Monero is a currency and can be exchanged for goods, services and other currencies, privately and with very low fees. Many entities will gladly accept XMR for payments; take a look at our 'Merchants' page.
The wallets listed below are mobile or light wallets that are deemed safe by respected members of the community. If you want to use a wallet that is not listed on this page, it is strongly recommended that you consult the community to find out if the wallet is safe and what are the risks in using it. Go to our
This is a POS-like page that merchant can easily use to set the amount of XMR to receive. If the 'Sale tracker' option is enabled, you will see the payments while they arrive in real time in your wallet, along with the number of confirmations.
Yes, you can, but you probably shouldn't. Importing an external @blockchain is very resource intensive and forces you to trust the entity providing you with the blockchain. It's usually faster to download it the normal way: running a node and letting it synchronize with the other @nodes in the network. If you really need to import an external blockchain, you can download one in the 'Downloads' page of this website. Follow the guide below if you are using Windows. If you are a linux user, you can use the tool "monero-blockchain-import", which is included in the archive when you download the GUI or CLI wallets. Start syncing the imported blockchain with this command: "monero-blockchain-import --input-file blockchain.raw".
During the years the community has created a vast amount of informative content like articles and videos. Most of these videos are publicly available on platforms like YouTube. On this website we host a few videos that explain the fundamentals of Monero. To optimize their effectiveness, they should be viewed in sequence:
Monero has made several large improvements since launch. The blockchain was migrated to a different database structure to provide greater efficiency and flexibility, minimum ring signature sizes were set so that all transactions were private by mandate, and RingCT was implemented to hide the transaction amounts. Nearly all improvements have provided improvements to security or privacy, or they have facilitated use. Monero continues to develop with goals of privacy and security first, ease of use and efficiency second.
We identify several blockchain analysis attacks available to degrade the untraceability of the CryptoNote 2.0 protocol. We analyze possible solutions, discuss the relative merits and drawbacks to those solutions, and recommend improvements to the Monero protocol that will hopefully provide long-term resistance of the cryptocurrency against blockchain analysis. Our recommended improvements to Monero include a protocol-level network-wide minimum mix-in policy of n = 2 foreign outputs per ring signature, a protocol-level increase of this value to n = 4 after two years, and a wallet-level default value of n = 4 in the interim. We also recommend a torrent-style method of sending Monero output. We also discuss a non-uniform, age-dependent mix-in selection method to mitigate the other forms of blockchain analysis identified herein, but we make no formal recommendations on implementation for a variety of reasons. The ramifications following these improvements are also discussed in some detail. This research bulletin has not undergone peer review, and reflects only the results of internal investigation.
This technical note describes an algorithm used to prove knowledge of the same discrete logarithm across different groups. The scheme expresses the common value as a scalar representation of bits, and uses a set of ring signatures to prove each bit is a valid value that is the same (up to an equivalence) across both scalar groups.
