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Virtual Tourist 價格

Virtual Tourist 價格VT

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報價幣種:
USD

您今天對 Virtual Tourist 感覺如何?

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注意:此資訊僅供參考。

Virtual Tourist 今日價格

Virtual Tourist 的即時價格是今天每 (VT / USD) $0.01420,目前市值為 $0.00 USD。24 小時交易量為 $109,715.02 USD。VT 至 USD 的價格為即時更新。Virtual Tourist 在過去 24 小時內的變化為 6.62%。其流通供應量為 0 。

VT 的最高價格是多少?

VT 的歷史最高價(ATH)為 $0.1956,於 2022-04-21 錄得。

VT 的最低價格是多少?

VT 的歷史最低價(ATL)為 $0.001275,於 2022-12-29 錄得。
計算 Virtual Tourist 收益

Virtual Tourist 價格預測

VT 在 2025 的價格是多少?

根據 VT 的歷史價格表現預測模型,預計 VT 的價格將在 2025 達到 $0.01778

VT 在 2030 的價格是多少?

2030,VT 的價格預計將上漲 -7.00%。 到 2030 底,預計 VT 的價格將達到 $0.03254,累計投資報酬率為 +98.52%。

Virtual Tourist 價格歷史(USD)

過去一年,Virtual Tourist 價格上漲了 +51.85%。在此期間,VT 兌 USD 的最高價格為 $0.02065,VT 兌 USD 的最低價格為 $0.006352。
時間漲跌幅(%)漲跌幅(%)最低價相應時間內 {0} 的最低價。最高價 最高價
24h+6.62%$0.01334$0.01470
7d-24.18%$0.01002$0.01888
30d+45.92%$0.009732$0.02065
90d+83.63%$0.006352$0.02065
1y+51.85%$0.006352$0.02065
全部時間-50.67%$0.001275(2022-12-29, 1 年前 )$0.1956(2022-04-21, 2 年前 )

Virtual Tourist 市場資訊

市值
--
+6.62%
完全稀釋市值
$4,260,954.32
+6.62%
24 小時交易額
$109,715.02
-21.60%
排名
流通率
0.00%
24 小時交易額/市值
0.00%
流通量
0 VT
總供應量 / 最大供應量
300,000,000 VT
300,000,000 VT
立即購買 Virtual Tourist

Virtual Tourist 評級

社群的平均評分
4.6
100 筆評分
此內容僅供參考。

Virtual Tourist (VT) 簡介

理解虛擬旅行者代幣:深度解析其歷史背景與核心特性

自2009年比特幣的誕生以來,加密貨幣一直在全球金融市場上掀起波濤。這種利用區塊鏈技術的數字貨幣,讓人們可以匿名、安全、快速而且低成本地在線進行交易。雖然加密貨幣的價值波動極大,但從長遠看,這種價值儲存和交換的新方式是不可忽視的。

近年來,我們看到了無數新的、獨特的加密貨幣的誕生,其中之一就是虛擬旅行者代幣(Virtual Tourist Token, VTT)。以下,我們將對其歷史背景和主要特性進行深入的解析。

VTT 的歷史背景

虛擬旅行者代幣的概念源於對傳統旅遊市場的革新。創始人團隊思考了如何利用區塊鏈技術來改變旅遊業的現狀,並於是將這精神注入了虛擬旅行者代幣的創建中。

VTT的創建希望解決旅行者在尋找合適旅遊方案,購買旅遊產品,甚至在目的地消費過程中遇到的問題。創始團隊希望通過這種代幣,實現更為透明,公正的價值交換,打造一個去中心化的旅遊服務市場。

虛擬旅行者代幣的主要特性

虛擬旅行者代幣最顯著的特點是它在旅遊市場的應用。該代幣可用於購買各種旅遊服務,包括機票,酒店,觀光團等等。此外,隨著其生態系統的擴大,更多的旅遊相關企業也將接受VTT作為支付方式。

另一個核心特性是其去中心化的性質。這意味著沒有一個中心機構能夠控制或者操縱這種代幣。因此,使用者能夠在無需插入任何中間人的情況下,進行直接的交易。這不僅能降低交易成本,也更有利於價值的公正交換。

總體來說,虛擬旅行者代幣無疑正在形塑世界旅遊業的未來。作為一種加密貨幣,其創新性和革新性將無法被忽視。瞭解其歷史和特性,將有助於全面把握區塊鏈對於全球旅遊業重塑的深遠影響。

如何購買 Virtual Tourist(VT)

建立您的免費 Bitget 帳戶

建立您的免費 Bitget 帳戶

使用您的電子郵件地址/手機號碼在 Bitget 註冊,並建立強大的密碼以確保您的帳戶安全
認證您的帳戶

認證您的帳戶

輸入您的個人資訊並上傳有效的身份照片進行身份認證
購買 Virtual Tourist (VT)

購買 Virtual Tourist (VT)

我們將為您示範使用多種支付方式在 Bitget 上購買 Virtual Tourist

跟單交易專家,進行 VT 跟單交易!

