sovereignty through technological, cryptographic means. First and foremost, private keys provide the only means of control and ownership. Second, and most famously, Proof of Work defends the network against attack. Attackers, however, are not limited to attacking the cryptography or the hashpower in order to limit our sovereignty. They route around and seek any weak links. "Trusted third parties are security holes". We increase the perimeter of defence by eliminating these trusted third parties.
Ethereum is Bitcoin’s Testnet
We will splice the DNA of DeFi into Bitcoin. We will increase Bitcoin's defense perimeter. The tools already exist. Ethereum is our testnet. Let it provide the radioactive pool where mutations are many. Let us observe it as it moves fast and breaks things. We will adopt it's best tools and learn to defend against its worst. Rootstock, a Bitcoin sidechain, can be our CRISPR in this genetic adoption. We will splice the code from Ethereum dapps and improve upon them.
Cypherpunks write code, share code, review code and copy code. Sovereign individuals use this code. Like the X-men's Rouge, Bitcoiners will absorb the superpowers of others. I have been working on a DeFi dapp for decentralised bitcoin trading and lending. Hopefully you will join me, or better yet, compete with me. "Those who would give up Liberty, to purchase a little temporary convenience, will have neither Liberty nor convenience." That will be our code. Onwards.
Aryacoin is a new cryptocurrency, which allows for decentralized, peer to peer transactions of electronic cash. It is like Bitcoin and Litecoin, but the trading of the coin occurs on sales platforms that have no restriction to use. Further, it was created with the goal of addressing the double spend issues of Bitcoin and does so using a timestamp server to verify transactions. It works by taking the hash of a block of items to be timestamped and widely publishing the hash. The timestamp proves that the data must have existed at the time in order to get the hash. Each timestamp then includes the previous timestamp in its hash, forming a chain. The Aryacoin team is continuously developing new use cases for the coin, including exchanges where users can exchange the coins without any fees or restrictions, and offline options where the coins can be bought and sold for cash. The coins can also be used on the company’s other platform, mrdigicoin.io. Along with the coin, there is a digital wallet that can be created and controlled by the user entirely, with no control being retained by the Aryacoin team.
The concept of Blockchain first came to fame in October 2008, as part of a proposal for Bitcoin, with the aim to create P2P money without banks. Bitcoin introduced a novel solution to the age-old human problem of trust. The underlying blockchain technology allows us to trust the outputs of the system without trusting any actor within it. People and institutions who do not know or trust each other, reside in different countries, are subject to different jurisdictions, and who have no legally binding agreements with each other, can now interact over the Internet without the need for trusted third parties like banks, Internet platforms, or other types of clearing institutions. When bitcoin was launched it was revolutionary allowing people to transfer money to anytime and anywhere with very low transaction fees . It was decentralized and their is no third party involved in the transaction , only the sender and receiver were involved. This paper provide a solution to the double-spending problem using a peer-to-peer distributed timestamp server to generate computational proof of the chronological order of transactions.The system is secure as long as honest nodes collectively control more CPU power than any cooperating group of attacker nodes. Bitcoin was made so that it would not be controlled or regulated but now exchanges and governments are regulating bitcoin and other cryptocurrencies at every step. Aryacoin was developed to overcome these restrictions on a free currency. Aryacoin is a new age cryptocurrency, which withholds the original principle on which the concept of cryptocurrency was established. Combining the best in blockchain technology since the time of its creation, Aryacoin strives to deliver the highest trading and mining standards for its community.
1.1 OVERVIEW ABOUT ARYACOIN
Aryacoin is a new age cryptocurrency, which withholds the original principle on which the concept of cryptocurrency was established. Combining the best in blockchain technology since the time of its creation, Aryacoin strives to deliver the highest trading and mining standards for its community. Aryacoin is a blockchain based project that allows users to access their wallet on the web and mobile browsers, using their login details. Aryacoin can be mined; it also can be exchanged by other digital currencies in several world-famous exchanges such as Hitbtc, CoinEx, P2pb2b, WhiteBit, Changelly and is also listed in reputable wallets such as Coinomi and Guarda. Aryacoin is a coin, which can be used by anyone looking to use cryptocurrency which allows them to keep their privacy even when buying/selling the coin along with while using the coin during transactions. Proof of work and cryptographic hashes allows transactions to verified. Stable Fee Per AYA is a unique feature of Aryacoin, so by increasing the amount or volume of the transaction, there is no change in the fee within the network, which means that the fee for sending an amount less than 1 AYA is equal to several hundred million AYA. Another unique feature of Aryacoin is the undetectability of transactions in Explorer, such as the DASH and Monero, of course, this operation is unique to Aryacoin. Using Aryacoin digital currency, like other currencies, international transactions can be done very quickly and there are no limitations in this area as the creators claim. Aryacoin aims to allow users to access the Aryacoin wallet via the web and mobile browsers using their login details. Aryacoin is a peer-to-peer electronic cash system that enables users to send and receive payments directly from one party to another, and allow them to transfer funds across borders with no restriction or third party involvement. The blockchain-based system embraces the digital signature, which prevents double spending and low transfer fees, which enables users to transfer huge amounts with very low fees. The proof-of-work consensus mechanism allows each transaction to be verified and confirmed, while anonymity enables users to use the coin anywhere at any time. According to the website of the operation, each wallet is divided into 2 or more AYA wallet addresses for each transaction, and depending on the volume of the transaction block, the origin, and destination of transactions in the network can not be traced and displayed to the public. In fact, each wallet in Aryacoin consists of a total of several wallets. The number of these wallets increases per transaction to increase both security and privacy. Aryacoin also uses the dPoW protocol. In the dPoW protocol, a second layer is added to the network to verify transactions, which makes “51% attack” impossible even with more than half of the network hash, and blocks whose Blockchain uses this second layer of security never run the risk of 51% attacks. AYA has been listed on a number of crypto exchanges, unlike other main cryptocurrencies, it cannot be directly purchased with fiats money. However, You can still easily buy this coin by first buying Bitcoin from any large exchanges and then transfer to the exchange that offers to trade this coin.
1.1.1 ARYACOIN HISTORY
Aryacoin (AYA) is a new cryptocurrency, which has been created by a group of Iranian developers, is an altcoin which allows for decentralised, peer to peer transactions of electronic cash without any fees whatsoever. Along with the coin, there is a digital wallet that can be created and managed by the user entirely, with no control being retained by the Aryacoin team. Aryacoin’s founder, Kiumars Parsa, has been a fan of alternative currencies and particularly Bitcoin. “We see people from all around the world using Blockchain technology and the great benefits that came with it and it then that I decided to solve this puzzle for find a way of bringing the last missing piece to the jigsaw. The idea for Aryacoin was born.” Parsa said. Parsa and his team of Iranian ex-pats not only persevered but expedited the project and just a year later, in the summer of 2019, the first version of Aryacoin was released. In 2020, Aryacoin is the first and only Iranian coin listed on CMC. Parsa goes on to state that it is now the strength of the community that has invested in the coin that will ultimately drive its success, alongside its robust technology and appealing 0% network fees. “We have thousands of voices behind Aryacoin. People for the people make this coin. It is a massive shout out for democracy. This had made us base the whole team strategy on the benefits for both our users and our traders.” “One key example is that the network fee on AYA Blockchain is 0%. Yes, absolutely nothing, which which differentiates us from other networks. What also differentiates us from other coins is that we have AYAPAY which is the first cryptocurrency Gateway in the world which does not save funds on third party storage with all funds being forwarded directly to any wallet address that the Gateway owner requests”. “So for the first time ever, and unlike other gateways, incoming funds will be saved on the users account with submitted withdrawal requests then made on the Gateway host website. In AYAPAY which has also been developed by the Aryacoin team, all funds without extra fees or extra costs will directly forwarded to users wallets. We have named this technology as CloudWithdrawal.” “We are continuously challenging ourselves as it is a crowded marketplace. We are striving to have a safer Blockchain against 51% attacks, faster confirmations speeds of transactions, cheaper network fee, growing the market by cooperation with Top tier Exchangers.”
1.1.2 ARYACOIN’S MAIN GOAL
Aryacoin’s main goal is to educate people and give them the freedom to use cryptocurrency in any way they want. Aryacoin empowers the users to transfer, pay, trade cryptocurrency from any country around the globe. Platforms that have been created by Aryacoin Team, as well as those that will go live in future, operate on the same principle and exclude absolutely no one.
1.1.3 PROBLEM ARYACOIN SEEKS TO SOLVE
Aryacoin aims to provide a long-term solution to the problem of double spending, which is still common in the crypto market. The developers of the system have created a peer-to-peer distributed timestamp server that generates computational proof of the transactions as they occur. Besides, the system remains secure provided honest nodes control more CPU power than any cooperating group of attacker nodes. While Bitcoin was designed not to be regulated or controlled, many exchanges and governments have put regulatory measures on the pioneer cryptocurrency at every step. Aryacoin aims to overcome these restrictions as a free digital currency.
1.1.4 BENEFITS OF USING ARYACOIN
Aryacoin solution offers the following benefits:
Real-time update: whether you’re going on a holiday or a business trip, no problem. You can access your coins all over the world.
Instant operations: Aryacoin makes it quite easy for you to use your digital wallet and perform various operations with it.
Safe and secure: all your data is stored encrypted and can only be decrypted with your private key, seed, or password.
Strong security: The system has no control over your wallet. You are 100% in charge of your wallet and funds.
1.1.5 ARYACOIN FEATURES
1. Anonymity The coin provides decent level of anonymity for all its users. The users can send their transactions to any of the public nodes to be broadcasted , the transaction sent to the nodes should be signed by the private key of the sender address . This allows the users to use the coin anywhere any time , sending transactions directly to the node allows users from any place and country . 2. Real Life Usage aryacoin’s team is continuously developing new and innovative ways to use the coins , they are currently developing exchanges where the users can exchange the coins without any fees and any restrictions . They also are currently developing other innovative technologies, which would allow users to spend our coins everywhere and anywhere. 3. Offline Exchanges They are also working with different offline vendors which would enable them to buy and sell the coins directly to our users on a fixed/variable price this would allow easy buy/sell directly using cash . This would allow the coins to be accessible to users without any restrictions which most of the online exchanges have, also increase the value and number of users along with new ways to spend the coin. This would increase anonymity level of the coin. In addition, introduce new users into the cryptomarket and technology. Creating a revolution, which educates people about crypto and introduce them to the crypto world, which introduces a completely new group of people into crypto and a move towards a Decentralized future! 4. Transactions When it comes to transactions, Aryacoin embraces a chain of digital signatures, where each owner simply transfers the coin to the next person by digitally signing a hash of the previous transaction and the public key of the next owner. The recipient can then verify the signatures to confirm the chain of ownership. Importantly, Aryacoin comes with a trusted central authority that checks every transaction for double spending. 5. Business Partner with Simplex Aryacoin is the first and only Iranian digital currency that managed to obtain a trading license in other countries. In collaboration with the foundation and financial giant Simplex, a major cryptocurrency company that has large companies such as Binance, P2P, Changelly, etc. Aryacoin has been licensed to enter the world’s major exchanges, as well as the possibility of purchasing AYA through Credit Cards, which will begin in the second half of 2020. Also, the possibility of purchasing Aryacoin through Visa and MasterCard credit cards will be activated simultaneously inside the Aryacoin site. plus, in less than a year, AYA will be placed next to big names such as CoinCapMarket, Coinomi, P2P, Coinpayments and many other world-class brands today.
