monero-site/_i18n/en.yml

global:
  date: '%Y/%m/%d'
  monero: Monero
  getting_started: Getting Started
  copyright: Copyright
  monero_project: The Monero Project
  sitename: getmonero.org, The Monero Project
  wiki: Moneropedia
  tags: Articles By Tag
  wikimeta: on Moneropedia, the open encyclopedia of Monero knowledge
  tagsmeta: All Monero blog articles that are tagged
  titlemeta: Monero, a digital currency that is secure, private, and untraceable
  terms: Terms
  privacy: Privacy
  untranslated: This page is not yet translated. If you would like to help translate it, please see the
  outdated: The content of this page is outdated and might be not valid anymore. Contact the community if you need support.
  outdatedMin: This page has been updated since the translation. You can use this version, but it may be incomplete. Please use the
  outdatedVersion: English version
  lang_tag: "@lang_tag_en"

titles:
  index: Home
  whatismonero: What is Monero (XMR)?
  accepting: Accepting Monero
  contributing: Improving Monero
  mining: Mining Monero
  faq: FAQ
  downloads: Downloads
  allposts: All Blog Posts
  workgroups: Workgroups
  hangouts: Hangouts
  sponsorships: Sponsorships
  merchants: Merchants & Exchanges
  about: About Monero
  roadmap: Roadmap
  researchlab: Monero Research Lab (MRL)
  moneropedia: Moneropedia
  userguides: User Guides
  developerguides: Developer Guides
  technicalspecs: Technical Specs
  themoneroproject: The Monero Project
  tools: Tools
  presskit: Press Kit
  legal: Legal
  blogbytag: Blog
  library: Library

meta_descr:
  whatismonero: A thorough explanation of what is Monero and how to get started
  accepting: A guide on how to accept a payment in Monero using the GUI wallet
  contributing: There are many ways to contribute to Monero and for every skillset
  mining: Information, software and resources about mining Monero
  blog: News, release notices and communications from the Monero Project and its community
  workgroups: Find out where the hundreds of volunteers working on Monero meet and coordinate
  sponsorships: The current and past sponsors of the Monero project.
  about: History, values and basic structure of the Monero project and technology
  roadmap: A browsable overview of what Monero achieved since its creation, what is currently being developed and plans for the future
  mrl: Monero's research corner, with research papers, whitepaper and other research-related information
  userguides: A collection of guides and manuals to guide you through using Monero and fixing common issues
  tools: Links to third-party tools, like block explorers, payment gateways and generators to interact with the Monero ecosystem
  presskit: Logos, marketing material, contacts and press documentation about Monero

navigation:
  getstarted: Get Started
  whatis: What is Monero?
  accepting: Accepting
  contributing: Contributing
  mining: Mining
  community: Community
  merchants: Merchants & Exchanges
  resources: Resources
  about: About
  mrl: Research Lab

footer:
  feed: RSS Feed
  legal: Legal
  source: Source Code
  ml: Mailing List
  ccs: Community Crowdfunding System
  reachout: Reach Out

index:
  page_title: "Monero - secure, private, untraceable"

home:
  heading: Monero Means Money
  heading2: Private, decentralized cryptocurrency that keeps your finances confidential and secure.
  whatis: Learn more about Monero
  about: About Monero
  joincommunity: Join Community
  choosewallet: Choose a Wallet
  choosewallet_para: To use Monero, the first thing you are going to need is a wallet. Visit our Downloads page and get the right wallet for you. The Monero wallets are available for a variety of platforms and contain everything you need to use Monero immediately.
  downloads: Downloads
  getcoins: Get Some Coins
  getcoins_para: After you install a wallet, you need to get some Monero. There are multiple ways to acquire some coins to spend, like mining or working in exchange for Monero, but the easiest way is to use an exchange and convert your fiat money into XMR. Many exchanges, centralized and decentralized, list Monero (XMR).
  exchanges: Exchanges
  useit: "It's a Currency; Use It!"
  useit_para: 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.
  merchants: Merchants
  answers: Find Answers to Your Questions
  faq: FAQ
  faq_para: We've heard a lot of questions over the years and have compiled a thorough and varied FAQ. Don't worry, if your questions are not in there, you can always ask the community.
  guides: Guides and Resources
  guides_para: >
    The community has put together a vast amount of resources and documentation. Users can find useful info and guides about common configurations and 
    tips in the 'User Guides' section. Developers can find everything they need to build a service based on Monero or simply communicate with the network 
    in the 'Developer Guides'. The Library offers publications and books downloadable for free, including the full 'Mastering Monero' and 'Zero to Monero' books.    
  moneropedia_para: Would you like to look up the meanings of the terms and concepts used in Monero? Here you will find an alphabetical guide to terms and their meanings.
  moneropedia_button: Read Moneropedia
  contributecommunity: "We Need Your Skills: Contribute!"
  contributecommunity_para: Monero is not simply a currency, it's a decentralized community and exists only thanks to the hundreds of volunteers that dedicate their time to the project. Join us!
  researchlab_para: The MRL (Monero Research Lab) is a very important part of Monero. Researchers and cryptographers from all over the world meet to find new ways to improve Monero. Read their papers and join them!
  visitmrl: Visit the MRL
  contributing: Contributing
  meetcommunity: "Meet the community!"
  meetus: "The members of the Monero community are all over the world. You can find us on multiple platforms. Come meet us!"
  hangouts: Hangouts
  morevideos: Looking for more explanatory videos?

hangouts:
  intro: The Monero community is diverse and varied. We come from all over, but we definitely have some places we like to hang out together. You'll find most of them below. Join us!
  resources: Workgroup Resources
  resources_para: In an effort to support organic workgroups, Monero has several resources that the community can use to meet and plan projects,
  resources_para1: like a Matrix server, a Taiga board and the translation platform Weblate.
  irc: IRC Channels
  irc_para: The Monero community utilizes a lot of IRC channels that each serve different purposes. Some to work, and some just to hang out. You'll find the more popular ones below.
  bridges: These channels are bridged to a number of other platforms, allowing the community to communicate using their favourite chat service/protocol.
  mailing_list: Mailing List
  mailing_list1: Do you want to receive important announcements directly on your email address? join our mailing lists!
  subscribe: Subscribe
  irc_channels:
    monero: This channel is used to discuss all things Monero related.
    monero-community: This channel is for the Monero community to congregate and discuss ideas.
    monero-dev: The many contributors and developers come here to discuss dev-y things.
    monero-markets: We use this channel to talk about the price of Monero and other coins.
    monero-offtopic: Chatting with other Monero users about things not related to Monero.
    monero-pools: This is the place for mining questions and discussion.
    monero-research-lab: Research into financial privacy with cryptocurrency.
    monero-translations: Localizing Monero into other languages.
    monero-hardware: Building hardware wallets to keep your Monero safe.
    monero-site: Where the development of this website is coordinated.

merchants:
  descr: On this page you will find stores and merchants that accept Monero as payment, as well as exchanges that trade Monero for other currencies.
  useit: "Merchants that accept Monero"
  use: Over the years, merchants of all kinds have come to value the financial privacy that Monero brings. In fact, merchant adoption is continuously rising.
  dirdescr: "If you are looking for places to spend your Monero, the directories below have some options. Please remember to do your own research before trusting them with your money:"
  descrp2p: The best way to exchange Monero for other currencies (or the other way round) is using P2P exchanges, because they allow traders to directly interact with each other, without the need of trusted third parties (except maybe for providing an escrow service). These exchanges are more private than their centralized counterparts and allow people to be in complete control of their coins if they are non-custodial, but they usually have less volume than 'traditional' exchanges. In the section below, we offer a list of P2P exchanges that support Monero.
  swapsdescr: A new exciting way to exchange Monero is Atomic Swaps, which <a href="https://www.getmonero.org/2021/08/20/atomic-swaps.html">we announced</a> on August 2021. Atomic Swaps are a completely decentralized way to swap Bitcoin <-> Monero (more info in the blog post). The technology is brand new, so there aren't many swap providers yet, but you can already sell XMR for BTC using this protocol at
  bisqdescr: Decentralized P2P exchange based on Bitcoin and Tor.
  cardfoss: "Open source:"
  cardkyc: "<b>No KYC</b> (Know Your Customer):"
  cardbtcfiat: (BTC &#8596; fiat possible)
  cardonion: "Onion address:"
  cardi2p: "I2P address:"
  noncustodial: "Non-custodial:"
  hodlhodldescr: P2P trading platform with non-custodial escrow.
  locmondescr: Online P2P exchange offering person-to-person trades.
  depsell: Depends by the seller
  locnojs: (but no-JS version available)
  simpleswapdescr: Non-custodial instant exchange.
  disclaimer: |
    "Please note: these links are being provided as a convenience and for informational purposes only; they do not constitute an endorsement by the Monero community of any products, services or opinions of the corporations or organizations or individuals listed. The Monero community bears no responsibility for the accuracy, legality, or content of these external sites. Contact the external site for answers to questions regarding its content. As always, caveat emptor ('buyer beware'); you are responsible for doing your own research. Always use judgement when making online purchases."    
  visitbisq: Visit Bisq
  visithodlhodl: Visit HodlHodl
  centrexchanges: Centralized exchanges (CEXs) & Swappers
  centrexchangesp: If you prefer to use centralized exchanges, here is a list of renowned CEXes and swappers. Many more exchanges support Monero, we list here only a few reputable ones.
  cexp: Centralized exchanges that offer exchanging Monero for national currencies and cryptocurrencies.
  swappersp: Swappers let users exchange XMR for other cryptocurrencies.
  basicswapdexdesc: Decentralized P2P atomic swaps with a strong focus on the user experience.
  visitbasicswapdex: Visit BasicSwapDEX
  setreq: Setup required