在 Bitget 註冊並成功購買 USDT 或 VT 後,您還可以跟單交易專家開始跟單交易。

用戶還在查詢 Virtual Tourist 的價格。

Virtual Tourist 的目前價格是多少?

Virtual Tourist 的即時價格為 $0.01(VT/USD),目前市值為 $0 USD。由於加密貨幣市場全天候不間斷交易,Virtual Tourist 的價格經常波動。您可以在 Bitget 上查看 Virtual Tourist 的市場價格及其歷史數據。

Virtual Tourist 的 24 小時交易量是多少?

在最近 24 小時內,Virtual Tourist 的交易量為 $109,715.02。

Virtual Tourist 的歷史最高價是多少?

Virtual Tourist 的歷史最高價是 $0.1956。這個歷史最高價是 Virtual Tourist 自推出以來的最高價。

我可以在 Bitget 上購買 Virtual Tourist 嗎?

可以,Virtual Tourist 目前在 Bitget 的中心化交易平台上可用。如需更詳細的說明,請查看我們很有幫助的 如何購買 指南。

我可以透過投資 Virtual Tourist 獲得穩定的收入嗎?

當然,Bitget 推出了一個 策略交易平台,其提供智能交易策略,可以自動執行您的交易,幫您賺取收益。

我在哪裡能以最低的費用購買 Virtual Tourist?

Bitget提供行業領先的交易費用和市場深度,以確保交易者能够從投資中獲利。 您可通過 Bitget 交易所交易。

您可以在哪裡購買 Virtual Tourist(VT)?

透過 Bitget App 購買
數分鐘完成帳戶註冊,即可透過信用卡或銀行轉帳購買加密貨幣。
Download Bitget APP on Google PlayDownload Bitget APP on AppStore
透過 Bitget 交易所交易
將加密貨幣存入 Bitget 交易所,交易流動性大且費用低

影片部分 - 快速認證、快速交易

play cover
如何在 Bitget 完成身分認證以防範詐騙
1. 登入您的 Bitget 帳戶。
2. 如果您是 Bitget 的新用戶,請觀看我們的教學,以了解如何建立帳戶。
3. 將滑鼠移到您的個人頭像上,點擊「未認證」,然後點擊「認證」。
4. 選擇您簽發的國家或地區和證件類型,然後根據指示進行操作。
5. 根據您的偏好,選擇「手機認證」或「電腦認證」。
6. 填寫您的詳細資訊,提交身分證影本,並拍攝一張自拍照。
7. 提交申請後,身分認證就完成了!
加密貨幣投資(包括透過 Bitget 線上購買 Virtual Tourist)具有市場風險。Bitget 為您提供購買 Virtual Tourist 的簡便方式,並且盡最大努力讓用戶充分了解我們在交易所提供的每種加密貨幣。但是,我們不對您購買 Virtual Tourist 可能產生的結果負責。此頁面和其包含的任何資訊均不代表對任何特定加密貨幣的背書認可,任何價格數據均採集自公開互聯網,不被視為來自Bitget的買賣要約。

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理財

VT
USD
1 VT = 0.01420 USD
在所有主流交易平台中,Bitget 提供最低的交易手續費。VIP 等級越高,費率越優惠。
Bitget
0.1%
Kraken
0.26%
Coinbase
1.99%

VT 資料來源

合約
更多更多
https://img.bitgetimg.com/multiLang/develop/web/BNB.png
BNB Smart Chain (BEP20)
0xEd66...3057C21
copy
wallet
相關連結
Virtual Tourist WebsiteVirtual Tourist WhitepaperVirtual Tourist TwitterVirtual Tourist Github

