The FEC limit paradigm is the prevalent practice for designing optical communication systems to attain a certain bit error rate (BER) without forward error correction (FEC). This practice assumes that there is an FEC code that will reduce the BER after decoding to the desired level. In this paper, we challenge this practice and show that the concept of a channel-independent FEC limit is invalid for soft-decision bit-wise decoding. It is shown that for low code rates and high-order modulation formats, the use of the soft-decision FEC limit paradigm can underestimate the spectral efficiencies by up to 20%. A better predictor for the BER after decoding is the generalized mutual information, which is shown to give consistent post-FEC BER predic...
High-throughput optical communication systems utilize binary soft-decision forward error correction ...
Coded modulation (CM) is the combination of forward error correction (FEC) and multilevel constellat...
A novel low-complexity architecture for forward error correction (FEC) in optical communication is p...
The FEC limit paradigm is the prevalent practice for designing optical communication systems to atta...
The FEC limit paradigm is the prevalent practice for designing optical communication systems to atta...
We answer the question in the title negatively. More precisely, the FEC limit is invalid for soft de...
In this paper, we compare different metrics to predict the error rate of optical systems based on no...
Accurate performance benchmarking after forward error correction (FEC) decoding is essential for sys...
We answer the question in the title negatively. More precisely, the FEC limit is invalid for soft de...
We answer the question in the title negatively. More precisely, the FEC limit is invalid for soft de...
Accurate performance benchmarking after forward error correction (FEC) decoding is essential for sys...
Coded modulation (CM) is the combination of forward error correction (FEC) and multilevel constellat...
High-throughput optical communication systems utilize binary soft-decision forward error correction ...
Coded modulation (CM) is the combination of forward error correction (FEC) and multilevel constellat...
A novel low-complexity architecture for forward error correction (FEC) in optical communication is p...
The FEC limit paradigm is the prevalent practice for designing optical communication systems to atta...
The FEC limit paradigm is the prevalent practice for designing optical communication systems to atta...
We answer the question in the title negatively. More precisely, the FEC limit is invalid for soft de...
In this paper, we compare different metrics to predict the error rate of optical systems based on no...
Accurate performance benchmarking after forward error correction (FEC) decoding is essential for sys...
We answer the question in the title negatively. More precisely, the FEC limit is invalid for soft de...
We answer the question in the title negatively. More precisely, the FEC limit is invalid for soft de...
Accurate performance benchmarking after forward error correction (FEC) decoding is essential for sys...
Coded modulation (CM) is the combination of forward error correction (FEC) and multilevel constellat...
High-throughput optical communication systems utilize binary soft-decision forward error correction ...
Coded modulation (CM) is the combination of forward error correction (FEC) and multilevel constellat...
A novel low-complexity architecture for forward error correction (FEC) in optical communication is p...