sponsorships:
  intro: The following businesses actively support the Monero Project in its goal to bring financial privacy to the world. We couldn't be more grateful for their contributions. If you would like to sponsor the Monero Project and be listed on this page, please send an email to dev@getmonero.org.
  tari: Tari Labs sponsors the CDN used by this website.
  mbank: MajesticBank sponsors the hosting used by this website.
  symas: Symas sponsors its CTO Howard Chu (hyc) for his work on the Monero codebase.
  macstadium: MacStadium sponsors a dedicated Mac Mini that is used for Mac-related development.
  cakewallet: Cake Wallet sponsors the "tools" server with the mailing list, GitLab, Matrix, Taiga, and Weblate.
  cypherstack: Cypher Stack sponsors devops personnel to work on and maintain Monero infrastructure.
  pastsponsors: Past sponsors

team:
  introduction: Workgroups are formed by community members who join forces to achieve a common goal. They have different structures and goals. On this page we list some of the more active workgroups and some tips to get you started, if you wish to contribute to any of them.
  core: Core Team
  community: Community Workgroup
  mrl: Research Lab
  descr: Description
  start: Where to start
  contacts: Chatrooms and Contacts
  chat: "Chat:"
  website: "Website:"
  core_descr: As stewards of the project, the Core Team manages and maintains infrastructure where centralization cannot be avoided (domains, website, github repositories...). Its members act as mediators as they see fit and aim to weigh consensus in the community, perpetuating the quality interactions that made Monero the successful project it is today. The Core Team does not and has never received any financial compensation.
  core_start: The Core Team is a closed workgroup; it's not possible to join unless invited.
  community_descr: This workgroup is used by the community to organize and coordinate. Start here if you are a non-coder who wants to contribute to Monero.
  community_start: The best way to start contributing to this workgroup is to join the chatrooms and introduce yourself, stating your interests and the skills you would like to offer to the community.
  devworkgroup: Development Workgroup
  devworkgroup_descr: "This workgroup unites Monero developers working on the wallets and daemon maintained by the Core Team. It consists of two main parts: the CLI team and the GUI team. These teams coordinate using two different chatrooms."
  devworkgroup_start: It's a good idea to take a look at open issues on both repositories to have an idea of what could be fixed or improved. Both codebases, but especially the core repository, can be quite challenging, so it's suggested to first write in the chatroom introducing yourself, your skills, and to what you wish to contribute.
  chatgeneral: "Chat (general):"
  chatgui: "Chat (GUI):"
  webworkgroup: Website Workgroup
  web_descr: This dev-focused workgroup coordinates the development of the website. Most members are also part of the Development Workgroup. The Website Workgroup was mostly created to have discussions related to the website all in one place.
  web_start: It's always a good idea to join the chatroom and talk directly with the members of the workgroup, but if you prefer to get started by yourself, take a look at the readme in the GitHub repository. It contains step by step instructions to edit every single part of this website.
  localization: Localization Workgroup
  localization_descr: One of the oldest Monero Workgroups, it's formed by contributors working on translating Monero-related software and documentation. It's strongly suggested to contact the workgroup before working on translations.
  localization_start: Contact the workgroup on the chatroom or open an issue on the GitHub repository. You can also start translating immediately using the Weblate platform. Just make sure to read the guide for translators first.
  locplatform: "Localization platform:"
  telegram: "Telegram chat:"
  mrl_descr: As the name suggests, the Monero Research Lab is the workgroup focused on Monero-related research. It's formed by scientists finding ways to improve Monero's protocol and features. Most of the protocol improvements that make Monero amazing, like CLSAG and @Bulletproofs, are the result of the efforts of this workgroup.
  mrl_start: Join the chatroom below and state your interests and your skills. Research is always ongoing, and somebody will point you in the right direction.
  space: Monero Space
  space_descr: 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.
  space_start: The workgroup can be contacted by writing to their chatroom on Matrix/Libera.
  mrw: Malware Response Workgroup
  mrw_descr: The Malware Response Workgroup provides resources and live support for multiple types of Monero-related malware.
  mrw_start: Most of the activity of this workgroup happens on the IRC chat. If you wish to contribute, just join the channel to ask questions or provide support.
  mpwg: Monero Policy Working Group
  mpwg_descr: Monero Policy Working Group is a loosely formed quorum of individuals with an interest in interacting with regulators, policy makers, and the wider financial services sector to ensure broad understanding of Monero’s component technologies, especially with regards to its compatibility with evolving regulatory and compliance requirements.
  mpwg_start: If you would like to take part or follow policy discussions, join Matrix/Libera chatroom.
  nwlb_descr: The Seraphis wallet workgroup is a group of developers working on implementing Seraphis and Jamtis in Monero, through developing a completely new type of wallet that will improve drastically Monero's privacy capabilities and usability.
  nwlb_start: The workgroup meets frequently and coordinates in the Matrix room (relayed to IRC). They are always looking for contributors willing to help.

downloads:
  intro: On this page you can find and download the latest version available of the Monero software, as well as hardware, light and mobile wallets.
  choose: Choose your download
  gui: Monero GUI Wallet
  cli: Monero CLI Wallet
  blockchain: Import Blockchain
  blockchain1: If you'd prefer to use a raw blockchain instead of syncing from scratch, you can use the most current bootstrap. It is typically much faster to sync from scratch, however, and it also takes a lot less RAM.
  blockchain2: If you wish to proceed anyway, take a look at the user guide
  blockchain3: Importing the Monero blockchain
  blockchain4: for step-by-step instructions for Windows.
  blockchainbutton: Download Blockchain
  mobilelight0: Mobile & Light
  mobilelight: Mobile & Light Wallets
  hardware: Hardware Wallets
  gui_intro: An open-source graphical user interface (GUI) wallet developed by the Monero community, completely free to use, suitable for both beginners and advanced users.
  simplemode: Simple mode
  simplemode1: Created for less technical users who only want to use Monero in the easiest and quickest way possible. Open the wallet, automatically connect to a @remote-node, send/receive XMR, done!
  advancedmode: Advanced mode
  advancedmode1: With all the advanced features you could need. Ideal for seasoned Monero users who prefer to have full control of their wallet and node
  merchantpage: Merchant page
  merchantpage1: Receive XMR for your business, easily
  hwcompatible: Compatible with hardware wallets
  hwcompatible1: such Trezor and Ledger
  fiatconv: in-app fiat conversion
  fiatconv1: No longer a need to check the value of your XMR online
  pruning: Blockchain pruning
  pruning1: Not enough disk space? Just use @pruning to download only 1/3 of the blockchain
  langs: "<b>30+ languages</b> available"
  cli_intro0: An open-source command line interface (CLI) wallet developed by the Monero community, completely free to use, best suited for developers, intermediate, and advanced users.
  cli_intro: The CLI wallet gives you the total control over your Monero node and funds. Highly customizable and includes various analysis tools, as well as an HTTP RPC and 0MQ interface.
  currentversion: Current Version
  sourcecode: Source Code
  helpsupport: Help and Support
  helpsupport1: "A guide with an explanation of every section of the wallet is available:"
  helpsupport2: "See latest release"
  gui_helpsupport: "If you are experiencing issues or you need more info, feel free to reach out to the community. You can find the GUI team at #monero-gui, or else check out the Hangouts page for a more complete list of contacts and chatrooms"
  cli_helpsupport: "If you are experiencing issues or you need more info, feel free to reach out to the community. You can find the CLI team at #monero or #monero-dev, or else check out the Hangouts page for a more complete list of contacts and chatrooms"
  localremote: Local or remote node
  localremote1: Use your own copy of the blockchain or a publicly available one
  transacttor: Transactions over Tor/I2P
  transacttor1: For an additional layer of privacy
  bootstrapnode: Bootstrap node
  bootstrapnode1: Use a @remote-node while downloading the blockchain locally, this will allow you to use Monero immediately and switch to your local node once it's completely synced
  rpc: RPC Wallet and Daemon
  rpc1: included in the archive
  verify: Verify
  verify1: You are strongly advised to verify the hashes of the archive you downloaded. This will confirm that the files you downloaded perfectly match the files uploaded by the Monero development workgroup. Please don't underestimate this step, a corrupted archive could result in lost funds.
  verify2: Always verify your downloads!
  showhash: Show hashes to verify your download
  showhash1: These SHA256 hashes are listed for convenience, but a GPG-signed list of the hashes is at
  showhash2: and should be treated as canonical, with the signature checked against the appropriate GPG key
  showhash3: in the source code
  showhash4: "Two guides are available to guide you through the verification process:"
  mobilelight1: The wallets listed below are non-custodial mobile or light wallets not managed by the Monero core team that have been around for some time. It is strongly recommended that you do your own research to find out if the wallets are safe and what are the risks of using them. Go to our
  mobilelight2: Hangouts
  mobilelight3:  page to see where the Monero communities meet.
  installer: Installer
  avwarning: Be aware that some antiviruses and firewalls may flag the Monero executables and archives as malware.
  moreinfofaq: More info in the FAQ
  packages: There are also packages available for multiple Linux distributions.
  packages_link: See the list on GitHub
  releasenotes: release notes
  wallet: Wallet
  mobile: Mobile
  desktop: Desktop
  antivirus: Antivirus
  sourcearchive: Source Code (archive)
  localsync: Local synchronization
  localsyncinfo: These wallets connect to @remote-nodes and scan the @blockchain on your device, without sharing any key with the nodes. They provide higher privacy, but require more time synchronizing, since missing @blocks will be scanned only when the wallet is opened.
  remotesync: Remote synchronization (lightweight)
  remotesyncinfo: These wallets share your private @view-key with a remote server, which continuously scans the blockchain looking for your transactions. They are faster to use, but your privacy can be lessened if you don't control the remote server.
  hwdesc: "Hardware wallets are cryptographically secure devices that help keep your coins safe. Monero is currently supported by Ledger Nano (S, S Plus, and X) and Trezor (Model T, Safe 3)"
  hwth: Hardware Wallet
  instructions: Usage instructions
  hwthmodel: Model(s)
  hwthsupported: Wallets
  hwthfirm: Min. firmware version
  hwnanos: "Nano S: 2.1.0"
  hwnanosplus: "Nano S Plus: 1.0.3"
  hwnanox: "Nano X: 2.0.2"
  hwtrezor: "2.5.2"
  hwmobmodels: "Models that support Monero:"