Bitget 觀點

Mamunur878
Mamunur878
2024/11/26 19:57
Key
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AL+1.44%
X+0.60%
Mamunur878
Mamunur878
2024/11/26 19:55
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AL+1.44%
X+0.60%
Mukarama1432
Mukarama1432
2024/10/20 18:17
Introducing Puffer: Revolutionizing Ethereum Staking Puffer enhances Ethereum staking with its innovative Validator Tickets (VTs) and EigenLayer restaking. Key benefits: 1. *Improved Incentives*: VTs incentivize node operators (NoOps) to perform optimally, ensuring rewards for stakers. 2. *Reduced Barriers*: 1-2 ETH collateral requirement, making staking accessible. 3. *Enhanced Security*: Anti-slashing technology protects staker ETH. 4. *Simplified Operations*: No rug-pooling oversight needed. 5. *Growth Fuel*: Continuous rewards despite validator queues. *How Puffer Works* 1. Stakers deposit ETH, receiving pufETH tokens. 2. NoOps lock pufETH and VTs to run validators. 3. VT prices reflect daily validator earnings. 4. NoOps earn 100% of validator rewards. *Validator Tickets* 1. Represent one day of validator rights. 2. Priced based on expected daily earnings. 3. Burned upon validator exit. *Puffer's Impact* 1. Democratizes staking with lower collateral. 2. Aligns NoOp incentives with staker interests. 3. Enhances Ethereum stability. Join the Puffer community to stay updated. Resources: - Puffer Website - Ethereum Documentation - EigenLayer Information Disclaimer: Cryptocurrency markets are volatile.
ETH+0.36%
VT-1.20%
Mukarama1432
Mukarama1432
2024/10/20 18:05
Introducing Puffer: Revolutionizing Ethereum Staking Puffer enhances Ethereum staking with its innovative Validator Tickets (VTs) and EigenLayer restaking. Key benefits: 1. *Improved Incentives*: VTs incentivize node operators (NoOps) to perform optimally, ensuring rewards for stakers. 2. *Reduced Barriers*: 1-2 ETH collateral requirement, making staking accessible. 3. *Enhanced Security*: Anti-slashing technology protects staker ETH. 4. *Simplified Operations*: No rug-pooling oversight needed. 5. *Growth Fuel*: Continuous rewards despite validator queues. *How Puffer Works* 1. Stakers deposit ETH, receiving pufETH tokens. 2. NoOps lock pufETH and VTs to run validators. 3. VT prices reflect daily validator earnings. 4. NoOps earn 100% of validator rewards. *Validator Tickets* 1. Represent one day of validator rights. 2. Priced based on expected daily earnings. 3. Burned upon validator exit. *Puffer's Impact* 1. Democratizes staking with lower collateral. 2. Aligns NoOp incentives with staker interests. 3. Enhances Ethereum stability. Join the Puffer community to stay updated. Resources: - Puffer Website - Ethereum Documentation - EigenLayer Information Disclaimer: Cryptocurrency markets are volatile.
ETH+0.36%
VT-1.20%
RACECREPTO
RACECREPTO
2024/10/20 15:01
PUFFER RESTAKING AND VALIDATOR TICKETS
Native restaking 🥩 A native restaker is an Ethereum PoS validator that restakes their 32 ETH to operate Eigenlayer AVSs. Native restakers are awarded AVS fees in exchange for their service, but are subject to penalties if they break the AVS's rules. To engage in native restaking, validators must point their withdrawal credentials to an EigenPod contract which then opts-in to restaking and chooses its AVSs. Native restaking allows validators to better utilize their ETH capital and hardware to supplement their PoS rewards. However, the 32 ETH requirement is too high a barrier for most to participate. Additionally, some AVSs may require far greater computational requirements than what is expected from PoS. Puffer aims to address this through its PufferModules. Puffer Modules 🐡$PUFFER At its core, the Puffer protocol is a collection of PufferModule contracts. Each module controls an EigenPod that functions as a single native restaker but is composed of many NoOp-controlled validators. Modules are filled with the validators of NoOps whose sole job is to perform Ethereum PoS validation. The validators' ETH is then restaked and used as collateral for EigenLayer AVSs. During Puffer's initial phase, the responsibility of operating the AVSs is delegated to a DAO-chosen restaking operator (ReOp), who provides the service in exchange for a portion of the generated AVS fees. The protocol decides which AVSs the modules are assigned, allowing restaked ETH to be allocated to AVSs according to the protocol's risk preferences. Given the delegation risk, the NoOps are awarded commission on the AVS fees with the rest returned to the protocol, helping grow the value of pufETH. This allows NoOps with less than 2 ETH to earn rewards from native restaking. Restaking Operators Restaking Operators (ReOps) are operators whose job is to perform all the required AVS duties on behalf of a given restaking module. ReOps may also be NoOps within their own or other modules. ReOps are expected to perform well to maximize restaking rewards for their own benefit and that of the NoOps in their module and pufETH holders downstream. In the Puffer protocol, ReOps operate through RestakingOperator