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Distinguishing deterministic networks from traditional networks
1. Time delay controllability
Traditional networks have uncertain latency during data transmission, while deterministic networks ensure predictability of data transmission latency by strictly controlling transmission path and time parameters.
2. Network congestion management
Deterministic networks adopt intelligent traffic management mechanisms, which can effectively prevent and handle network congestion, ensuring stable data transmission.
3. Resource optimization
Deterministic networks optimize the utilization of network resources to ensure real-time communication and delay sensitive applications can operate in an efficient network environment.
The main characteristics of deterministic networks
Time sensitivity: Deterministic networks focus on the temporal characteristics of data transmission, ensuring that real-time data transmission in the network follows strict time requirements.
Traffic Engineering: Through intelligent traffic engineering and path planning, deterministic networks can avoid congestion and ensure optimal utilization of network resources.
Hard Real Time Communication: Deterministic networks support hard real time communication, meaning that for certain applications, data transmission must be completed within a predetermined time to ensure real-time performance and reliability.
Predictability and Stability: Through strict protocols and mechanisms, deterministic networks provide higher predictability and stability, making them an ideal choice for delay sensitive applications.
After understanding the definition and main features of deterministic networks, let's delve deeper into their working principles to understand how they implement these features.
The working principle of deterministic networks
The working principle of deterministic networks involves multiple technical aspects, from flow control to path planning. The following are the core technologies and working principles of deterministic networks:
Time sensitive network protocol
Deterministic networks use specially designed time sensitive network protocols to ensure that data transmission in the network follows precise time requirements. Time sensitive network protocols are the foundation of deterministic networks, which are responsible for scheduling the transmission time of data packets, ensuring that real-time data transmission in the network can reach its destination within a predetermined time. Among them, Time Sensitive Networking (TSN) is a commonly used time sensitive network protocol that defines multiple standards, including IEEE 802.1Qbv (for slot based traffic scheduling), IEEE 802.1Qbu (for reducing frame delay), etc., to achieve delay sensitive communication.