press-kit:
  intro: On this page you'll find press contacts, symbols and logos.
  intro2: Note that the white background options have a white background under the Monero symbol only, not as a background to the whole image.
  intro3: Lastly, you can download everything on this page in one zip file by clicking
  intro4: here.
  noback: Transparent M
  whiteback: White M (Suggested)
  symbol: Monero Symbol
  logo: Monero Logo
  small: Small
  medium: Medium
  large: Large
  symbol_file: Symbol .ai file
  logo_file: Logo .ai file
  pressdoc: Press Documentation
  quickfacts: "Quick-Facts Sheet"
  quickfactsp: >
    A quick and easy to read document to know everything about Monero: history, key differentiating factors, technical fundamentals, and features in development.    
  marketing: Marketing Material
  dontbuysticker: "The 'Don't buy Monero' sticker"
  dontbuystickerp: Spread Monero everywhere with the help of this sticker. Available in multiple languages and formats (vectors included).
  guerrillakit: Guerrilla Toolkit
  guerrillakitp: A document created by the Monero Outreach workgroup containing materials and tips for an effective guerrilla marketing campaign.
  promographics: "Monero Promotional graphics - Badges and stickers for websites"
  promographicsp: Various graphics and Badges created by TheMonera, for both merchants and simple enthusiasts.
  xmrgraphics: Monero Graphics
  xmrgraphicsp: Monero posters, illustrations, edits, wallpapers, stickers that can be used by everyone. 
  othersymbols: Other symbols and logos
  mrllogo_para: The logo of the Monero Research Lab in SVG format.
  contacts: Contacts
  contactsp: There are multiple ways to contact the community. Depending by what information you are looking for, you might want to contact a workgroup, single members of the community, or the Core Team.
  contactgen: "For press inquiries:"
  contactwg: "To contact a specific Monero workgroup:"
  contactcomm: "To contact the many subcommunities:"
  whymonero: Why Monero?
  whycommunity: Monero has one of the largest communities of any open-source project. Monero researches, audits, and implements critical security and privacy technologies, which are used by millions worldwide.
  whycommunity1: Monero is trusted for more private transactions than all other cryptocurrencies combined.
  whyconf: The Monero community has substantial involvement at Defcon, Grayhat and the CCC (Chaos Computer Club). The Monero Konferenco, an academic conference, is hosted annually.
  whyconf1: We encourage everyone to include community members from the largest privacy project in related news articles and events.
  altpk-1: Picture of a woman standing in front of a Monero Talk banner
  altpk-2: Picture of fluffypony making a presentation in front of a crowd at DEFCON
  johnr365timeline: Monero Timeline
  johnr365timelinep: A timeline of key developments in the Monero history
  
accepting:
  title_gui: Instructions for the GUI
  index: Index
  gui1: "Accepting a payment with the GUI is very easy. Doesn't matter if you are a merchant or an user, you will have two pages available: Receive and Merchants."
  gui2: The receive page (shown below) is explained in every detail
  guilinkguide: in the guide of the GUI.
  guiinstructions: >
    To receive XMR you only need to provide the payer with an @address where they can send funds to. Most of the time it's easier to just share a QR code and let the payer scan it, instead of copy-pasting the alphanumeric string.
    With the GUI every generated address come with its QR code. Make the person scan the QR code with the Monero @wallet on their phone and receive your XMR in minutes.
    Remember you can generate as many addresses (subaddresses) as you want. This is useful if you want to keep funds separated for any reason.    
  guimerchant: Merchants will probably find more convenient to use the 'Merchant' page (screenshot below), which is explained in detail in the 'Merchant view' section of
  guilinkguide1: the guide linked above
  guimerchant1: >
    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.    
  guisteps: "These two pages give everybody the possibility to easily receive XMR following these steps:"
  guiol: "Go to the 'Receive' page and create/select the address where you want to receive your coins."
  guiol1: Share the address composed by letters and numbers to the person you want to receive coins from. You probably prefer to use the more user friendly QR code.
  guiol2: "If you want to specify the amount to receive, go to the 'Merchant' page (after you selected in the 'Receive' page the @account that will be used to receive XMR)."
  guiol3: "Insert the amount to receive, then share with the payer the payment URL or the QR code. If you want to track the payment in real time, tick the 'enable sales tracker' option."
  guiol4: Wait until the payment has arrived and has enough confirmations (The more confirmations, the safer the transaction is. You need at least 10 confirmations before you can spend the funds.).
  cliinstructions: Instructions for the CLI
  clicreatewallet: >
    When you create your wallet for the first time, an @address will be automatically shown to you. That's your primary address.
    If you want, you can simply use that address to receive payments. You should be concerned about who knows about this address (since one address in different locations can be associated),
    but you do not need to worry about blockchain observers watching transactions to this address like with Bitcoin. A friend can send transactions to the same address without reduced privacy.    
  cliaccounts: >
    You can have much more control if you want to. Monero gives the possibility to create multiple accounts, each containing multiple subaddresses,
    useful if you want to control multiple accounts. For example, you may want to have an @account for receiving donations and another one for your daily use.
    That will allow you to easily monitor incoming funds to your 'donations' account, without mixing it with your primary account.    
  clicreateaccount: "To create an account, simply run this command:"
  clicreateaccount1: Now you have another account separated from your primary one. You can switch anytime between accounts.
  cliindex: >
    As you can see from the picture above, every account has an index number that you can use to switch from one account to the other using the command
    `account switch [index]`. For example, using the picture above as reference, if you would like to switch to the 'Donations' account to monitor it,
    you can do so by giving your CLI this command `account switch 1`. Now you are sitting on your 'Donations' account and you can start using it right away.    
  cliindex1: >
    Every account can host a virtually infinite amount of subaddresses. These work exactly like a normal address and you can create as many
    as you want and use them to receive XMR to the account they are linked to. To create a new subaddress for an account, use the command:    
  clinotes: >
    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.    
  merchantstitle: Instructions for merchants
  merchantsreceive: If you are a business and you wish to programmatically receive @transactions or use advanced features like multisignature, it's suggested to consult the
  merchdevguides: developer guides
  merchantsreceive1: "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."
  merchantsint: "If you prefer to not directly deal with the wallets, you can use a third party payment system. Members of the Monero community have created a set of integrations for various platforms and languages. You can find more info on"
  merchantsintlink: the GitHub organization
  merchantsthirdp: If you are looking for other third party integration system, there is a list of payment gateways on
  merchthirdlink: the tools page
  merchantsthirdp1: 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.

contributing:
  intro: Monero is an open-source, community-driven project. Described below are several ways to support the project.
  network: Support the Network
  develop: Develop
  developp: "Monero is open source and permissionless; contributors are welcome and encouraged. A developer may contribute in numerous way to different projects:"
  cli: "CLI wallet and Daemon: "
  cli_p: The core wallet, mostly written in C++.
  gui: "GUI Wallet: "
  gui_p: Mostly QML and C++.
  website: "This website: "
  website_p: Built with Jekyll. No Javascript.
  bug: "Bug and vulnerability hunting: Monero is listed on Hackerone and developers are asked to responsibly disclose bugs and vulnerabilities. See"
  discl: The Monero Project Vulnerability Response Process.
  develop_descr: >
    This list only includes the tools stewarded by the core team, but the Monero ecosystem is much more vast. People can contribute to the development of libraries, services, documentation, graphics, etc. The list is virtually infinite. Contact or join the workgroup(s) to which you'd like to contribute.    
  develop_wg: See the Monero Workgroups.
  full-node: Run a Node
  full-node_p: An easy and effective way to help the Monero network is to run a @node. Nodes ensure the network keeps running safe and decentralized. A simple fully synchronized node is enough to help the network, but if you want to go out of your way, you could run an open @remote-node, to allow other people to connect to it.
  full-node_p2: "We have several guides to help you run and configure your node:"
  allguides: See all User Guides.
  mine: Mine
  mine_p: >
    Mining ensures the safety of the network. Monero uses @randomx, an ASIC-resistant algorithm developed by Monero contributors, which aims to remain mineable by common consumer-grade hardware. For more info about mining see the    
  mine_link: dedicated Mining page.
  ffs: Community Crowdfunding System
  ccs_p: Monero utilizes a community crowdfunding system whereby projects are proposed for development and community-funded. Funding is held in escrow and remunerated to developers once programming milestones are achieved. Anyone may generate new proposals or fund existing ones.
  ccsbutton: Go to the CCS
  donate: Donate
  donate_p: Donations to the general fund are used in case of emergencies or need. Infrastructure costs are currently covered by sponsors.
  genfund: General Fund
  genfund_p: "You can donate both Monero and Bitcoin:"
  donate-other: Other
  donate-other_para1: E-mail
  donate-other_para2: for alternative means of donating or if you would like to become a sponsor for the Monero Project.
  supportdev: Support the developers
  supportdev_p: The developers working on Monero are mostly indepentent volunteers, but some of them may be funded through CCS proposals. If you wish to support their efforts by donating some XMRs, consider contacting them personally or using tipping services.
  supportdev_p2: You can find an overview of the people who directly contribute, or have contributed, to the Monero repositories (along with other useful statistics) on
  supportdev_link: Monero's OpenHub page
  sponsor: Sponsorships
  sponsor_p: You can also support Monero through a sponsorship program. See the dedicated 
  sponsor_link: Sponsorships page
  sponsor_p2: for more info.
  altqrmonero: Monero QR code
  altqrbitcoin: Bitcoin QR code

