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MultiversX
EGLD
MultiversX on innovatiivinen lohkoketjuprojekti, joka keskittyy skaalautuvuuteen ja nopeisiin transaktioaikoihin, hyödyntäen ainutlaatuisia mekanismeja kuten Adaptive State Sharding ja Secure Proof of Stake.
Kurssi*: ...
Muutos (24H)*: ...
Market Cap*: 575280608.66226
Julkaisuvuosi: 2021
Verkko: Elrond
Protokolla: Secure Proof of Stake (SPoS)

* Ei reaaliaikaiset tiedot.

* Mikään Euroopan unionin jäsenvaltion toimivaltainen viranomainen ei ole hyväksynyt tätä kryptovaran kuvausta. Kryptovaran tarjoaja on yksin vastuussa tämän kryptovaran kuvauksen sisällöstä.

Alkutarina

MultiversX, aiemmin tunnettu nimellä Elrond, sai alkunsa vuonna 2017 Romanian Transilvaniassa, missä visionäärinen tiimi lähti rakentamaan lohkoketjualustaa, jonka tavoitteena oli mullistaa skaalautuvuus- ja nopeusongelmat. Alun perin se perustettiin ratkaisuksi digitaalisen maailman kasvaville tarpeille, ja sen nimi kuvaa lohkoketjumaailman monia mahdollisuuksia – monien universumien yhdistelyä, jos niin voi sanoa. Tiimin lähtökohtana oli luoda alusta, joka pystyy käsittelemään valtavat määrät transaktioita nopeasti ilman tavanomaisia lohkoketjujen rajoituksia.

Esimerkkejä tosielämästä

MultiversX:ää käytetään innovatiivisesti useissa sovelluksissa, kuten DeFi- ja NFT-markkinoilla. Erityisesti sen nopea ja skaalautuva verkko mahdollistaa reaaliaikaiset maksut ja alhaiset kulut. Digitaalinen talous on ottanut laajasti käyttöön MultiversX:n mahdollisuudet, ja siitä on tullut suosittu vaihtoehto kehittäjien keskuudessa, jotka etsivät tehokasta infrastruktuuria sovelluksilleen. Suuria kumppanuuksia on solmittu, kuten strateginen yhteistyö erilaisissa lohkoketjuprojekteissa.

Hauskoja faktoja

Yksi mielenkiintoinen kohta MultiversX:n historiassa on sen uudelleenbrändäys vuonna 2022, jolloin se vaihtoi nimensä Elrondista nykyiseen muotoonsa. Tämä uudistus heijastaa projektin laajentunutta visiota, joka katsoo entistä pidemmälle perinteistä lohkoketjualyharjoittelua ja pyrkii integroimaan yhä laajemmin erilaisia digitaalisia elementtejä. Hauska fakta projektista on myös sen salamannopea verkon käynnistysaika, joka teki vaikutuksen koko alaan.

Yhteisön kohokohdat

MultiversX:llä on aktiivinen ja innostunut yhteisö, joka osallistuu jatkuvasti verkko- ja sosiaalisten kanavien kautta. Tämä mahtava yhteisö on myös lanseerannut useita projekteja, jotka tekevät alustasta entistä houkuttelevamman kehittäjille ja käyttäjille. He pitävät säännöllisiä tapaamisia, webinaareja ja keskusteluja, jotka houkuttelevat lukuisia osallistujia. Erittäin aktiiviset Telegram- ja Twitter-kanavat pitävät yhteisön ajan tasalla ja mukana kehityksessä.

Mikä tekee EGLD erityisen?

Mikä tekee MultiversX:stä erityisen, on sen ainutlaatuinen Adaptive State Sharding -teknologia, joka hajauttaa verkon tehokkaasti ja mahdollistaa skaalautuvuuden ilman kompromisseja turvallisuudessa. Tämä antaa sille kilpailuedun verrattuna moniin muihin lohkoketjuprojekteihin. Lisäksi sen laatima Secure Proof of Stake (SPoS) -protokolla parantaa turvallisuutta ja vähentää energiankulutusta. MultiversX asettaa itsensä lohkoketjumaailman kärkeen innovaatioillaan ja tehokkuudellaan.

