High-speed optical interconnects are crucial for both data centers and high performance computing systems. High power consumption and limited device bandwidth have hindered the move to higher optical transmission speeds. Integrated optical transceivers in silicon photonics (SiP) using pulse-amplitude modulation (PAM) are a promising solution to increase data rates. In this paper, we review recent progress in SiP for PAM transmissions. We focus on materials and technologies available CMOS-compatible photonics processes. Performance metrics of SiP modulators and crucial considerations for high-speed PAM transmissions are discussed. Various driving strategies to achieve optical PAM signals are presented. Some of the state-of-the-art SiP PAM mo...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
The ever increasing internet traffic driven by the constant spread of cloud services offered by data...
We establish experimentally the suitability of an all-silicon optical modulator to support future ul...
High-speed optical interconnects are crucial for both data centers and high performance computing sy...
Four level pulse amplitude modulation (PAM-4) has become the modulation format of choice to replace ...
We discuss recent progress on the design of silicon photonic modulators for high speed digital and a...
We demonstrate PAM-4 and OOK operation of a novel silicon photonic modulator. The modulator design i...
High speed optical interconnects consuming low power at affordable prices are always a major area of...
Ultrahigh-speed optical interconnects are essential to future cloud computing. Further increase in o...
Silicon photonic (SiP) electro-optic modulators are a key component in cost-efficient and integrated...
Codesign and integration of optical modulators and CMOS drivers is crucial for high-speed silicon ph...
Les communications optiques basées sur la photonique sur silicium (SiP) sont au centre des récents e...
Silicon is a low-cost material platform in which it is possible to form photonic integrated circuits...
Optical technology is poised to revolutionise short reach interconnects. The leading candidate techn...
High speed optical interconnects consuming low power at affordable prices are always a major area of...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
The ever increasing internet traffic driven by the constant spread of cloud services offered by data...
We establish experimentally the suitability of an all-silicon optical modulator to support future ul...
High-speed optical interconnects are crucial for both data centers and high performance computing sy...
Four level pulse amplitude modulation (PAM-4) has become the modulation format of choice to replace ...
We discuss recent progress on the design of silicon photonic modulators for high speed digital and a...
We demonstrate PAM-4 and OOK operation of a novel silicon photonic modulator. The modulator design i...
High speed optical interconnects consuming low power at affordable prices are always a major area of...
Ultrahigh-speed optical interconnects are essential to future cloud computing. Further increase in o...
Silicon photonic (SiP) electro-optic modulators are a key component in cost-efficient and integrated...
Codesign and integration of optical modulators and CMOS drivers is crucial for high-speed silicon ph...
Les communications optiques basées sur la photonique sur silicium (SiP) sont au centre des récents e...
Silicon is a low-cost material platform in which it is possible to form photonic integrated circuits...
Optical technology is poised to revolutionise short reach interconnects. The leading candidate techn...
High speed optical interconnects consuming low power at affordable prices are always a major area of...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
The ever increasing internet traffic driven by the constant spread of cloud services offered by data...
We establish experimentally the suitability of an all-silicon optical modulator to support future ul...