faq:
  basics: Basics
  privacy: Privacy
  security: Security
  economics: Economics
  wallets: Wallets
  node: Node
  intro: Find answers to recurring questions and concerns about Monero.
  toc: Table Of Contents
  additional: "More Info:"
  resandhelp: Resources & Help
  stackexchange: One of the most complete resources about Monero. If you have a question which is not in this FAQ, you will likely find the answer on the Monero StackExchange.
  userguides: A collection of documents to help users interact with the Monero network and its components.
  devguides: Guides and resources for developers.
  monerosupport: The subreddit dedicated to help monero users. Basically community members helping each others. Use the search option.
  monerohow: "Old and known resources with a good number of guides and howto's"
  qword: "What's the meaning of [technical word]?"
  aword: "The terminology used in Monero can be quite complex, for this reason we have the"
  aword1: "A comprehensive list of terms that you often see and their explanation. If you don't know what a word means or you would like to have more info about it, just visit the Moneropedia. Some example of often searched terms are: @node, @fungibility, @view-key, @pruning."
  qcontribute: How can I contribute?
  acontribute: "Monero is an open source community project. Meaning that there is no company who runs it and there is no CEO who hires people. Everything is built by volunteers or community-funded contributors who dedicate their time to the project. There are many ways to contribute:"
  acontribute1: Translations. It's easy and anybody speaking a language beside English can help. Translations happen mostly on
  acontribute2: "Contact a Workgroup. Almost everything in Monero is managed by workgroups, which are groups of contributors (often lead by a coordinator) working on some specific aspect of the development. Some examples are: the localization workgroup (translations), the community workgroup, the GUI workgroup, the Outreach workgroup and so on. Workgroups are mostly independent and have their own structure. Contact the workgroup that interests you and ask how you can help. For a list of contacts see the"
  acontribute3: Do what you can do best. Are you a designer? Create Monero related images and spread them around. Are you a writer? Write about Monero. The only limit is your imagination. Find what you like to do and do it for Monero!
  acontribute4: "The Outreach workgroup wrote a useful article to help newcomers:"
  q1: How does Monero have value?
  a1: 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.
  q2: How can I get Monero?
  a2: You can buy Monero from an exchange or from an individual. Exchanges are the most common way to buy Monero; there are compliant exchanges in most jurisdictions. Some wallets include functionality to easily buy Monero with fiat or other cryptocurrencies. Alternatively, you can try mining Monero to get coins from the @block reward.
  a2exchanges: "In past, you needed Bitcoin to buy Monero, but that's not the case anymore. You can directly trade Monero for national currencies (USD, EUR, GBP, etc) or other cryptocurrencies on many exchanges. Some require KYC (proof of identification); others do not, like decentralized exchanges. On this website is available a list of exchanges where it's possible to buy/sell Monero (XMR):"
  q3: Why is the Mnemonic Seed important?
  a3: A @mnemonic-seed is a set of 25 words that can be used to restore your account anywhere. Keep these words safe and do not share them with someone else. You can use this seed to restore your account, even if your computer crashes.
  q4: How is Monero’s privacy different from other coins?
  a4: "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."
  q5: Why is my wallet taking so long to sync?
  a5: If you are running a full @node locally, you need to copy the entire @blockchain to your computer. This can take a long time, especially on an old hard drive or slow internet connection. If you are using a @remote-node, your computer still needs to request a copy of all the outputs, which can take several hours. Be patient, and if you would like to sacrifice some privacy for faster sync times, consider using a remote node or lightweight @wallet instead.
  q6: What is the difference between a lightweight and a normal wallet?
  a6: For a lightweight wallet, you give your view key to a node, who scans the blockchain and looks for incoming transactions to your account on your behalf. This node will know when you receive money, but it will not know how much you receive, who you received it from, or who you are sending money to. Depending on your wallet software, you may be able to use a node you control to avoid privacy leaks. For more privacy, use a normal wallet, which can be used with your own node.
  q7: How is Monero different from Bitcoin?
  a7: 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.
  q8: Does Monero have a block size limit?
  a8: No, Monero does not have a hard @block size limit. Instead, the block size can increase or decrease over time based on demand. It is capped at a certain growth rate to prevent outrageous growth (@scalability).
  q11: What is fungibility, and why is it important?
  a11: "@Fungibility is a simple property of money such that there are no differences between two amounts of the same value. If two people exchanged a 10 and two 5’s, then no one would lose out. However, let’s suppose that everyone knows the 10 was previously used in a ransomware attack. Is the other person still going to make the trade? Probably not, even if the person with the 10 has no connection with the ransomware. This is a problem, since the receiver of money needs to constantly check the money they are receiving to not end up with tainted coins. Monero is fungible, which means people do not need to go through this effort."
  q12: If Monero is so private how do we know they're not being created out of thin air?
  a12-1: In Monero, every @transaction output is uniquely associated with a key image that can only be generated by the holder of that output. Key images that are used more than once are rejected by the miners as double-spends and cannot be added to a valid @block. When a new transaction is received, miners verify that the key image does not already exist for a previous transaction to ensure it's not a double-spend.
  a12-2: We can also know that transaction amounts are valid even though the value of the inputs that you are spending and the value of the outputs you are sending are encrypted (these are hidden to everyone except the recipient). Because the amounts are encrypted using @Pedersen-commitments what this means is that no observers can tell the amounts of the inputs and outputs, but they can do math on the Pedersen commitments to determine that no Monero was created out of thin air.
  a12-3: As long as the encrypted output amounts you create is equal to the sum of the inputs that are being spent (which include an output for the recipient and a change output back to yourself and the unencrypted transaction fee), then you have a legitimate transaction and know no Monero is being created out of thin air. Pedersen commitments mean that the sums can be verified as being equal, but the Monero value of each of the sums and the Monero value of the inputs and outputs individually are undeterminable.
  q13: Is Monero magic and protects my privacy no matter what I do?
  a13: Monero is not magic. If you use Monero but give your name and address to another party, the other party will not magically forget your name and address. If you give out your secret keys, others will know what you've done. If you get compromised, others will be able to keylog you. If you use a weak password, others will be able to brute force your keys file. If you backup your seed in the cloud, you'll be poorer soon.
  q14: Is Monero 100% anonymous?
  a14: There is no such thing as 100% anonymous. If nothing else, your anonymity set is the set of people using Monero. Some people don't use Monero. Monero may also have bugs. Even if not, ways may exist to infer some information through Monero's privacy layers, either now or later. Attacks only get better. If you wear a seatbelt, you can still die in a car crash. Use common sense, prudence and defense in depth.
  q15: Is Monero a mixer or mixing service?
  a15: 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.
  qwallet: What wallet should I use?
  awallet: There are multiple wallets available for a vast number of platforms. On this website you'll find the wallets released by the Core Team (GUI and CLI) and a list of widely trusted and open source third party wallets for desktop and mobile.
  qnofunds: I can't see my funds. Did I just lose all my Monero?
  anofunds: "You probably didn't. It's very hard to simply 'lose' your coins, since they are technically nowhere. Your coins 'live' on the blockchain and are linked to your account through a system of public and private keys secured by cryptography. That's why if you don't see your funds, it's probably because of a technical issue. Take a look at the 'Resources & Help' section at the top of this page for a list of useful resources that will help you identify and fix your problem."
  qnodetor: How can I connect my node via Tor?
  anodetor: Support for Tor is still in its infancies, but it's already possible to natively send transactions through the network and to run a Monero @daemon on the Tor network. Better Tor and I2P integrations are in progress.
  qfullpruned: How do I decide if I should run a full node or a pruned node?
  afullpruned: "A full @node requires a considerable amount of storage and could take a long time to download and verify the entire blockchain, especially on older hardware. If you have limited storage, a pruned node is recommended. It only stores 1/8th of unnecessary blockchain data while keeping the full transaction history. If plenty of storage is available, a full node is recommended but a pruned node still greatly contributes to the network and improves your privacy."
  qblocksize: How big is the Monero blockchain?
  ablocksize: "The Monero @blockchain is always growing so there is no fixed size. As of 2022, the full blockchain is around 140-150GB. A pruned blockchain is about 50GB. Check out Moneropedia entry @pruning to learn the difference between a full and a pruned blockchain."
  qblockspace: Why does the blockchain need so much space?
  ablockspace: "When you download the @blockchain, you are downloading the entire history of the @transactions that happened in the Monero network since it was created. The transactions and the related data are heavy and the entire history must be kept by every node to ensure it's the same for everybody. @Pruning a blockchain allows to run a node which keeps only 1/8 of not strictly necessary blockchain data. This results in a blockchain 2/3 smaller than a full one. Convenient for people with limited disk space. Check out the Moneropedia entries @node and @remote-node for more details."
  qavoidbc: Can I avoid downloading the entire blockchain?
  aavoidbc: "Yes. You don't need to download the @blockchain to transact on the network. You can connect to a @remote-node, which stores the blockchain for you. All the most common @wallets (including GUI and CLI) allow to use remote nodes to transact on the network. There are multiple ways to take advantage of this functionality. For example GUI and CLI offer a 'bootstrap node' feature, which allow people to download their own blockchain while using a remote node to immediately use the network. Ways to improve the usability of the Monero network are constantly being explored."
  qscanned: Why my wallet needs to be scanned everytime I open it?
  ascanned: Because new @transactions have been recorded on the @blockchain from the last time you opened your wallet, which needs to scan all of them to make sure non of those transaction is yours. This process is not necessary in a mymonero-style (openmonero) wallet, a central server (which could be managed by you) does this work for you.
  qdangernode: Is it dangerous to run a personal node?
  adangernode: "Running a personal @node is the safest way to interact with the Monero network, because you are in full control and you don't need to rely on third parties. From a general point of view running a node is not dangerous, but keep in mind that your ISP can see you are running a Monero node."
  qdangerrnode: Is it dangerous to use a remote node? What's the data a node operator can get from me?
  adangerrnode: "It's always advisable, especially for privacy-conscious users, to use a personal node when transacting on the network to achieve the highest rate of privacy. Some people for convenience prefer to use @remote-node which are not under their control (public nodes). The convenience of not having to deal with a personal copy of the @blockchain comes at a cost: lessened privacy. A remote node operator is able to see from what IP address a transaction comes from (even if cannot see the recipient nor the amount) and in some extreme cases, can make attacks able to reduce your privacy. Some dangers can be mitigated by using remote nodes on the Tor or I2P networks or using a VPN."
  qantivirus: Why is my antivirus/firewall flagging the Monero software i just downloaded as malware?
  aantivirus: After you have downloaded the Monero software (GUI and CLI alike), your antivirus or firewall may flag the executables as malware. Some antiviruses only warn you about the possible menace, others go as far as silently removing your downloaded @wallet / @daemon. This likely happens because of the integrated miner, which is used for mining and for @block verification. Some antiviruses may erroneously consider the miner as dangerous software and act to remove it.
  aantivirus1: The problem is being discussed and solutions are being elaborated. In the meantime, if you get a warning from your antivirus, make sure the software you downloaded is legitimate (see the guides linked below), then add an exception for it in your antivirus, so that it won't get removed or blocked. If you need assistance, feel free to contact the community.
  qmoneromeaning: "Why is Monero called 'Monero'?"
  amoneromeaning: "Monero is an Esperanto word which means 'coin'. Initially Monero was called 'Bitmonero', which translates to 'Bitcoin' in Esperanto. After the community decided to fork from the original maintainer, 'bit' was dropped in favour of simply 'Monero'."
  qimporting: Can I manually import the blockchain?
  aimporting: >
    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".    
  qhf: Is it true that Monero has a hard fork every 6 months?
  ahf: Monero used to have 2 network upgrades (hard forks) a year, but this is not the case anymore. The choice of the biannual hard forks was taken in order to be able to introduce important consensus changes, which added privacy features and network-wide improvements (For example @bulletproofs and CLSAG both required a hard fork) and avoid the ossification of the protocol. Recently, the biannual hard forks included changes to the PoW algorithm, to preserve ASIC-resistance.
  ahf1: The dev community and the Core Team agree that the protocol is stable and mature enough and biannual hard forks are not necessary anymore. Furthermore, the ecosystem around Monero has grown exponentially during the years and frequent protocol changes would be increasingly hard to coordinate, could be detrimental to the growth of the ecosystem and to the user experience. Cherry on the top, the new algorithm @RandomX is ensuring long term ASIC-resistance, so regular changes are not needed anymore. Network upgrades will still be used to add important protocol improvements and consensus changes, but at a lower and less strict frequency (every 9-12 months). The last hard fork was on August 13th 2022.
  qvideos: Are there videos I can watch to learn about Monero?
  avideos: >
    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:    
  video_intro: Introduction to Monero
  video_essentials: The Essentials
  video_sa: Stealth Addresses
  video_ringsig: Ring Signatures
  video_ringct: Ring Confidential Transactions
  mvideos: "More info on the Moneropedia entry:"
  aavailable: also available in
  and: and
  qlongtimemove: I haven't touched my Monero in a long time, did I lose my coins as a consequence of a hard fork (network upgrade)?
  alongtimemove: Don't worry, your coins are safe. To be able to spend them you only have to download and run the latest Monero software. You can use the @mnemonic-seed you previously saved to restore your wallet at any time. Note that hard forks in Monero are scheduled and non-contentious. Which means no new coin is created.
  qvuln: Are there known vulnerabilities in Monero?
  avuln: >
    The Monero community has created a series of videos called "Breaking Monero", where potential Monero vulnerabilities are explored and discussed. There are 14 videos, with each exploring a different subject. Check out <a href="https://www.youtube.com/playlist?list=PLsSYUeVwrHBnAUre2G_LYDsdo-tD0ov-y">the playlist on YouTube</a>.    
  vulnspotify: Available on Spotify as podcast
  qasicresistance: "What is ASIC resistance? Why is it important?"
  aasicresistance: ASICs are basically special computers created to do only one job, contrary to normal computers, which are made for general purpose. This characteristic makes ASICs very efficient for @mining.
  aasicresistance1: The problem is that these devices are very expensive and can be afforded by few. This leads to few entities owning a big amount of the hashrate of the network, which is a serious threat to the security of the network itself. For example, if big ASIC operators collude and manage to gain the majority of the hashrate of the network, they could arbitrarily reject transactions.
  aasicresistance2: >
    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).    
  qmaxsupply: What is Monero's maximum supply?
  amaxsupply: Monero has a fixed emission rate, not a set maximum supply. Around May 2022, Monero's emission will drop to and permanently remain at 0.3 XMR per minute (0.6 XMR per @block). This is approximately 1% inflation for the first year and will approach 0% inflation in future years. This @tail-emission allows for permanent incentives to secure Monero, even in the far future, while keeping inflation at a very low percent.
  qtailemission: Why does Monero not have a maximum supply?
  atailemission: Miners process transactions on the Monero network by @mining blocks. The miner of a @block is paid the constant block reward of .6 XMR, and the @transaction fees of the users who have transactions in that block. Monero has the block reward rather than relying solely on the transaction fees to give the miners incentive to keep securing the network with their hashrate, and keep transaction fees low. 
  atailemission1: The @tail-emission caused by this constant block reward creates an inflation rate of less than 1% which trends towards 0% over time. The fixed emission of the currency ensures human corruption cannot over inflate the supply. Keeping the network predictable, decentralized, and secure.
mining:
  intro1: Monero is a cryptocurrency that relies on proof-of-work mining to achieve distributed consensus. Below you'll find some information and resources on how to begin mining.
  intro2: The Monero Project does not endorse any particular pool, software, or hardware, and the content below is provided for informational purposes only.
  pow: Proof of Work
  philosophy: >
    One of Monero's philosophies is to maintain egalitarian mining, so that everyone can have the possibility to mine. To achieve this, Monero uses a particular algorithm ideated and developed by members of the Monero community: @RandomX. This PoW algorithm is ASIC resistant, which means it's impossible to build specialized hardware to mine Monero. Miners must use consumer-grade hardware and compete fairly.    
  efficiency: Monero can be mined by both CPUs and GPUs, but the former is much more efficient.
  miningset: Solo or pool mining
  miningsetp: >
    Miners can decide if they prefer to solo mine or to mine in a pool. Each method has its benefits and drawbacks, but the Monero Project encourages individuals to solo mine using the Monero software (<a href="https://www.getmonero.org/downloads/#gui">GUI</a> and <a href="https://www.getmonero.org/downloads/#cli">CLI</a>), as this type of independent mining is the most effective way to increase the robustness of the Monero network. Mining using P2Pool is also encouraged.    
  procons: "Pro and cons of solo and pool mining:"
  solo: Solo
  prosecure: Makes the network more secure than if mining in a pool
  prowallet: You can mine using your Monero wallet. No need for additional software
  conlong: "Depending on your hashrate, it might take months before you find a block. This is often referred to as a 'lottery'"
  pool: Pool
  propay: Frequent payouts. You will receive XMR according to how much you are participating in the pool of your choice.
  conopfee: You have to pay a fee to the pool operator
  conminfee: You can only use third party software to pool mine, which might take a small percentage of your shares
  conpolcent: Too many people mining on a single pool might lead on the pool having >50% of the total hashrate, which is dangerous
  choosepol: "If you need help choosing a pool or you just want more information about them, use:"
  hardware: Hardware
  hardwarep: Monero can be mined on both CPUs and GPUs, but the latter is much less efficient than the former. You can get an idea of how your hardware performs compared to others, using <a href="https://xmrig.com/benchmark">xmrig benchmarks page</a> (some results might be out of date).
  software: Software
  softwarep: >
    There are several options when it comes to mining software. As already said, to solo mine, the CLI or GUI wallets can be used (CPU only). If you want to mine to a pool or mine with a GPU, you'll need dedicated software. Miners supporting Monero:    
  software_para: Note that some miners may have developer fees.
  support: Support
  supportp: If you have questions or just want to confront with fellow miners, come chat on Monero Pools. On <a href="https://matrix.to/#/%23monero-pools:monero.social">Matrix</a> and <a href="irc://irc.libera.chat/#monero-pools">Libera</a>.
  p2poolh: "P2Pool: The best of both solo and pool mining"
  p2poolnew: >
    P2Pool is a clever new way of mining Monero, which allows miners to receive the frequent payouts offered by pools without needing to trust a centralized pool. P2Pool is a Peer-To-Peer mining pool that gives miners full control over their Monero node and what it mines. More details in <a href="/2021/10/05/p2pool-released.html">the announcement post</a>.    
  p2poolp: >
    P2Pool is a sidechain to Monero, and P2Pool blocks are potentially Monero blocks. Each miner submits block templates that include payouts to all of the miners that are mining at the same time (those that currently have shares in the PPLNS window). High quality block templates are added to the P2Pool blockchain as blocks; these count as "shares" for the miner who found them.    
  p2poolfeatures: Main features
  p2pdecentralized: <b>Decentralized:</b> no central server that can be shutdown/blocked/malicious.
  p2ppermissionless: <b>Permissionless:</b> anyone can join the sidechain, and it's effectively impossible to censor individual miners.
  p2ptrustless: <b>Trustless:</b> there is no pool wallet; funds are never in custody. All pool blocks pay out to miners immediately.
  p2pplns: <b>PPLNS</b> payout scheme
  p2pzerofee: 0% fee
  p2pzeropayout: <b>0 XMR</b> payout fee
  p2pminpayout: Less than 0.0004 XMR minimum payout
  p2pmoreinfo: "More information and details on the GitHub repository of the project:"

