Meson.Network is a decentralized bandwidth marketplace designed to optimize the utilization of network resources. By enabling users to share and monetize their unused bandwidth, Meson.Network facilitates an efficient and cost-effective exchange of bandwidth between providers and consumers.
The primary goal of Meson.Network is to create a bandwidth marketplace where users can act as providers, miners, or consumers who purchase bandwidth to meet their specific needs. This decentralized approach allows for a more flexible and scalable network infrastructure, reducing the reliance on traditional, centralized bandwidth providers.
Through the use of blockchain technology, Meson.Network ensures transparency, security, and decentralization in its operations. This system benefits individual users by providing an additional revenue stream through the sharing of idle bandwidth and enhances the efficiency and accessibility of internet resources.
Meson.Network launched its TestNet in 2021. The project was co-founded by Sherlock Shi and Russ Wong. Sherlock Shi, the CEO, brings a wealth of experience in blockchain technology and decentralized storage systems. He has been vital in guiding the strategic direction of Meson.Network, leveraging his deep knowledge of the industry. Russ, the co-founder, also plays relevant in the project’s development and community engagement, utilizing his background in blockchain and software engineering.
The testnet phase involved integrating the IPFS and Arweave as the storage layer and releasing the testnet mining rules. The successful deployment and operation of TestNet allowed the team to refine the platform and prepare for subsequent phases.
In 2023, Meson.Network launched its MainNet, transitioning from a testing environment to a fully operational network. This launch enabled users to start trading bandwidth resources on the platform, solidifying Meson.Network’s position in the decentralized infrastructure space.
The roadmap for Meson.Network includes several future developments aimed at expanding the platform’s capabilities. By 2024, the network plans to support EVM-compatible bridges, enhancing interoperability with other blockchain networks. This development aims to lower the usage threshold and integrate distributed home nodes, complementing the network’s infrastructure. By 2025, Meson.Network aims to launch its own blockchain, further advancing its control over the infrastructure and improving performance and scalability.
Screenshot of Roadmap plans for 2025
Notable investors and partners, including Libertus Capital, Hashkey, and Arweave, have supported Meson.Network’s growth and development. These partnerships have provided financial support and strategic guidance, helping Meson.Network navigate the complexities of building a decentralized infrastructure and bringing its vision to fruition.
Meson.Network backers, as shown in their website
Meson.Network operates a decentralized infrastructure with over 200 network edge locations that are strategically distributed to maximize network efficiency and coverage. The network boasts a capacity exceeding 10Tbps, capable of handling substantial bandwidth demands from various users and applications, ensuring that the network can support large-scale data transfers, video streaming, and other bandwidth-intensive activities without compromising performance.
The network maintains an average latency of 90ms, which is very important for applications requiring real-time data transmission, such as online gaming, video conferencing, and IoT communications. Low latency ensures that data packets are transmitted quickly between nodes, reducing delays and improving the final user experience.
The infrastructure’s reliability is further demonstrated by its 99.999999% hit ratio, a metric that indicates that the vast majority of data requests are successfully processed and delivered without errors, reflecting the network’s efficiency. A high hit ratio is essential for maintaining service quality, particularly for content delivery networks (CDNs) where uninterrupted access to data matters.
By distributing the network load across multiple locations, it reduces the risk of central points of failure and makes the network more resilient to attacks or outages. This decentralization aligns with the core principles of blockchain technology, promoting a more open and secure internet infrastructure.
GaGaNode provides decentralized edge cloud services. It supports multiple devices, including Raspberry Pi, Xbox, PlayStation, and IoT devices. This compatibility allows users to use their existing hardware to contribute to the network, enhancing resource utilization and minimizing waste, enabling efficient resource allocation and management across distributed nodes.
Edge computing brings computation and data storage closer to the location where it is needed, improving response times and saving bandwidth. GaGaNode capitalizes on this by distributing workloads across multiple nodes at the network’s edge. This setup reduces latency and improves the performance of applications that require real-time processing, such as video streaming, online gaming, and IoT operations.