Tulevaisuuden visio

Tulevaisuudessaan MultiversX tähtää yhä laajemmin DeFi- ja NFT-innovaatioihin laajennellen ekosysteemiään globaaleille markkinoille. Se kehittää jatkuvasti protokolliaan ja rakentaa uusia kumppanuuksia ja yhteistyökuvioita. Projektin tavoitteena on tulla johtavaksi alustaksi digitaalisen talouden kannalta, luoden infrastruktuuria ja työkaluja, jotka edistävät maailmanlaajuisia liiketoimia. Innovatiiviset tulevaisuuden visiot ja projektit tekevät siitä mielenkiintoisen seurattavan teknologian ystäville.
ESG Disclosure +

Energiankulutus: 742016.57542 kWh/a | Uusiutuva energia: 24.134706284

ESG (Environmental, Social, and Governance) regulations for crypto assets aim to address their environmental impact (e.g., energy-intensive mining), promote transparency, and ensure ethical governance practices to align the crypto industry with broader sustainability and societal goals. These regulations encourage compliance with standards that mitigate risks and foster trust in digital assets.

Name Coinmotion Oy
Relevant legal entity identifier 743700PZG5RRF7SA4Q58
Name of the crypto-asset MultiversX EGLD
Consensus Mechanism MultiversX EGLD is present on the following networks: Binance Smart Chain, Multiversx. Binance Smart Chain (BSC) uses a hybrid consensus mechanism called Proof of Staked Authority (PoSA), which combines elements of Delegated Proof of Stake (DPoS) and Proof of Authority (PoA). This method ensures fast block times and low fees while maintaining a level of decentralization and security. Core Components 1. Validators (so-called “Cabinet Members”): Validators on BSC are responsible for producing new blocks, validating transactions, and maintaining the network’s security. To become a validator, an entity must stake a significant amount of BNB (Binance Coin). Validators are selected through staking and voting by token holders. There are 21 active validators at any given time, rotating to ensure decentralization and security. 2. Delegators: Token holders who do not wish to run validator nodes can delegate their BNB tokens to validators. This delegation helps validators increase their stake and improves their chances of being selected to produce blocks. Delegators earn a share of the rewards that validators receive, incentivizing broad participation in network security. 3. Candidates: Candidates are nodes that have staked the required amount of BNB and are in the pool waiting to become validators. They are essentially potential validators who are not currently active but can be elected to the validator set through community voting. Candidates play a crucial role in ensuring there is always a sufficient pool of nodes ready to take on validation tasks, thus maintaining network resilience and decentralization. Consensus Process 4. Validator Selection: Validators are chosen based on the amount of BNB staked and votes received from delegators. The more BNB staked and votes received, the higher the chance of being selected to validate transactions and produce new blocks. The selection process involves both the current validators and the pool of candidates, ensuring a dynamic and secure rotation of nodes. 5. Block Production: The selected validators take turns producing blocks in a PoA-like manner, ensuring that blocks are generated quickly and efficiently. Validators validate transactions, add them to new blocks, and broadcast these blocks to the network. 6. Transaction Finality: BSC achieves fast block times of around 3 seconds and quick transaction finality. This is achieved through the efficient PoSA mechanism that allows validators to rapidly reach consensus. Security and Economic Incentives 7. Staking: Validators are required to stake a substantial amount of BNB, which acts as collateral to ensure their honest behavior. This staked amount can be slashed if validators act maliciously. Staking incentivizes validators to act in the network's best interest to avoid losing their staked BNB. 8. Delegation and Rewards: Delegators earn rewards proportional to their stake in validators. This incentivizes them to choose reliable validators and participate in the network’s security. Validators and delegators share transaction fees as rewards, which provides continuous economic incentives to maintain network security and performance. 