🦄TNFTs

TNFT (Transformational Non-Fungible Token)

The TNFT (Transformational Non-Fungible Token) token utilizes a Meta-Multiverse smart contract and builds upon the solid foundation of various Ethereum token standards, including ERC-20, ERC-721, and ERC-1155. These standards ensure compatibility with the widely adopted non-fungible token ecosystem, as well as supporting diverse token use cases ranging from fungible cryptocurrencies, unique digital assets, to gaming tokens, and Phygital assets.

ERC-20 underpins cryptocurrency tokens, which are fungible and interchangeable, like traditional currencies. Examples include Chainlink, Apecoin, or the Uniswap token. ERC-721 establishes non-fungible tokens (NFTs), representing unique assets such as digital art, collectibles, or real estate, with examples like Bored Ape Yacht Club or Azuki. ERC-1155 allows for the creation of both fungible and non-fungible tokens within a single smart contract as well as multi-format file types, promoting efficiency and cost-effectiveness, as seen in Enjin, the Sandbox, or Decentraland.

To expand its capabilities and provide an even more comprehensive solution, the TNFT leverages Layerzero.network, enabling it to become a blockchain-agnostic asset that seamlessly interacts with multiple blockchain networks for increased interoperability.

At the heart of the TNFT lies the underlying USD (Universal Scene Description) file format. When integrated within the Infinity Rift Meta-Multiverse ecosystem, this file format connects off-chain to the Nvidia Omniverse USD file ecosystem through the Omniverse Connector developing with OpenUSD. This robust connection facilitates seamless re-rendering and portability of digital assets across numerous game engines and platforms, providing creators and users with unparalleled levels of flexibility, compatibility, and functionality in the ever-expanding world of digital metaverses.

Base Level TNFT standard utilizing ERC-721:

1. Image or video of the Asset: Each TNFT token incorporates an image or video portraying the asset, aiding visual identification.

2. USD File of the Asset: Alongside the image, the token references a USD file, essential for integrating the asset into the OpenUSD Nvidia Omniverse ecosystem, facilitating its presence in Meta-Multiverse virtual environments.

3. Meta-Multiverse Smart Contract Integration: The TNFT standard integrates with a Meta-Multiverse smart contract. This contract manages comprehensive metadata, including details like the asset's name, description, image or video URI, and asset URI. Additionally, it governs locks and allowances for the asset.

4. Locks and Allowances Metadata: Within the metadata, specific restrictions or permissions for the asset are encoded. These locks and allowances dictate various aspects, such as who can access or transfer the asset, usage rights, or any Meta-Node dApp specific limitations imposed by the asset's creator or owner.

Unlock the Full Potential of TNFTs with Enhanced Functionality Through RIFT dApp Configuration: Discover the Possibilities

Features and Benefits:

Infinite virtual and real-world redemption capabilities:

TNFTs offer users the ability to seamlessly interact with their digital assets in both virtual and real-world environments. This unique feature provides users with unparalleled flexibility and opportunities to engage with their assets across a wide range of scenarios, bridging the gap between digital and physical worlds. EIPs that will be configurable through the RIFT dApp on TNFT asset creation include but are not limited to EIP-6672 for multi-redeemable TNFTs, EIP-4337 for advanced wallet security features, and EIP-4907 for rentable TNFTs as digital, physical, or both as Phygital assets representing products or services. TNFTs are inherently virtualized as 3D assets, but are not limited to virtualized 3D assets. The following is a breakdown of some key examples of how TNFTs will be able to be configured through the RIFT dApp.

• Exclusive Memberships and Access: TNFTs can grant token holders access to exclusive memberships, content, or services. For example, a TNFT could represent a premium subscription to a Meta-Node Metaverse, offering holders unique features, early access to new releases, or exclusive content. Additionally, TNFTs can be used as keys to access private clubs, co-working spaces, or other exclusive real-world locations, bridging the gap between digital and physical worlds.

• Personalized Services and Custom Experiences: TNFTs enable unique experiences tailored to the owner's preferences, with the potential for continuous evolution and personalization. For instance, a TNFT-based fitness program could evolve based on user performance and personal goals or a TNFT-backed learning platform that adjusts its curriculum according to the owner's progress. The infinite redeemability of TNFTs enables users to have dynamic, engaging interactions with service-based digital assets, unlocking new possibilities for customization and unique experiences.

• Real-world Physical Redeemability and Rental of TNFT Assets: TNFTs can offer real-world redeemability, where token holders can exchange their TNFTs for physical goods, services, or experiences. For example, a TNFT representing a limited-edition fashion item can be redeemed for the actual garment, or a TNFT-based spa package can grant access to a luxurious wellness retreat. By combining TNFTs with real-world redemption options, users can seamlessly interact with their digital assets in their everyday surroundings.