1.1.6 WHY CHOOSE ARYACOIN?
If you want to use a cryptocurrency that allows you to keep your privacy online even when buying and selling the coins, the Aryacoin team claims that AYA is the way to go. Aryacoin is putting in the work: with more ways to buy and sell, and fixing the issues that were present in the original Bitcoin, plus pushing the boundaries with innovative solutions in cryptocurrencies. You can get started using Aryacoin (AYA) payments simply by having a CoinPayments account!
1.1.7 ARYANA CENTRALIZED EXCHANGE
Aryana, the first Iranian exchange is a unique platform with the following features:
The first real international Persian exchange that obtains international licenses and is listed in CoinMarketCap.
The first Iranian exchange that has been cooperating with a legal and European exchange for 3 years.
The possibility of trading in Tomans (available currency in Iran) at the user’s desired price and getting rid of the transaction prices imposed by domestic sites inside Iran.
There is an internal fee payment plan by Iranian domestic banks for depositing and withdrawing Tomans for Aryacoin holders in Aryana Exchange.
The number that you see on the monitor and in your account will be equal to the number that is transferred to your bank account without a difference of one Rial.
The last but not least, noting the fact that there is a trading in Tomans possibility in Aryana exchange.
Aryana Exchange is using the most powerful, fastest, and most expensive server in the world, Google Cloud Platform (GCP), which is currently the highest quality server for an Iranian site, so that professional traders do not lag behind the market even for a second. The feature of Smart Trading Robots is one of the most powerful features for digital currency traders. Digital cryptocurrency traders are well aware of how much they will benefit from smart trading robots. In the Aryana exchange, it is possible to connect exchange user accounts to intelligent trading bots and trade even when they are offline. The injection of $ 1 million a day in liquidity by the WhiteBite exchange to maintain and support the price of Tether and eliminate the Tether fluctuations with Bitcoin instabilities used by profiteers to become a matter of course.
1.1.8 HOW DOES ARYACOIN WORK?
Aryacoin (AYA) tries to ensure a high level of security and privacy. The team has made sure to eliminate any trading restrictions for the network users: no verification is required to carry out transactions on AYA, making the project truly anonymous, decentralized, and giving it a real use in day-to-day life. The Delayed-Proof-of-Work (dPoW) algorithm makes the Aryacoin blockchain immune to any attempts of a 51% attack. AYA defines a coin as a chain of digital signatures — each owner transfers the coin to the next owner by digitally signing the hash of the previous transaction and the public key of the next owner, and the receiver verifies the signatures and the chain of ownership.
2. ARYACOIN TECHNOLOGY
They use a proof-of-work system similar to Adam Back’s Hashcash to implement a distributed timestamp server on a peer-to-peer basis, rather than newspaper or Usenet publications. The proof-of-work involves scanning for a value that when hashed, such as with SHA-256, the hash begins with a number of zero bits. The average work required is exponential in the number of zero bits required and can be verified by executing a single hash. For their timestamp network, they implement the proof-of-work by incrementing a nonce in the block until a value is found that gives the block’s hash the required zero bits. Once the CPU effort has been expended to make it satisfy the proof-of-work, the block cannot be changed without redoing the work. As later blocks are chained after it, the work to change the block would include redoing all the blocks after it. The proof-of-work also solves the problem of determining representation in majority decision making. If the majority were based on one-IP-address-one-vote, it could be subverted by anyone able to allocate many IPs. Proof-of-work is essentially one-CPU-one-vote. The majority decision is represented by the longest chain, which has the greatest proof-of-work effort invested in it. If honest nodes control a majority of CPU power, the honest chain will grow the fastest and outpace any competing chains. To modify a past block, an attacker would have to redo the proof-of-work of the block and all blocks after it, then catch up with, and surpass the work of the honest nodes.
The steps to run the network are as follows:
New transactions are broadcast to all nodes.
Each node collects new transactions into a block.
Each node works on finding a difficult proof-of-work for its block.
When a node finds a proof-of-work, it broadcasts the block to all nodes.
Nodes accept the block only if all transactions in it are valid and not already spent.
This is a very simple system that makes the network fast and scalable, while also providing a decent level of anonymity for all users. Users can send their transactions to any of the public nodes to be broadcast, and the private key of the sender’s address should sign any transaction sent to the nodes. This way, all transaction info remains strictly confidential. It also allows users to send transactions directly to the node from any place at any time and allows the transferring of huge amounts with very low fees.
2.3 AYAPAY PAYMENT SERVICES GATEWAY:
According to creators Aryacoin, the development team has succeeded in inventing a new blockchain technology for the first time in the world, which is undoubtedly a big step and great news for all digital currency enthusiasts around the world. This new technology has been implemented on the Aryacoin AYAPAY platform and was unveiled on October 2. AYAPAY payment platform is the only payment gateway in the world that does not save money in users’ accounts and transfers incoming coins directly to any wallet address requested by the gateway owner without any additional transaction or fee. In other similar systems or even systems such as PayPal, money is stored in the user account.
2.4 CONSENSUS ALGORITHM IN ARYACOIN
The devs introduced the Delayed-Proof-of-Work (dPoW) algorithm, which represents a hybrid consensus method that allows one blockchain to take advantage of the security provided by the hashing power of another blockchain. The AYA blockchain works on dPoW and can use such consensus methods as Proof-of-Work (PoW) or Proof-of-Stake (PoS) and join to any desired PoW blockchain. The main purpose of this is to allow the blockchain to continue operating without notary nodes on the basis of its original consensus method. In this situation, additional security will no longer be provided through the attached blockchain, but this is not a particularly significant problem. dPoW can improve the security level and reduce energy consumption for any blockchain.
2.5 DOUBLE-SPEND PROBLEM AND SOLUTION
One of the main problems in the blockchain world is that a receiver is unable to verify whether or not one of the senders did not double-spend. Aryacoin provides the solution, and has established a trusted central authority, or mint, that checks every transaction for double-spending. Only the mint can issue a new coin and all the coins issued directly from the mint are trusted and cannot be double-spent. However, such a system cannot therefore be fully decentralized because it depends on the company running the mint, similar to a bank. Aryacoin implements a scheme where the receiver knows that the previous owners did not sign any earlier transactions. The mint is aware of all transactions including which of them arrived first. The developers used an interesting solution called the Timestamp Server, which works by taking a hash of a block of items to be ‘timestamped’ and publishing the hash. Each timestamp includes the previous timestamp in its hash, forming a chain. To modify a block, an attacker would have to redo the proof-of-work of all previous blocks, then catch up with, and surpass the work of the honest nodes. This is almost impossible, and makes the network processes more secure. The proof-of-work difficulty varies according to circumstances. Such an approach ensures reliability and high throughput.
3. ARYACOIN ROADMAP
April 2019: The launch of Aryacoin; AYA ICO, resulting in over 30BTC collected December 2019: The launch of AYA Pay April 2020: The successful Hamedan Hardfork, supported by all AYA exchanges, aimed at integrating the dPoW algorithm, improving the security of the AYA blockchain. June 2020: Aryana Exchange goes live, opening more trading opportunities globally July 2020: The enabling of our Coin Exchanger November 2020: The implementation of Smart Contracts into the Aryacoin Ecosystem Q1 2021: Alef B goes live (more details coming soon)
Aryacoin (AYA) is a new age cryptocurrency that combines the best of the blockchain technology and strives to deliver high trading and mining standards, enabling users to make peer-to-peer decentralized transactions of electronic cash. Aryacoin is part of an ecosystem that includes payment gateway Ayapay and the Ayabank. AYA has a partnership with the Microsoft Azure cloud platform, which provides the ability to develop applications and store data on servers located in distributed data centers. The network fee for the AYA Blockchain is 0%. In Ayapay service, which has been developed by the Aryacoin team, all funds without extra fees or costs are directly forwarded to users’ wallets with technology called CloudWithdrawal. The devs team is introducing new use cases including exchanges where users will exchange AYA without any restrictions. You can buy AYA on an exchange of your choice, create an Aryacoin wallet, and store it in Guarda.
Fifty Years of Cypherpunk: History, Personalities, And Spread of its ideas
In this review, we tell how the ideas of cypherpunk were born, how they influenced cryptocurrencies, and modern technologies, who formed the basis and why its popularity these days has grown again.
From the early days to today: the chronology of key events of the cypherpunk
In the early 1970s,James Ellis of the UK Government Communications Center put forward the concept of public-key cryptography. In the early 1980s, small groups of hackers, mathematicians and cryptographers began working on the realization of this idea. One of them was an American cryptographer, Ph.D. David Chaum, who is sometimes called the godfather of cypherpunk. This new culture has proclaimed computer technology as a means of destroying state power and centralized management systems.Key figure among the cypherpunk of the 80s — Intel specialist Timothy C. May. His dream was to create a global system that allows anonymous exchange of information. He created the concept of the BlackNet system. In September 1988, May wrote The Crypto-Anarchist Manifesto: people themselves, without politicians, manage their lives, use cryptography, use digital currencies, and other decentralized tools.In 1989,David Chaum founded DigiCash an eCash digital money system with its CyberBucks and with the blind digital signature technology.Since 1992, Timothy May, John Gilmore (Electronic Frontier Foundation), and Eric Hughes (University of California) have begun holding secret meetings and regular PGP-encrypted mailing through anonymous remailer servers. And finally, in 1993 Eric Hughes published a fundamental document of the movement — А Cypherpunk's Manifesto. The importance of confidentiality, anonymous transactions, cryptographic protection — all these ideas were subsequently implemented in cryptocurrencies.The term "cypherpunk" was first used by hacker and programmer Jude Milhon to a group of crypto-anarchists.In 1995,Julian Assange, the creator of WikiLeaks, published his first post in cypherpunk mailing.In 1996,John Young and Deborah Natsios created the Cryptome, which published data related to security, privacy, freedom, cryptography. It is here that subsequently will be published data from the famous Edward Snowden.In 1997, cryptographerDr. Adam Back (you know him as CEO of Blockstream) created Hashcash, a distributed anti-spam mechanism.In 1998, computer engineer Wei Dai published two concepts for creating a b-money digital payment system:
Each member of the system has a copy of the system database with user funds balances (this idea found itself in Bitcoin).