9. Transaction Fees: BSC employs low transaction fees, paid in BNB, making it cost-effective for users. These fees are collected by validators as part of their rewards, further incentivizing them to validate transactions accurately and efficiently. MultiversX employs a consensus model called Secure Proof of Stake (SPoS), which integrates elements of Proof of Stake (PoS) with a rapid, randomized validator selection process. SPoS enables efficient and scalable consensus with high throughput and low latency. Core Components: 1. Secure Proof of Stake (SPoS): Randomized Validator Selection: Validators are selected in under 100 milliseconds based on their stake, with a quick rotation to maintain efficiency and prevent centralization. Validator and Observer Nodes: Validator nodes process transactions and produce blocks, while Observer nodes are read-only, providing data access and network monitoring. 2. Adaptive State Sharding: Parallel Transaction Processing: Adaptive State Sharding splits the network into shards, allowing for simultaneous transaction processing across multiple shards, which enhances scalability and network performance. 3. Meta Chain Coordination: Cross-Shard Finalization: The Meta Chain manages cross-shard transactions, finalizing blocks and ensuring data consistency between shards.
Incentive Mechanisms and Applicable Fees MultiversX EGLD is present on the following networks: Binance Smart Chain, Multiversx. Binance Smart Chain (BSC) uses the Proof of Staked Authority (PoSA) consensus mechanism to ensure network security and incentivize participation from validators and delegators. Incentive Mechanisms 1. Validators: Staking Rewards: Validators must stake a significant amount of BNB to participate in the consensus process. They earn rewards in the form of transaction fees and block rewards. Selection Process: Validators are selected based on the amount of BNB staked and the votes received from delegators. The more BNB staked and votes received, the higher the chances of being selected to validate transactions and produce new blocks. 2. Delegators: Delegated Staking: Token holders can delegate their BNB to validators. This delegation increases the validator's total stake and improves their chances of being selected to produce blocks. Shared Rewards: Delegators earn a portion of the rewards that validators receive. This incentivizes token holders to participate in the network’s security and decentralization by choosing reliable validators. 3. Candidates: Pool of Potential Validators: Candidates are nodes that have staked the required amount of BNB and are waiting to become active validators. They ensure that there is always a sufficient pool of nodes ready to take on validation tasks, maintaining network resilience. 4. Economic Security: Slashing: Validators can be penalized for malicious behavior or failure to perform their duties. Penalties include slashing a portion of their staked tokens, ensuring that validators act in the best interest of the network. Opportunity Cost: Staking requires validators and delegators to lock up their BNB tokens, providing an economic incentive to act honestly to avoid losing their staked assets. Fees on the Binance Smart Chain 5. Transaction Fees: Low Fees: BSC is known for its low transaction fees compared to other blockchain networks. These fees are paid in BNB and are essential for maintaining network operations and compensating validators. Dynamic Fee Structure: Transaction fees can vary based on network congestion and the complexity of the transactions. However, BSC ensures that fees remain significantly lower than those on the Ethereum mainnet. 6. Block Rewards: Incentivizing Validators: Validators earn block rewards in addition to transaction fees. These rewards are distributed to validators for their role in maintaining the network and processing transactions. 7. Cross-Chain Fees: Interoperability Costs: BSC supports cross-chain compatibility, allowing assets to be transferred between Binance Chain and Binance Smart Chain. These cross-chain operations incur minimal fees, facilitating seamless asset transfers and improving user experience. 8. Smart Contract Fees: Deployment and Execution Costs: Deploying and interacting with smart contracts on BSC involves paying fees based on the computational resources required. These fees are also paid in BNB and are designed to be cost-effective, encouraging developers to build on the BSC platform. MultiversX incentivizes network participation through staking rewards and transaction fees, supporting network security and performance. Incentive Mechanisms: 1. Staking Rewards for Validators and Delegators: Validator Rewards: Validators earn EGLD tokens for processing transactions and producing blocks. Delegation Rewards: EGLD holders can delegate their tokens to validators to receive a portion of the staking rewards without managing a node. Applicable Fees: 1. Transaction Fees: Fee Structure: Fees are paid in EGLD and vary based on transaction complexity and size, covering smart contract execution, asset transfers, and other network interactions. 2. Delegation Opportunities: Passive Staking for EGLD Holders: EGLD holders who delegate their tokens share in staking rewards, supporting network security and earning passive income.