In addition, GaGaNode provides a decentralized platform on which these computationally intensive tasks can be performed more efficiently. By distributing the processing load, GaGaNode reduces the bottlenecks encountered with other centralized cloud computing services. This decentralization is particularly beneficial for AI applications that require significant data processing capabilities, enabling faster analysis and more timely insights.
GaGaNode also integrates effectively with other components of Meson.Network, such as IPCola for big data processing and GatewayX for content delivery, ensuring that data can flow smoothly between different parts of the network, optimizing performance and user experience.
IPCola is a platform designed to handle big data infrastructure and intelligence. By using millions of GaGa nodes, it creates a dynamic ecosystem that facilitates data processing, analytics, and insights.
This platform provides the necessary tools and capabilities for managing large-scale data operations, making it suitable for advanced data-driven applications, while using the distributed nature of GaGa nodes to process vast amounts of data efficiently. By decentralizing data processing tasks, IPCola ensures that data can be processed closer to its source, reducing latency and improving performance. This capability is very meaningful for applications that require real-time data analysis and processing, such as financial modeling, scientific research, and real-time analytics.
The platform data analytics enables users to extract meaningful insights from large datasets. IPCola’s decentralized infrastructure allows for parallel processing of data, which significantly speeds up the analytics process. This feature is particularly beneficial for industries that rely on big data analytics, such as marketing, healthcare, and logistics.
By combining data processing and analytics capabilities, the platform helps users derive actionable insights from their data, supporting various data intelligence applications, from predictive analytics to machine learning and AI. These insights can drive decision-making processes and strategic planning across different sectors.
IPCola integrates well with other components of Meson.Network, such as GaGaNode and GatewayX, which allows for efficient data flow and resource utilization across the network. Users can leverage the combined strengths of these platforms to build comprehensive data solutions that are scalable and efficient.
GatewayX is integral to Meson.Network, supporting content delivery and network services. This platform leverages decentralized nodes to efficiently route and distribute data, providing gateway services useful for file transmission. GatewayX enhances content delivery networks (CDNs) by ensuring fast, reliable access to internet content such as web pages, videos, and streaming media.
The decentralized nature of GatewayX reduces the load on individual servers and minimizes latency, resulting in quicker data access and improved user experiences. It integrates various resources within Meson.Network, optimizing data flow and eliminating the need for complex human interventions in data exchanges. This integration ensures seamless operation and solid performance, making GatewayX essential for applications requiring high availability and low latency, such as live streaming and online gaming.
The MSN token is the native cryptocurrency of Meson.Network, designed to support its decentralized infrastructure and service, serving multiple roles within the ecosystem. It facilitates network operations, incentivizes participation, and enables governance. It is integral to rewarding miners who contribute server resources, facilitating bandwidth and data services transactions, and empowering users to partake in protocol governance.
The MSN token is Meson.Network’s native currency is designed to fulfill multiple roles within the ecosystem. The initial supply is capped at 100,000,000 tokens, part of its distribution strategy designed to ensure a balanced approach to funding, incentivizing participation, and maintaining network integrity.
Token distribution, according to Meson.Network documentation
Of the total supply, 26% is allocated for private sale, targeting early investors who support the network’s initial development and growth. Another 5% is reserved for public sale, allowing broader community participation and investment. To support network activities, including partnerships, community incentives, and ongoing project development, 27% of the tokens are designated for the ecosystem.
Foundation reserves account for 20% of the total supply to ensure the network’s long-term sustainability and fund future initiatives. The technical team, responsible for developing and maintaining the network, is allocated 15% of the tokens as compensation and incentive for their continued contributions. 6% of the tokens are set aside for strategic partners who provide critical support and services to Meson.Network. 1% is reserved for test-net mapping purposes, ensuring smooth transitions and upgrades within the network.
Mining rewards are a primary use, where tokens are awarded to miners who provide server resources. This incentivizes contributions to the network’s decentralization. Staking is intended to enhance mining efficiency, although its benefits are currently limited and expected to expand as the network develops.