Distributed base, but not everyone has a copy. To maintain the integrity of participants, deposits, fines, and incentives are provided. This was later implemented in the Proof-of-Stake consensus algorithm.
In April 2001,Bram Cohen developed the BitTorrent protocol and application.In 2002,Paul Syverson, Roger Dingledine and Nick Mathewson presented the alpha version of the anonymity network named TOR Project.In 2004, cypherpunk Hal Finney created the Reusable Proof of Work (RPoW) algorithm. It was based on Adam Back's Hashcash but its drawback was centralization.In 2005, cryptographer Nick Szabo, who developed the concept of smart contracts in the 1990s, announced the creation of Bit Gold — a digital collectible and investment item.In October 2008, legendary Satoshi Nakamoto created themanifesto“Bitcoin: A Peer-to-Peer Electronic Cash System”, which refers to the works of the cypherpunk classics Adam Back and Wei Dai.In 2011,Ross William Ulbricht aka Dread Pirate Roberts created the Silk Road, the first major market for illegal goods and services on the darknet.In 2016,Julian Assange released the book "Cypherpunks: Freedom and the future of the Internet."At the beginning of 2018,Pavel Durov, the creator of Telegram, announced the launch of the TON multi-blockchain platform and mentioned his plans to launch TON ICO.In 2019, the Tor Project introduced an open anti-censorship group.
Plenty of services, products, and technologies were inspired by cypherpunk: Cryptocurrencies, HD (Hierarchical Deterministic) crypto wallets, Coin Mixers, ECDHM addresses, Privacy Coins. The ideas of distribution and anonymity were also implemented in the torrents and VPN. You can see the embodiment of cybersecurity ideas in the electronic signatures and protected messengers (Telegram, Signal, and many others).Why there were so many talks about cypherpunk this spring?In April 2020, Reddit users suggested that the letter from the famous cypherpunks mailing dated September 19, 1999, was written by Satoshi Nakamoto himself (or someone close to him). This letter is about the functioning of ecash. Anonymous (supposed Satoshi) talks about the "public double-spending database" and Wei Dai's b-money as a possible foundation for ecash.In addition, researchers of the mystery "Who is Satoshi Nakamoto?" periodically make some noise and discover the next "secret" about one or another legendary cypherpunks. So, in May 2020, Adam Back wrote in response to videos and new hype discussions that, despite some coincidences, he is not Satoshi.Other heroes of the scene are not idle too: in April 2020, David Chaum received $9.7 million during the presale of the confidential coin xx, created to encourage venture investors.
As you can see from the Satoshi Nakamoto's mentions and from the stories of DigiCash, Hashcash, RPoW, Bit Gold, the movement of cypherpunk influenced a lot the emergence of cryptocurrencies. As governments and corporations restrict freedom and interfere with confidentiality, cypherpunk ideas will periodically rise in popularity. And this confrontation will not end in the coming decades.
The original article appeared here: https://www.securities.io/what-is-blockchain-technology/ Its been almost ten years since Satoshi Nakamoto first introduced Blockchain technology to the world in his 2008 Bitcoin Whitepaper. Since that time, these revolutionary networks have gained popularity in both the corporate and governmental sectors. This growth is easily explained when you consider that blockchain technology provides the world with some unique advantages that were previously unimaginable. Consequently, today, you can find blockchain technology in nearly every sector of the global economy.
What is Blockchain Technology?
A blockchain is a network of computers that share a distributed ledger across all network participants (nodes). This strategy is far different than say, fiat currencies that originate from a centralized authority figure. Importantly, this ledger keeps an unbroken chain of transactions since the birth of the network. This “chain” of transactions grows larger as new “blocks” of transactions are approved and added to it. Bitcoin Whitepaper In order to approve new transactions, each node works together with others to validate new blocks. Additionally, the nodes also validate the current state of the entire blockchain. In order for a new block of transactions to be added to the blockchain, they must receive approval from 51% of the network’s nodes. Nodes are also referred to as miners. In this manner, blockchain networks are decentralized networks that provide unmatched security to the world of digital assets.
Security via Decentralization
Decentralization is an important aspect of blockchain technology because it makes these revolutionary ledgers immutable and unalterable. In fact, since there is no centralized attack vector, hacking a blockchain is nearly impossible. The larger the blockchain network, the more secure the data on it remains. For example, let’s look at the world’s largest blockchain, Bitcoin. Currently, the Bitcoin blockchain has over 10,000 active nodes located across the globe. This distribution means that in order for an attacker to alter even just one tiny piece of information on the blockchain, they would need to successfully hack 5,000+ computers at once. While this task may not be impossible for the quantum computers of the future, it’s so unprofitable that it makes no sense to even attempt such a monumental task. Additionally, on top of successfully hacking 5000+ computers at once, an attacker would also need a supercomputer to recalculate the new blockchain transactions in time to introduce them into the network. It would literally be more affordable to create a new cryptocurrency from scratch.
One of the reasons why blockchain networks are so secure is the integration of consensus mechanisms. Consensus mechanisms are cryptographic protocols that leverage the participants of a blockchain network in securing its data. In the case of Bitcoin, the Proof-of-Work (PoW) consensus mechanism is used.
The Proof-of-Work consensus mechanism was revolutionary to the world of cryptography when it was first introduced years prior by Adam Back in his Hashcash whitepaper. In the concept, Back describes the integration of a mathematical equation to the network’s security protocols. In this way, every computer can show “proof” of their work securing the network.
It’s important to understand that nodes receive a reward for their mining efforts. These rewards adjust automatically depending on the network’s difficulty and value. In the case of Bitcoin, miners originally received 50 Bitcoin for their efforts. Today, this seems like fortune, but back in 2009, Bitcoin was only worth pennies. As the value of the token rises and the network goes, the mining rewards shrink. Today, Bitcoin miners receive 6.5 BTC if they add the next block to the chain.
Notably, every node validates and secures the blockchain, but only one gets to add the next block of transactions to the network. To determine who the next miner is that gets to add this block, every computer competes in a mathematical race to figure out the PoW equation. In the case of Bitcoin, the equation is known as SHA-256. Importantly, the first SHA algorithm dates back to Hashcash. This early version of the equation was known as SHA-1. Notably, the SHA-256 equation is so difficult that it’s easier and more efficient for your computer to just make random guesses rather than attempting to figure out the equation directly. The answer to the equation must begin with a predetermined amount of 0s. In the Bitcoin blockchain, the equation’s answer must start with four zeros. However, if the network’s congestion rises, so does the difficulty of these equations. This difficulty adjusts by the addition of another zero at the beginning of the required SHA-256 answer. Similarly to traditional commodities such as gold, there are costs that are associated with the creation and introduction of these digital assets into the market. These random guesses utilize intense computational power. This power equates to real-world costs such as electricity bills. Studies have shown that securing the Bitcoin network can use more electricity than required by entire countries. Luckily, over 80% of Bitcoin’s power consumption comes from renewable sources such as solar or hydroelectric. This cost of mining also adds measurable value to each Bitcoin.
As Bitcoin began to gain in profitability, its network’s computing power expanded significantly. In the beginning, nodes, also known as miners, could mine for Bitcoin using nothing more than your home PC. Eventually, miners realized that graphic cards were far better at the repetitive guessing required to figure out the SHA-256 algorithm. This led to a computational race in the market.
Eventually, large blockchain firms such as Bitmain introduced Application Specific Integrated Circuit (ASIC) miners into the equation. These purpose-built miners were thousands of times more efficient at guessing the SHA-256 algorithm than the GPUs and CPUs before them. Consequently, their introduction created a scenario in which the average miner now needed to invest thousands in mining equipment to stay relevant.
Luckily, some creative minds in the field began to think of ways to level the playing field out again. They developed “mining pools.” A mining pool is a network of miners that all share computational power for the common goal of mining blockchain transactions. Importantly, mining pool participants receive a percentage of the reward based on their contributions to the network’s overall hash (computational power). Importantly, over the last three years, there has been a push to move away from power-hungry consensus mechanisms such as PoW. This desire to secure blockchains in a more efficient manner has led to the development of some truly unique consensus mechanisms in the sector.
The Proof-of-Stake mechanism does away with the difficult mathematical algorithms and instead utilizes a more psychological approach to securing the network. In a PoS blockchain, users don’t need to compete mathematically to add the next block to the blockchain. Instead, PoS users “stake” their coins via network wallets to secure the network. The way staking works is simple. Keeping a certain amount of coins in your wallet allows you to participate in transaction validations. The more coins you stake, the more likely the chances are you get to add the next block of transactions to the network. In most PoS systems, a miner from those with the most tokens staked at the time receives the chance to add the blocks. The advantages of a PoS consensus mechanism are immediately evident. For one, you don’t need to pour tons of resources into your network to keep it safe. Additionally, since nodes are chosen based on their amount of staked coins, there is never a scenario in which a node gains anything from validating incorrect transactions. Basically, a hacker would have to fully invest in the cryptocurrency prior to attacking the network. In this way, PoS systems create a huge deterrent to attackers.
The Future of Blockchain Technology
Blockchain technology has come a long way from its early days as a means to secure cryptocurrency networks. Today, blockchain technology has numerous uses across every type of industry imaginable. Specifically, blockchain programs have impacted the logistical, financial, and data security sectors in a major way.
Blockchain Technology Logistics
Blockchain logistical systems are more efficient and cost-effective to operate than traditional paper-based models. In fact, the immutable and unalterable nature of blockchain tech makes it ideally suited to logistical tasks. Soon, you may be able to ascertain much more information regarding the creation and delivery of your products thanks to these new-age systems emerging.
Blockchain technology has also altered the way in which businesses raise funds. In a traditional corporate crowdfunding strategy such as an IPO, companies must balance between cost-effectiveness and participation. The inability to process smaller transactions meant that for the longest time, companies had to turn away potential investors. Nowadays, blockchain technology enables businesses to easily automate these procedures via smart contracts.
Smart Contracts feature preprogrammed protocols that execute when they receive a certain amount of cryptocurrency sent to their address. These contracts live on the blockchain and enable remarkable functionality. For example, in the case of fundraising, a smart contract can automate processes such as the approval of investors and the distribution of funds.
Blockchain Technology Today
You can expect to see further expansion of the blockchain sector in the coming months as more governments and institutions explore its benefits. For now, the blockchain revolution is well underway.
In the past weeks I heard a lot pros and cons about IOTA, many of them I believe were not true (I'll explain better). I would like to start a serious discussion about IOTA and help people to get into it. Before that I'll contribute with what I know, most things that I will say will have a source link providing some base content.
The pros and cons that I heard a lot is listed below, I'll discuss the items marked with *. Pros
Many users claim that the network infinitely scales, that with more transactions on the network the faster it gets. This is not entirely true, that's why we are seeing the network getting congested (pending transactions) at the moment (12/2017). The network is composed by full-nodes (stores all transactions), each full-node is capable of sending transactions direct to the tangle. An arbitrary user can set a light-node (do not store all transactions, therefore a reduced size), but as it does not stores all transactions and can't decide if there are conflicting transactions (and other stuff) it needs to connect to a full-node (bitifinex node for example) and then request for the full-node to send a transaction to the tangle. The full-node acts like a bridge for a light-node user, the quantity of transactions at the same time that a full-node can push to the tangle is limited by its brandwidth. What happens at the moment is that there are few full-nodes, but more important than that is: the majority of users are connected to the same full-node basically. The full-node which is being used can't handle all the requested transactions by the light-nodes because of its brandwidth. If you are a light-node user and is experiencing slow transactions you need to manually select other node to get a better performance. Also, you need to verify that the minimum weight magnitude (difficulty of the Hashcash Proof of Work) is set to 14 at least. The network seems to be fine and it scales, but the steps an user has to make/know are not friendly-user at all. It's necessary to understand that the technology envolved is relative new and still in early development. Do not buy iota if you haven't read about the technology, there is a high chance of you losing your tokens because of various reasons and it will be your own fault. You can learn more about how IOTA works here. There are some upcoming solutions that will bring the user-experience to a new level, The UCL Wallet (expected to be released at this month, will talk about that soon and how it will help the network) and the Nelson CarrIOTA (this week) besides the official implementations to come in december.
We all know that currently (2017) IOTA depends on the coordinator because the network is still in its infancy and because of that it is considered centralized by the majority of users. The coordinator are several full-nodes scattered across the world run by the IOTA foundation. It creates periodic Milestones (zero value transactions which reference valid transactions) which are validated by the entire network. The coordinator sets the general direction for the tangle growth. Every node verifies that the coordinator is not breaking consensus rules by creating iotas out of thin air or approving double-spendings, nodes only tells other nodes about transactions that are valid, if the Coordinator starts issuing bad Milestones, nodes will reject them. The coordinator is optional since summer 2017, you can choose not implement it in your full-node, any talented programmer could replace Coo logic in IRI with Random Walk Monte Carlo logic and go without its milestones right now. A new kind of distributed coordinator is about to come and then, for the last, its completely removal. You can read more about the coordinator here and here.
These are blockchain-based cryptocurrencies (Bitcoin) that has miners to guarantee its security. Satoshi Nakamoto states several times in the Bitcoin whitepaper that "The system is secure as long as honest nodes collectively control more CPU power than any cooperating group of attacker nodes". We can see in Blockchain.info that nowadays half of the total hashpower in Bitcoin is controlled by 3 companies (maybe only 1 in the future?). Users must trust that these companies will behave honestly and will not use its 50%> hashpower to attack the network eventually. With all that said it's reasonable to consider the IOTA network more decentralized (even with the coordinator) than any mining-blockchain-based cryptocurrency You can see a comparison between DAG cryptocurrencies here
Some partnerships of IOTA foundation with big companies were well known even when they were not officialy published. Some few examples of confirmed partnerships are listed below, others cofirmed partnerships can be seem in the link Partnerships with big companies at the pros section.
So what's up with all alarming in social media about IOTA Foundation faking partnerships with big companies like Microsoft and Cisco? At Nov. 28th IOTA Foundation announced the Data Marketplace with 30+ companies participating. Basically it's a place for any entity sell data (huge applications, therefore many companies interested), at time of writing (11/12/2017) there is no API for common users, only companies in touch with IOTA Foundation can test it. A quote from Omkar Naik (Microsoft worker) depicted on the Data Marketplace blog post gave an idea that Microsoft was in a direct partnership with IOTA. Several news websites started writing headlines "Microsoft and IOTA launches" (The same news site claimed latter that IOTA lied about partnership with Microsoft) when instead Microsoft was just one of the many participants of the Data Marketplace. Even though it's not a direct partnership, IOTA and Microsoft are in close touch as seen in IOTA Microsoft and Bosch meetup december 12th, Microsoft IOTA meetup in Paris 14th and Microsoft Azure adds 5 new Blockchain partners (may 2016). If you join the IOTA Slack channel you'll find out that there are many others big companies in close touch with IOTA like BMW, Tesla and other companies. This means that right now there are devs of IOTA working directly with scientists of these companies to help them integrate IOTA on their developments even though there is no direct partnership published, I'll talk more about the use cases soon.
We are excited to partner with IOTA foundation and proud to be associated with its new data marketplace initiative... - Omkar Naik
IOTA's use cases
Every cryptocurrency is capable of being a way to exchange goods, you pay for something using the coin token and receive the product. Some of them are more popular or have faster transactions or anonymity while others offers better scalablity or user-friendness. But none of them (except IOTA) are capable of transactioning information with no costs (fee-less transactions), in an securely form (MAM) and being sure that the network will not be harmed when it gets more adopted (scales). These characteristics open the gates for several real world applications, you probably might have heard of Big Data and how data is so important nowadays.
Data sets grow rapidly - in part because they are increasingly gathered by cheap and numerous information-sensing Internet of things devices such as mobile devices, aerial (remote sensing), software logs, cameras, microphones, radio-frequency identification (RFID) readers and wireless sensor networks.
It’s just the beginning of the data period. Data is going to be so important for human life in the future. So we are now just starting. We are a big data company, but compared to tomorrow, we are nothing. - Jack Ma (Alibaba)
There are enormous quantities of wasted data, often over 99% is lost to the void, that could potentially contain extremely valuable information if allowed to flow freely in data streams that create an open and decentralized data lake that is accessible to any compensating party. Some of the biggest corporations of the world are purely digital like Google, Facebook and Amazon. Data/information market will be huge in the future and that's why there so many companies interested in what IOTA can offer. There are several real world use cases being developed at the moment, many of them if successful will revolutionize the world. You can check below a list of some of them.
Not having your wallet set up properly (min weight 14, etc.)
Problems that could be easily avoided with a better understand of the network/wallet or with a better wallet that could handle these issues. As I explained before, some problems during the "congestion" of the network could be simply resolved if stuff were more user-friendly, this causes many users storing their iotas on exchanges which is not safe either. The upcoming (dec 2017) UCL Wallet will solve most of these problems. It will switch between nodes automatically and auto-reattach transactions for example (besides other things). You can have full a overview of it here and here. Also, the upcoming Nelson CarrIOTA will help on automatic peer discovery for users setup their nodes more easily.
IOTA Vulnerability issue
On sept 7th 2017 a team from MIT reported a cryptographic issue on the hash function Curl. You can see the full response of IOTA members below.
Funds were never in danger as such scenarios depicted on the Neha's blogpost were not pratically possible and the arguments used on the blogpost had'nt fundamentals, all the history you can check by yourself on the responses. Later it was discovered that the whole Neha Narula's team were envolved in other concurrent cryptocurrency projects Currently IOTA uses the relatively hardware intensive NIST standard SHA-3/Keccak for crucial operations for maximal security. Curl is continuously being audited by more cryptographers and security experts. Recenlty IOTA Foundation hired Cybercrypt, the world leading lightweight cryptography and security company from Denmark to take the Curl cryptography to its next maturation phase.
It took me a couple of days to gather the informations presented, I wanted it to make easier for people who want to get into it. It might probably have some mistakes so please correct me if I said something wrong. Here are some useful links for the community.
This is my IOTA donation address, in case someone wants to donate I will be very thankful. I truly believe in this project's potential. I9YGQVMWDYZBLHGKMTLBTAFBIQHGLYGSAGLJEZIV9OKWZSHIYRDSDPQQLTIEQEUSYZWUGGFHGQJLVYKOBWAYPTTGCX
This is a donation address, if you want to do the same you might pay attention to some important details:
Create a seed for only donation purposes.
Generate a address and publish it for everyone.
If you spend any iota you must attach a new address to the tangle and refresh your donation address published before to everyone.
If someone sends iota to your previous donation address after you have spent from it you will probably lose the funds that were sent to that specific address.
You can visualize how addresses work in IOTA here and here.
This happens because IOTA uses Winternitz one-time signature to become quantum resistent. Every time you spend iota from a address, part of the private key of that specific address is revealed. This makes easier for attackers to steal that address balance. Attackers can search if an address has been reused on the tangle explorer and try to brute force the private key since they already know part of it.
