Monero Space is an active, project-focused Monero workgroup that provides services to the Monero community. It hosts popular resources and organizes events such as Monero Meet.
Monero was launched in April 2014. It was a fair, pre-announced launch of the CryptoNote reference code. There was no premine or instamine, and no portion of the block reward goes to development. See the original Bitcointalk thread
Monero has value because people are willing to buy it. If no one is willing to buy Monero, then it will not have any value. Monero’s price increases if demand exceeds supply, and it decreases if supply exceeds demand.
Monero uses @randomx, an ASIC-resistant and CPU-friendly POW algorithm created by Monero community members, designed to make the use of mining-specific hardware unfeasible. Monero previously used CryptoNight and variations of this algorithm
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Monero, on the other hand, uses various privacy-enhancingtechnologies to ensure the anonymitprivacy of its users.
Monero uses three different privacy technologies: @ring-signatures, ring confidential transactions (@RingCT), and @stealth-addresses. These hide the sender, amount, and receiver in the @transaction, respectively. All transactions on the network are private by mandate; there is no way to accidentally send a transparent transaction. This feature is exclusive to Monero. You do not need to trust anyone else with your privacy.
Monero uses a unique hash function that transforms scalars into elliptic curve points. It is useful for creating key images, in particular. This document, authored by Shen Noether, translates its code implementation (the ge_fromfe_frombytes_vartime() function) into mathematical expressions.
Monero is not based on Bitcoin. It is based on the CryptoNote protocol. Bitcoin is a completely transparent system, where people can see exactly how much money is being sent from one user to another. Monero hides this information to protect user privacy in all transactions. It also has a dynamic @block size and dynamic fees, an ASIC-resistant proof of work (@randomx), and a @tail-emission, among several other changes.
Monero fixes this problem by being ASIC-resistant: it uses an algorithm (@randomx) that strongly reduces the efficiency of ASICs, making them not profitable to build. Miners can use common consumer hardware, which allows them to compete fairly. The Monero network is currently protected by thousands of miners using 'regular' computers. This results in a network much harder to attack, no miner having significant advantage over other miners (they all use more or less the same hardware).