  Additionally, the ERC-4907 standard builds upon the ERC-721 base, enabling the rental of TNFT assets. This feature allows users to lease their unique digital assets for a predetermined period, generating passive income and expanding the utility of TNFTs. Renting TNFTs could apply to virtual real estate, in-game items, or even access to exclusive content and experiences. The integration of the ERC-4907 standard further enhances the versatility of TNFTs, providing token holders with more opportunities to interact with and capitalize on their digital assets in both virtual and physical realms.

• Cross-platform Compatibility: TNFTs can be designed to be compatible with various platforms, games, and applications, enabling users to utilize their digital assets across multiple ecosystems. For instance, a TNFT-based in-game item or virtual currency could be used in several different games or platforms, allowing users to transfer value and experiences across different digital environments.

• Virtual Reality (VR) and Augmented Reality (AR) Experiences: TNFTs can be used as digital assets within VR and AR environments, where users can experience their tokens in interactive and immersive settings. For example, a TNFT owner can showcase their digital artwork in a virtual gallery or use a TNFT-based virtual ticket to attend an AR concert in their living room. The ability to import and interact with TNFTs across multiple VR and AR platforms allows for increased engagement and cross-platform experiences.

Customization Attribute Locks and Allowances:

TNFTs are designed to be fundamentally dynamic and capable for customization so each attribute can be allowed or locked to be customizable at mint in the RIFT dApp, allowing users after mint to modify and personalize their 3D virtual assets to suit their preferences as allowed or locked by the creator of the TNFT. This feature enhances user engagement and promotes creativity, ensuring that each TNFT can represent a unique and distinctive asset, further increasing its value and appeal to users.

• Attribute Locks and Allowances: During the minting process, the minter can set specific metadata controls to lock or grant allowance for certain attributes of a TNFT that our off-chain system will recognize. For instance, the minter can allow users to change color schemes, textures, or animations while locking the core design elements. This degree of control enables the minter to maintain the uniqueness and originality of their creation, while still providing room for user personalization.

• Personalization and Modification: With the allowances set by the minter, TNFT holders can customize their digital assets according to their preferences. They can modify allowed attributes such as patterns, styles, or accessories, leading to unique creations. This ability to personalize and modify TNFTs ensures a strong emotional connection between the asset and its owner, which can boost the perceived value and desirability of the digital asset.

• Dynamic and Evolving Assets: Custom metadata controls facilitate the creation of dynamic and evolving TNFTs that can adapt and grow over time. Users can regularly update their TNFTs with new modifications or enhancements as their tastes evolve, or as new customization options become available. This dynamic nature sets TNFTs apart from static digital assets and increases their long-term appeal.

• Interoperability and Cross-platform Compatibility: By incorporating custom metadata controls into TNFTs, developers can create digital assets that are compatible with various platforms and ecosystems. For instance, a TNFT that is customizable within a specific virtual world can also be imported and modified in other digital environments, promoting interoperability and seamless user experiences across different platforms. Furthermore, Meta-Node dApps will be created with a Meta-Multiverse smart contract that enables or disables certain classes of attributes, allowing the Meta-Node Metaverse owner to control which feature class TNFTs enter or exit their Metaverse. This control ensures that the Metaverse owners can maintain the desired environment and aesthetics within their digital realm.

• Enhanced Marketability and Value: Customizable attributes in TNFTs lead to increased marketability and value as each digital asset represents a distinctive creation. The ability to customize a TNFT to suit individual preferences sets it apart from other digital assets, making it more desirable and appealing to potential buyers. Moreover, a TNFT that has been customized by its owner can attract higher demand and price in the secondary market, as it represents a one-of-a-kind creation, further showcasing the potential of TNFTs with custom metadata controls and upgradeable Meta-Multiverse smart contracts.

Interoperability between game engines, platforms, and blockchain networks:

TNFTs provide seamless integration and interoperability across all different game engines through the USD file ecosystem in Nvidia Omniverse, platforms through the cloud gaming service Nvidia GeForce Now, and blockchain networks through layerzero.network. These features enable users to easily manage and engage with their digital assets on the RIFT dApp across various platforms, games, and networks, fostering a connected Meta-Multiverse and promoting collaboration.

Cross-game engine interoperability, cross-platform interoperability, and cross blockchain interoperability are key aspects of TNFTs that enhance user experiences and promote collaboration in the Meta-Multiverse. Let's break down each of these aspects in more detail:

1. Cross-game engine interoperability using Nvidia Omniverse USD files:

Nvidia Omniverse utilizes the Universal Scene Description (USD) file format to enable seamless integration of assets across various game engines. The USD file format provides a common language for describing complex scenes, assets, and their relationships, making it possible for different game engines to understand and work with these assets through Nvidia Omniverse. TNFTs incorporate the USD file format, allowing users to create and share assets across multiple game engines easily. This interoperability fosters collaboration and creativity, enabling game developers to efficiently work together in building expansive and interconnected game worlds.

