👾EON Solution

EON introduces a blockchain-based solution to navigate the computational demands for on-chain AI. The performance of consumer GPUs in graphic rendering often surpasses that of enterprise GPUs, with the former being idle for extended periods. In the EON marketplace, the idle computing power can make a huge impact.

3.1 Blockchain based marketplace

EON harnesses blockchain technology to expand the application of these collaborative efforts through token incentives. By integrating blockchain, EON enables a wider adoption of this model, allowing for the decentralized aggregation of computing power. This approach not only makes the utilization of computational resources more efficient for tasks like inference computations and fine-tuning but also opens up the possibility of using distributed resources for the costly process of training large models. Through this innovative use of blockchain, EON is setting a new standard for computational collaboration, offering a scalable, cost-effective solution for the demands of large model computing.

EON protocol addresses the pressing demand for computational power by harnessing GPUs from underutilized entities. These resources are amalgamated within a Decentralized Physical Infrastructure Network (DePIN), granting engineers unprecedented access to vast computing capabilities. This framework is designed to be accessible, customizable, and cost-efficient, simplifying the implementation process for users.

3.2 Token incentive

With the advent of blockchain technology, the incentive model has evolved, allowing for broader application through token-based rewards.

EON tokens serve a dual purpose within its ecosystem in the beginning. Initially, $EON acts as one of the primary currencies for settling transactions and mining emission, for purchasing or leasing computational power and mining. This foundational use case ensures that EON tokens are integral to facilitating the exchange of resources within the platform. Furthermore, EON is committed to expanding the utility of its tokens by introducing additional use cases within the ecosystem. This strategy not only enhances the value of EON tokens but also enriches the overall functionality and user experience on the platform, creating a more vibrant and dynamic environment for all participants.

3.3 Competitive price

EON distinguishes itself in the computational power market by leveraging the twin strategies of scale and collaborative synergy to offer the most competitive pricing for computational power. Through the expansive aggregation of resources across its decentralized network, EON achieves economies of scale that significantly reduce the cost of computational resources. This large-scale operation allows for the efficient distribution of computing tasks, optimizing the utilization of each unit of computational power and thereby lowering overall costs.

Estimated Price on EON Marketplace

Moreover, EON fosters a collaborative environment where synergies between various stakeholders: from individual contributors to large data centers, enhance the value delivered to each participant. This collaborative model not only maximizes resource efficiency but also encourages a richer ecosystem of computational supply, further driving down prices.

EON price VS io,net

By combining these strategies, EON is able to provide market-leading prices for computational power, making high-quality computing resources accessible to a broader range of users and applications. This competitive pricing structure is a cornerstone of EON's mission to democratize access to computational resources, ensuring that developers, researchers, and businesses can leverage the power of AI and other computationally intensive technologies without prohibitive costs.