We investigate fixed-point aspects and time-domain ASIC implementations of CD compensation. An optimized implementation gives significant power dissipation reduction for short links, with further reduction if pulse shaping is considered
This document has been downloaded from Chalmers Publication Library (CPL). It is the author´
This paper proposes optimal finite-length impulse response (FIR) digital filters, in the least-squar...
In optical communication the non-ideal properties of the fibers lead to pulse widening from chromati...
We investigate fixed-point aspects and time-domain ASIC implementations of CD compensation. An optim...
We demonstrate the chromatic dispersion equalization employing a time-domain filter in a 112-Gbit/s ...
Chromatic dispersion (CD) compensation in coherent fiber-optic systems represents a very significant...
We investigate power dissipation/performance trade-off in a 28nm ASIC implementation of a parallel d...
Coherent optical communication critically relies on efficient digital signal processing (DSP). We ou...
We present a comparative analysis of three popular digital filters for chromatic dispersion compensa...
We propose a nonlinear mitigation algorithm designed from an ASIC perspective, and analyze implement...
Modern fiber-optic communication systems rely on complex digital signal processing (DSP) and forward...
High bit rates optical communication systems pose the challenge of their tolerance to linear and non...
Digital back propagation (DBP) is often proposed and implemented offline for the mitigation of nonli...
We review different real-time implementation platforms for digital signal processing. We discuss cir...
Communication networks are a vital backbone of the modern society. Power dissipation of optical comm...
This document has been downloaded from Chalmers Publication Library (CPL). It is the author´
This paper proposes optimal finite-length impulse response (FIR) digital filters, in the least-squar...
In optical communication the non-ideal properties of the fibers lead to pulse widening from chromati...
We investigate fixed-point aspects and time-domain ASIC implementations of CD compensation. An optim...
We demonstrate the chromatic dispersion equalization employing a time-domain filter in a 112-Gbit/s ...
Chromatic dispersion (CD) compensation in coherent fiber-optic systems represents a very significant...
We investigate power dissipation/performance trade-off in a 28nm ASIC implementation of a parallel d...
Coherent optical communication critically relies on efficient digital signal processing (DSP). We ou...
We present a comparative analysis of three popular digital filters for chromatic dispersion compensa...
We propose a nonlinear mitigation algorithm designed from an ASIC perspective, and analyze implement...
Modern fiber-optic communication systems rely on complex digital signal processing (DSP) and forward...
High bit rates optical communication systems pose the challenge of their tolerance to linear and non...
Digital back propagation (DBP) is often proposed and implemented offline for the mitigation of nonli...
We review different real-time implementation platforms for digital signal processing. We discuss cir...
Communication networks are a vital backbone of the modern society. Power dissipation of optical comm...
This document has been downloaded from Chalmers Publication Library (CPL). It is the author´
This paper proposes optimal finite-length impulse response (FIR) digital filters, in the least-squar...
In optical communication the non-ideal properties of the fibers lead to pulse widening from chromati...
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