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Apps using XP2P

Download a list of all 28 XP2P customers with contacts.

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App Installs Publisher Publisher Email Publisher Social Publisher Website
2M Tencent Technology (Shenzhen) Company Limited *****@tencent.com
linkedin twitter
https://tingting.qq.com/
1M 广州虎牙信息科技有限公司 *****@huya.com
linkedin
http://www.huya.com/
810K Wuhan Ouyue Online TV Co.,Ltd. *****@douyu.tv - http://www.douyu.com/
116K Yi Feng Lian He (Beijing) Technology Co., Ltd. - - http://apps.ifeng.com/products/news-iphone.shtml
85K 广州虎牙信息科技有限公司 *****@huya.com
linkedin
http://www.huya.com/
81K CCTV international network company Limited *****@vip.cntv.cn - http://www.cntv.cn/
71K Lazyaudio Online Co., Ltd. - - http://m.lrts.me/
35K Juangua network Co., Ltd. Hangzhou -
linkedin
https://www.mogujie.com/
19K 海南虎翼信息科技有限公司 *****@huya.com - https://yowa.huya.com/
12K 广州虎牙信息科技有限公司 *****@huya.com
linkedin
http://www.huya.com/

Full list contains 28 apps using XP2P in the U.S, of which 27 are currently active and 17 have been updated over the past year, with publisher contacts included.

List updated on 21th August 2024

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Overview: What is XP2P?

XP2P, which stands for eXtensible Peer-to-Peer, is a cutting-edge software development kit (SDK) designed to revolutionize the way applications communicate and share data across networks. This innovative technology leverages the power of peer-to-peer (P2P) networking to create decentralized, efficient, and secure connections between devices and applications. XP2P offers developers a robust set of tools and APIs to implement P2P functionality seamlessly into their projects, enabling real-time data transfer, file sharing, and collaborative features without the need for centralized servers. One of the key advantages of XP2P is its ability to reduce latency and improve overall network performance by facilitating direct connections between peers. This makes it an ideal solution for applications that require low-latency communication, such as online gaming, video streaming, and real-time collaboration tools. The SDK supports various network topologies, including mesh networks and hybrid architectures, allowing developers to choose the most suitable configuration for their specific use case. XP2P incorporates advanced security features to ensure the privacy and integrity of data transmitted between peers. It employs state-of-the-art encryption protocols and authentication mechanisms to protect against unauthorized access and data breaches. Additionally, the SDK includes built-in NAT traversal capabilities, enabling seamless connectivity across different network environments, including those behind firewalls or network address translation (NAT) devices. The extensible nature of XP2P allows developers to customize and extend its functionality to meet their unique requirements. The SDK provides a plugin architecture that enables the integration of third-party modules and custom protocols, making it highly adaptable to diverse application scenarios. This flexibility makes XP2P suitable for a wide range of industries, including IoT (Internet of Things), distributed computing, content delivery networks (CDNs), and decentralized applications (dApps). XP2P offers cross-platform support, allowing developers to create applications that run seamlessly on multiple operating systems and devices. The SDK is compatible with popular programming languages such as C++, Java, Python, and JavaScript, making it accessible to a broad range of developers with varying skill sets. Furthermore, XP2P provides comprehensive documentation, code samples, and tutorials to help developers quickly integrate P2P functionality into their projects. One of the standout features of XP2P is its scalability, which allows applications to handle a large number of concurrent connections without sacrificing performance. The SDK employs intelligent load balancing and resource management techniques to optimize network utilization and ensure efficient data transfer even in high-traffic scenarios. This scalability makes XP2P an excellent choice for applications that need to support a growing user base or handle fluctuating network demands. XP2P also includes advanced diagnostics and monitoring tools, enabling developers to gain valuable insights into network performance, peer connectivity, and data transfer rates. These tools help identify and resolve potential issues quickly, ensuring smooth operation and optimal user experience. The SDK's robust error handling and automatic recovery mechanisms further contribute to the reliability and stability of applications built using XP2P. In summary, XP2P is a powerful and versatile SDK that empowers developers to create innovative, decentralized applications with enhanced performance, security, and scalability. Its extensive feature set, cross-platform compatibility, and flexibility make it an invaluable tool for building the next generation of peer-to-peer applications across various industries and use cases.

