Special Processing Networks (SPNs): The Future World Computing Model

Overview

Pharos Network supports the deployment of Special Processing Networks (SPNs), specialized, customizable blockchain environments designed for diverse application needs. By choosing a validator within the Pharos Network, users can establish dedicated SPNs, each capable of employing unique protocols for specific use cases, such as AIoT private networks or multi-party privacy-enhancing computations. Lightweight SPNs are designed to support networks requiring access to specialized hardware, like TEE for transaction confidentiality or MEV optimization.

Enhancing Scalability with DP5 and Heterogeneous Computing

Pharos SPNs are designed for optimized scalability and adaptability to diverse computational needs. By supporting specialized data and computational requirements, SPNs seamlessly integrate various blockchain ecosystems and computational resources, ultimately optimizing network performance, reducing costs, and meeting the demands of high-load applications.

Table1: SPNs vs. Traditional Subnets and L2 Solutions

Pharos SPN

Traditional Subnet

L2 Solutions

Performance

High

High

High

Cost

Low

Low

High

Scalability

High

High

Medium

Security

High

Medium

Low - Medium

Management

Managed via Contracts

Managed via Blockchain

Managed via Contracts

Startup Efficiency

Minute-level

Minute-level

Minute to hour-level

Customizable Protocols

Customizable

Customizable

Limited consensus customization

MainNet/PrimaryNet Message Confirmation

Seconds

Seconds

Hours to days

Heterogeneous Computation

Additional support for running ZKML, FHE, MPC, LLM, and other application scenarios

Mainly supports general computation

Typically does not support complex heterogeneous computation scenarios

SPN Architecture

Native Restaking Protocol

Within the Pharos Network, validators stake P Tokens to secure the Primary Network. Each staked token generates a token certificate, stP, which can be restaked into an SPN for additional rewards, albeit with increased slashing risks. SPNs set their own validator requirements, including the target validator count, soft/hard caps on stP, and specific hardware needs. Upon fulfilling these conditions, the Primary Network automatically initiates the creation of the SPN, which then begins to provide its unique services.

Restaking enables validators to dynamically allocate their staked assets to SPNs, enhancing both the network’s liquidity and security. This also improves economic incentives and allows for adaptive resource distribution across the network, balancing demand with performance.

Control and Data flow in SPN

Pharos SPNs include a modular control and data flow structure to facilitate efficient operations and interactions:

  • SPN Manager: Manages SPN creation, destruction, message communication, and asset transfer, with all transactions immutably recorded on the Primary Network.

  • Core Components:

    • Registry: Responsible for SPN registration and management.

    • Mailbox: Records SPN messages and events.

    • Bridge: Manages asset transfers between SPNs and the Primary Network.

  • SPN Network Hub: Facilitates message and event communication across SPNs and the Primary Network.

  • SPN Adapter: Handles incoming messages and events from the Primary Network, ensuring accurate processing and execution within each SPN.

SPN Interoperability Protocol

Pharos enables seamless communication between SPNs using an efficient Cross-SPN Interoperability Protocol:

  1. Cross-SPN Transaction Initiation: A user initiates a cross-SPN transaction in SPN1, aiming for it to be executed in SPN2’s message queue.

  2. Message Transmission: A Relayer sends the transaction, including proof and block header, to the Primary Network.

  3. Verification and Recording: The Primary Network verifies the transaction and records it in the Mailbox, ensuring the transaction’s authenticity.

  4. Message Execution in SPN2: SPN2 retrieves the message, recording it within its own Mailbox, completing the cross-SPN communication process.

Building the Future Web3 Payment Ecosystem

The Pharos Network envisions a robust Web3 payment ecosystem, supporting advanced use cases like monthly payments and decentralized finance concepts such as PayFi. Through SPNs, Pharos can create specialized networks tailored to these financial innovations, providing flexible blockchain and non-blockchain infrastructures.

Conclusion

Pharos SPNs elevate blockchain capabilities by integrating advanced resource management, interoperability, and security measures to foster digital innovation. Leveraging SPNs and Restaking, Pharos seeks to establish a dynamic, secure, and high-performing blockchain ecosystem that can adapt to the fast-evolving digital landscape.

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