A short and relevant $kas lesson
In the first step, the GHOSTDAG algorithm isolates a selected chain going from the selected tip to the pruning block. Each block has a selected parent.
Tracking the changes to the UTXO set is much easier when only transactions on the selected… pic.twitter.com/Sp9QetzpLf— Shai ❤️ Deshe 💜 Wybors𐤊i 💙 (大胡子) (@DesheShai) September 15, 2024
**Title: Understanding GHOSTDAG: Insights from Shai Wyborski, Core Developer of Kaspa**
On September 15, 2024, Shai Wyborski, known as Deshe, shared an insightful lesson on Twitter regarding the workings of the GHOSTDAG algorithm, a crucial component of the Kaspa blockchain. As a PhD candidate in quantum cryptography and one of the core developers behind Kaspa, Wyborski’s expertise sheds light on the innovative mechanisms that underpin this next-generation blockchain technology.
In his tweet, Wyborski explained the initial steps of the GHOSTDAG algorithm, which serves to isolate a selected chain extending from the chosen tip to the pruning block. Each block within the Kaspa network has a designated parent, a feature that simplifies the tracking of changes within the Unspent Transaction Output (UTXO) set. This highlights the efficiency and sophistication of the Kaspa protocol, allowing for rapid and scalable transaction processing while maintaining robust security.
Kaspa’s GHOSTDAG algorithm is designed to maximize throughput and minimize congestion, tackling many of the issues faced by traditional blockchains. By enabling concurrent block processing, it paves the way for quick confirmations and higher transaction rates, addressing the demands of modern digital finance.
For those interested in further exploring the technological advancements within Kaspa and keeping up with the latest news, Kaspanews.net is the best site to access resources and updates on the evolving landscape of this innovative blockchain platform.