Bitcoin[a] (₿) is a cryptocurrency. It is a decentralized digital currency without a central bank or single administrator that can be sent from user to user on the peer-to-peer bitcoin network without the need for intermediaries. Transactions are verified by network nodes) through cryptography and recorded in a public distributed ledger called a blockchain. Bitcoin was invented by an unknown person or group of people using the name Satoshi Nakamoto and was released as open-source software in 2009. Bitcoins are created as a reward for a process known as mining. They can be exchanged for other currencies, products, and services. Research produced by University of Cambridge estimates that in 2017, there were 2.9 to 5.8 million unique users using a cryptocurrency wallet, most of them using bitcoin. Bitcoin has been criticized for its use in illegal transactions, its high electricity consumption, price volatility, thefts from exchanges, and by reputable economists stating that "it should have a zero price". Bitcoin has also been used as an investment, although several regulatory agencies have issued investor alerts about bitcoin. Mining is a record-keeping service done through the use of computer processing power.[f] Miners keep the blockchain consistent, complete, and unalterable by repeatedly grouping newly broadcast transactions into a block, which is then broadcast to the network and verified by recipient nodes. Each block contains a SHA-256cryptographic hash of the previous block, thus linking it to the previous block and giving the blockchain its name.:ch. 7 To be accepted by the rest of the network, a new block must contain a proof-of-work (PoW). The system used is based on Adam Back's 1997 anti-spam scheme, Hashcash.[failed verification] The PoW requires miners to find a number called a nonce, such that when the block content is hashed along with the nonce, the result is numerically smaller than the network's difficulty target.:ch. 8 This proof is easy for any node in the network to verify, but extremely time-consuming to generate, as for a secure cryptographic hash, miners must try many different nonce values (usually the sequence of tested values is the ascending natural numbers: 0, 1, 2, 3, ...:ch. 8) before meeting the difficulty target. Every 2,016 blocks (approximately 14 days at roughly 10 min per block), the difficulty target is adjusted based on the network's recent performance, with the aim of keeping the average time between new blocks at ten minutes. In this way the system automatically adapts to the total amount of mining power on the network.:ch. 8Between 1 March 2014 and 1 March 2015, the average number of nonces miners had to try before creating a new block increased from 16.4 quintillion to 200.5 quintillion. The proof-of-work system, alongside the chaining of blocks, makes modifications of the blockchain extremely hard, as an attacker must modify all subsequent blocks in order for the modifications of one block to be accepted. As new blocks are mined all the time, the difficulty of modifying a block increases as time passes and the number of subsequent blocks (also called confirmations of the given block) increases.
Stellar Lumens HODL alert: 2017 Round up, Partnerships, Lumens vs. Other Cryptos
Welcome everyone! The future of Stellar Lumens is bright! Today we will look at the accomplishments of Stellar.org in 2017. . . 2017 Round Up • IBM / Stellar Partnership • Kik Messenger’s KIN coin to move from Ethereum to Stellar in 2018 • Stellar ATM introduced in Singapore • Jed McCaleb confirms IBM/Stellar has 30 banks on board (Youtube Video) • Lightyear.io enables forward thinking financial entities to easily join the Stellar ecosystem. • IBM adds 8 new validators from 8 different countries onto the Stellar network (article) • Forbes calls Stellar “venmo, but on a global scale - and for larger bodies like banks and corporations.” • Stellar Lumens Is Up 6,300% Since March and Is Aiming for Big Blockchain Partners (article) • Many new partnerships (listed below) that will be using the Stellar network in 2018. • Binance and GoPax Exchanges Adds Stellar • Ledger Nano S support is now available for Lumens (XLM) • The next coin to break into the top 10 cryptos (article) . . 2017 Partnerships & Financial Institutions • IBM - is an American multinational technology company headquartered in Armonk, New York, United States, with operations in over 170 countries. IBM partnered with Stellar to help financial institutions address the processes of universal cross-border payments, designed to reduce the settlement time and lower the cost of completing global payments for businesses and consumers. • SatoshiPay - a web payment system that helps online publishers monetize digital assets like news articles, videos, or PDFs in tiny increments without friction. • EXCH.ONE - is a FinTech software company based in Switzerland currently working to integrate its platform and its first technology adopter Euro Exchange Securities UK Ltd. into the Stellar network. This addition to the Stellar network will bring access to currency markets of South and Central America,UK and a number of EU countries. • Novati (ASX:NOV) - is an Australian-based software technology and payment services provider. Novatti is currently working to integrate it’s platform into the Stellar network with the ultimate aim to build a global money transfer solution to provide cross border, cross currency and cross asset payments. • Pundi X - is an Indonesia based fintech company that provides POS device, debit card, multi-currency wallet that empowers individuals to buy and sell cryptocurrency at any physical store in the world. They say "buying cryptocurrency should be as easy as buying a bottled water." • MoneyMatch - is a Malaysia based fintech startup that provides a fully-digital peer-to-peer currency exchange platform for customers to transfer and exchange foreign currencies with complete ease and at great value. The company plans to integrate with the Stellar network and enable pay in and pay out from Malaysia. • Streami - is a Korea based fintech company that offers blockchain enabled cross-border remittance service and recently launched a cryptocurrency exchange. The partnership extends both on the exchange side and remittance operations. • Neoframe - is developing and marketing trading solutions for big brokerage firms in Korea and extends its business to blockchain based applications. Neoframe developed high performance centralized cryptocurrency exchange as well as secure wallet solutions and is working with big financial players. The company is planning to launch a remittance business for ASEAN countries (Thailand, Vietnam, Indonesia, Malaysia, Philippines, Singapore, Myanmar (Burma), Cambodia, Laos, Brunei) using Stellar. • SureRemit($RMT) - is a Nigeria based global non-cash remittances company. SureRemit leverages the Stellar blockchain platform to connect immigrants abroad directly with merchants that provide the services needed by their loved ones back home. With Remit tokens, immigrants all over the world can access digital shopping vouchers that can be spent on goods and services at accepting merchants wherever they are. • Cowrie Integrated Systems - is a Nigerian based Value Added Service Provider. Cowrie provides services at the intersection between telecoms and finance. Cowrie recently joined the Stellar network to bring novel fintech services to the African market. • Smartlands - is a Stellar-based platform designed to create a new class of low-risk tokens, secured by real, profitable assets in the real-world economy. Smartlands is designed to promote investments in the agricultural sector by allowing investment in individual projects, agricultural companies or indexes of groups of projects. These investments will be fully collateralized by agricultural real estate, other productive assets such as fruit or nut trees or, in some cases, the actual crop. • Klick-Ex - is an award winning regional cross-border payments system delivering financial infrastructure for emerging markets. It has been responsible for dramatic uptake in digital financial services in unbanked regions of the world, and lowering costs for banks, central banks and consumers in low liquidity currencies. Its key presence is in the Pacific and Europe, and it is a founding member of www.APFII.org processing more than 775,000 transactions per second, per billion of population (source). • Mobius - Mobius connects any app, device, and data stream to the blockchain ecosystem. Our simple and easy to use bidirectional API allows non-blockchain developers to easily connect resources to smart contracts and more. The Mobius MVP acts like Stripe for Blockchain by introducing innovative standards for cross-blockchain login, payment, smart contract management, and oracles. The Mobius Team includes David Gobaud, Jed McCaleb (Stellar.org founder), Jackson Palmer (creator of Dogecoin), and Chandler Guo (notorious Bitcoin & blockchain investor). • Chaineum - Chaineum, the first French ICO Boutique, will use the Stellar network for upcoming ICOs. “Chaineum is positioned as the first “ICO Boutique” in France, providing a range of end-to-end services to companies and international start-ups wishing to develop with this new funding mechanism. Chaineum is preparing 8 ICOs by the end of 2017, for European, North American and Asian companies, of which cumulative amount could reach € 200 million." (source) • Poseidon Foundation - Poseidon will simplify the carbon credit market with the creation of an ecosystem built on Stellar.org’s blockchain technology. This technology will prevent double counting of carbon and will be consistent across jurisdictions, making it easier for companies to deliver and measure progress towards their climate targets or other goals such as deforestation-free commitments. • Remitr - Remitr is a global platform for cross border payments, licensed in Canada. Remitr uses the Stellar network for international settlements for businesses as well as other payment partners. Remitr’s own payout network of 63 countries, comprising several currencies, is extended onto the Stellar network. • MSewa Software Solution (MSS) - MSewa Software Solution (MSS) Payments provides a one-stop digital payment service available across the Globe. MSS Payments aims at serving the consumers (Banked, Unbanked and Underbanked) with mobile banking facilities on the move from anywhere by transferring funds in their mobile phone. • PesaChoice - PesaChoice is a leader in international bill payment services for the African diaspora. PesaChoice aims at making international bill payment process easy, seamless, secure, with reasonable and competitive service fees, and up to date technological advances. • SendX - Singapore based SendX, in partnership with Stellar, is the better way to move money worldwide. The SendX team believes that the future of transactions is decentralized and distributed, bringing true equity to everyone across the value chain. • VoguePay - VoguePay, with offices in the United Kingdom and Nigeria, is partnering with Stellar to become the cheapest and most efficient way to send money between the United Kingdom and Nigeria. In the coming months, they expect to expand this service to other selected African countries. • HashCash - Hashcash consultants build financial solutions for banks and financial institutions over blockchain. We leverage the Stellar platform to build products that vastly improve the remittance and payments experience for banks and their customers. Transfers happen lightning fast at a fraction of current rates and operational cost is significantly reduced. HashCash is headquartered in India, with operations across South Asia and the Gulf. . . Stellar Lumens vs Other Cryptocurrencies • Lumens vs. Bitcoin: Jed McCaleb spoke at Distributed Markets in 2017 about the advantages, but more importantly, the disadvantages of Bitcoin. Listen to the talk here. Jed said, “Bitcoin is this awesome innovation. The first thing it does is converts a real world resource, electricity, into a digital asset. So it takes something from the real world and puts it into the digital realm. The second thing it does is provides immutable public record. It’s basically a database that everyone can see but no one change arbitrarily… That’s great, Bitcoin solves the double spin problem [ of proving possession and transmitting volume]… [However, to fix the problems of bitcoin] you might think well maybe we’ll just kind of keep adding [software] to Bitcoin until we get there, but that’s not really the way software works. You want to have the design from the beginning and solve these simple issues. Bitcoin was designed to be a new currency, it wasn’t really designed to be this unifying universal payment network. So that’s what Stellar does. It solves these three remaining issues.” • Lumens vs. Bitcoin #2: According to wired.com, "Bitcoin mining guzzles energy - and it's carbon footprint just keeps growing." Wired says "Today, each bitcoin transaction requires the same amount of energy used to power nine homes in the US for one day... The total energy use of this web of hardware is huge—an estimated 31 terawatt-hours per year. More than 150 individual countries in the world consume less energy annually. And that power-hungry network is currently increasing its energy use every day by about 450 gigawatt-hours, roughly the same amount of electricity the entire country of Haiti uses in a year." Because Stellar is based on a consensus algorithm rather than mining, it takes much less energy to run the Stellar network. The Poseidon Foundation decided to build their platform on Stellar rather than Ethereum or Bitcoin because of this (twitter source). • Lumens ICO tokens vs. Ethereum ICO tokens: According to Stellar.org, "traditionally, ICO tokens have been issued on the Ethereum network in the form of ERC20 tokens. ERC20 tokens are easy to issue and are infinitely customizable using Ethereum’s smart contracting language. However, recent events have highlighted and exacerbated some weaknesses of the network, including slow transaction processing times for the network during ICOs and increasingly expensive gas prices (by fiat standards) for transactions and smart contract execution. Moreover, many organizations require only basic tokens; they adopt the risk of Ethereum’s Turing complete programming language without taking advantage of many of its benefits." "While Ethereum has the most expressive programming capabilities, we believe Stellar is the best choice for ICOs that do not require complex smart contracts. Stellar’s primary goal is to facilitate issuing and trading tokens, especially those tied to legal commitments by known organizations, such as claims on real-world assets or fiat currency." • Stellar vs. Ethereum #2: The median transaction time on Stellar is 5 seconds, compared to approximately 3.5 minutes on Ethereum (source). Stellar has a negligible transaction fee (.00001 XLM ~= $0.0000002) with no gas fee for computation, while depending on the complexity of the computation, the median cost for a transfer on the Ethereum network is $0.094. Security: While both Stellar and Ethereum run on a decentralized network, the Stellar network has fewer security pitfalls. Stellar uses atomic transactions comprised of simple, declarative operations while Ethereum uses turing complete programming capabilities which produces less auditable code and greater risk of exploitable vulnerabilities(source). Recently, a security flaw in the Ethereum network froze millions of dollars. According to Mobius ariticle written by David Gobaud, "On November 6, 2017, Github user deveps199 'accidentally' triggered a bug in Parity, a popular Ethereum mult-sig wallet, that froze more than $152 million in Ether across 151 addresses. The bug impacted several token sales including Polkadot, which has had ~$98 million out of its recent $145 million sale frozen." "Mobius had none of its ongoing pre-sale Ether frozen because we do not trust Ethereum’s Smart Contract based multi-sig wallets given the vast Turing complete attack surface and did not use one. Security broadly is one of the main reasons the MOBI token that powers the DApp Store is a Stellar Protocol token and not an Ethereum token." • Lumens vs. Ripple: According to Wall Street Bitcoin Exchange, "Many investors like to compare the company [Stellar] to Ripple, and there are a lot of similarities, being that some of the founders worked on the Ripple team. In what can now be looked at as another blockchain development drama that plays out on chat boards and in interviews all across the globe. Stellar declared they fixed Ripple’s problems with their hard fork, however, Ripple has failed to admit to any of the flaws in its design that the Stellar team has pointed out." The article concludes by saying, "We Choose XLM Over XRP For 2018. That is why we are going with Stellar Lumens over Ripple in our portfolio for the rest of 2017 and 2018. After holding Ripple for a long time this year, it just never seems to make the big break like other names with bigger market caps like Bitcoin Cash, Dash, and Litecoin have. While we are holding on most all our larger market caps, we feel that Stellar Lumens will be one of the break out coins for 2018." . . Conclusion The stellar.org team is doing an amazing job making partnerships and pioneering the use of blockchain technology for various types of transactions. What we are seeing is a new technology that can actually be used to solve real-world problems. As a community, we need to continue supporting Stellar and we will quickly see it power transactions across the world. What are your thoughts about Stellar? What do you see in the future of Stellar? Any important news you want to share? Comment below.