contracts, which allows governance to decide their AVS selections through the PufferModuleManager contract. Joining a module 👈 To hold strong to our alignment with Ethereum's ethos, it is always permissionless for NoOps to join a module and deploy an Ethereum validator. To join, NoOps lock 1 or 2 ETH collateral and lock validator tickets, which represent a long-term commitment to run a validator in the module. Their collateral is then locked as pufETH and they are provisioned 32 ETH to deploy their validator to the module's EigenPod contract. The NoOp is now entitled to keep all of the PoS rewards (consensus and execution) generated by their validator. The NoOps that joined PufferModules will also receive restaking rewards. Restaking risks and mitigations 🚧 The concept of restaking, while promising, introduces certain inherent risks to stakers and NoOps alike. These primarily revolve around the vulnerabilities of smart contracts and potential AVS slashing risks. Through the sustainable rewards that it can offer, restaking can reshape the dynamics of the liquid staking market, which is currently on a dangerous path towards complete centralization. Restricting ReOps To ensure a safe transition into the world of restaking, Puffer will rely more heavily on governance to decide restaking qualifications during its nascent stages. During this time, only reputable ReOps with excellent performance that have been selected through governance will be eligible to operate the AVSs on behalf of a given module. As Eigenlayer, AVSs, and Puffer’s anti-slashing mechanisms mature, proven NoOps will have the option to become ReOps without DAO-approval. Restricting AVSs As an open platform, EigenLayer allows anyone to deploy an AVS. Thus, allowing PufferModules to service any AVS would expose the stakers and NoOps to too much slashing risk. To mitigate this risk, Puffer requires the DAO to onboard new modules, carefully vet the allowed AVSs, and manage the allocation of modules to AVSs. Validator Tickets Validator Tickets are the evolution to Puffer's initial "Smoothing Commitment" research collaboration with Justin Drake, and are closely related to the recent "Execution Tickets" proposal that was added to Ethereum's roadmap. Overview The idea is simple but powerful: pufETH: People stake their ETH and receive pufETH, a token representing their staked ETH within the Puffer protocol, which is used to fund Ethereum validators. Validator Tickets (VTs): VTs are ERC20 tokens that grant the holder the right to run a staker-funded Ethereum validator for a day. VTs are minted by ETH deposits. This ETH goes towards compensating pufETH holders for financing validators. Running Validators: To run a validator, a node operator must lock VTs and lock in 1 ETH of pufETH as collateral. Pricing VTs: The price of a VT is set based on the expected daily earnings from running a validator. This price directly influences the expected pufETH APR. Benefits: VTs create new trading opportunities, address “rug-pooling”, and incentivize good performance. pufETH holders earn rewards immediately when VTs are purchased. Consuming VTs allows the node operator to keep 100% of the validator’s earnings. The status quo Typically, Liquid Staking Protocols (LSPs) use two methods for validators: Unbonded Model: Validators don't need to lock up collateral. This is good for growth but risky because penalties affect the staking pool, and it often requires specially approved validators (permissioned / KYC). Bonded Model: Validators lock collateral for their operation period. This method is more secure and allows for any validator to join, but slows LSP growth as it requires a large amount of ETH upfront per validator. Puffer uses the bonded model as it is more ethos-aligned, but adds VTs to address some of its shortcomings. How are VTs used? Validator Tickets supplement validator bonds. When registering a validator, the NoOp locks 1 ETH worth of pufETH as a bond and deposits at least 28 VTs. In exchange, they are allocated 32 ETH to run a validator, and are entitled to 100% of the Proof of Stake (PoS) rewards they produce over as many days as VTs they've deposited. In other words, NoOps pay pufETH holders ETH upfront to run a validator. Each VT represents one validator-day of expected Proof of Stake (PoS) rewards. The payments to mint VTs directly pay pufETH holders, creating strong growth dynamics. This mechanism is favorable for stakers, capital efficient, and incentivizes for optimal NoOp performance. Upon exiting a validator, the number of locked VT tokens, corresponding to the number of days the validator was active, will be burned and the remaining locked VTs may be retrieved by the NoOp. Why? ~ NoOp Incentives The success of an LSP largely depends upon the performance of its NoOps. Traditionally, having NoOps deposit collateral has been a method to ensure alignment with the protocol's objectives. The logic is simple: with a financial stake in play, NoOps have a deterrent against going offline, suffering slashing penalties, or engaging in nefarious