Taiko Alethia, a major blockchain innovator, recently announced the launch of the most highly anticipated upgrade known as “Pacaya Hardfork.” According to Taiko Alethia, the launch of Pacaya Hardfork’s mainnet shows a groundbreaking development in achieving its goal of offering a fully native rollup that improves forwarding verification capabilities. The platform revealed this upgrade in a series of X posts.
Pakaya Hardfork, an important step towards bass’s preconceptions, will be coming to Taiping Arechia Mainnet next week. This is one of Taiko’s most important milestones.
Let’s take a closer look at what happens.
1/🧵pic.twitter.com/qilzj635s3
– Taiko.eth🥁 (@taikoxyz) May 17, 2025
Taiko Alethia releases Pacaya Hardfork on Mainnet after comprehensive exams
Taiko Alethia’s latest Pacaya Hardfork upgrade is underway following a thorough investigation. The platform reportedly underwent rigorous testing via Hekla TestNet along with important bug fixes. The Pacaya fork was then declared ready to eventually unfold into the mainnet. This requires the node operator to upgrade the Alethia node application and upgrade the Raiko instance prior to the deployment of the fork. Otherwise, they could experience the chaos of subsequent operations.
Pacaya Hardfork offers many notable upgrades focused on improving the consumer experience. In addition to this, development is also preparing an ecosystem for native reunions. This feature significantly minimizes transfer confirmation time. Each change is not compatible with the current “contestable roll-up” design and requires changes to the architecture of the Solar Arethia. At the same time, Pacaya will streamline its proof mechanism and eliminate the limitations that Taiko had previously experienced on the platform.
Promote scalability, cost-effectiveness, and fast transfer confirmation
An important update included in this development is a batch-based protocol for block proposals. As part of this model, a batch group of blocks runs along the shared transport source and metadata. This makes it cost-effective, almost as much as frequent small blocks. This allows for quick transfer confirmation within an exclusive-based model. Additionally, this design reduces costs, improves scalability and improves user experience.