Payments within Meson.Network for bandwidth and data services are made using MSN tokens. This process includes a burn and convert mechanism, where tokens paid by users are burned and converted into credits. This mechanism maintains a balanced token supply and promotes sustainable economic activity. MSN tokens are fundamental in network governance. Token holders can vote on protocol updates and other significant decisions, ensuring a democratic process where all stakeholders have a say in the network’s future.
The inflation of the MSN token supply is derived solely from mining rewards. Initially, the annual inflation rate is set at 5%, with a planned decrease of 0.5% each year. This controlled inflation model aligns with the network’s growth, ensuring that the token supply increases sustainably to match the rising resource demand.
Users can begin by visiting https://meson.network and clicking “Stake,” which will provide access to the platform’s features and functionalities.
To get started, users must connect their crypto wallets to the staking platform, and follow instructions.
To start mining on Meson.Network, users need to meet specific requirements: a static IP, an open firewall port 443, and at least 20GB of storage are necessary. Then, users must follow the detailed setup guide available in their documentation. For Linux systems, users must download and install the necessary software, configure the token settings, and start the service.
Once the node is set up, users can connect their wallet to claim MSN tokens. Meson.Network supports networks like Ethereum and Arbitrum for these transactions. The specific procedures for claiming tokens are detailed in the platform’s documentation.
MSN tokens can be used to pay for bandwidth and data services within Meson.Network. Payments made with Meson Credit receive discounts, encouraging the use of the native token for transactions and enhancing network efficiency.
Users can stake MSN tokens to participate in governance activities. Token holders have the right to vote on protocol proposals and updates, being a part of the development and decision-making processes of the network.
Meson.Network is a decentralized platform designed for efficient bandwidth exchange and data services. With over 200 edge locations and a capacity exceeding 10Tbps, the network ensures fast and reliable data transmission with an average latency of 90ms. This infrastructure supports a wide range of applications, from general internet use to complex data tasks.
The MSN token is essential to the network’s ecosystem. With an initial supply of 100,000,000 tokens, it supports mining rewards, staking, payments, and governance. The distribution and controlled inflation of MSN ensure sustainable growth and incentivize participation.
Meson.Network is a decentralized bandwidth marketplace designed to optimize the utilization of network resources. By enabling users to share and monetize their unused bandwidth, Meson.Network facilitates an efficient and cost-effective exchange of bandwidth between providers and consumers.
The primary goal of Meson.Network is to create a bandwidth marketplace where users can act as providers, miners, or consumers who purchase bandwidth to meet their specific needs. This decentralized approach allows for a more flexible and scalable network infrastructure, reducing the reliance on traditional, centralized bandwidth providers.
Through the use of blockchain technology, Meson.Network ensures transparency, security, and decentralization in its operations. This system benefits individual users by providing an additional revenue stream through the sharing of idle bandwidth and enhances the efficiency and accessibility of internet resources.
Meson.Network launched its TestNet in 2021. The project was co-founded by Sherlock Shi and Russ Wong. Sherlock Shi, the CEO, brings a wealth of experience in blockchain technology and decentralized storage systems. He has been vital in guiding the strategic direction of Meson.Network, leveraging his deep knowledge of the industry. Russ, the co-founder, also plays relevant in the project’s development and community engagement, utilizing his background in blockchain and software engineering.
The testnet phase involved integrating the IPFS and Arweave as the storage layer and releasing the testnet mining rules. The successful deployment and operation of TestNet allowed the team to refine the platform and prepare for subsequent phases.
In 2023, Meson.Network launched its MainNet, transitioning from a testing environment to a fully operational network. This launch enabled users to start trading bandwidth resources on the platform, solidifying Meson.Network’s position in the decentralized infrastructure space.
The roadmap for Meson.Network includes several future developments aimed at expanding the platform’s capabilities. By 2024, the network plans to support EVM-compatible bridges, enhancing interoperability with other blockchain networks. This development aims to lower the usage threshold and integrate distributed home nodes, complementing the network’s infrastructure. By 2025, Meson.Network aims to launch its own blockchain, further advancing its control over the infrastructure and improving performance and scalability.
