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As businesses continue to grow and expand, so does the need for data storage. With increasing amounts of data, the traditional centralized storage systems are no longer sufficient. Centralized data storage poses several challenges, including security risks, data loss, and lack of privacy. Decentralized data storage, on the other hand, has emerged as a viable solution to these problems. Acknowledging the power of decentralized data storage, BNB Chain has launched the BNB Greenfield, a decentralized data storage network and economy.
Powered by blockchain technology, BNB Greenfield enables users to store their data on a distributed network and leverages smart contracts for data access and monetization. BNB Greenfield is a viable decentralized ecosystem where users and decentralized apps (dApps) can produce, store, and share data with full ownership, control, and financial rewards. It further utilizes the Proof-of-Stake (PoS) consensus mechanism to offer a more environment-friendly and decentralized solution for data storage. BNB Greenfield opts for advanced encryption protocols, like Zero Knowledge Proof (ZKP) and a decentralized network of nodes, to provide optimum security, privacy, and control over data access.
This article aims to provide a walkthrough of why decentralized storage is better than centralized data storage solutions, what power BNB Greenfield holds, and why you should choose BNB Greenfield over other decentralized storage networks (DSNs) like Filecoin, Storj, Arweave, etc.
Decentralized data storage, also known as distributed storage, is a type of storage system where data is stored across a network of computers rather than in a central location. In a decentralized storage system, data is broken down into smaller pieces and distributed across the network. Each piece of data is encrypted and stored on multiple computers, making it more secure and less vulnerable to cyber-attacks and natural disasters.
Decentralized storage systems also offer greater privacy since no single entity has access to all of the data. Instead, each user has control over their own data, which means that users and businesses can ensure their data is secure.
Centralized data storage refers to the traditional storage systems where data is stored in a central location. This type of storage poses several challenges, including security risks, data loss, and lack of privacy. Centralized storage systems are prone to cyber-attacks, which can result in data breaches.
In addition to security risks and data loss, centralized storage systems also lack privacy. The storage provider has access to all of the data, which means that users/businesses cannot be sure that their data is secure. This lack of privacy can be detrimental to businesses that deal with sensitive information, such as banking or healthcare.
Decentralized data storage offers several benefits, including increased security, greater privacy, and lower costs. With decentralized storage, data is encrypted and distributed across the network, making it more secure and less vulnerable to cyber-attacks. Decentralized storage also offers greater privacy since no single entity has access to all of the data.
Furthermore, decentralized storage can be more cost-effective than traditional centralized storage systems. With decentralized storage, users only pay for the storage they use, rather than paying for additional storage that they may not need. This can result in significant cost savings.
Blockchain technology is a distributed ledger that allows for secure and transparent transactions. Blockchain technology is changing the game for decentralized storage by providing a secure and transparent way to store data. With blockchain technology, data is encrypted and stored on a network of computers, making it more secure and less vulnerable to cyber-attacks and natural disasters.
Furthermore, blockchain technology allows for greater transparency since each transaction is recorded on the blockchain. This transparency can benefit businesses dealing with sensitive information, such as healthcare or banking. Blockchain-backed decentralized data storage is becoming increasingly popular, with the market expected to reach $14 billion by 2024. The growth of decentralized storage is being driven by several factors, including the need for increased security and privacy and the desire for more cost-effective storage solutions.
Furthermore, the rise of blockchain technology has made decentralized storage even more viable. Blockchain technology allows for secure and transparent data storage, making it ideal for decentralized storage systems.
Filecoin, Storj, and Arweave are some of the most popular decentralized storage networks (DSNs) available in the market. Filecoin is a decentralized storage network that uses the InterPlanetary File System (IPFS) protocol to store data. Storj, on the other hand, uses a combination of blockchain technology and cryptography to store data in a decentralized manner. Finally, Arweave uses a unique architecture called "blockweave" that allows for fast and cheap storage of data.
With almost 2M DAUs as of writing, BNB Chain is one of the largest blockchain ecosystems with a huge user base. To further provide its users with an optimum Web3.0 experience, BNB Chain has recently launched its decentralized storage network - BNB Greenfield.
The main aim of BNB Greenfield is to provide users and dApps with a secure and decentralized storage solution that largely targets the shift of complete control and ownership of data into the hands of the owners. Based on cutting-edge decentralized technology, BNB Greenfield aims to be the flag bearer in the realms of data ownership and data economy. By facilitating decentralized data management and access, BNB Greenfield aims to transform the landscape of the data economy by streamlining the storage and management of data using advanced encryption systems.
BNB Greenfield also focuses on providing a more reliable and cost-effective solution for storing and sharing data. The new architectural design enables new and exciting use cases in the decentralized domain, such as website hosting, publishing, data storage, personal data market, social media, private cloud applications, etc.
BNB Greenfield is a cutting-edge blockchain and storage solution that aims to harness the potential of decentralized technology in the realms of data ownership and data economy. By facilitating decentralized data management and access, BNB Greenfield aims to transform the landscape of the data economy by streamlining the storage and management of data using advanced cryptographic systems. BNB Greenfield further aims to provide a more reliable and cost-effective solution for storing and sharing data.