2. Cross-platform interoperability using GeForce Now cloud gaming platform via Epic Games and Steam Stores:

To achieve cross-platform interoperability, Infinity Rift leverages Nvidia's GeForce Now cloud gaming service, which enables users to stream and play games across a variety of devices. By integrating Infinity Rift Meta-Node dApps into GeForce Now, users can access and engage with these dApps across different platforms, including Steam and Epic Games Store. This integration creates a connected and inclusive Meta-Multiverse, where users can easily explore and engage with various digital environments and communities, regardless of the platform they are using. This approach expands the reach of Infinity Rift and its Meta-Node dApps, fostering collaboration and interconnectedness within the Meta-Multiverse.

3. Cross blockchain interoperability using Layerzero.network:

Layerzero.net is a protocol designed to enable seamless interoperability between different blockchain networks. TNFTs are built with Layerzero.net integration, allowing users to manage and engage with their digital assets on the RIFT dApp across various blockchain networks. Layerzero.network integration acts as a bridge between these networks, enabling TNFTs to be easily transferred and utilized across multiple chains, while preserving their unique features and custom metadata. This cross blockchain interoperability promotes collaboration and ensures that TNFTs maintain their value and appeal, as users can engage with their assets within different blockchain ecosystems.

In summary, TNFTs facilitate cross-game engine interoperability through the use of Nvidia Omniverse USD files, cross-platform interoperability by integrating Infinity Rift Meta-Node dApps with the GeForce Now cloud gaming platform via Steam and Epic Games Store, and cross blockchain interoperability through the integration of Layerzero.net. Each of these aspects enhances the user experience, promoting collaboration and interconnectedness within the Meta-Multiverse and enabling TNFTs to serve as versatile, flexible, and valuable assets.

Meta-Multiverse Smart Contract Pair:

The Meta-Multiverse smart contract pair, consisting of the TNFT/iTNFT smart contract and the Meta-Node smart contract, is crucial for enabling seamless interactions between TNFT assets and Meta-Node dApps within the Infinity Rift ecosystem. These smart contracts govern the creation, redemption, and various features of TNFTs, ensuring a secure and consistent user experience. Let's explore how these smart contracts work together:

1. TNFT/iTNFT Meta-Multiverse Smart Contract:

The TNFT/iTNFT Meta-Multiverse smart contract is responsible for managing the creation, customization, and redemption of TNFTs and iTNFTs. It sets the rules and parameters for each asset, including the allowances and locked attributes for the associated USD file for off-chain control via readable metadata. Most importantly it enables interoperability between game engines, platforms, and blockchain networks, making TNFTs versatile and flexible assets for users to engage with across the Meta-Multiverse.

2. Meta-Node Smart Contract:

The Meta-Node smart contract governs the operation of Meta-Node dApps that serve as bridges between different games, Metaverses, and virtual experiences within the Meta-Multiverse. This smart contract defines the rules for how TNFTs can enter and exit the Meta-Node dApp Metaverses based on their unique features, benefits, and allowances. By controlling the interactions between TNFTs and Meta-Node dApps, the Meta-Node smart contract ensures that only compatible assets are allowed to operate within each Meta-Node dApp Metaverse, preserving the intended user experience and maintaining the integrity of each environment.

3. Interaction between TNFT/iTNFT and Meta-Node Smart Contracts:

When a user wants to engage with their TNFT assets within a Meta-Node dApp, the TNFT/iTNFT smart contract is read and off-chain communication with the Meta-Node smart contract metadata to verify the asset's compatibility with the target environment and off-chain controls manage this for efficiency. The Meta-Node smart contract checks the allowances and locked attributes of the TNFT, as well as its upgradable features and redemption capabilities, to determine whether the asset can be used within the specific Meta-Node dApp Metaverse.

Once compatibility is confirmed, the TNFT is granted access to the Meta-Node dApp, and the user can interact with their assets within the new environment. When transferring TNFTs between different Meta-Node dApps, the off-chain system reads the smart contracts and continue to verify compatibility at each step, ensuring a secure and seamless experience for users across the entire Meta-Multiverse.

In conclusion, the Meta-Multiverse smart contract pair plays a vital role in the Infinity Rift TNFT ecosystem, governing the interactions between TNFT assets and Meta-Node dApps. By establishing rules and parameters for TNFTs and Meta-Nodes, these smart contracts enable a secure, consistent, and interconnected experience for users across the Meta-Multiverse.

USD File Assets:

USD (Universal Scene Description) file assets play a crucial role in the TNFT creation process. These files provide a standardized format for storing and exchanging digital asset information across different platforms and applications using the Nvidia Omniverse USD file ecosystem. By using USD file assets in the Infinity Rift ecosystem, TNFTs can be easily integrated into various game engines, platforms, and blockchain networks, further promoting interoperability and collaboration within the Meta-Multiverse. Utilizing the RIFT dApp integrated Nvidia Omniverse generative AI tool Nvidia GET3D and other tools such as Luma.ai or Nextech3D.ai the user can even create TNFTs or iTNFTs from real-world assets and customize them via interfacing with an iTNFT like Aria Nova of ARIA AI using verbal or text prompts. AR, VR, and Mixed reality solutions for TNFT products to clients will be provided through the RIFT dApp via Nextech3D.ai as well.