Arweave价格
(欧元)€4.776
-€0.15157 (-3.08%)
EUR
无法搜索到该币种。请检查您的拼写或重新搜索币种名称。
市值
€3.12亿
流通总量
6,545.42万 / 6,600万
历史最高价
€60.84
24 小时成交量
€3,692.31万
3.8 / 5


了解Arweave
AR,也称为 Arweave,是一种支持革命性去中心化存储网络的加密货币。Arweave 的核心功能是提供一种永久且防篡改的数据存储解决方案,利用一种类似区块链的技术,称为 blockweave。这种技术使用户可以通过一次性支付永久存储文件,非常适合保存重要文件、历史记录或创意内容。AR 是 Arweave 生态系统的原生代币,用于支付数据存储费用并激励网络参与者。通过结合低成本、安全性和永久性,Arweave 旨在重新定义我们在数字时代如何存档和访问信息,提供了一个独特的用例,吸引了个人、开发者和组织的关注。
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免责声明
本页面的社交内容 (包括由 LunarCrush 提供支持的推文和社交统计数据) 均来自第三方,并按“原样”提供,仅供参考。本文内容不代表对任何数字货币或投资的认可或推荐,也未获得欧易授权或撰写,也不代表我们的观点。我们不保证所显示的用户生成内容的准确性或可靠性。本文不应被解释为财务或投资建议。在做出投资决策之前,评估您的投资经验、财务状况、投资目标和风险承受能力并咨询独立财务顾问至关重要。过去的表现并不代表未来的结果。您的投资价值可能会波动,您可能无法收回您投资的金额。您对自己的投资选择自行承担全部责任,我们对因使用本信息而造成的任何损失或损害不承担任何责任。提供外部网站链接是为了用户方便,并不意味着对其内容的认可或控制。
请参阅我们的 使用条款 和 风险警告,了解更多详情。通过使用第三方网站(“第三方网站”),您同意对第三方网站的任何使用均受第三方网站条款的约束和管辖。除非书面明确说明,否则欧易及其关联方(“OKX”)与第三方网站的所有者或运营商没有任何关联。您同意欧易对您使用第三方网站而产生的任何损失、损害和任何其他后果不承担任何责任。请注意,使用第三方网站可能会导致您的资产损失或贬值。本产品可能无法在所有司法管辖区提供或适用。
请参阅我们的 使用条款 和 风险警告,了解更多详情。通过使用第三方网站(“第三方网站”),您同意对第三方网站的任何使用均受第三方网站条款的约束和管辖。除非书面明确说明,否则欧易及其关联方(“OKX”)与第三方网站的所有者或运营商没有任何关联。您同意欧易对您使用第三方网站而产生的任何损失、损害和任何其他后果不承担任何责任。请注意,使用第三方网站可能会导致您的资产损失或贬值。本产品可能无法在所有司法管辖区提供或适用。
Arweave 的价格表现
近 1 年
-75.94%
€19.85
3 个月
+16.01%
€4.12
30 天
-16.99%
€5.75
7 天
-19.13%
€5.91
Arweave 社交媒体动态
快捷导航
Arweave购买指南
开始入门数字货币可能会让人觉得不知所措,但学习如何购买比您想象的要简单。
预测 Arweave 的价格走势
Arweave 未来几年值多少?看看社区热议,参与讨论一波预测。
查看 Arweave 的价格历史
追踪 Arweave 代币的价格历史,实时关注持仓表现。您可以通过下方列表快捷查看开盘价、收盘价、最高价、最低价及交易量。

Arweave 常见问题
目前,一个 Arweave 价值是 €4.776。如果您想要了解 Arweave 价格走势与行情洞察,那么这里就是您的最佳选择。在欧易探索最新的 Arweave 图表,进行专业交易。
数字货币,例如 Arweave 是在称为区块链的公共分类账上运行的数字资产。了解有关欧易上提供的数字货币和代币及其不同属性的更多信息,其中包括实时价格和实时图表。
由于 2008 年金融危机,人们对去中心化金融的兴趣激增。比特币作为去中心化网络上的安全数字资产提供了一种新颖的解决方案。从那时起,许多其他代币 (例如 Arweave) 也诞生了。
查看 Arweave 价格预测页面,预测未来价格,帮助您设定价格目标。
深度了解Arweave
Arweave是一个去中心化的存储协议,利用一种名为blockweave的区块链技术形式来确保数据的持久性和不可变性。Blockweave与传统区块链不同,每个区块不仅包含来自前一个区块的数据,还包含一个随机选择的区块的数据,从而强有力地保证每个节点都存储了所有先前的数据。Arweave的原生货币AR激励节点,并为用户提供支付数据存储的手段。
William Jones和Sam Williams在攻读分布式计算机系统博士学位期间构思了Arweave。根据Williams的说法,2016年美国总统选举期间“假新闻”的泛滥启发了他们创建Arweave,以一种确保恶意实体不能后来修改数据的方式进行数据存储。
ESG 披露
ESG (环境、社会和治理) 法规针对数字资产,旨在应对其环境影响 (如高能耗挖矿)、提升透明度,并确保合规的治理实践。使数字代币行业与更广泛的可持续发展和社会目标保持一致。这些法规鼓励遵循相关标准,以降低风险并提高数字资产的可信度。
资产详情
名称
OKCoin Europe Ltd
相关法人机构识别编码
54930069NLWEIGLHXU42
代币名称
Arweave
共识机制
Arweave is present on the following networks: Arweave, Ethereum.