I'm writing a series about blockchain tech and possible future security risks. This is the third part of the series introducing Quantum resistant blockchains.
Part 1 and part 2 will give you usefull basic blockchain knowledge that is not explained in this part. Part 1 here Part 2 here Quantum resistant blockchains explained. - How would quantum computers pose a threat to blockchain? - Expectations in the field of quantum computer development. - Quantum resistant blockchains - Why is it easier to change cryptography for centralized systems such as banks and websites than for blockchain? - Conclusion The fact that whatever is registered on a blockchain can’t be tampered with is one of the great reasons for the success of blockchain. Looking ahead, awareness is growing in the blockchain ecosystem that quantum computers might cause the need for some changes in the cryptography that is used by blockchains to prevent hackers from forging transactions. How would quantum computers pose a threat to blockchain? First, let’s get a misconception out of the way. When talking about the risk quantum computers could pose for blockchain, some people think about the risk of quantum computers out-hashing classical computers. This, however, is not expected to pose a real threat when the time comes. This paper explains why: https://arxiv.org/pdf/1710.10377.pdf "In this section, we investigate the advantage a quantum computer would have in performing the hashcash PoW used by Bitcoin. Our findings can be summarized as follows: Using Grover search, a quantum computer can perform the hashcash PoW by performing quadratically fewer hashes than is needed by a classical computer. However, the extreme speed of current specialized ASIC hardware for performing the hashcash PoW, coupled with much slower projected gate speeds for current quantum architectures, essentially negates this quadratic speedup, at the current difficulty level, giving quantum computers no advantage. Future improvements to quantum technology allowing gate speeds up to 100GHz could allow quantum computers to solve the PoW about 100 times faster than current technology. However, such a development is unlikely in the next decade, at which point classical hardware may be much faster, and quantum technology might be so widespread that no single quantum enabled agent could dominate the PoW problem." The real point of vulnerability is this: attacks on signatures wherein the private key is derived from the public key. That means that if someone has your public key, they can also calculate your private key, which is unthinkable using even today’s most powerful classical computers. So in the days of quantum computers, the public-private keypair will be the weak link. Quantum computers have the potential to perform specific kinds of calculations significantly faster than any normal computer. Besides that, quantum computers can run algorithms that take fewer steps to get to an outcome, taking advantage of quantum phenomena like quantum entanglement and quantum superposition. So quantum computers can run these certain algorithms that could be used to make calculations that can crack cryptography used today. https://en.wikipedia.org/wiki/Elliptic-curve_cryptography#Quantum_computing_attacks and https://eprint.iacr.org/2017/598.pdf Most blockchains use Elliptic Curve Digital Signature Algorithm (ECDSA) cryptography. Using a quantum computer, Shor's algorithm can be used to break ECDSA. (See for reference: https://arxiv.org/abs/quant-ph/0301141 and pdf: https://arxiv.org/pdf/quant-ph/0301141.pdf ) Meaning: they can derive the private key from the public key. So if they got your public key (and a quantum computer), then they got your private key and they can create a transaction and empty your wallet. RSA has the same vulnerability while RSA will need a stronger quantum computer to be broken than ECDSA. At this point in time, it is already possible to run Shor’s algorithm on a quantum computer. However, the amount of qubits available right now makes its application limited. But it has been proven to work, we have exited the era of pure theory and entered the era of practical applications:
2001: First execution of Shor's algorithm at IBM's Almaden Research Center and Stanford University. The paper here: (Experimental realization of Shor's quantum factoring algorithm using nuclear magnetic resonance Lieven M. K. Vandersypen, https://arxiv.org/abs/quant-ph/0112176 )
So far Shor's algorithm has the most potential, but new algorithms might appear which are more efficient. Algorithms are another area of development that makes progress and pushes quantum computer progress forward. A new algorithm called Variational Quantum Factoring is being developed and it looks quite promising. " The advantage of this new approach is that it is much less sensitive to error, does not require massive error correction, and consumes far fewer resources than would be needed with Shor’s algorithm. As such, it may be more amenable for use with the current NISQ (Noisy Intermediate Scale Quantum) computers that will be available in the near and medium term." https://quantumcomputingreport.com/news/zapata-develops-potential-alternative-to-shors-factoring-algorithm-for-nisq-quantum-computers/ It is however still in development, and only works for 18 binary bits at the time of this writing, but it shows new developments that could mean that, rather than a speedup in quantum computing development posing the most imminent threat to RSA and ECDSA, a speedup in the mathematical developments could be even more consequential. More info on VQF here: https://arxiv.org/abs/1808.08927 It all comes down to this: when your public key is visible, which is always necessary to make transactions, you are at some point in the future vulnerable for quantum attacks. (This also goes for BTC, which uses the hash of the public key as an address, but more on that in the following articles.) If you would have keypairs based on post quantum cryptography, you would not have to worry about that since in that case not even a quantum computer could derive your private key from your public key. The conclusion is that future blockchains should be quantum resistant, using post-quantum cryptography. It’s very important to realize that post quantum cryptography is not just adding some extra characters to standard signature schemes. It’s the mathematical concept that makes it quantum resistant. to become quantm resistant, the algorithm needs to be changed. “The problem with currently popular algorithms is that their security relies on one of three hard mathematical problems: the integer factorization problem, the discrete logarithm problem or the elliptic-curve discrete logarithm problem. All of these problems can be easily solved on a sufficiently powerful quantum computer running Shor's algorithm. Even though current, publicly known, experimental quantum computers lack processing power to break any real cryptographic algorithm, many cryptographers are designing new algorithms to prepare for a time when quantum computing becomes a threat.” https://en.wikipedia.org/wiki/Post-quantum_cryptography Expectations in the field of quantum computer development. To give you an idea what the expectations of quantum computer development are in the field (Take note of the fact that the type and error rate of the qubits is not specified in the article. It is not said these will be enough to break ECDSA or RSA, neither is it said these will not be enough. What these articles do show, is that a huge speed up in development is expected.):
When will ECDSA be at risk? Estimates are only estimates, there are several to be found so it's hard to really tell. The National Academy of Sciences (NAS) has made a very thourough report on the development of quantum computing. The report came out in the end of 2018. They brought together a group of scientists of over 70 people from different interconnecting fields in quantum computing who, as a group, have come up with a close to 200 pages report on the development, funding, implications and upcoming challenges for quantum computing development. But, even though this report is one of the most thourough up to date, it doesn't make an estimate on when the risk for ECDSA or RSA would occur. They acknowledge this is quite impossible due to the fact there are a lot of unknowns and due to the fact that they have to base any findings only on publicly available information, obviously excluding any non available advancements from commercial companies and national efforts. So if this group of specialized scientists can’t make an estimate, who can make that assessment? Is there any credible source to make an accurate prediction? The conclusion at this point of time can only be that we do not know the answer to the big question "when". Now if we don't have an answer to the question "when", then why act? The answer is simple. If we’re talking about security, most take certainty over uncertainty. To answer the question when the threat materializes, we need to guess. Whether you guess soon, or you guess not for the next three decades, both are guesses. Going for certain means you'd have to plan for the worst, hope for the best. No matter how sceptical you are, having some sort of a plan ready is a responsible thing to do. Obviously not if you're just running a blog about knitting. But for systems that carry a lot of important, private and valuable information, planning starts today. The NAS describes it quite well. What they lack in guessing, they make up in advice. They have a very clear advice:
"Even if a quantum computer that can decrypt current cryptographic ciphers is more than a decade off, the hazard of such a machine is high enough—and the time frame for transitioning to a new security protocol is sufficiently long and uncertain—that prioritization of the development, standardization, and deployment of post-quantum cryptography is critical for minimizing the chance of a potential security and privacy disaster."
