Polygon ID excels at privacy-preserving, high-throughput credential verification by leveraging zero-knowledge proofs (ZKPs) on a dedicated L2. Its architecture, built on the Iden3 protocol and the Circom ZK toolkit, allows for selective disclosure of attributes without revealing underlying data. This is critical for KYC/AML or proof-of-humanity use cases where user privacy is paramount. The network benefits from Polygon's high TPS (up to 65,000) and low transaction fees (often <$0.01), making it cost-effective for mass-scale applications.
LABS
Comparisons
Polygon ID vs Ethereum Attestation Service
A technical analysis comparing Polygon ID's integrated zero-knowledge identity stack with Ethereum Attestation Service's minimalist, chain-agnostic registry for issuing and verifying on-chain attestations.
Chainscore © 2026
introduction
THE ANALYSIS
Introduction: The On-Chain Identity Infrastructure Decision
A technical breakdown of two leading frameworks for building verifiable, portable identity on-chain.
Ethereum Attestation Service (EAS) takes a different, maximally flexible approach by providing a schema-based attestation primitive directly on Ethereum L1 and its L2s. It is a public good protocol for making statements about anything—identities, reputations, or off-chain data—with on-chain verification. This results in a trade-off: unparalleled composability and sovereignty within the Ethereum ecosystem, but with higher gas costs for on-chain attestations and no built-in privacy layer like ZKPs. Its adoption is evident in its TVL of attestations across protocols like Optimism and Base.
The key trade-off: If your priority is user privacy, low cost, and high volume for a dedicated identity product, choose Polygon ID. If you prioritize maximum ecosystem composability, censorship resistance, and building a sovereign reputation graph integrated with DeFi and other Ethereum dApps, choose Ethereum Attestation Service.
tldr-summary
Polygon ID vs Ethereum Attestation Service
TL;DR: Core Differentiators
Key architectural and use-case trade-offs at a glance.
01
Polygon ID: Zero-Knowledge Privacy
Core Advantage: Built on Iden3 protocol and zk-proofs (Circom). Users prove claims (e.g., age > 18) without revealing underlying data. This is critical for privacy-preserving KYC and selective disclosure in DeFi or DAO voting.
02
Polygon ID: Portable Identity Graphs
Core Advantage: Uses W3C Verifiable Credentials (VCs) and decentralized identifiers (DIDs). This creates portable, user-centric identity graphs that work across dApps, ideal for reputation systems and cross-platform loyalty programs.
03
EAS: Schema-Flexible Attestations
Core Advantage: A schema-agnostic registry. Anyone can create a schema (e.g., isHuman, contributedToDAO) and make on-chain attestations. This is perfect for permissionless reputation, on-chain credentials, and attestations as public goods.
04
EAS: Ethereum-Native & Composable
Core Advantage: Deployed on Ethereum mainnet, Optimism, Arbitrum, Base. Attestations are immutable, public records that any smart contract can trustlessly query. Essential for on-chain governance, sybil resistance, and trust-minimized integrations.
POLYGON ID VS. ETHEREUM ATTESTATION SERVICE
Head-to-Head Feature Comparison
Direct comparison of key architectural and operational metrics for on-chain identity solutions.
| Metric | Polygon ID | Ethereum Attestation Service (EAS) |
|---|---|---|
Core Architecture | Self-Sovereign Identity (W3C Verifiable Credentials) | Schema-Based Attestation Registry |
Primary Data Location | Off-chain (IPFS, Ceramic) with on-chain proofs | On-chain (Ethereum L1/L2) |
Native ZK Proof Support | ||
Default Attestation Revocation | ||
Gas Cost per Attestation (L2) | $0.01 - $0.05 | $0.001 - $0.02 |
Supported Chains | Polygon PoS, zkEVM, other EVMs via bridge | Ethereum, Arbitrum, Optimism, Base, 25+ chains |
Integration Complexity | High (requires Issuer/Verifier/Wallet) | Low (smart contract calls) |
pros-cons-a
PROS AND CONS
Polygon ID vs Ethereum Attestation Service
Key architectural and ecosystem trade-offs for decentralized identity solutions. Use this matrix to align your choice with protocol priorities and user experience requirements.
01
Polygon ID: Native ZK Efficiency
Built on Polygon's ZK stack: Leverages Plonky2 for fast, cheap zero-knowledge proof generation. This matters for high-frequency, user-facing applications where gas costs and latency are critical, such as Sybil-resistant airdrops or gated content.
< $0.01
Avg. Claim Cost
04
EAS: Maximum Decentralization & Security
Inherits Ethereum L1 security: Attestations are secured by Ethereum's consensus. This matters for high-value, long-lived credentials where censor-resistance and immutability are non-negotiable, such as academic degrees or property titles.
Ethereum L1
Security Base
05
Polygon ID: Higher Implementation Complexity
Requires ZK-circuit knowledge: Developers must manage issuer nodes, credential schemas, and proof logic. This is a con for teams wanting a simple, plug-and-play solution and can be a barrier to rapid prototyping compared to EAS's simpler smart contract interface.
