In IPv6 addressing, how many bits are allocated for the subnet identifier?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Master the CCNA (Cisco Certified Network Associate) exam. Study with flashcards and multiple-choice questions, each question comes with detailed explanations and hints to enhance your understanding. Prepare effectively and excel on your certification journey!

Multiple Choice

In IPv6 addressing, how many bits are allocated for the subnet identifier?

Explanation:
In IPv6 addressing, the subnet identifier, which is part of the network address, is allocated 16 bits. This is found in the context of the IPv6 address format, where the total address length is 128 bits. IPv6 addresses are typically structured into several segments, including a global routing prefix, a subnet identifier, and an interface identifier. The addressing structure generally allocates the first 48 bits for the global routing prefix, followed by 16 bits for the subnet identifier, and the remaining 64 bits for the interface identifier. The slot of 16 bits for the subnet identifier allows for a large number of subnets. Given the structure of IPv6, this design enables network administrators to efficiently manage and allocate subnets, supporting the vast number of devices connected to the internet. The allocation of bits for the subnet identifier is crucial in enabling hierarchical addressing and routing, facilitating efficient packet forwarding across multiple networks. Understanding this allocation helps in designing scalable networks and managing address spaces in various organizational structures.

In IPv6 addressing, the subnet identifier, which is part of the network address, is allocated 16 bits. This is found in the context of the IPv6 address format, where the total address length is 128 bits.

IPv6 addresses are typically structured into several segments, including a global routing prefix, a subnet identifier, and an interface identifier. The addressing structure generally allocates the first 48 bits for the global routing prefix, followed by 16 bits for the subnet identifier, and the remaining 64 bits for the interface identifier.

The slot of 16 bits for the subnet identifier allows for a large number of subnets. Given the structure of IPv6, this design enables network administrators to efficiently manage and allocate subnets, supporting the vast number of devices connected to the internet. The allocation of bits for the subnet identifier is crucial in enabling hierarchical addressing and routing, facilitating efficient packet forwarding across multiple networks.

Understanding this allocation helps in designing scalable networks and managing address spaces in various organizational structures.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy