UDP proxies for Online Gaming and Streaming

UDP (User Datagram Protocol) is a fairly old protocol created back in 1980. It does not use a "handshake," meaning there are no error checks or flow control, which ensures higher connection speeds. The main feature of UDP is that it does not establish a direct connection with the recipient. Key characteristics: 1. UDP is faster than the classic TCP protocol because it requires fewer resources to establish a connection. 2. There is no connection setup between the sender and the receiver. 3. The order of packet delivery is not guaranteed. 4. Suitable for applications where fast and efficient data transfer is important.

Many requests for this type of proxy come from online game users. These applications operate in real-time and provide a faster response compared to traditional TCP connections, which is especially important in multiplayer games where every millisecond matters. UDP is also in demand for video conferences and online streaming, as it helps avoid delays and distortions of audio and video, ensuring a more stable connection. In case of errors, the protocol does not require additional checks and resending of all damaged packets.

We use the Socks5 protocol together with UDP, which allows hiding your real IP address through modern encryption, ensuring maximum anonymity. Services will not detect IP spoofing, and you can use our UDP proxies to collect bonuses and level up accounts in online games. The speed of our proxies reaches 500 Mbps — such bandwidth is found only in a few proxy services on the internet, and their cost is significantly higher.

UDP is a simple, connectionless protocol that provides fast data transmission due to the lack of a preliminary connection before sending. Minimal delays due to the absence of a "handshake" make UDP ideal for online games, video streaming, and DNS queries, but it does not have built-in error correction, encryption, or delivery guarantees, so applications must handle these tasks themselves. To improve efficiency, UDP proxies and traffic processing servers are used. QUIC, developed by Google, extends UDP by adding TCP-like reliability and security while maintaining low latency. It includes built-in TLS 1.3 encryption, stream multiplexing without blocking, and fast loss recovery, making it effective for web services and streaming in unstable network conditions.

A UDP proxy works as an intermediary, intercepting and redirecting UDP packets. The process goes like this: the client sends a UDP packet to the target server, the proxy intercepts it and forwards it further. When the server responds, the proxy intercepts the packet again and delivers it to the client. The recipient sees the traffic as originating from the proxy's IP address, hiding the client's real IP. Unlike HTTP or SOCKS proxies, which operate at a higher level, UDP proxies function at a lower level, allowing them to handle traffic for protocols like FTP, DNS, and SMTP.

UDP is widely used in VoIP for live communication, where proxy servers help manage voice traffic. IoT devices often use UDP for efficient data exchange, and UDP proxies optimize the processing of their packets. These proxies also allow bypassing firewall and NAT restrictions by relaying blocked packets. In online games, UDP is valued for minimal delays, and proxies further reduce ping and improve gameplay. Additionally, UDP proxies effectively distribute multicast traffic among multiple recipients.

UDP proxies specialize in handling User Datagram Protocol traffic, providing fast, connectionless communication, making them ideal for real-time applications - VoIP, online games, and streaming, where low latency is critical, although their support in tools is limited. In contrast, HTTP proxies work with web traffic at the application layer of the OSI model, ensuring anonymity through manipulation of HTTP headers, and are supported by most clients, as they are focused on standard internet activities - browsing pages, downloading files, and web scraping.

UDP proxies enhance security by hiding the client's IP address, increasing anonymity and protecting against some bot systems and cyberattacks, but since UDP lacks built-in encryption, additional protection measures are required for transmitting confidential data. In contrast, HTTP proxies offer extended security features: content filtering based on specified rules, blocking malicious sites, access control, and HTTPS support for encrypting transmitted data.

UDP proxies demonstrate high performance in scenarios requiring instant data delivery, thanks to the absence of connection setup, minimal overhead, and no packet receipt confirmation. In contrast, HTTP proxies are focused on stable operation with internet traffic: they cache frequently requested content to speed up subsequent downloads, but additional operations for checking and modifying web traffic can reduce overall data processing speed.