Note that the instructions below are just the minimal necessary to create and use accounts/subaddresses. The CLI offer more capillary ways to handle accounts and the wallet in general. Use the command 'help' to list all the available options.
If you are a business and you wish to programmatically receive @transactions or use advanced features like multisignature, it's suggested to consult the
If you need support, the community will always be happy to help. Come chat on #monero, the chatroom is on Freenode, but also relayed on MatterMost and Matrix.
Some of those offer nice features like the possibility to automatically convert part of your income in fiat money or to accept other cryptocurrencies along with Monero.
No. Monero uses a completely non-interactive, non-custodial, and automatic process to create private transactions. By contrast for mixing services, users opt-in to participate.
Confidential transactions are used in distributed digital assets to demonstrate the balance of values hidden in commitments, while retaining signer ambiguity. Previous work describes a signer-ambiguous proof of knowledge of the opening of commitments to zero at the same index across multiple public commitment sets and the evaluation of a verifiable random function used as a linking tag, and uses this to build a linkable ring signature called Triptych that can be used as a building block for a confidential transaction model. In this work, we extend Triptych to build Arcturus, a proving system that proves knowledge of openings of multiple commitments to zero within a single set, correct construction of a verifiable random function evaluated at each opening, and value balance across a separate list of commitments within a single proof. While soundness depends on a novel dual discrete-logarithm hardness assumption, we use data from the Monero blockchain to show that Arcturus can be used in a confidential transaction model to provide faster total batch verification time than other state-of-the-art constructions without a trusted setup.
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
A new @block is created every ~2 minutes. There is no maximum block size, but instead a block reward penalty and a dynamic block size, to ensure a dynamic @scalability