5G Standalone (5G SA) is a network architecture that utilizes a dedicated 5G core network, separate from the existing 4G LTE infrastructure. Unlike 5G Non-Standalone (NSA), which relies on 4G LTE for certain network functions, 5G SA operates independently and provides a complete 5G experience. This setup supports all the advanced features of 5G, including ultra-low latency, high-speed data transfer, and network slicing, enhancing overall network performance and flexibility.
What are the benefits of 5G Standalone?
The benefits of 5G Standalone include enhanced network performance, reduced latency, and greater flexibility. 5G SA supports true end-to-end 5G capabilities, offering significantly lower latency compared to 5G NSA. This leads to improved responsiveness for applications such as autonomous vehicles and remote surgery. Additionally, 5G SA enables advanced features like network slicing, which allows for the creation of virtual networks tailored to specific use cases, improving resource allocation and service quality.
5G Standalone provides a more advanced and efficient network compared to 5G Non-Standalone. It enables a full range of 5G functionalities, including improved data speeds, better network efficiency, and the ability to support a higher number of connected devices. By operating with a dedicated 5G core, 5G SA eliminates reliance on 4G infrastructure, resulting in a more seamless and optimized 5G experience for users.
5G Non-Standalone (5G NSA) is a network configuration where 5G is deployed alongside existing 4G LTE infrastructure. In this setup, the 5G radio access network (RAN) is integrated with the 4G core network, allowing for faster initial deployment of 5G services while still relying on 4G for certain network functions. 5G NSA provides a partial 5G experience, focusing on faster data speeds and improved capacity but does not fully leverage the advanced features of a complete 5G core network.
The standalone mode on Xiaomi devices refers to a feature where the device is capable of operating on a 5G Standalone network, assuming the network infrastructure supports it. In this mode, the device can take full advantage of 5G SA capabilities, including higher speeds and lower latency. However, the actual availability of this feature depends on the specific device model and the network environment provided by the carrier.