With this work, we introduce the concept of Timechain-level model, along with an open-source implementation (Ultraviolet), to abstract the complexity of the Lightning Network (LN) while still providing a vision of base layer events and protocol internals. After depicting how each element of the model is mapped into the LN architectural stack, we show a case study to demonstrate its usage in investigating large-scale scenarios for research, development and educational purposes. Finally, we present a comparison to properly contextualize our contribution to the current state of the art of LN modelling, highlighting the advancements introduced by a Timechain-level and future directions of research it opens.
Abstracting Bitcoin Lightning Network Complexity with Ultraviolet
Patti, Davide;Monteleone, Salvatore;Russo, Enrico;Palesi, Maurizio;Catania, Vincenzo
2024-01-01
Abstract
With this work, we introduce the concept of Timechain-level model, along with an open-source implementation (Ultraviolet), to abstract the complexity of the Lightning Network (LN) while still providing a vision of base layer events and protocol internals. After depicting how each element of the model is mapped into the LN architectural stack, we show a case study to demonstrate its usage in investigating large-scale scenarios for research, development and educational purposes. Finally, we present a comparison to properly contextualize our contribution to the current state of the art of LN modelling, highlighting the advancements introduced by a Timechain-level and future directions of research it opens.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