BNB Greenfield is built upon two main components: a blockchain that stores data information and a network of storage providers (SPs) offering storage services. Registration both as blockchain validators and as storage providers, is open to both individuals and organizations.
At its core, BNB Greenfield operates as a distributed ledger, keeping track of data distribution across multiple storage providers and facilitating coordination for data backup and recovery. Storage providers (SPS) can either be companies or individuals that offer publicly accessible services (API) which allow users to upload, download, and manage their data securely.
Tokenomics and governance: The native token of the BNB Chain ecosystem, i.e. BNB token, is used for fueling the BNB Greenfield storage system. Greenfield enables users to register accounts and engage with the BNB ecosystem directly using their BNB tokens. BNB token is used as staking, governance, gas, and storage service fee token.
Storage providers must register on the BNB Greenfield by making a deposit known as their "Service Stake". The SPs are then subject to a dedicated governance procedure, where Greenfield validators vote to elect them.
BNB Greenfield focuses on three elements that set it apart from centralized and some of the most popular decentralized storage systems that are on the rise:
The image below illustrates the general architecture of the BNB Greenfield. This structure is termed as Trinity because of its architecture's three major components: the BNB Greenfield dApps, BNB Greenfield Core, and the BNB Smart Chain (BSC).
The three components in the Trinity architecture hold the following functionality:
The consumers can, directly and indirectly, access the three members of the Trinity architecture, allowing the developers full control over the architectural design of the applications.
BNB Greenfield boasts distinctive features that make it an appealing option for both individuals and businesses. Here are some reasons why you may want to consider using BNB Greenfield as a decentralized storage for your data:
We will compare these networks based on several factors to understand better how BNB Greenfield outshines Filecoin, Storj, and Arweave.
Greenfield storage providers have implemented sharding by client buckets, aiming to provide access performance similar to traditional cloud storage services. This is expected to be much faster than existing DSN (Decentralized Storage Network) solutions such as Filecoin's Retrieval Providers and Arweave Gateway.
What sets BNB Greenfield apart is its introduction of concepts of data ownership and access permissions into DSN, making it programmable with BNB Smart Chain (BSC) smart contracts. This enables cross-chain and potential off-chain computing scenarios in the future, opening up new possibilities for the data economy.
In the context of data Integrity and persistence, Filecoin operates as an incentive layer that aims to provide permanent storage nodes. Users need to enter into deals with storage service providers each time they want to save files. These providers must then provide Proof of Space-Time to ensure the persistence of the data, which requires significant computational resources.
Arweave, on the other hand, uses SPoRA algorithms to incentivize storage service providers to replicate data for high-speed retrieval services. As a blockchain-based data persistence mechanism, all data is saved on the chain and remains available based on a probability model.
In the case of the BNB Greenfield network, any storage service provider that fails to behave honestly will face economic penalties and node slashing. This ensures a more efficient consensus proof. Greenfield validators and challengers perform challenges in a similar way to regular users downloading data. This not only guarantees data availability and redundancy but also checks the service speed. Validators can vote against storage providers that respond slowly to requests, ensuring that the challenged providers do not have enough time to recover data from other providers and that they maintain service quality in terms of bandwidth and latency.
In terms of incentives for storage, all of the storage networks provide storage providers and users with their native tokens. BNB Greenfield awards GFI, Filecoin uses the FIL token as a reward, Storj uses the STORJ token, and Arweave uses the AR token as a reward. One of the key aspects to note here is that the BNB token is deflationary and has broader utility when compared to tokens of other DSNs. The native tokens of other DSNs can only be used within their respective ecosystems and are project sensitive.
Transaction Speed: Transaction speed on all three platforms varies based on network demand but is generally fast, with transactions typically processed within seconds to minutes.
Transaction Fee: Transaction fee varies on Filecoin, depending on network demand. BNB Greenfield generally has a low, near-zero fee. On the other hand, in the long-term Arweave is more costly than BNB Greenfield.
Governance Model: Governance models also differ among the three platforms. Filecoin employs an on-chain governance approach through FIL token holders, Arweave follows a community-driven governance approach. On the other hand BNB Greenfield operates under decentralised governance, and any individual with a sufficient amount of BNB can submit an on-chain proposal for parameter changes. These proposals are then collectively reviewed and voted upon by the BSC Validator Set through a proposal-vote process.
Ecosystem: Filecoin and Arweave are already live on the mainnet, while BNB Greenfield has recently launched its testnet, and its mainnet is supposed to launch later this year. In terms of ecosystems, Filecoin has an established ecosystem with storage providers, developers, and users, but only 500 projects are hosted on it. Arweave's ecosystem is growing with developers and users. Nevertheless, even though BNB Greenfield is in its introductory phase, it enjoys the support of the much larger ecosystem of BNB Chain that has over 1500 dapps and 2M Daily Active Users (DAUs). On the BNB Greenfield mainnet, all these dapps and DAUs can have immediate access to BNB Greenfield.
