Ethernet PON (EPON) has been proved to be a successful technology among all the standardized PON systems [1, 2], in
terms of its cost-effective and large bandwidth virtue. And EPON has become a network of a choice for subscriber
oriented digital service delivery, taking over the market previously dominated by DSL. However, with the development
of advanced video services, the bandwidth capacity of current EPON seems to be not well suited for the future large
deployment of triple-play services. Many researches are now taken about the Next Generation EPON; and the recent 10G
EPON system standardization effort in the IEEE [3] results a lot of interest in the evolution of current PON systems
towards high data rate system capable of providing a future-proof platform for delivery of personalized triple-play
services. In this paper, a novel architecture of TDM-based 10GE-PON system is proposed. It combines the GE-PON and
10GE-PON systems, and provides symmetric 1Gbps/10Gbps or asymmetric access simultaneously. According to the
results of the simulation on the system throughput and latency performance, the system is verified to be one solution and
an important step from 1Gbit/s to 10Gbit/s for the Next Generation EPON.
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