what-is-monero:
  need-to-know: What you need to know
  leading: Monero is the leading cryptocurrency focused on private and censorship-resistant transactions.
  leading_para1: The majority of existing @cryptocurrencies, including Bitcoin and Ethereum, have transparent @blockchains. Transactions can be verified and/or traced by anyone in the world. This means that the sending and receiving @addresses of these @transactions could potentially be linked to real-world identities.
  leading_para2: Monero, on the other hand, uses various technologies to ensure the privacy of its users. 
  confidential: Monero transactions are confidential and untraceable.
  confidential_para1: "Unlike selectively transparent alternatives (e.g. Zcash), Monero is the only major cryptocurrency where every user is anonymous by default. The sender, receiver, and amount of every single transaction are hidden through the use of three important technologies: @Stealth-Addresses, @Ring-Signatures, and @RingCT."
  confidential_para2: Because every transaction is private, Monero cannot be traced. This makes it a true, @fungible currency. Merchants and individuals accepting Monero do not need to worry about blacklisted or tainted coins.
  grassroots: Monero is a grassroots community attracting the world's best cryptocurrency researchers and engineering talent.
  grassroots_p1: The Monero Project is at the forefront of cryptocurrency privacy and security. Its 
  grassroots_p2: Research Lab
  grassroots_p3: and Development Team are constantly working on new, innovative technologies. Since its launch, the project has received contributions from over
  grassroots_p4: 500 developers
  grassroots_p5: located all around the world.
  grassroots_p6: Numerous 
  grassroots_p7: forums and chat channels
  grassroots_p8: are available for anyone to join, and the community is always welcoming new members.
  electronic: Monero is electronic cash that allows fast, inexpensive payments to and from anywhere in the world.
  electronic_para1: With Monero, there are no wire transfer or check clearing fees, no multi-day holding periods, and no fraudulent chargebacks. Because Monero is decentralized, it is not constrained by any particular legal jurisdiction and provides safety from capital control. 
  videos: Monero Videos (English)
  aboutb: About
  walletb: Get a Wallet
  getb: Get Monero
  joinb: Join a workgroup