Screenshot of Roadmap plans for 2025
Notable investors and partners, including Libertus Capital, Hashkey, and Arweave, have supported Meson.Network’s growth and development. These partnerships have provided financial support and strategic guidance, helping Meson.Network navigate the complexities of building a decentralized infrastructure and bringing its vision to fruition.
Meson.Network backers, as shown in their website
Meson.Network operates a decentralized infrastructure with over 200 network edge locations that are strategically distributed to maximize network efficiency and coverage. The network boasts a capacity exceeding 10Tbps, capable of handling substantial bandwidth demands from various users and applications, ensuring that the network can support large-scale data transfers, video streaming, and other bandwidth-intensive activities without compromising performance.
The network maintains an average latency of 90ms, which is very important for applications requiring real-time data transmission, such as online gaming, video conferencing, and IoT communications. Low latency ensures that data packets are transmitted quickly between nodes, reducing delays and improving the final user experience.
The infrastructure’s reliability is further demonstrated by its 99.999999% hit ratio, a metric that indicates that the vast majority of data requests are successfully processed and delivered without errors, reflecting the network’s efficiency. A high hit ratio is essential for maintaining service quality, particularly for content delivery networks (CDNs) where uninterrupted access to data matters.
By distributing the network load across multiple locations, it reduces the risk of central points of failure and makes the network more resilient to attacks or outages. This decentralization aligns with the core principles of blockchain technology, promoting a more open and secure internet infrastructure.
GaGaNode provides decentralized edge cloud services. It supports multiple devices, including Raspberry Pi, Xbox, PlayStation, and IoT devices. This compatibility allows users to use their existing hardware to contribute to the network, enhancing resource utilization and minimizing waste, enabling efficient resource allocation and management across distributed nodes.
Edge computing brings computation and data storage closer to the location where it is needed, improving response times and saving bandwidth. GaGaNode capitalizes on this by distributing workloads across multiple nodes at the network’s edge. This setup reduces latency and improves the performance of applications that require real-time processing, such as video streaming, online gaming, and IoT operations.
In addition, GaGaNode provides a decentralized platform on which these computationally intensive tasks can be performed more efficiently. By distributing the processing load, GaGaNode reduces the bottlenecks encountered with other centralized cloud computing services. This decentralization is particularly beneficial for AI applications that require significant data processing capabilities, enabling faster analysis and more timely insights.
GaGaNode also integrates effectively with other components of Meson.Network, such as IPCola for big data processing and GatewayX for content delivery, ensuring that data can flow smoothly between different parts of the network, optimizing performance and user experience.
IPCola is a platform designed to handle big data infrastructure and intelligence. By using millions of GaGa nodes, it creates a dynamic ecosystem that facilitates data processing, analytics, and insights.
This platform provides the necessary tools and capabilities for managing large-scale data operations, making it suitable for advanced data-driven applications, while using the distributed nature of GaGa nodes to process vast amounts of data efficiently. By decentralizing data processing tasks, IPCola ensures that data can be processed closer to its source, reducing latency and improving performance. This capability is very meaningful for applications that require real-time data analysis and processing, such as financial modeling, scientific research, and real-time analytics.
The platform data analytics enables users to extract meaningful insights from large datasets. IPCola’s decentralized infrastructure allows for parallel processing of data, which significantly speeds up the analytics process. This feature is particularly beneficial for industries that rely on big data analytics, such as marketing, healthcare, and logistics.
By combining data processing and analytics capabilities, the platform helps users derive actionable insights from their data, supporting various data intelligence applications, from predictive analytics to machine learning and AI. These insights can drive decision-making processes and strategic planning across different sectors.
IPCola integrates well with other components of Meson.Network, such as GaGaNode and GatewayX, which allows for efficient data flow and resource utilization across the network. Users can leverage the combined strengths of these platforms to build comprehensive data solutions that are scalable and efficient.
GatewayX is integral to Meson.Network, supporting content delivery and network services. This platform leverages decentralized nodes to efficiently route and distribute data, providing gateway services useful for file transmission. GatewayX enhances content delivery networks (CDNs) by ensuring fast, reliable access to internet content such as web pages, videos, and streaming media.