Another organization that looks ahead is the National Security Agency (NSA) They have made a threat assessment in 2015. In August 2015, NSA announced that it is planning to transition "in the not too distant future" (statement of 2015) to a new cipher suite that is resistant to quantum attacks. "Unfortunately, the growth of elliptic curve use has bumped up against the fact of continued progress in the research on quantum computing, necessitating a re-evaluation of our cryptographic strategy." NSA advised: "For those partners and vendors that have not yet made the transition to Suite B algorithms, we recommend not making a significant expenditure to do so at this point but instead to prepare for the upcoming quantum resistant algorithm transition.” https://en.wikipedia.org/wiki/NSA_Suite_B_Cryptography#cite_note-nsa-suite-b-1 What these organizations both advice is to start taking action. They don't say "implement this type of quantum resistant cryptography now". They don't say when at all. As said before, the "when" question is one that is a hard one to specify. It depends on the system you have, the value of the data, the consequences of postponing a security upgrade. Like I said before: you just run a blog, or a bank or a cryptocurrency? It's an individual risk assesment that's different for every organization and system. Assesments do need to be made now though. What time frame should organisationds think about when changing cryptography? How long would it take to go from the current level of security to fully quantum resistant security? What changes does it require to handle bigger signatures and is it possible to use certain types of cryptography that require to keep state? Do your users need to act, or can al work be done behind the user interface? These are important questions that one should start asking. I will elaborate on these challenges in the next articles. Besides the unsnswered question on "when", the question on what type of quantum resistant cryptography to use is unanswered too. This also depends on the type of system you use. The NSA and NAS both point to NIST as the authority on developments and standardization of quantum resistant cryptography. NIST is running a competition right now that should end up in one or more standards for quantum resistant cryptography. The NIST competition handles criteria that should filter out a type of quantum resistant cryptography that is feasable for a wide range of systems. This takes time though. There are some new algorithms submitted and assessing the new and the more well known ones must be done thouroughly. They intend to wrap things up around 2022 - 2024. From a blockchain perspective it is important to notice that a specific type of quantum resistant cryptography is excluded from the NIST competition: Stateful Hash-Based Signatures. (LMS and XMSS) This is not because these are no good. In fact they are excelent and XMSS is accepted to be provable quantum resistant. It's due to the fact that implementations will need to be able to securely deal with the requirement to keep state. And this is not a given for most systems. At this moment NIST intends to approve both LMS and XMSS for a specific group of applications that can deal with the statefull properties. The only loose end at this point is an advice for which applications LMS and XMSS will be adviced and for what applications it is discouraged. These questions will be answered in the beginning of april this year: https://csrc.nist.gov/news/2019/stateful-hbs-request-for-public-comments This means that quite likely LMS and XMSS will be the first type of standardized quantum resistant cryptography ever. To give a small hint: keeping state, is pretty much a naturally added property of blockchain. Quantum resistant blockchains “Quantum resistant” is only used to describe networks and cryptography that are secure against any attack by a quantum computer of any size in the sense that there is no algorithm known that makes it possible for a quantum computer to break the applied cryptography and thus that system. Also, to determine if a project is fully quantum resistant, you would need to take in account not only how a separate element that is implemented in that blockchain is quantum resistant, but also the way it is implemented. As with any type of security check, there should be no backdoors, in which case your blockchain would be just a cardboard box with bulletproof glass windows. Sounds obvious, but since this is kind of new territory, there are still some misconceptions. What is considered safe now, might not be safe in the age of quantum computers. I will address some of these in the following chapters, but first I will elaborate a bit about the special vulnerability of blockchain compared to centralized systems. Why is it easier to change cryptography for centralized systems such as banks and websites than for blockchain? Developers of a centralized system can decide from one day to the other that they make changes and update the system without the need for consensus from the nodes. They are in charge, and they can dictate the future of the system. But a decentralized blockchain will need to reach consensus amongst the nodes to update. Meaning that the majority of the nodes will need to upgrade and thus force the blockchain to only have the new signatures to be valid. We can’t have the old signature scheme to be valid besides the new quantum resistant signature scheme. Because that would mean that the blockchain would still allow the use of vulnerable, old public- and private keys and thus the old vulnerable signatures for transactions. So at least the majority of the nodes need to upgrade to make sure that blocks which are constructed using the old rules and thus the old vulnerable signature scheme, are rejected by the network. This will eventually result in a fully upgraded network which only accepts the new post quantum signature scheme in transactions. So, consensus is needed. The most well-known example of how that can be a slow process is Bitcoin’s need to scale. Even though everybody agrees on the need for a certain result, reaching consensus amongst the community on how to get to that result is a slow and political process. Going quantum resistant will be no different, and since it will cause lesser performance due to bigger signatures and it will need hardware upgrades quite likely it will be postponed rather than be done fast and smooth due to lack of consensus. And because there are several quantum resistant signature schemes to choose from, agreement an automatic given. The discussion will be which one to use, and how and when to implement it. The need for consensus is exclusively a problem decentralized systems like blockchain will face. Another issue for decentralized systems that change their signature scheme, is that users of decentralized blockchains will have to manually transfe migrate their coins/ tokens to a quantum safe address and that way decouple their old private key and activate a new quantum resistant private key that is part of an upgraded quantum resistant network. Users of centralized networks, on the other hand, do not need to do much, since it would be taken care of by their centralized managed system. As you know, for example, if you forget your password of your online bank account, or some website, they can always send you a link, or secret question, or in the worst case they can send you mail by post to your house address and you would be back in business. With the decentralized systems, there is no centralized entity who has your data. It is you who has this data, and only you. So in the centralized system there is a central entity who has access to all the data including all the private accessing data, and therefore this entity can pull all the strings. It can all be done behind your user interface, and you probably wouldn’t notice a thing. And a third issue will be the lost addresses. Since no one but you has access to your funds, your funds will become inaccessible once you lose your private key. From that point, an address is lost, and the funds on that address can never be moved. So after an upgrade, those funds will never be moved to a quantum resistant address, and thus will always be vulnerable to a quantum hack. To summarize: banks and websites are centralized systems, they will face challenges, but decentralized systems like blockchain will face some extra challenges that won't apply for centralized systems.
Updating the signature scheme will need consensus in the sense that all nodes need to update after implementation of a quantum resistant signature scheme.
Users of blockchain will personally need to move their funds from old addresses to new quantum resistant addresses. You won't need to move your bank funds.
Lost addresses where people lost access to their funds will never be moved and stay vulnerable to quantum hacks. Blockchain doesn't know their users, can't communicate with them and won't be able to distinguish coins on lost addresses from coins from users who still have access but somehow have not migrated their coins after a quantum resistant update. So burning lost coins will be legally a big issue.
The only acceptable "compromise" is SegWit NEVER, bigger blocks NOW. SegWit-as-a-soft-fork involves an "anyone-can-spend" hack - which would give Core/Blockstream/AXA a MONOPOLY on Bitcoin development FOREVER. The goal of SegWit is NOT to help Bitcoin. It is to HURT Bitcoin and HELP Blockstream/AXA.
TL;DR: Adding a poison pill like SegWit to Bitcoin would not be a "compromise" - it would be suicide, because SegWit's dangerous "anyone-can-spend" hack would give a permanent monopoly on Bitcoin development to the corrupt, incompetent, toxic dev team of Core/Blockstream/AXA, who are only interested in staying in power and helping themselves at all costs - even if they end up hurting Bitcoin. Most of this post will probably not be new information for many people. It is being provided mainly as a reminder, to counteract the constant flood of lies and propaganda coming from Core/Blocsktream/AXA in their attempt to force this unwanted SegWit poison pill into Bitcoin - in particular, their latest desperate lie: that there could somehow be some kind of "compromise" involving SegWit. But adding a poison pill / trojan horse like SegWit to our code would not be some kind of "compromise". It would be simply be suicide. SegWit-as-a-soft-fork is an existential threat to Bitcoin development - because SegWit's dangerous "anyone-can-spend" hack would give a permanent monopoly on Bitcoin development to the corrupt / incompetent centralized dev team of Core/Blockstream/AXA who are directly to blame for the current mess of Bitcoin's crippled, clogged network and drastically falling market cap. Furthermore, markets don't even do "compromise". They do "winner-takes-all". Any coin adopting SegWit is going to lose, simply because SegWit is such shitty code:
"Compromise is not part of Honey Badger's vocabulary. Such notions are alien to Bitcoin, as it is a creature of the market with no central levers to compromise over. Bitcoin unhampered by hardcoding a 1MB cap is free to optimize itself perfectly to defeat all competition." ~ u/ForkiusMaximus
AXA is trying to sabotage Bitcoin by paying the most ignorant, anti-market devs in Bitcoin: Core/Blockstream This is the direction that Bitcoin has been heading in since late 2014 when Blockstream started spreading their censorship and propaganda and started bribing and corrupting the "Core" devs using $76 million in fiat provided by corrupt, anti-Bitcoin "fantasy fiat" finance firms like the debt-backed, derivatives-addicted insurance mega-giant AXA. Remember: The real goals of Core/Blocsktream/AXA with SegWit are to:
https://np.reddit.com/btc/comments/6a72vm/purely_coincidental/ Do not judge Core/Blocsktream/AXA by their words. As we have seen, their words have been just an endless stream of lies and propaganda involving changing explanations and shifting goalposts and insane nonsense - including this latest outrageous concept of SegWit as some kind of "compromise" which some people may be "falling for":
Latest Segwit Trickery involves prominent support for "SW Now 2MB Later" which will lead to only half of the deal being honored. Barry Silbert front and center. Of course.
The people we are dealing with are the WORST type of manipulators and liars. There is absolutely NO reason why they should not deliver a 2 MB block size at the same time as SegWit. This is like a dealer saying "hey gimme that $200 now, I just gotta run home and get your weed, I promise I'll be right back".
I agree to immediately support the activation of Segregated Witness and commit to effectuate a block size increase to 2MB within 12 months
[Based] on [their] previous performance [in the Hong Kong agreement - which they already broke], they're going to say, "Segregated Witness was a block size increase, to a total of 4MB, so we have delivered our side of the compromise."
Barry is an investor in Blockstream. What else needs to be said?
