Zero-Knowledge Rollups are at the forefront of Ethereum’s scaling revolution, offering trustless verification, lower fees, and enhanced privacy. As zkEVMs, recursive proofs, and decentralized proving networks evolve, ZK-Rollups are ready to redefine blockchain efficiency. But will they fully replace Optimistic Rollups?

This article by SwapSpace CEO Andrew Wind explores the future of ZK-Rollups, their challenges, and the innovations shaping their adoption.

The state of ZK-Rollups today

Zero-knowledge rollups or ZK-Rollups have rapidly become one of Ethereum's most promising scaling solutions, significantly reducing transaction costs and improving throughput without compromising security. By using zero-knowledge proofs, these rollups bundle multiple transactions into a single proof, which is then verified on-chain. This allows Ethereum to handle up to 100,000 transactions per second (TPS) while maintaining its security guarantees.

Currently, several major projects are leading the ZK-Rollup space, including StarkNet, zkSync, Polygon zkEVM, and Scroll. Each has a unique approach to proof generation, decentralization, and Ethereum Virtual Machine (EVM) compatibility.

Important! While StarkNet uses STARKs (Scalable Transparent Argument of Knowledge) for its proofs, zkSync and Polygon zkEVM focus on making ZK-Rollups fully EVM-compatible, enabling seamless migration of existing smart contracts.

However, ZK-Rollups still have some challenges. Generating zero-knowledge proofs is computationally expensive, leading to latency issues and centralization concerns, as only a few entities currently have the capability to generate proofs efficiently. Additionally, developer adoption remains a problem, as writing smart contracts optimized for ZK execution requires specialized knowledge.

Interesting fact! In 2023, the first-ever recursive ZK-proof was successfully generated on Ethereum, proving that multiple transactions can be aggregated into a single proof, exponentially increasing scalability potential.

The next evolution: recursive proofs & zkEVM

As ZK-Rollups evolve, two major innovations, such as recursive proofs and zkEVMs are shaping the future of Ethereum scalability.

Recursive proofs: scaling without limits

Recursive proofs allow multiple zero-knowledge proofs to be combined into a single proof, drastically reducing verification costs on Ethereum. For instance, verifying a single ZK-SNARK proof on Ethereum consumes approximately 500,000 gas, which, at a gas price of 30 Gwei and an ETH price of $3,000, equates to about $20 per verification. This means rollups can process and aggregate transactions more efficiently before submitting them on-chain.

Thus, recursive proofs reduce on-chain gas costs by compressing multiple proofs into one, enable exponential scalability by stacking multiple proof layers and lower latency, making ZK-Rollups more competitive with Optimistic Rollups.

Notable Implementations of recursive proofs include:

• Plonky2 (by Succinct Labs): A highly efficient recursive proof system optimized for speed.

• StarkWare’s SHARP: Aggregates transactions across different dApps, reducing costs for users.

zkEVMs: making Ethereum fully ZK-compatible

A major challenge for ZK-Rollups has been EVM compatibility. zkEVMs solve this by enabling smart contracts to run in a zero-knowledge environment without modification.

Leading zkEVM projects are:

• Polygon zkEVM & Scroll: Prioritize efficiency while maintaining high compatibility.

• zkSync Era: Focuses on developer-friendly tooling and native account abstraction.

• Taiko (Type 1 zkEVM): Strives for full Ethereum equivalence but faces higher proving costs.

Each zkEVM design balances trade-offs between efficiency, security, and developer experience. As zkEVMs mature, they are set to accelerate Ethereum’s transition to a highly scalable, trustless ecosystem.

Decentralizing the prover network

One of the biggest challenges in ZK-Rollups today is the centralization of proof generation. Currently, most ZK-Rollup projects rely on a small set of trusted entities to generate and submit proofs to Ethereum. This creates potential problems, censorship risks, and trust assumptions – contradicting the decentralized idea behind blockchain technology.

Why decentralization matters

• Reduces reliance on a single entity, making rollups more censorship-resistant.

• Improves network security by distributing proof generation.

• Lowers costs over time by increasing competition among provers.

Approaches to decentralizing provers

• Multi-prover networks: StarkNet is working toward a decentralized network of provers, allowing multiple participants to generate and validate proofs.

• SNARK-as-a-Service: Initiatives like Aleo and Mina offer proof marketplaces where different entities can generate ZK-proofs, reducing dependency on centralized nodes.

• Specialized ZK hardware: Companies like Nvidia are developing ZK-accelerated chips to lower computational costs, enabling more participants to act as provers.

ZK-Rollups vs. Optimistic Rollups: long-term outlook

Ethereum’s Layer 2 ecosystem is currently divided between Optimistic Rollups (ORs) and Zero-Knowledge Rollups (ZK-Rollups), each offering unique advantages and trade-offs. While both solutions scale Ethereum by executing transactions off-chain and posting compressed data on-chain, their security models and finality mechanisms set them apart.

• Optimistic Rollups, such as Arbitrum and Optimism, assume transactions are valid by default and rely on a fraud-proof system. If an invalid transaction is detected, a challenge period (typically seven days) allows for dispute resolution. This approach makes ORs easy to implement and cost-effective in the short term, but the delayed finality and reliance on honest actors introduce security trade-offs.

• ZK-Rollups, like StarkNet, zkSync, and Polygon zkEVM, take a different approach by using validity proofs to cryptographically verify transactions before posting them on-chain. This eliminates the need for a challenge period, offering instant finality and enhanced security. However, generating zero-knowledge proofs remains computationally expensive, slowing adoption.

Despite Optimistic Rollups currently leading in adoption, Ethereum’s co-founder Vitalik Buterin has predicted that ZK-Rollups will ultimately become the dominant scaling solution due to their stronger security guarantees and faster transaction finality.

Future innovations and open challenges

ZK-Rollups are rapidly evolving, but several innovations and challenges will determine their long-term impact. One key area of development is privacy-preserving applications. While ZK-Rollups already enhance scalability, integrating zero-knowledge proofs for on-chain privacy could enable private DeFi transactions, confidential voting, and secure identity solutions.

Example! Projects like Aztec Network are actively working on private smart contracts using ZK technology.

Another major innovation is reducing the computational costs of proof generation. Today, generating ZK-proofs is expensive and requires specialized hardware and substantial computing power. Companies like Ingonyama are developing ZK-accelerated hardware, while frameworks like Nova aim to make proof generation significantly more efficient. These advances will be critical for making ZK-Rollups widely accessible.

Interoperability is also a pressing issue. Currently, most ZK-Rollups operate as isolated ecosystems, limiting liquidity and composability. Efforts like zkBridge by Polyhedra Network and Succinct Labs' ZK light clients are focused on enabling seamless communication between different blockchains using ZK proofs.

However, regulatory uncertainty is still a challenge. Governments are starting to closely examine privacy-focused technologies, which could affect how widely ZK-Rollups are adopted. The future of ZK-Rollups will depend on solving these challenges while continuing to improve scalability and decentralization.

Conclusion

ZK-Rollups hold the potential to transform Ethereum with enhanced scalability, security, and privacy features. Despite challenges like high proving costs and decentralization, advances in recursive proofs, zkEVMs, and ZK-accelerated hardware are pushing the technology forward. While Optimistic Rollups currently dominate, Buterin predicts ZK-Rollups will eventually take the lead. Overcoming technical and regulatory hurdles will be key to unlocking their full potential, offering a more scalable and decentralized blockchain future.