Beginning of the period 2024-06-09
End of the period 2025-06-09
Energy consumption 742016.57542 (kWh/a)
Energy consumption resources and methodologies The energy consumption of this asset is aggregated across multiple components: For the calculation of energy consumptions, the so called “bottom-up” approach is being used. The nodes are considered to be the central factor for the energy consumption of the network. These assumptions are made on the basis of empirical findings through the use of public information sites, open-source crawlers and crawlers developed in-house. The main determinants for estimating the hardware used within the network are the requirements for operating the client software. The energy consumption of the hardware devices was measured in certified test laboratories. When calculating the energy consumption, we used - if available - the Functionally Fungible Group Digital Token Identifier (FFG DTI) to determine all implementations of the asset of question in scope and we update the mappings regulary, based on data of the Digital Token Identifier Foundation. To determine the energy consumption of a token, the energy consumption of the network(s) binance_smart_chain is calculated first. For the energy consumption of the token, a fraction of the energy consumption of the network is attributed to the token, which is determined based on the activity of the crypto-asset within the network. When calculating the energy consumption, the Functionally Fungible Group Digital Token Identifier (FFG DTI) is used - if available - to determine all implementations of the asset in scope. The mappings are updated regularly, based on data of the Digital Token Identifier Foundation.
Renewable energy consumption 24.134706284
Energy intensity 0.00034 (kWh)
Scope 1 DLT GHG emissions - Controlled 0.00000 (tCO2e/a)
Scope 2 DLT GHG emissions - Purchased 305.70789 (tCO2e/a)
GHG intensity 0.00014 (kgCO2e)
Key energy sources and methodologies To determine the proportion of renewable energy usage, the locations of the nodes are to be determined using public information sites, open-source crawlers and crawlers developed in-house. If no information is available on the geographic distribution of the nodes, reference networks are used which are comparable in terms of their incentivization structure and consensus mechanism. This geo-information is merged with public information from Our World in Data, see citation. The intensity is calculated as the marginal energy cost wrt. one more transaction. Ember (2025); Energy Institute - Statistical Review of World Energy (2024) – with major processing by Our World in Data. “Share of electricity generated by renewables – Ember and Energy Institute” [dataset]. Ember, “Yearly Electricity Data Europe”; Ember, “Yearly Electricity Data”; Energy Institute, “Statistical Review of World Energy” [original data]. Retrieved from https://ourworldindata.org/grapher/share-electricity-renewables
Key GHG sources and methodologies To determine the GHG Emissions, the locations of the nodes are to be determined using public information sites, open-source crawlers and crawlers developed in-house. If no information is available on the geographic distribution of the nodes, reference networks are used which are comparable in terms of their incentivization structure and consensus mechanism. This geo-information is merged with public information from Our World in Data, see citation. The intensity is calculated as the marginal emission wrt. one more transaction. Ember (2025); Energy Institute - Statistical Review of World Energy (2024) – with major processing by Our World in Data. “Carbon intensity of electricity generation – Ember and Energy Institute” [dataset]. Ember, “Yearly Electricity Data Europe”; Ember, “Yearly Electricity Data”; Energy Institute, “Statistical Review of World Energy” [original data]. Retrieved from https://ourworldindata.org/grapher/carbon-intensity-electricity Licenced under CC BY 4.0

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