EL KHADIRI Khalid | Chouaib Doukkali University (original) (raw)
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National University of Sciences & Technology (NUST)
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Papers by EL KHADIRI Khalid
The next-generation Internet Protocol, initially known as IP Next Generation (Ipng), and then lat... more The next-generation Internet Protocol, initially known as IP Next Generation (Ipng), and then later as IPv6, has been developed by the Internet Engineering Task Force (IETF) to replace the current Internet Protocol (also known as IPv4). To enable the integration of IPv6 into current networks, several transition mechanisms have been proposed by the IETF IPng Transition Working Group. This work examines and empirically evaluates two transition mechanisms, namely 6-over-4, and IPv6 in IPv4 tunneling, as they relate to the performance of IPv6. We explore the impact of these approaches on end-to-end user application performance using metrics such as throughput, latency, host CPU utilization, TCP connection time, and the number of TCP connections per second that a client can establish with a remote server. All experiments were conducted using two dual stack (IPv4/IPv6) routers and two end-stations running Windows 2000, loaded with a dual IPv4/IPv6 stack.
The next-generation Internet Protocol, initially known as IP Next Generation (Ipng), and then lat... more The next-generation Internet Protocol, initially known as IP Next Generation (Ipng), and then later as IPv6, has been developed by the Internet Engineering Task Force (IETF) to replace the current Internet Protocol (also known as IPv4). To enable the integration of IPv6 into current networks, several transition mechanisms have been proposed by the IETF IPng Transition Working Group. This work examines and empirically evaluates two transition mechanisms, namely 6-over-4, and IPv6 in IPv4 tunneling, as they relate to the performance of IPv6. We explore the impact of these approaches on end-to-end user application performance using metrics such as throughput, latency, host CPU utilization, TCP connection time, and the number of TCP connections per second that a client can establish with a remote server. All experiments were conducted using two dual stack (IPv4/IPv6) routers and two end-stations running Windows 2000, loaded with a dual IPv4/IPv6 stack.