06
EAS: Higher On-Chain Cost & Latency
L1 gas fees for every record: Writing and revoking attestations incurs mainnet gas costs. This is a con for mass-market applications requiring millions of low-value attestations, where Polygon ID's off-chain model with on-chain state roots is more economical.
$2-$10+
Avg. L1 Attestation Cost
pros-cons-b
Polygon ID vs Ethereum Attestation Service
Ethereum Attestation Service: Pros and Cons
Key strengths and trade-offs for two leading decentralized identity frameworks.
01
Polygon ID: ZK-Powered Privacy
Core Advantage: Built on zero-knowledge proofs (Circom, Iden3). Users prove claims (e.g., age > 18) without revealing underlying data. This matters for privacy-first applications like selective KYC or anonymous credentials.
ZK
Proof Type
02
Polygon ID: Layer 2 Performance
Core Advantage: Native to the Polygon PoS chain, offering ~7,000 TPS and <$0.01 transaction fees. This matters for high-volume, user-facing dApps where cost and speed are critical for onboarding.
<$0.01
Avg. Attestation Cost
03
Polygon ID: Trade-off - Ecosystem Fragmentation
Key Limitation: Primarily optimized for the Polygon ecosystem. While portable, attestations have less native weight on Ethereum L1 or other L2s. This matters if your primary user base or assets are on Ethereum Mainnet.
04
Ethereum Attestation Service: L1 Security & Composability
Core Advantage: Attestations are stored on Ethereum L1 (or any EVM chain via EAS-Contracts), inheriting maximal security and decentralization. This matters for high-value, cross-protocol credentials like governance power or credit scores.
L1
Security Base
05
Ethereum Attestation Service: Schema Agnostic & Permissionless
Core Advantage: A public good infrastructure with no native token. Anyone can create and define attestation schemas without approval. This matters for permissionless innovation and avoiding vendor lock-in.
06
Ethereum Attestation Service: Trade-off - Cost & Latency
Key Limitation: On Ethereum Mainnet, attestations cost $2-$10+ and are bound by ~12-second block times. This matters for mass-market applications where micro-transactions and instant verification are required.
$2-$10+
L1 Attestation Cost
CHOOSE YOUR PRIORITY
When to Choose Which: Decision by Use Case
Ethereum Attestation Service (EAS) for DeFi & DAOs
Verdict: The Standard for On-Chain Reputation. Strengths: Native integration with the Ethereum ecosystem and its massive $50B+ DeFi TVL. EAS attestations are immutable, portable, and composable, making them ideal for building soulbound tokens (SBTs), credit delegation systems (like Cred Protocol), and DAO governance (e.g., Syndicate). Its schema registry allows for standardized, verifiable credentials across protocols like Aave, Compound, and Uniswap.
Polygon ID for DeFi & DAOs
Verdict: Privacy-First for Selective Disclosure. Strengths: Enables zero-knowledge proofs (ZKPs) via iden3 protocol and Circom. Users can prove eligibility (e.g., "I'm accredited" or "my credit score > 700") without revealing underlying data. This is critical for compliant DeFi and private voting in DAOs. However, its adoption within mainstream Ethereum DeFi is still nascent compared to EAS's network effects.
verdict
THE ANALYSIS
Final Verdict and Decision Framework
A data-driven breakdown to guide your infrastructure choice between two leading decentralized identity solutions.
Polygon ID excels at providing a high-throughput, low-cost, and user-friendly framework for private identity verification on-chain. Its use of zero-knowledge proofs (ZKPs) and the Iden3 protocol allows for selective disclosure of credentials without revealing underlying data, which is critical for consumer-facing dApps. For example, its integration with the Polygon PoS chain enables verification transactions for a fraction of a cent, compared to the multi-dollar costs possible on Ethereum mainnet, making it viable for high-volume applications like Sybil-resistant airdrops or gamified loyalty programs.
Ethereum Attestation Service (EAS) takes a different approach by offering a maximally flexible, schema-agnostic, and chain-agnostic attestation primitive. This results in a trade-off: while it lacks Polygon ID's built-in ZKP privacy and dedicated identity stack, its minimalism makes it the de facto standard for creating any type of on-chain reputation, from KYC verifications to project governance votes. Its data lives as cheap, immutable attestations on Ethereum (or any EVM chain via its contracts), benefiting from the network's unparalleled security and decentralization for high-value, trust-critical records.
The key trade-off: If your priority is privacy-preserving, scalable identity for mass adoption with a complete SDK and wallet integration, choose Polygon ID. If you prioritize maximum flexibility, Ethereum's security, and building a custom reputation layer where attestations are public and verifiable by any contract, choose Ethereum Attestation Service. For projects like a DeFi protocol requiring verifiable, on-chain credit scores, EAS is ideal. For a web3 social media platform needing private proof-of-humanity, Polygon ID's ZK circuit library is the superior choice.
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