about:
  history: A Brief History
  history_para1: 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
  history_para2: here.
  history_para3: The founder, thankful_for_today, proposed some controversial changes that the community disagreed with. A fallout ensued, and the Monero Core Team forked the project with the community following this new Core Team. This Core Team has provided oversight since.
  history_para4: 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.
  values: Our Values
  values_para: Monero is more than just a technology. It’s also what the technology stands for. Some of the important guiding philosophies are listed below.
  security: Security
  security_para: Users must be able to trust Monero with their transactions, without risk of error or attack. Monero gives the full block reward to the miners, who are the most critical members of the network who provide this security. Transactions are cryptographically secure using the latest and most resilient encryption tools available.
  privacy: Privacy
  privacy_para: Monero takes privacy seriously. Monero needs to be able to protect users in a court of law and, in extreme cases, from the death penalty. This level of privacy must be completely accessible to all users, whether they are technologically competent or have no idea how Monero works. A user needs to confidently trust Monero in a way that this person does not feel pressured into changing their spending habits for risk of others finding out.
  decentralization: Decentralization
  decentralization_para: Monero is committed to providing the highest degree of decentralization in both network security and code development. Its Proof of Work algorithm prevents specialized mining hardware from dominating the network and allows for fair distribution of block rewards. Additionally, Monero's development and research are conducted via global collaboration, and the project is carried out with utmost transparency. Each development decision is open to public discussion, and every major developer meeting is published online. 


developer-guides:
  head: Collection of guides, documentation and useful resources for developers (in English).
  outdated: "Methods are often added / removed / updated and may not be accurately described."
  rpc: RPC Documentation
  daemonrpc: Daemon RPC
  daemonrpc_descr: RPC calls for the @daemon. Including input, outputs and examples. In English.
  walletrpc: Wallet RPC
  walletrpc_descr: monero-wallet-rpc calls. Including input, outputs and examples. In English.
  external: External resources
  external_head: Useful docs and resources maintained by community members.
  monerodocs: Comprehensive resource which aims to organize the technical knowledge about Monero. Some sections might be outdated.
  moneroexamples: Rich list of examples and docs related to Monero development.
  moneroecosystem: Community of Monero developers. Contains libraries and resources and guides of some Monero Workgroups, like the Localization Workgroup and the Outreach Workgroup.
  monerose: One of the most complete resources for both users and developers.
  libraries: Libraries and helpers
  libraries_para: Monero libraries are created and maintained by the community. The following repositories are not vetted by the core team and are only listed here for convenience. Please conduct your own research before using them, and if you want to add a library to this list, please open an issue on
  monero-javascript: A Node.js library for using Monero.
  monero-nodejs: Wallet manager for interacting with monero-wallet-rpc.
  monerophp: A Monero library written in PHP by the Monero Integrations team.
  monerowp: Monero WooCommerce Plugin for Wordpress.
  monero-python: A comprehensive Python module for handling Monero cryptocurrency.
  moneriote-python: Python scripts to maintain Monero opennodes DNS records.
  monerorpc: A Java interface for Monero wallet and daemon RPC.
  monero-java: A Java library for using Monero.
  monero-cpp: A C++ library for using Monero.
  vanity-monero: Generate vanity address for CryptoNote currency (Monero etc.).
  go-monero-rpc-client: A Go client for the Monero wallet and daemon RPC.
  monero-rs: Library with support for (de)serialization on block data structures and key/address generation and scanning related to Monero cryptocurrency.
  csharp-monero: A wallet and daemon client to interface with Monero's JSON-RPC API, built on .netstandard2.1

user-guides:
  general: General
  mining: Mining
  backup: Backup
  nodesync: Node & Synchronization
  recovery: Recovery
  wallets: Wallets
  hardwarewallet: Hardware Wallets
  anonimizationnetworks: Anonymizing Networks
  offline-backup: How to make an offline backup (advanced)
  vps-node: How to run a node on VPS
  import-blockchain: How to import the Monero blockchain (advanced)
  monero-tools: Monero Tools
  purchasing-storing: How to create a Monero paper wallet
  verify-allos: How to use the command line to verify your Monero CLI/GUI software is safe (advanced)
  verify-windows: How to verify your Monero CLI/GUI software is safe on Windows (beginner)
  mine-on-pool: How to mine on a pool with XMRig
  solo-mine: How to solo mine with Monero GUI
  locked-funds: How to fix locked up funds
  restore-account: How to restore a wallet from mnemonic seed
  qubes: How to use Monero CLI/daemon with Qubes + Whonix
  cli-wallet: Guide for the Monero CLI wallet
  remote-node-gui: How to connect to a remote node within GUI wallet
  view-only: How to make a view-only wallet
  prove-payment: How to prove a payment was made
  restore-from-keys:  How to restore a wallet from keys
  ledger-wallet-cli: How to use a Ledger wallet on Monero CLI
  multisig-messaging-system: Multisig transactions with MMS and CLI wallet
  tor_wallet: How to connect your wallet to your own node over Tor
  node-i2pzero: How to run a node through I2P with I2P-zero
  guiguide: Guide for the Monero GUI wallet
  tailsguide: How to use Monero on Tails
  make-payment: How to make a payment
  change-restore-height: How to change the wallet restore height
  back: Back to the list
  scan-txid: How to scan for a missing transaction CLI/GUI
  join-monero-matrix: How to join the Monero Core Team Matrix server

roadmap:
  completed: Completed task
  ongoing: Ongoing task
  upcoming: Upcoming task
  proposed: Proposed task
  future: Future

  jan: January
  feb: February
  mar: March
  apr: April
  may: May
  jun: June
  jul: July
  aug: August
  sep: September
  oct: October
  nov: November
  dec: December
  comingsoon: Coming Soon

  launched: Launched on Bitcointalk
  renamed: Renamed from Bitmonero to Monero
  recovered: Recovered from a spam attack
  paper1-2: Monero Research Lab Papers 1 and 2 published
  paper3: Monero Research Lab Paper 3 published
  released-0-8-8-6: 0.8.8.6 released

  paper4: Monero Research Lab Paper 4 published

  released-0-9-0: 0.9.0 Hydrogen Helix released
  paper5: Monero Research Lab Paper 5 published
  ringsize-3: Network Upgrade to require minimum @ringsize of 3 on all @transactions
  released-0-10-0: 0.10.0 Wolfram Warptangent released
  splitcoinbase: Network Upgrade to split coinbase into @denominations
  released-0-10-1: 0.10.1 Wolfram Warptangent released
  guibeta1: Official GUI Beta 1 released

  enableringct: Network Upgrade to enable @RingCT transactions
  released-0-10-2: 0.10.2 released; critical vulnerability patched
  released-0-10-3-1: 0.10.3.1 Wolfram Warptangent released
  hfminblock: Network Upgrade to adjust minimum blocksize and dynamic fee algorithm
  webredesign: Website redesigned
  released-0-11-0: 0.11.0.0 Helium Hydra released
  fluffyblocks: '@fluffy blocks'
  guioutbeta: GUI out of beta
  minringsize5: Network Upgrade to increase minimum ringsize to 5 and require RingCT transactions
  releasedgui-0-11-0: GUI 0.11.0.0 Helium Hydra released
  zeromq: 0MQ/ZeroMQ
  subaddress: Subaddresses
  paper6: Monero Research Lab Paper 6 published
  release-0-11-1: 0.11.1.0 Helium Hydra released
  releasedgui-0-11-1: GUI 0.11.1.0 Helium Hydra released
  multisig: Multi-signatures (multisig)

  released-0-12-0: 0.12.0.0 Lithium Luna released
  releasedgui-0-12-0: GUI 0.12.0.0 Lithium Luna released
  cryptonightv2: New Proof of Work CryptoNightV2
  hfring7: Network upgrade to increase minimal ringsize to 7, integrate multisig, subaddresses, and change PoW algo
  getmonero-fr-pl: Getmonero.org Localization in French and Polish
  released-0-12-1: 0.12.1.0 Lithium Luna released
  ledger: Ledger Hardware Wallets Support
  released-0-12-2: 0.12.2.0 Lithium Luna released
  released-0-12-3: 0.12.3.0 Lithium Luna released
  releasedgui-0-12-3: GUI 0.12.3.0 Lithium Luna released
  kovrialpha: Kovri alpha release
  moneropedialoc: Getmonero.org Moneropedia open for Localization
  getmonero-ar: Getmonero.org Localization in Arabic
  released-0-13-0-2: 0.13.0.2 Beryllium Bullet released
  releasedgui-0-13-3: GUI 0.13.0.3 Beryllium Bullet released
  cryptonightv3: New Proof of Work CryptoNightV3
  bulletproofs: Implementation of @Bulletproofs to reduce transaction sizes
  ringsize11: Network upgrade to increase minimal @ring-size to 11, integrate Bulletproofs, update fees calculation algorithm, and change PoW algo
  released-0-13-0-4: 0.13.0.4 Beryllium Bullet released
  paper8-9: Monero Research Lab Papers 8 and 9 published
  releasedgui-0-13-0-4: GUI 0.13.0.4 Beryllium Bullet released
  paper7: Monero Research Lab Paper 7 published
  paper10: Monero Research Lab Paper 10 published
  mms: Implementation of Monero Messaging System (MMS) to automate multisig wallets information exchange