~ u/coinlock Nothing involving SegWit is a "compromise". SegWit would basically hijack Bitcoin development forever - giving a permanent monopoly to the centralized, corrupt dev team of Core/Blockstream/AXA.
SegWit would impose a centrally planned blocksize of 1.7MB right now - too little and too late.
Segwit would permanently "cement" Core/Blockstream/AXA as the only people controlling Bitcoin development - forever.
If you are sick and tired of these attempts by Core/Blockstream/AXA to sabotage Bitcoin - then the last thing you should support is SegWit in any way, shape or form - even as some kind of so-called "compromise". This is because SegWit is not primarily a "malleability fix" or a "capacity increase". SegWit is a poison pill / trojan horse which would put the idiots and traitors at Core/Blockstream/AXA permanently and exclusively in control of Bitcoin development - forever and ever. Here are the real problems with SegWit (which Core/Blockstream/AXA is not telling you about):
Initially, I liked SegWit. But then I learned SegWit-as-a-SOFT-fork is dangerous (making transactions "anyone-can-spend"??) & centrally planned (1.7MB blocksize??). Instead, Bitcoin Unlimited is simple & safe, with MARKET-BASED BLOCKSIZE. This is why more & more people have decided to REJECT SEGWIT.
Segwit cannot be rolled back because to non-upgraded clients, ANYONE can spend Segwit txn outputs. If Segwit is rolled back, all funds locked in Segwit outputs can be taken by anyone. As more funds gets locked up in segwit outputs, incentive for miners to collude to claim them grows.
Brock Pierce's BLOCKCHAIN CAPITAL is part-owner of Bitcoin's biggest, private, fiat-funded private dev team (Blockstream) & biggest, private, fiat-funded private mining operation (BitFury). Both are pushing SegWit - with its "centrally planned blocksize" & dangerous "anyone-can-spend kludge".
u/Luke-Jr invented SegWit's dangerous "anyone-can-spend" soft-fork kludge. Now he helped kill Bitcoin trading at Circle. He thinks Bitcoin should only hard-fork TO DEAL WITH QUANTUM COMPUTING. Luke-Jr will continue to kill Bitcoin if we continue to let him. To prosper, BITCOIN MUST IGNORE LUKE-JR.
"SegWit encumbers Bitcoin with irreversible technical debt. Miners should reject SWSF. SW is the most radical and irresponsible protocol upgrade Bitcoin has faced in its history. The scale of the code changes are far from trivial - nearly every part of the codebase is affected by SW" Jaqen Hash’ghar
"We had our arms twisted to accept 2MB hardfork + SegWit. We then got a bait and switch 1MB + SegWit with no hardfork, and accounting tricks to make P2SH transactions cheaper (for sidechains and Lightning, which is all Blockstream wants because they can use it to control Bitcoin)." ~ u/URGOVERNMENT
Core/Blockstream & their supporters keep saying that "SegWit has been tested". But this is false. Other software used by miners, exchanges, Bitcoin hardware manufacturers, non-Core software developers/companies, and Bitcoin enthusiasts would all need to be rewritten, to be compatible with SegWit
"SegWit [would] bring unnecessary complexity to the bitcoin blockchain. Huge changes it introduces into the client are a veritable minefield of issues, [with] huge changes needed for all wallets, exchanges, remittance, and virtually all bitcoin software that will use it." ~ u/Bitcoinopoly (self.btc)
3 excellent articles highlighting some of the major problems with SegWit: (1) "Core Segwit – Thinking of upgrading? You need to read this!" by WallStreetTechnologist (2) "SegWit is not great" by Deadalnix (3) "How Software Gets Bloated: From Telephony to Bitcoin" by Emin Gün Sirer
Normal users understand that SegWit-as-a-softfork is dangerous, because it deceives non-upgraded nodes into thinking transactions are valid when actually they're not - turning those nodes into "zombie nodes". Greg Maxwell and Blockstream are jeopardizing Bitcoin - in order to stay in power.
As Benjamin Frankline once said: "Given a choice between Liberty (with a few Bugs), and Slavery (with no Bugs), a Free People will choose Liberty every time." Bitcoin Unlimited is liberty: market-based blocksizes. SegWit is slavery: centrally planned 1.7MB blocksize & "anyone-can-spend" transactions
u/Uptrenda on SegWit: "Core is forcing every Bitcoin startup to abandon their entire code base for a Rube Goldberg machine making their products so slow, inconvenient, and confusing that even if they do manage to 'migrate' to this cluster-fuck of technical debt it will kill their businesses anyway."
Just because something is a "soft fork" doesn't mean it isn't a massive change. SegWit is an alt-coin. It would introduce radical and unpredictable changes in Bitcoin's economic parameters and incentives. Just read this thread. Nobody has any idea how the mainnet will react to SegWit in real life.
"They [Core/Blockstream] fear a hard fork will remove them from their dominant position." ... "Hard forks are 'dangerous' because they put the market in charge, and the market might vote against '[the] experts' [at Core/Blockstream]" - ForkiusMaximus
The real reason why Core / Blockstream always favors soft-forks over hard-forks (even though hard-forks are actually safer because hard-forks are explicit) is because soft-forks allow the "incumbent" code to quietly remain incumbent forever (and in this case, the "incumbent" code is Core)
Reminder: Previous posts showing that Blockstream's opposition to hard-forks is dangerous, obstructionist, selfish FUD. As many of us already know, the reason that Blockstream is against hard forks is simple: Hard forks are good for Bitcoin, but bad for the private company Blockstream.
Core/Blockstream is living in a fantasy world. In the real world everyone knows (1) our hardware can support 4-8 MB (even with the Great Firewall), and (2) hard forks are cleaner than soft forks. Core/Blockstream refuses to offer either of these things. Other implementations (eg: BU) can offer both.
If Blockstream were truly "conservative" and wanted to "protect Bitcoin" then they would deploy SegWit AS A HARD FORK. Insisting on deploying SegWit as a soft fork (overly complicated so more dangerous for Bitcoin) exposes that they are LYING about being "conservative" and "protecting Bitcoin".
If some bozo dev team proposed what Core/Blockstream is proposing (Let's deploy a malleability fix as a "soft" fork that dangerously overcomplicates the code and breaks non-upgraded nodes so it's de facto HARD! Let's freeze capacity at 1 MB during a capacity crisis!), they'd be ridiculed and ignored
"Negotiations have failed. BS/Core will never HF - except to fire the miners and create an altcoin. Malleability & quadratic verification time should be fixed - but not via SWSF political/economic trojan horse. CHANGES TO BITCOIN ECONOMICS MUST BE THRU FULL NODE REFERENDUM OF A HF." ~ u/TunaMelt
The proper terminology for a "hard fork" should be a "FULL NODE REFERENDUM" - an open, transparent EXPLICIT process where everyone has the right to vote FOR or AGAINST an upgrade. The proper terminology for a "soft fork" should be a "SNEAKY TROJAN HORSE" - because IT TAKES AWAY YOUR RIGHT TO VOTE.
Blockstream is now controlled by the Bilderberg Group - seriously! AXA Strategic Ventures, co-lead investor for Blockstream's $55 million financing round, is the investment arm of French insurance giant AXA Group - whose CEO Henri de Castries has been chairman of the Bilderberg Group since 2012.
If Bitcoin becomes a major currency, then tens of trillions of dollars on the "legacy ledger of fantasy fiat" will evaporate, destroying AXA, whose CEO is head of the Bilderbergers. This is the real reason why AXA bought Blockstream: to artificially suppress Bitcoin volume and price with 1MB blocks.
Who owns the world? (1) Barclays, (2) AXA, (3) State Street Bank. (Infographic in German - but you can understand it without knowing much German: "Wem gehört die Welt?" = "Who owns the world?") AXA is the #2 company with the most economic poweconnections in the world. And AXA owns Blockstream.
The insurance company with the biggest exposure to the 1.2 quadrillion dollar (ie, 1200 TRILLION dollar) derivatives casino is AXA. Yeah, that AXA, the company whose CEO is head of the Bilderberg Group, and whose "venture capital" arm bought out Bitcoin development by "investing" in Blockstream.
Why is Blockstream CTO Greg Maxwell u/nullc trying to pretend AXA isn't one of the top 5 "companies that control the world"? AXA relies on debt & derivatives to pretend it's not bankrupt. Million-dollar Bitcoin would destroy AXA's phony balance sheet. How much is AXA paying Greg to cripple Bitcoin?
Core/AXA/Blockstream CTO Greg Maxwell, CEO Adam Back, attack dog Luke-Jr and censor Theymos are sabotaging Bitcoin - but they lack the social skills to even feel guilty for this. Anyone who attempts to overrule the market and limit or hard-code Bitcoin's blocksize must be rejected by the community.
"I'm angry about AXA scraping some counterfeit money out of their fraudulent empire to pay autistic lunatics millions of dollars to stall the biggest sociotechnological phenomenon since the internet and then blame me and people like me for being upset about it." ~ u/dresden_k
Greg Maxwell used to have intelligent, nuanced opinions about "max blocksize", until he started getting paid by AXA, whose CEO is head of the Bilderberg Group - the legacy financial elite which Bitcoin aims to disintermediate. Greg always refuses to address this massive conflict of interest. Why?
This trader's price & volume graph / model predicted that we should be over $10,000 USD/BTC by now. The model broke in late 2014 - when AXA-funded Blockstream was founded, and started spreading propaganda and crippleware, centrally imposing artificially tiny blocksize to suppress the volume & price.
AXA/Blockstream are suppressing Bitcoin price at 1000 bits = 1 USD. If 1 bit = 1 USD, then Bitcoin's market cap would be 15 trillion USD - close to the 82 trillion USD of "money" in the world. With Bitcoin Unlimited, we can get to 1 bit = 1 USD on-chain with 32MB blocksize ("Million-Dollar Bitcoin")
Bitcoin can go to 10,000 USD with 4 MB blocks, so it will go to 10,000 USD with 4 MB blocks. All the censorship & shilling on r\bitcoin & fantasy fiat from AXA can't stop that. BitcoinCORE might STALL at 1,000 USD and 1 MB blocks, but BITCOIN will SCALE to 10,000 USD and 4 MB blocks - and beyond
Bitcoin Original: Reinstate Satoshi's original 32MB max blocksize. If actual blocks grow 54% per year (and price grows 1.542 = 2.37x per year - Metcalfe's Law), then in 8 years we'd have 32MB blocks, 100 txns/sec, 1 BTC = 1 million USD - 100% on-chain P2P cash, without SegWit/Lightning or Unlimited
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