Aptos has introduced a new governance initiative aimed at strengthening its network against future risks posed by quantum computing. Through Aptos Improvement Proposal 137, Aptos Labs has suggested adding support for SLH-DSA, a stateless, hash-based digital signature algorithm designed to withstand attacks from advanced quantum machines. The proposal reflects a proactive strategy to safeguard user accounts before quantum technology becomes capable of undermining existing cryptographic defenses.
If approved, the proposal would represent a significant milestone in blockchain security by offering quantum-resistant protection without forcing a disruptive network-wide transition. Instead, the approach emphasizes flexibility and gradual adoption, allowing users to choose enhanced security based on their needs.
SLH-DSA and Its Role in Quantum Readiness
The proposal centers on integrating SLH-DSA, a digital signature scheme recently standardized as FIPS 205 by the US National Institute of Standards and Technology. This algorithm is designed to remain secure even in scenarios where quantum computers could compromise commonly used cryptographic methods such as Elliptic Curve Cryptography. By aligning with a federally recognized standard, Aptos aims to ensure long-term credibility and robustness in its security framework.
Aptos Labs has indicated that the initiative is not driven by an immediate threat but by a long-term vision to stay ahead of technological shifts. As quantum computing continues to evolve from theory into practical experimentation, the potential risks to cryptographic systems are becoming more widely acknowledged across the industry.
Key Design Principles of AIP-137
Several features define the structure of the proposed upgrade. First, participation would be optional. Existing Aptos accounts that rely on the Ed25519 signature scheme would continue to function as usual, while users seeking additional protection could opt in to SLH-DSA. This design preserves backward compatibility and avoids forcing changes on the broader user base.
Second, the proposed algorithm relies on SHA-256, a hash function already well established in blockchain systems. By using familiar cryptographic components, Aptos reduces the need for new security assumptions and minimizes implementation risk. Finally, the proposal is structured to integrate seamlessly with the current infrastructure, ensuring that enhanced security does not come at the cost of network stability or performance.
Preparing for Long-Term Cryptographic Risks
Industry researchers widely agree that sufficiently powerful quantum computers could eventually derive private keys from public keys, enabling attackers to forge transactions on blockchain networks. Although such capabilities are not expected in the near term, the consequences could be severe if networks remain unprepared. Aptos’s decision to address this possibility early underscores its focus on maintaining trust and resilience as blockchain adoption expands.
Plans for a post-quantum future on Aptos, drafted by @AptosLabs' Head of Cryptography, @alinush.
→ AIP-137 aims to empower Aptos to better respond to future developments in quantum computing with a focus on ease of integration & limited new security assumptions.
Learn more 👇 https://t.co/dgPRueL4Jk
— Aptos (@Aptos) December 18, 2025
This emphasis on future-proofing aligns with broader industry efforts to anticipate technological disruption rather than reacting after vulnerabilities emerge. By planning ahead, Aptos positions itself as a network that prioritizes long-term security alongside innovation.
Growing Industry Momentum Toward Post-Quantum Security
Aptos is not the only blockchain exploring post-quantum protections. The Solana Foundation has recently collaborated with quantum security firm Project Eleven to launch a testnet featuring post-quantum digital signatures. That initiative evaluated whether advanced cryptographic safeguards could be deployed at scale without negatively affecting usability.
Solana’s work builds on earlier opt-in mechanisms such as the Winternitz Vault, a hash-based signature solution for wallets. Network leaders have described these efforts as part of a broader strategy to ensure resilience against future technological shifts. Other blockchain communities, including Bitcoin and Zcash, are also debating similar approaches, with proposals such as BIP-360 prompting discussion about the timing and necessity of quantum readiness.
Setting a Precedent for Flexible Security Evolution
Observers within the crypto sector have noted that Aptos’s optional upgrade model sets a constructive example. By respecting user choice while enabling developers and institutions to adopt stronger protections early, the network reduces friction and encourages smoother technological transitions. As more platforms explore quantum-resistant cryptography, these early initiatives may signal the beginning of a wider shift in how blockchain networks approach long-term trust and security.