Arweave employs a unique Proof of Access (PoA) consensus mechanism, which integrates a requirement for miners to provide cryptographic proof of access to historical data, known as a "recall block." This ensures that miners contribute to both data storage and network security by storing and verifying historical data. Core Components: 1. Proof of Access (PoA): Recall Block Verification: During mining, miners must retrieve and validate a randomly selected "recall block" from Arweave’s data history, proving they retain access to stored data. This process secures the network while emphasizing long-term data availability. Enhanced Proof of Work (PoW): PoA builds upon traditional PoW by requiring miners to demonstrate access to previously stored data, adding a storage-focused layer to network security and incentivizing distributed data retention. 2. Data-Centric Mining Incentives: Distributed Storage: The PoA design encourages miners to store a broad history of blocks, as possessing more recall blocks enhances their probability of successfully mining new blocks and earning rewards.
The crypto-asset's Proof-of-Stake (PoS) consensus mechanism, introduced with The Merge in 2022, replaces mining with validator staking. Validators must stake at least 32 ETH every block a validator is randomly chosen to propose the next block. Once proposed the other validators verify the blocks integrity. The network operates on a slot and epoch system, where a new block is proposed every 12 seconds, and finalization occurs after two epochs (~12.8 minutes) using Casper-FFG. The Beacon Chain coordinates validators, while the fork-choice rule (LMD-GHOST) ensures the chain follows the heaviest accumulated validator votes. Validators earn rewards for proposing and verifying blocks, but face slashing for malicious behavior or inactivity. PoS aims to improve energy efficiency, security, and scalability, with future upgrades like Proto-Danksharding enhancing transaction efficiency.
奖励机制与相应费用
Arweave is present on the following networks: Arweave, Ethereum.
Arweave’s economic model incentivizes miners to contribute to data storage through upfront storage fees and ongoing block rewards, supporting the network’s mission of providing permanent and accessible data storage. Incentive Mechanisms: 1. One-Time Storage Fees: Permanent Data Storage: Users pay a one-time, upfront fee in AR tokens, calculated based on data size and projected storage costs. This fee funds indefinite data storage on the network. Endowment Pool: A portion of each storage fee is allocated to an endowment pool, covering future storage costs as technology advances, ensuring sustainable, permanent data storage. 2. Mining Rewards: Block Rewards: Miners earn AR tokens for successfully mining blocks, incentivizing them to store historical data and maintain network integrity. Applicable Fees: 1. Data Storage Fees: Market-Based Cost: Storage fees in AR are set by data size and projected long-term costs, covering the initial and future costs of data permanence.
The crypto-asset's PoS system secures transactions through validator incentives and economic penalties. Validators stake at least 32 ETH and earn rewards for proposing blocks, attesting to valid ones, and participating in sync committees. Rewards are paid in newly issued ETH and transaction fees. Under EIP-1559, transaction fees consist of a base fee, which is burned to reduce supply, and an optional priority fee (tip) paid to validators. Validators face slashing if they act maliciously and incur penalties for inactivity. This system aims to increase security by aligning incentives while making the crypto-asset's fee structure more predictable and deflationary during high network activity.
信息披露时间段的开始日期
2024-09-25
信息披露时间段的结束日期
2025-09-25
能源报告
能源消耗
629406.09515 (kWh/a)
可再生能源消耗
29.306425484 (%)
能源强度
0.00000 (kWh)
主要能源来源与评估体系
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.
能源消耗来源与评估体系
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. The information regarding the hardware used and the number of participants in the network is based on assumptions that are verified with best effort using empirical data. In general, participants are assumed to be largely economically rational. As a precautionary principle, we make assumptions on the conservative side when in doubt, i.e. making higher estimates for the adverse impacts.
To determine the energy consumption of a token, the energy consumption of the network(s) ethereum 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. The information regarding the hardware used and the number of participants in the network is based on assumptions that are verified with best effort using empirical data. In general, participants are assumed to be largely economically rational. As a precautionary principle, we make assumptions on the conservative side when in doubt, i.e. making higher estimates for the adverse impacts.
排放报告
DLT 温室气体排放范围一:可控排放
0.00000 (tCO2e/a)
DLT 温室气体排放范围二:外购排放
259.31283 (tCO2e/a)
温室气体排放强度
0.00000 (kgCO2e)
主要温室气体来源与评估体系
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.
市值
€3.12亿
流通总量
6,545.42万 / 6,600万
历史最高价
€60.84
24 小时成交量
€3,692.31万
3.8 / 5