activities like MEV theft ("rug-pooling"). If they were to engage in such activities, they'd stand to lose their collateral. While this collateral approach discourages penalties, it does not strongly incentivize performance. For instance, a "lazy" NoOp could alternate between being online and offline, ensuring their validator balance stays at 32 ETH. This strategy results in no reward generation for the LSP, but also no collateral loss for the NoOp. Puffer changes this incentive landscape through the use of VTs. Since NoOps have already purchased VTs, they stand to gain nothing from underperforming since they cannot recoup this initial payment (as days pass and their VTs are burned), even if they maintain their validator balance. Thus, for a NoOp to turn a profit, they must perform at least on par with the average validator. Those who excel can earn even more. While VTs provide strong disincentives for slashing, to further protect the staker's ETH, Puffer requires a 1 or 2 ETH bond and for NoOps to use anti-slashing technology for defense-in-depth. This new approach neatly tackles two traditional problems: Rug-pooling: With NoOps entitled to all the MEV they generate, there's no longer a need to police or penalize them for rug-pooling. Lazy NoOps: Since stakers get a proxy for PoS rewards upfront via minting VTs, they aren't adversely affected if a NoOp underperforms. Requirements For PoS stability and NoOp incentive alignment, 1 or 2 ETH worth of pufETH and a minimum of 28 VTs are required to be deposited at registration time. Their duration begins at the moment their validator is activated on the beacon chain, and each VT represents 1 day or 255 epochs. Assuming they deposited 28 VTs, after 28 days of validating, the NoOp's validator will be automatically ejected, its 32 ETH returned to the protocol, and bond returned. If they wish to extend their duration, NoOps can deposit additional VTs at any time. NoOps who have Validators with unconsumed VTs (e.g deposited 100 VTs) may retrieve them from the protocol (e.g., 72 VTs). Pricing Validator Tickets Prices of Validator Tickets are secured and posted by RedStone Oracles. The VT Oracle module is fully automated and data is delivered every 12 hours or if the deviation is 10% on MEV payouts or 5% on consensus rewards. The contract can be seen on the ValidatorTicketPricer contract events page here. The pricing module is the heart of the properly functioning Puffer system. Puffer’s stability is based on the correctness of the price from RedStone. Puffer Logo Validator Tickets are Puffer's novel addition to the validator lifecycle in LSTs. Validator Tickets are the evolution to Puffer's initial "Smoothing Commitment" research collaboration with Justin Drake, and are closely related to the recent "Execution Tickets" proposal that was added to Ethereum's roadmap. Overview Minting VTs The idea is simple but powerful: pufETH: People stake their ETH and receive pufETH, a token representing their staked ETH within the Puffer protocol, which is used to fund Ethereum validators. Validator Tickets (VTs): VTs are ERC20 tokens that grant the holder the right to run a staker-funded Ethereum validator for a day. VTs are minted by ETH deposits. This ETH goes towards compensating pufETH holders for financing validators. Running Validators: To run a validator, a node operator must lock VTs and lock in 1 ETH of pufETH as collateral. Pricing VTs: The price of a VT is set based on the expected daily earnings from running a validator. This price directly influences the expected pufETH APR. Benefits: VTs create new trading opportunities, address “rug-pooling”, and incentivize good performance. pufETH holders earn rewards immediately when VTs are purchased. Consuming VTs allows the node operator to keep 100% of the validator’s earnings. tip Before EigenLayer restaking is live, selling VTs is pufETH's source of rewards. The status quo Typically, Liquid Staking Protocols (LSPs) use two methods for validators: Unbonded Model: Validators don't need to lock up collateral. This is good for growth but risky because penalties affect the staking pool, and it often requires specially approved validators (permissioned / KYC). Bonded Model: Validators lock collateral for their operation period. This method is more secure and allows for any validator to join, but slows LSP growth as it requires a large amount of ETH upfront per validator. Puffer uses the bonded model as it is more ethos-aligned, but adds VTs to address some of its shortcomings. How are VTs used? Using VTs Validator Tickets supplement validator bonds. When registering a validator, the NoOp locks 1 ETH worth of pufETH as a bond and deposits at least 28 VTs. In exchange, they are allocated 32 ETH to run a validator, and are entitled to 100% of the Proof of Stake (PoS) rewards they produce over as many days as VTs they've deposited. In other words, NoOps pay pufETH holders ETH upfront to run a validator. tip For stakers, this means the value of pufETH increases every time a VT is minted. Each VT represents one