XP2P Key Features

  • XP2P (Extreme Peer-to-Peer) is an advanced networking technology designed to facilitate efficient and secure communication between devices in a distributed network environment.
  • It employs a decentralized architecture that eliminates the need for central servers, allowing direct device-to-device connections and reducing network latency.
  • XP2P utilizes advanced encryption algorithms to ensure data privacy and security during transmission, making it suitable for sensitive applications.
  • The technology incorporates intelligent routing mechanisms that optimize data transfer paths, improving overall network performance and reducing bandwidth consumption.
  • XP2P supports dynamic node discovery, enabling devices to automatically identify and connect with other compatible devices on the network without manual configuration.
  • It offers cross-platform compatibility, allowing seamless integration with various operating systems and hardware configurations.
  • The SDK provides developers with a comprehensive set of APIs and tools for easy implementation of XP2P functionality into their applications.
  • XP2P features built-in NAT traversal capabilities, simplifying connections between devices behind firewalls or routers without complex port forwarding setups.
  • The technology supports both one-to-one and many-to-many communication models, making it versatile for different use cases such as file sharing, real-time collaboration, and IoT device communication.
  • XP2P implements advanced congestion control algorithms to maintain optimal performance even in high-traffic network conditions.
  • It offers scalability features that allow the network to grow organically as more devices join, without compromising performance or stability.
  • The SDK includes robust error handling and recovery mechanisms to ensure reliable communication even in unstable network environments.
  • XP2P supports data compression techniques to reduce the amount of data transferred, improving efficiency and reducing network load.
  • It provides built-in load balancing capabilities to distribute network traffic evenly across available nodes, preventing bottlenecks and ensuring smooth operation.
  • The technology offers customizable Quality of Service (QoS) settings, allowing developers to prioritize certain types of data or connections based on application requirements.
  • XP2P includes advanced logging and monitoring features, enabling developers to track network performance, diagnose issues, and optimize their applications.
  • It supports both synchronous and asynchronous communication models, providing flexibility for different application architectures and use cases.
  • The SDK offers easy-to-use abstractions for complex networking operations, reducing the learning curve for developers new to peer-to-peer technologies.
  • XP2P implements intelligent caching mechanisms to improve data access speeds and reduce redundant data transfers across the network.
  • It provides built-in support for peer authentication and authorization, ensuring that only trusted devices can participate in the network.

XP2P Use Cases

  • XP2P (Cross-Platform Peer-to-Peer) technology can be utilized in developing decentralized file-sharing applications, allowing users to directly exchange files without the need for centralized servers, thus enhancing privacy and reducing bandwidth costs for service providers.
  • In the realm of online gaming, XP2P can be implemented to create peer-to-peer multiplayer experiences, reducing latency and server load by enabling direct connections between players, resulting in smoother gameplay and potentially lower infrastructure costs for game developers.
  • XP2P can be leveraged in building distributed content delivery networks (CDNs), where users can contribute their unused bandwidth and storage to serve content to others, creating a more resilient and cost-effective alternative to traditional CDN services.
  • In the Internet of Things (IoT) domain, XP2P can facilitate direct communication between smart devices, enabling them to share data and execute commands without relying on cloud servers, thereby improving response times and reducing dependency on internet connectivity.
  • For blockchain and cryptocurrency applications, XP2P can be used to create decentralized exchanges (DEXs) where users can trade digital assets directly with each other, eliminating the need for intermediaries and enhancing security and privacy in financial transactions.
  • XP2P technology can be employed in developing collaborative software tools, such as real-time document editing platforms, where multiple users can work together on the same document simultaneously without the need for a central server to manage changes.
  • In the field of distributed computing, XP2P can be utilized to create volunteer computing networks, allowing users to contribute their idle processing power to solve complex scientific problems or perform large-scale data analysis tasks.
  • XP2P can be implemented in creating decentralized social media platforms, where users have greater control over their data and content, and can communicate directly with each other without relying on centralized servers that may be subject to censorship or data breaches.
  • For disaster response and emergency communication scenarios, XP2P technology can be used to create mesh networks that allow devices to communicate directly with each other, maintaining connectivity even when traditional infrastructure is compromised or unavailable.
  • In the context of personal cloud storage, XP2P can enable users to create their own distributed storage networks by pooling resources with friends or family members, offering a more private and potentially cost-effective alternative to commercial cloud storage services.

