*The value for 6G and 7G is not accurate as it may change during its official release.
| Network | 6G | 7G |
| Theoretical maximum speed | 100 Gbps | 1 Tbps |
| Typical speed | 10 Gbps | 100 Gbps |
| Latency | 1 millisecond or less | 0.1 millisecond |
| Encryption | 5G security with additional features | 6G security with quantum-resistant encryption |
| Data traffic | 1000 exabytes per year | 10000 exabytes per year |
| Peak data rates | 1000 Gbps per device | 10000 Gbps per device |
| Connection density | 100 million devices per square kilometer | Not Defined |
| Available spectrum | 95GHz – 3THz | 0.1-1000 GHz |
| Bandwidth capacity | 100 Gbps per channel | 1 Tbps per channel |
| Technology | Terahertz waves, millimeter waves, and submillimeter waves | Terahertz waves, millimeter waves, submillimeter waves, and quantum communications |
| Integrity | Secured by blockchain technology | Secured by blockchain technology and quantum cryptography |
| Authentication | User authentication based on biometrics and artificial intelligence | User authentication based on biometrics, artificial intelligence, and quantum cryptography |
| Applications | Virtual reality, augmented reality, autonomous driving, machine learning, artificial intelligence, and the Internet of Things | Virtual reality, augmented reality, autonomous driving, machine learning, artificial intelligence, the Internet of Things, and quantum computing |
It is important to note that these are just theoretical estimates, and the actual performance of 6G and 7G networks may vary depending on the specific implementation. However, these figures give us a good idea of the potential capabilities of these next-generation wireless networks.
7G:-
7G is expected to go even further than 6G by using quantum communications. Quantum communications use the principles of quantum mechanics to transmit data, which offers much higher security and reliability than traditional communications methods.
β’7G is the next generation of wireless network technology after 5G.
β’It is expected to offer much higher speeds, data rates, and reliability than 5G.
β’7G will use terahertz waves, millimeter waves, and submillimeter waves to achieve these high speeds.
β’It will also use quantum communications to offer much higher security and reliability.
β’7G is still in the early stages of development, but it has the potential to revolutionize the way we communicate and interact with the world around us.
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