Add to ORKGWe describe the Fiber-on-Chip (FoC) approach, in which digital models are used for real-time emulation of an optical communication system, to achieve cost-effective and reproducible long-term DSP evaluations inside a single chip
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
Digital back propagation (DBP) is often proposed and implemented offline for the mitigation of nonli...
We describe the Fiber-on-Chip (FoC) approach to verification of digital signal processing (DSP) circ...
We introduce an FPGA-based fiber-optic channel emulator, including both AWGN and carrier phase noise...
Verification of advanced circuit implementations poses many challenges. For complex digital signal p...
We introduce a digital PMD emulator to accelerate BER analysis of coherent receiver DSPs. The emulat...
We review different real-time implementation platforms for digital signal processing. We discuss cir...
Coherent optical communication critically relies on efficient digital signal processing (DSP). We ou...
We propose a digital emulator of the optical Kerr effect, suitable for FPGA implementation. In addit...
Modern fiber-optic communication systems rely on complex digital signal processing (DSP) and forward...
Digital signal processing has the potential to overcome cost and power challenges associated with op...
Fiber-optic links form a vital part of our increasingly connected world, and as the number of Intern...
We propose a digital emulator of the optical Kerr effect, suitable for FPGA implementation. In addit...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
Digital back propagation (DBP) is often proposed and implemented offline for the mitigation of nonli...
We describe the Fiber-on-Chip (FoC) approach to verification of digital signal processing (DSP) circ...
We introduce an FPGA-based fiber-optic channel emulator, including both AWGN and carrier phase noise...
Verification of advanced circuit implementations poses many challenges. For complex digital signal p...
We introduce a digital PMD emulator to accelerate BER analysis of coherent receiver DSPs. The emulat...
We review different real-time implementation platforms for digital signal processing. We discuss cir...
Coherent optical communication critically relies on efficient digital signal processing (DSP). We ou...
We propose a digital emulator of the optical Kerr effect, suitable for FPGA implementation. In addit...
Modern fiber-optic communication systems rely on complex digital signal processing (DSP) and forward...
Digital signal processing has the potential to overcome cost and power challenges associated with op...
Fiber-optic links form a vital part of our increasingly connected world, and as the number of Intern...
We propose a digital emulator of the optical Kerr effect, suitable for FPGA implementation. In addit...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
We experimentally demonstrate pre-emphasis based performance for a 2 km long 7-core multicore fiber ...
Digital back propagation (DBP) is often proposed and implemented offline for the mitigation of nonli...