The decentralized nature of GatewayX reduces the load on individual servers and minimizes latency, resulting in quicker data access and improved user experiences. It integrates various resources within Meson.Network, optimizing data flow and eliminating the need for complex human interventions in data exchanges. This integration ensures seamless operation and solid performance, making GatewayX essential for applications requiring high availability and low latency, such as live streaming and online gaming.
The MSN token is the native cryptocurrency of Meson.Network, designed to support its decentralized infrastructure and service, serving multiple roles within the ecosystem. It facilitates network operations, incentivizes participation, and enables governance. It is integral to rewarding miners who contribute server resources, facilitating bandwidth and data services transactions, and empowering users to partake in protocol governance.
The MSN token is Meson.Network’s native currency is designed to fulfill multiple roles within the ecosystem. The initial supply is capped at 100,000,000 tokens, part of its distribution strategy designed to ensure a balanced approach to funding, incentivizing participation, and maintaining network integrity.
Token distribution, according to Meson.Network documentation
Of the total supply, 26% is allocated for private sale, targeting early investors who support the network’s initial development and growth. Another 5% is reserved for public sale, allowing broader community participation and investment. To support network activities, including partnerships, community incentives, and ongoing project development, 27% of the tokens are designated for the ecosystem.
Foundation reserves account for 20% of the total supply to ensure the network’s long-term sustainability and fund future initiatives. The technical team, responsible for developing and maintaining the network, is allocated 15% of the tokens as compensation and incentive for their continued contributions. 6% of the tokens are set aside for strategic partners who provide critical support and services to Meson.Network. 1% is reserved for test-net mapping purposes, ensuring smooth transitions and upgrades within the network.
Mining rewards are a primary use, where tokens are awarded to miners who provide server resources. This incentivizes contributions to the network’s decentralization. Staking is intended to enhance mining efficiency, although its benefits are currently limited and expected to expand as the network develops.
Payments within Meson.Network for bandwidth and data services are made using MSN tokens. This process includes a burn and convert mechanism, where tokens paid by users are burned and converted into credits. This mechanism maintains a balanced token supply and promotes sustainable economic activity. MSN tokens are fundamental in network governance. Token holders can vote on protocol updates and other significant decisions, ensuring a democratic process where all stakeholders have a say in the network’s future.
The inflation of the MSN token supply is derived solely from mining rewards. Initially, the annual inflation rate is set at 5%, with a planned decrease of 0.5% each year. This controlled inflation model aligns with the network’s growth, ensuring that the token supply increases sustainably to match the rising resource demand.
Users can begin by visiting https://meson.network and clicking “Stake,” which will provide access to the platform’s features and functionalities.
To get started, users must connect their crypto wallets to the staking platform, and follow instructions.
To start mining on Meson.Network, users need to meet specific requirements: a static IP, an open firewall port 443, and at least 20GB of storage are necessary. Then, users must follow the detailed setup guide available in their documentation. For Linux systems, users must download and install the necessary software, configure the token settings, and start the service.
Once the node is set up, users can connect their wallet to claim MSN tokens. Meson.Network supports networks like Ethereum and Arbitrum for these transactions. The specific procedures for claiming tokens are detailed in the platform’s documentation.
MSN tokens can be used to pay for bandwidth and data services within Meson.Network. Payments made with Meson Credit receive discounts, encouraging the use of the native token for transactions and enhancing network efficiency.
Users can stake MSN tokens to participate in governance activities. Token holders have the right to vote on protocol proposals and updates, being a part of the development and decision-making processes of the network.
Meson.Network is a decentralized platform designed for efficient bandwidth exchange and data services. With over 200 edge locations and a capacity exceeding 10Tbps, the network ensures fast and reliable data transmission with an average latency of 90ms. This infrastructure supports a wide range of applications, from general internet use to complex data tasks.
The MSN token is essential to the network’s ecosystem. With an initial supply of 100,000,000 tokens, it supports mining rewards, staking, payments, and governance. The distribution and controlled inflation of MSN ensure sustainable growth and incentivize participation.