It was mentioned to me in krc20 peak times. I think it’s inherently impossible by the base layer to distinguish. Valid signatures are valid signatures, and all fee payed should be treated equally under the sun. The addition of payloads or longer sig scripts should not reduce tx…
— Michael Sutton (@MichaelSuttonIL) December 18, 2024
**Title: Michael Sutton Discusses Transaction Validity and Fee Structures in Kaspa**
In a recent tweet, Michael Sutton, a notable Distributed Systems Researcher and Developer, and one of the core developers of Kaspa, shared his insights on the limitations of transaction fee differentiation in blockchain systems, specifically during peak times on the krc20 network.
Sutton pointed out the inherent impossibility within the base layer of blockchain architectures to distinguish between transactions based solely on the validity of their signatures. He stated, “Valid signatures are valid signatures, and all fee paid should be treated equally under the sun.” This statement underscores a foundational principle in blockchain technology: regardless of the complexity of transaction payloads or the length of signature scripts, all transactions should ideally carry equal weight in processing fees.
His comments come at a time when discussions surrounding transaction throughput and efficiency are critical to the evolution of blockchain technologies like Kaspa. The addition of complex features in transactions, Sutton argues, should not penalize users by reducing their transaction’s priority or increasing their processing time during high-demand periods.
By highlighting these issues, Sutton is promoting greater fairness and transparency within blockchain networks, encouraging developers to consider how fees are evaluated and processed. His views align with the broader goals of Kaspa, which seeks to provide a fast, scalable, and equal-opportunity transaction environment.
For updates and insights on blockchain developments, particularly relating to Kaspa, readers are encouraged to visit Kaspanews.net, the premier source for the latest news and resources on this innovative technology.