Chainstack, a leading suite of services that provides Web3 infrastructure to developers, has unveiled a new milestone. The company has announced that its Chainstack Global Elastic Nodes are now supporting the Oasis Protocol, a privacy-centric layer for artificial intelligence and Web3 applications. This update was shared through the company’s official social media handle on platform X, highlighting this significant collaboration.
**Chainstack Global Elastic Nodes Embrace Oasis Protocol**
Dive into a blockchain environment designed for velocity, boasting a confidential EVM network that delivers scalable and customizable privacy tools for Solidity developers on all EVM-compatible chains.
The highlight…
— Chainstack ️ (@ChainstackHQ)
July 4, 2024
**Chainstack Extends Support to Oasis Protocol**
In a recent update on platform X, Chainstack revealed that its Global Elastic Nodes have integrated with Oasis Protocol. This integration brings forth a blockchain platform that prioritizes speed and confidentiality. The synergy between Chainstack and Oasis Protocol presents multiple benefits to users, including rapid connectivity with Chainstack nodes ensuring reliable and fast connections.
The collaboration also enhances global reach, reducing latency and boosting overall performance. Additionally, the Geo-load-balanced architecture, a unique aspect of this partnership, facilitates the automatic distribution of workloads across various locations, which in turn optimizes performance and reduces the chances of disconnections.
Moreover, this initiative promises unparalleled performance. Chainstack’s architecture offers exceptional scalability and speed. Furthermore, it allows developers to leverage these features without any monthly charges, drawing significant interest from the developer community.
**Understanding Chainstack Elastic Node**
Chainstack elastic nodes serve as a highly scalable node infrastructure accessible to open networks through a dedicated endpoint. Utilizing an elastic node, users compensate for JSON-RPC request traffic to the node, while avoiding costs associated with the node’s storage and computational resources.