Programmability: When it comes to programmability, both Filecoin and StorJ currently lack this feature, although the Filecoin Virtual Machine (FVM) mainnet is live. FVM tries to replicate EVM as a container and has cost and performance penalties because of this structuring. Furthermore, as compared to FVM, EVM is a far more mature framework with an extensive tooling landscape.
Arweave's SmartWeave, on the other hand, is not compatible with the EVM, requiring developers to learn the SmartWeave programming model to develop on the chain.
In contrast, BNB Greenfield is fully integrated with the BNB Smart Chain and is fully compatible with the EVM from day one. It supports Smart Contract integration right from the start rather than at a later stage. This means many Smart Contracts can use primitives to operate on almost all aspects of a data object stored on Greenfield.
Moreover, BNB Greenfield reuses the smart contract capability on the BNB Smart Chain (BSC) via a native cross-chain mechanism and maintains the same address format. This allows for an easy and seamless combination of the data economy with other existing assets, dApps, and users on BSC, offering much more composability.
BNB Greenfield has the capability to directly handle the substantial traffic and blockchain data of the BNB Chain without relying on token incentives for early network launch, as seen with Filcoin and Arwave. Additionally, it can expand the BNB Chain, incorporating the outsourced storage industry into its own domain, which empowers BNB further. Now, let's discuss the potential use cases of BNB Greenfield.
Personal Cloud Storage: Users have the ability to use their own private keys to generate their own network drives through BNB Greenfield. This feature enables them to securely upload and download their encrypted files, photos, and videos using both desktop and mobile devices. Compared to Web3 file storage, the threshold of BNB Greenfield is lower. It should be highlighted that IPFS is more effective in protecting user privacy and resisting censorship compared to traditional Web2 cloud storage services.
Web Deployment: Currently, web developers are acquainted with hosting services such as GoDaddy, HostGator, etc. However, BNB Greenfield introduces a novel concept by allowing any storage provider on its platform to function as a web hosting provider. This means that with BNB Greenfield, it becomes possible to create censorship-resistant websites that are accessible to anyone worldwide without any restrictions. This paves the way for a new level of internet freedom and equality.
BNB Greenfield provides developers with benefits also on the architectural level. The front end can be hosted on BNB Greenfield via object storage, eliminating the need to build separate web servers. It is also recommended that serverless services are used on the backend of the application. For the backend, BNB Greenfield advocates the use of serverless computing. This lethal combination of decentralized storage and serverless computing results in easier maintenance for developers, scalability for users, and cost savings. Refer here for more details.
BNB Greenfield APIs provide its users with the flexibility to deploy their websites through BNB Greenfield and easily manage their payments using BNB. This is a feature made available to developers that can give Web3 developers a new way to create a decentralized front end. For example, Nostr is a recently popular decentralized front-end that is deployed on Flux Cloud, effectively transforming into a fully decentralized social network.
Data Swapping: As the blockchain networks expand, the amount of data stored on the blockchain also increases, and maintaining historical data can be costly. To address this challenge, dApps can launch a data swapping feature with BNB Greenfield as a data availability layer, which helps to optimize space and accessibility of data on the blockchain. Data swapping involves identifying and moving certain data that is no longer relevant to a separate storage container for "inactive data", making it easier to manage, access, and utilize on-chain data.
Subscription-Based Decentralized Applications: BNB Greenfield dApps offer users the ability to manage their payments based on their activity within the BNB Greenfield ecosystem. Beyond traditional data usage payments, users can link their payment accounts on BNB Greenfield with specific dApps, allowing for the automatic allocation of funds for data usage payments. For instance, users can utilize DeFi staking rewards to seamlessly pay for data usage, creating a convenient and streamlined experience.
Behavioral Analytics: BNB Greenfield presents an opportunity for data analytics companies to directly compensate users for permission to securely analyze extensive amounts of data. This includes both static and dynamic data, which is held by BNB Greenfield storage providers and also encompasses smart contract and oracle-enabled data. By leveraging BNB Greenfield, data analytics companies can access valuable insights while ensuring user privacy and data security. BNB Greenfield represents a fresh approach to data management, prioritizing decentralization and scalability. This marks a notable advancement in the realm of data management and control.
Decentralized storage networks are becoming increasingly popular as users look for more secure and reliable storage solutions. With the emergence of new networks like BNB Greenfield, the future of decentralized storage networks looks bright. As more users adopt these networks, we can expect to see more innovation and advancements in this space.
In conclusion, BNB Greenfield is a new decentralized storage network market player that outshines well-established networks like Filecoin, Storj, and Arweave. The network offers several advantages, including cost-effectiveness, faster transaction speeds, scalability, and security. Additionally, BNB Greenfield offers several features that make it an attractive option for users, including decentralized file storage, data sharing, and dApp hosting. In conclusion, BNB Greenfield is a promising decentralized storage solution with several compelling benefits that make it worth considering.
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