Alternatives to XP2P

  • WebRTC (Web Real-Time Communication) is a powerful alternative to XP2P for peer-to-peer communication. It enables direct audio, video, and data transfer between web browsers without the need for plugins or additional software. WebRTC is widely supported across modern browsers and offers low latency and high-quality real-time communication.
  • MQTT (Message Queuing Telemetry Transport) is a lightweight messaging protocol that can be used as an alternative to XP2P for IoT and M2M communication. It operates on top of TCP/IP and is designed for low-bandwidth, high-latency networks. MQTT uses a publish-subscribe model and is ideal for scenarios where devices need to send small amounts of data frequently.
  • ZeroMQ (ØMQ) is a high-performance asynchronous messaging library that can serve as an alternative to XP2P. It provides a message queue without a dedicated message broker, making it suitable for distributed systems. ZeroMQ supports various communication patterns, including request-reply, publish-subscribe, and push-pull, and can be used across multiple programming languages.
  • Apache Kafka is a distributed streaming platform that can be used as an alternative to XP2P for building real-time data pipelines and streaming applications. It provides high-throughput, fault-tolerant, and scalable publish-subscribe messaging. Kafka is particularly useful for handling large volumes of data and can be integrated with various big data technologies.
  • gRPC (gRPC Remote Procedure Call) is an open-source framework developed by Google that can be used as an alternative to XP2P for building efficient and scalable APIs. It uses Protocol Buffers as its interface definition language and supports various programming languages. gRPC offers features like bidirectional streaming, flow control, and authentication, making it suitable for microservices architectures.
  • Socket.IO is a real-time bidirectional event-based communication library that can serve as an alternative to XP2P. It enables real-time, bidirectional communication between web clients and servers. Socket.IO automatically upgrades to WebSocket when possible and falls back to other transports when necessary, ensuring broad compatibility across different environments.
  • libp2p is a modular network stack that can be used as an alternative to XP2P for building peer-to-peer applications. It provides a set of protocols, specifications, and implementations for peer-to-peer network applications. libp2p is language-agnostic and can be used to build decentralized applications, blockchain networks, and distributed systems.
  • Tor (The Onion Router) is a privacy-focused network that can serve as an alternative to XP2P for anonymous communication. It uses a series of encrypted relays to obscure the origin and destination of network traffic. While primarily known for its web browser, Tor can also be used to build anonymous peer-to-peer applications and services.
  • IPFS (InterPlanetary File System) is a peer-to-peer hypermedia protocol that can be used as an alternative to XP2P for distributed content delivery. It aims to create a permanent and decentralized method of storing and sharing files, websites, applications, and data. IPFS uses content-addressing to uniquely identify files and provides a distributed file system that can be accessed through various interfaces.
  • Matrix is an open standard for decentralized, real-time communication that can serve as an alternative to XP2P. It provides a set of HTTP APIs and open source reference implementations for securely distributing and persisting messages in real-time. Matrix supports various types of communication, including instant messaging, VoIP, and IoT data.

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