  getmonero-de: Getmonero.org Localization in German
  released-0-14-0: 0.14.0.0 Boron Butterfly released
  releasedgui-0-14-0: GUI 0.14.0.0 Boron Butterfly released
  ccs: New Community Crowdfunding System (CCS) to replace the Forum Funding System (FFS)
  released-0-14-0-2: 0.14.0.2 Boron Butterfly released
  cryptonightr: New Proof of Work CryptoNightR
  getmonero-pt_br: Getmonero.org Localization in Brazilian-Portuguese and Dutch
  dlsag: "DLSAG: Non-Interactive Refund Transactions For Interoperable Payment Channels in Monero"
  pruning: Blockchain @pruning
  trezort: Trezor model T support
  nanox: Ledger Nano X support
  tori2p: Tor & I2P CLI wallet integration
  multisigms: Multisig Messaging System
  weblate: "Localization platform change: from Pootle to Weblate"
  rpcpay: Pay for service system using mining (RPC-Pay)
  ipv6: IPv6 support
  removedpid: Standalone (long) @payment-ID support removed
  nodediscovery: GUI automatic @remote-nodes discovering and switching option
  randomx: New Proof of Work @RandomX

  getmoneroweblate: Getmonero translatable on Weblate
  releasedgui-0-15-0-4: GUI 0.15.0.4 released
  released-0-15-0-5: CLI 0.15.0.5 released
  dandelion: Implementation of the Dandelion++ protocol 
  onionaddress: Onion address for Getmonero.org
  supercop: Wallet scanning speedups (support for supercop ASM)
  clsag: Concise linkable spontaneous anonymous group (CLSAG) signatures
  kastelo: "Kastelo: open source hardware wallet"
  released-0-16-0-0: CLI and GUI 0.16.0.0 released
  released-0-17: CLI and GUI 0.17 'Oxygen Orion' released
  
  atomicswaps: Monero <-> Bitcoin atomic swaps
  bplus: Bulletproofs+
  p2pool: P2Pool released
  haveno: Haveno

  seraphis-jamtis: Seraphis codebase & Jamtis
  ospead: OSPEAD
  released-0-18: CLI and GUI 0.18 "Flourine Fermi" released
  hardfork-v15: Network upgrade v15 Hardfork
  xmr-eth-atomicswaps: Monero <-> Ethereum Atomic Swaps
  bp++: Bulletproofs++
  lws-subaddress: Light Wallet Server subaddress support
  view-tags: Wallet synchronization speed improved by +40% with one-byte view tags

  genimprov: "Multiple improvements like: block propagation delay reduced, tx_extra limited, wallet refresh and startup speedups"

  xmrbch-atomicswap: XMR-BCH atomic swap is completed
  haveno-mainnet: HavenoDEX released
  fcmp-plus: Full-Chain Membership Proofs
  mrl-tasks: Proposed tasks from Monero Research Lab
  cuprate: Monerod Rust implementation - Cuprate

research-lab:
  intro: Monero is not only committed to making a fungible currency, but also to continued research into the realm of financial privacy as it involves cryptocurrencies. Below you'll find the work of our very own Monero Research Lab, with more papers to come.
  intro_email: "To contact the Monero Research Lab, please email lab@getmonero.org."
  mrl_papers: Published Papers
  abstract: Abstract
  introduction: Introduction
  read-paper: Read Paper
  summary: Summary
  mrlhtp: Understanding ge_fromfe_frombytes_vartime
  mrlhtp_summary: 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.
  mrl1: A Note on Chain Reactions in Traceability in CryptoNote 2.0
  mrl1_abstract: This research bulletin describes a plausible attack on a ring-signature based anonymity system. We use as motivation the cryptocurrency protocol CryptoNote 2.0 ostensibly published by Nicolas van Saberhagen in 2012. It has been previously demonstrated that the untraceability obscuring a one-time key pair can be dependent upon the untraceability of all of the keys used in composing that ring signature. This allows for the possibility of chain reactions in traceability between ring signatures, causing a critical loss in untraceability across the whole network if parameters are poorly chosen and if an attacker owns a sufficient percentage of the network. The signatures are still one-time, however, and any such attack will still not necessarily violate the anonymity of users. However, such an attack could plausibly weaken the resistance CryptoNote demonstrates against blockchain analysis. This research bulletin has not undergone peer review, and reflects only the results of internal investigation.
  mrl2: Counterfeiting via Merkle Tree Exploits within Virtual Currencies Employing the CryptoNote Protocol
  mrl2_abstract: On 4 September 2014, an unusual and novel attack was executed against the Monero cryptocurrency network. This attack partitioned the network into two distinct subsets which refused to accept the legitimacy of the other subset. This had myriad effects, not all of which are yet known. The attacker had a short window of time during which a sort of counterfeiting could occur, for example. This research bulletin describes deficiencies in the CryptoNote reference code allowing for this attack, describes the solution initially put forth by Rafal Freeman from Tigusoft.pl and subsequently by the CryptoNote team, describes the current fix in the Monero code base, and elaborates upon exactly what the offending block did to the network. This research bulletin has not undergone peer review, and reflects only the results of internal investigation.
  mrl3: Monero is Not That Mysterious
  mrl3_abstract: Recently, there have been some vague fears about the CryptoNote source code and protocol floating around the internet based on the fact that it is a more complicated protocol than, for instance, Bitcoin. The purpose of this note is to try and clear up some misconceptions, and hopefully remove some of the mystery surrounding Monero Ring Signatures. I will start by comparing the mathematics involved in CryptoNote ring signatures (as described in [CN]) to the mathematics in [FS], on which CryptoNote is based. After this, I will compare the mathematics of the ring signature to what is actually in the CryptoNote codebase.
  mrl4: Improving Obfuscation in the CryptoNote Protocol
  mrl4_abstract: 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.
  mrl5: Ring Signature Confidential Transactions
  mrl5_abstract: This article introduces a method of hiding transaction amounts in the strongly decentralized anonymous cryptocurrency Monero. Similar to Bitcoin, Monero is a cryptocurrency which is distributed through a proof of work “mining” process. The original Monero protocol was based on CryptoNote, which uses ring signatures and one-time keys to hide the destination and origin of transactions. Recently the technique of using a commitment scheme to hide the amount of a transaction has been discussed and implemented by Bitcoin Core Developer Gregory Maxwell. In this article, a new type of ring signature, A Multi-layered Linkable Spontaneous Anonymous Group signature is described which allows for hidden amounts, origins and destinations of transactions with reasonable efficiency and verifiable, trustless coin generation. Some extensions of the protocol are provided, such as Aggregate Schnorr Range Proofs, and Ring Multisignature. The author would like to note that early drafts of this were publicized in the Monero Community and on the bitcoin research irc channel. Blockchain hashed drafts are available in [14] showing that this work was started in Summer 2015, and completed in early October 2015. An eprint is also available at http://eprint.iacr.org/2015/1098.
  mrl6: An Efficient Implementation of Monero Subaddresses
  mrl6_abstract: Users of the Monero cryptocurrency who wish to reuse wallet addresses in an unlinkable way must maintain separate wallets, which necessitates scanning incoming transactions for each one. We document a new address scheme that allows a user to maintain a single master wallet address and generate an arbitrary number of unlinkable subaddresses. Each transaction needs to be scanned only once to determine if it is destinated for any of the user’s subaddresses. The scheme additionally supports multiple outputs to other subaddresses, and is as efficient as traditional wallet transactions.
  mrl7: Sets of Spent Outputs
  mrl7_abstract: This technical note generalizes the concept of spend outputs using basic set theory. The definition captures a variety of earlier work on identifying such outputs. We quantify the effects of this analysis on the Monero blockchain and give a brief overview of mitigations.
  mrl8: Dual Linkable Ring Signatures
  mrl8_abstract: This bulletin describes a modification to Monero's linkable ring signature scheme that permits dual-key outputs as ring members. Key images are tied to both output one-time public keys in a dual, preventing both keys in that transaction from being spent separately. This method has applications to non-interactive refund transactions. We discuss the security implications of the scheme.
  mrl9: Thring Signatures and their Applications to Spender-Ambiguous Digital Currencies
  mrl9_abstract: We present threshold ring multi-signatures (thring signatures) for collaborative computation of ring signatures, present a game of existential forgery for thring signatures, and discuss uses of thring signatures in digital currencies that include spender-ambiguous cross-chain atomic swaps for confidential amounts without a trusted setup. We present an implementation of thring signatures that we call linkable spontaneous threshold anonymous group signatures, and prove the implementation existentially unforgeable.
  mrl10: Discrete Logarithm Equality Across Groups
  mrl10_abstract: 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.
  iacr2019654: Concise Linkable Ring Signatures and Forgery Against Adversarial Keys
  iacr2019654_abstract: We demonstrate that a version of non-slanderability is a natural definition of unforgeability for linkable ring signatures. We present a linkable ring signature construction with concise signatures and multi-dimensional keys that is linkably anonymous if a variation of the decisional Diffie-Hellman problem with random oracles is hard, linkable if key aggregation is a one-way function, and non-slanderable if a one-more variation of the discrete logarithm problem is hard. We remark on some applications in signer-ambiguous confidential transaction models without trusted setup.
  iacr2020018: "Triptych: logarithmic-sized linkable ring signatures with applications"
  iacr2020018_abstract: Ring signatures are a common construction used to provide signer ambiguity among a non-interactive set of public keys specified at the time of signing. Unlike early approaches where signature size is linear in the size of the signer anonymity set, current optimal solutions either require centralized trusted setups or produce signatures logarithmic in size. However, few also provide linkability, a property used to determine whether the signer of a message has signed any previous message, possibly with restrictions on the anonymity set choice. Here we introduce Triptych, a family of linkable ring signatures without trusted setup that is based on generalizations of zero-knowledge proofs of knowledge of commitment openings to zero. We demonstrate applications of Triptych in signer-ambiguous transaction protocols by extending the construction to openings of parallel commitments in independent anonymity sets. Signatures are logarithmic in the anonymity set size and, while verification complexity is linear, collections of proofs can be efficiently verified in batches. We show that for anonymity set sizes practical for use in distributed protocols, Triptych offers competitive performance with a straightforward construction.
  iacr2020312: "Arcturus: efficient proofs for confidential transactions"
  iacr2020312_note: "NOTE: this paper has been retracted, but it's possible to view it clicking on 'All versions of this report'."
  iacr2020312_abstract: 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.
  cryptonote: Cryptonote Whitepapers
  cryptonote-whitepaper: Cryptonote Whitepaper
  cryptonote-whitepaper_para: This is the original cryptonote paper written by the cryptonote team. Reading it will give an understanding about how the cryptonote algorithm works in general.
  annotated: Annotated Whitepaper
  annotated_para: The Monero Research Lab released an annotated version of the cryptonote whitepaper. This is sort of like an informal review of the claims that are made line-by-line of the whitepaper. It also explains some of the harder concepts in relatively easy to understand terms.
  brandon: Brandon Goodell's Whitepaper Review
  brandon_para: This paper is a formal review of the original cryptonote paper by MRL researcher Brandon Goodell. He takes an in-depth look at the claims and mathematics presented in the cryptonote paper.
  libraryp: "The library contains useful documents like 'Zero to Monero' and 'Mastering Monero', which explore and explain Monero in detail."
  librarybutton: Explore the Library