validator-day of expected Proof of Stake (PoS) rewards. The payments to mint VTs directly pay pufETH holders, creating strong growth dynamics. This mechanism is favorable for stakers, capital efficient, and incentivizes for optimal NoOp performance. Upon exiting a validator, the number of locked VT tokens, corresponding to the number of days the validator was active, will be burned and the remaining locked VTs may be retrieved by the NoOp. Why? ~ NoOp Incentives The success of an LSP largely depends upon the performance of its NoOps. Traditionally, having NoOps deposit collateral has been a method to ensure alignment with the protocol's objectives. The logic is simple: with a financial stake in play, NoOps have a deterrent against going offline, suffering slashing penalties, or engaging in nefarious activities like MEV theft ("rug-pooling"). If they were to engage in such activities, they'd stand to lose their collateral. While this collateral approach discourages penalties, it does not strongly incentivize performance. For instance, a "lazy" NoOp could alternate between being online and offline, ensuring their validator balance stays at 32 ETH. This strategy results in no reward generation for the LSP, but also no collateral loss for the NoOp. Puffer changes this incentive landscape through the use of VTs. Since NoOps have already purchased VTs, they stand to gain nothing from underperforming since they cannot recoup this initial payment (as days pass and their VTs are burned), even if they maintain their validator balance. Thus, for a NoOp to turn a profit, they must perform at least on par with the average validator. Those who excel can earn even more. While VTs provide strong disincentives for slashing, to further protect the staker's ETH, Puffer requires a 1 or 2 ETH bond and for NoOps to use anti-slashing technology for defense-in-depth. This new approach neatly tackles two traditional problems: Rug-pooling: With NoOps entitled to all the MEV they generate, there's no longer a need to police or penalize them for rug-pooling. Lazy NoOps: Since stakers get a proxy for PoS rewards upfront via minting VTs, they aren't adversely affected if a NoOp underperforms. Requirements For PoS stability and NoOp incentive alignment, 1 or 2 ETH worth of pufETH and a minimum of 28 VTs are required to be deposited at registration time. Their duration begins at the moment their validator is activated on the beacon chain, and each VT represents 1 day or 255 epochs. Assuming they deposited 28 VTs, after 28 days of validating, the NoOp's validator will be automatically ejected, its 32 ETH returned to the protocol, and bond returned. If they wish to extend their duration, NoOps can deposit additional VTs at any time. NoOps who have Validators with unconsumed VTs (e.g deposited 100 VTs) may retrieve them from the protocol (e.g., 72 VTs). Pricing Validator Tickets Prices of Validator Tickets are secured and posted by RedStone Oracles. The VT Oracle module is fully automated and data is delivered every 12 hours or if the deviation is 10% on MEV payouts or 5% on consensus rewards. The contract can be seen on the ValidatorTicketPricer contract events page here. The pricing module is the heart of the properly functioning Puffer system. Puffer’s stability is based on the correctness of the price from RedStone. During Puffer's Phase 1, VT prices will be posted by the Guardians. The prices are calculated with the following formula, where This capital-efficient approach means that barriers to entry are reduced, enabling a broader range of participants to contribute to securing the network without having to commit a full 32 ETH. Fuels Growth: The VT model is a game-changer for LSPs. It ensures that the LSP continues to earn rewards even when the validator queue is long. In traditional setups, lengthy validator queues could stifle an LSP's ability to grow, but with VTs, this obstacle is greatly diminished. No More Rug-Pooling Oversight: The previous need to constantly watch over and penalize rug-pooling activities added overhead and complexity that may only be solvable with in-protocol solutions like MEV-Burn. With NoOps entitled to 100% of the execution rewards they generate, this oversight becomes unnecessary, simplifying operations. Addresses Lazy NoOps: Traditional bonded models do not fully disincentivize NoOps from denying the pool rewards by going offline frequently. With VTs, NoOps are naturally incentivized to perform their best since their upfront payment cannot be recouped through subpar performance. Slash Resistant: With a combination of just 1 ETH collateral, favorable NoOp incentives, and Puffer's anti-slashing technology, the risk of staker ETH getting penalized from an irresponsible NoOp is considerably reduced. MEV Lottery: NoOps can participate in the MEV lottery, an attractive proposition for many, without having to lock up 32 ETH. This opens the door for more NoOps to benefit from potential MEV gains, further incentivizing participation.$PUFFER
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