I love watching #Kaspa #TN11 DAG structure when the mempool is under constant pressure and is being filled in a rate higher than DAG throughput capacity. The constant stream of full blocks creates processing and communication latency, and the DAG interconnections form beautiful… pic.twitter.com/y7dOt6Ku36
— Michael Sutton (@MichaelSuttonIL) September 5, 2024
**Michael Sutton Highlights the Intricacies of Kaspa’s DAG Structure Amidst Mempool Pressure**
In a recent social media post, Michael Sutton, a Distinguished Distributed Systems Researcher and Developer, shared his fascination with the dynamic characteristics of Kaspa’s Directed Acyclic Graph (DAG) structure. As one of the core developers of Kaspa, Sutton’s insights into the network’s performance are crucial for understanding the project’s innovative approach to blockchain technology.
In his tweet, Sutton expressed his admiration for observing how the DAG structure operates when the mempool—a space where transactions await confirmation—experiences continuous pressure. He noted that when transactions are being added at a rate that exceeds the throughput capacity of the DAG, it results in a constant stream of full blocks. This scenario not only highlights the efficiency of the Kaspa network but also introduces processing and communication latencies.
The beauty of Kaspa’s DAG lies in its ability to interconnect these full blocks, forming a complex and visually appealing structure, which Sutton illustrates with a captivating image shared alongside his commentary. His enthusiasm for this technical demonstration underscores his commitment to advancing the understanding of blockchain networks and their capabilities.
For those interested in diving deeper into the world of Kaspa and keeping up with its developments, Kaspanews.net is the ultimate resource for the latest news and information on this cutting-edge project.
Stay informed and connected to the evolving landscape of Kaspa by visiting Kaspanews.net, your go-to source for all things Kaspa.