specs:
  title: Technical Info
  intro: Here are listed some basic technical info about Monero. For more in-depth details, consult
  intro_link: the library
  intro1: or get in touch with the community
  pow_title: Proof of Work
  pow: 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
  pow_link: More info in the GitHub repo
  block_emission_title: Emission curve
  block_emission_pre: "To make sure there will always be an incentive to mine Monero and keep it safe, the emission is infinite. There are two main emissions:"
  block_emission_main: "first, main curve: ~18.132 million coins by the end of May 2022"
  block_emission_tail: "then, tail curve: 0.6 XMR per 2-minute block, kicks in once main emission is done, translates to <1% inflation decreasing over time"
  blocks_title: Blocks
  blocks: 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
  privacytech_title: Main privacy enhancing technologies
  privacytech_ringct: "@RingCT"
  privacytech_sh: "@Stealth-Addresses"
  privacytech_rs: "@ring-signatures"
  privacytech_tor-i2p: Transactions over Tor/I2P
  privacytech_dandelion: Dandelion++

library:
  description: "Below are some publications, books or magazines available for you to download."
  books: Books
  zerotomonerov2: "Zero to Monero: Second Edition"
  zerotomonerov2p: >
    Published: 4 April 2020, with <a href="https://github.com/UkoeHB/Monero-RCT-report">LaTeX source code here</a><br>
    A comprehensive conceptual (and technical) explanation of Monero.<br>
    We endeavor to teach anyone who knows basic algebra and simple computer science concepts like the ‘bit representation’ of a number not only how Monero works at a deep and comprehensive level, but also how useful and beautiful cryptography can be.    
  zerotomonerov2langs: Available in <a href="Zero-to-Monero-2-0-0-ru.pdf">Russian</a> and <a href="Zero-to-Monero-2-0-0-pt.pdf">Portuguese</a>.
  zerotomonerov1: "Zero to Monero: First Edition"
  zerotomonerov1p: >
    Published: 26 June 2018, with <a href="https://github.com/UkoeHB/Monero-RCT-report">LaTeX source code here</a>    
  masteringmonerop: >
    A guide through the seemingly complex world of Monero.<br>
    It includes:
    <ul><li>A broad introduction to blockchains and the importance of privacy - ideal for non-technical users.</li>
    <li>Discussion of Bitcoin’s shortcomings and specific solutions provided by Monero.</li>
    <li>User stories (illustrating how Monero protects your privacy), analogies, examples, legal/ethical discussions, and code snippets illustrating key technical concepts.</li>
    <li>Details of the Monero decentralized network, peer-to-peer architecture, transaction lifecycle, and security principles.</li>
    <li>Introductions to technical foundations of Monero, intended for developers, engineers, software architects, and curious users.</li>
    <li>New developments such as Kovri, Bulletproofs, Multisignature, Hardware Wallets, etc.</li></ul>    
  cheatsheets: Cheatsheets
  thesalmonseries: "The Salmon Series"
  thesalmonseriesp: >
    Infographics dealing with Monero's inner workings. The name comes from employed colours, having semantic meanings (even if weak) but also a unifying function as a recurring theme, and resembling salmon browning (from raw to well-done) to the author's eyes :)    
  moneroaddressescheatsheet20201206: "Monero Addresses Cheatsheet"
  moneroaddressescheatsheet20201206p: >
    Between the ‘big picture’ and the mathematical details, a single-page recap of various keys, addresses, scopes (private/public, spend/view, on-chain/off-chain, payer’s/payee’s) and their relations.    
  ringscheatsheet20210301: "Rings Cheatsheet"
  ringscheatsheet20210301p: >
    From generic legacy signature to CLSAG, a visual-holic journey through Rings flavours, presenting their core properties step-by-step in a poster-size infographic.    
  rctcheatsheet20210604: "RingCT Cheatsheet"
  rctcheatsheet20210604p: >
    The recipe of a delicious RingCT Type 5 transaction: one CLSAG every eleven UTXOs, Moneroj amounts to taste; thicken everything with Pedersen Commitments whose overall equilibrium will be evident to waiters as well, and protect last ones with a BulletProof glaze; serve on chosen Stealth Addresses and consume not before ten blocks later. Cheers!    
  zkbasicscheatsheet20220621: "ZK Basics Cheatsheet"
  zkbasicscheatsheet20220621p: >
    A lightly theoretical interlude (hopefully still gentle, trying to stress concepts more than formalism and selecting the approached topics) to lay the foundations for Bulletproof and other future Zero-Knowledge-related features, if any.    
  newsletters: Newsletters
  revuomonero: >
    Revuo Monero is a weekly newsletter where you can find the most recent Monero news.    
  themonerostandard: >
    Monero Standard is a weekly publication by recanman, providing up-to-date news and information on the Monero protocol.
    In addition to covering the latest developments in the Monero community, The Monero Standard also includes a weekly price chart, mining pool chart, blockchain statistics, and even a Meme of the Week.    
  moneroobserverblitz: >
    Monero Observer Blitz provides monthly updates on the latest developments in the Monero community and protocol.
    Written by escapethe3RA, this publication covers news related to Monero's ongoing development, community events, and notable achievements within the space.    
moneropedia:
  description: >
    The terminology around Monero can be very complex and technical. The Moneropedia is a tool created by the Monero community to provide an explanation of these terms in a simple way. Listed below you'll find all the Moneropedia entries in alphabetic order.    
  instructions: Instructions for adding a Moneropedia entry are in the
  add_new_text1: If there is an entry you'd like to modify or be added, please
  add_new_link: open an issue on this website's GitHub repository
  add_new_text2: or submit changes via pull request
  back: Back to the Moneropedia
  entries:
    account: Account
    address: Address
    airgap: Airgap
    atomic-units: Atomic Units
    blockchain: Blockchain
    block: Block
    bootstrap-node: Bootstrap-node
    bulletproofs: Bulletproofs
    change: Change
    clearnet: Clearnet
    coinbase: Coinbase Transaction
    consensus: Consensus
    cryptocurrency: Cryptocurrency
    daemon: Daemon
    denominations: Denominations
    encryption: Encryption
    fluffyblocks: Fluffy Blocks
    fungibility: Fungibility
    kovri: Kovri
    locally-unique-host: Locally-unique host
    mining: Mining
    mnemonicseed: Mnemonic Seed
    node: Node
    openalias: OpenAlias
    paperwallet: Paper Wallet
    paymentid: Payment ID
    pedersen-commitment: Pedersen Commitment
    pruning: Pruning
    randomx: RandomX
    remote-node: Remote Node
    ringCT: Ring CT
    ringsignatures: Ring Signature
    ring-size: Ring Size
    scalability: Scalability
    signature: Cryptographic Signature
    smartmining: Smart Mining
    spendkey: Spend Key
    stealthaddress: Stealth Address
    tail-emission: Tail Emission
    transaction: Transactions
    unlocktime: Transaction Unlock Time
    viewkey: View Key
    wallet: Wallet
    clsag: CLSAG
    merge-mining: Merge Mining
    p2pool: P2Pool
    sidechain: Sidechain

tools:
  intro1: Below is a list of third-party tools for interacting with the Monero ecosystem. <b>These tools are not vetted by the Getmonero team, see the disclaimer at the bottom of this page.</b> If a tool no longer supports Monero or you would like a Monero tool to be listed, please
  intro2: open a GitHub issue and let us know
  block-explorers: Block Explorers
  address-generators: Address Generators

  network: Network
  monerohash-nodes: Monero node map
  nownodes: node APIs
  getblockio: Blockchain nodes provider
  monerofail: Monero node list and node map
  txstreet: Transaction and block visualizer

  market: Market
  backtestking: Build or buy your own trading strategy/bot.
  cryptoradar: Marketplace comparison website
  kryptocheck: German marketplace comparison website

  misc: Miscellaneous
  monerohow-stats: Statistics
  moneropro: Charts and metrics
  monerologs: Archive of Monero IRC channels
  monerobase: Archive of some older meeting logs
  gateways: Payment Gateways

  onion-service: Tor Onion service

blog:
  allposts: All Posts
  urgent: Urgent
  releases: Releases
  community: Community
  meetinglogs: Meeting Logs
  author: Posted by
  date: Posted at
  filter: "Filter by category:"
  next: Next
  previous: Prev


tags:
  notags: There are no posts for this tag.

accessibility:
  arrowup: Go back to the top of the page
  gotop: Go to top
  guiscreen: A screenshot of the Monero GUI wallet. It shows the wallet's balance and a navigation menu on the left, and a form for sending XMR on the right.
  cliscreen: CLI wallet screenshot

error:
  title: Page not found (perhaps it values privacy)
  button: To the Homepage