Rapid growing demand for instant multimedia access in a myriad of digital devices has pushed the need for higher bandwidth in modern communication hardwares ranging from short-reach (SR) memory/storage interfaces to long-reach (LR) data center Ethernets. At the same time, comprehensive design optimization of link system that meets the energy-efficiency is required for mobile computing and low operational cost at datacenters. This doctoral study consists of design of two low-swing wireline transmitters featuring a low-power clock distribution and 2-tap equalization in energy-efficient manners up to 20-Gb/s operation. In spite of the reduced signaling power in the voltage-mode (VM) transmit driver, the presence of the segment selection logic ...
With the ever-increasing need for high throughput from chip-to-chip I/Os, wireline transceivers are ...
With the rapidly increasing Internet traffic and storage volume, the aggregate I/O bandwidth require...
A four-level pulse-amplitude modulation (PAM-4) transceiver operating up to 64 Gb/s in 28-nm CMOS fu...
Abstract—Serial link transmitters which efficiently incorporate equalization, while also enabling fa...
With the recent surge in the demand for high data rates, communication over copper media faces new c...
As data and computing systems get larger with more elements composing a single system, streamlined c...
While the majority of wireline standards use simple binary non-return-to-zero (NRZ) signaling, four-...
Future processor I/Os must aggressively improve per-channel data-rates and energy efficiency to meet...
This paper presents a 2-40 Gb/s dual-mode wireline transmitter supporting the four-level pulse ampli...
The demand for the aggregate I/O bandwidth increases rapidly while the number of available I/Os are ...
— Pushed by the ever-increasing demand of high-speed connectivity, next generation 400 Gb/s electri...
Graduation date: 2012High speed serial links are critical components for addressing the growing dema...
Total I/O bandwidth demand is growing in high-performance systems due to the emergence of many-core ...
This article presents a 200-Gb/s pulse amplitude-modulation four-level (PAM-4) and 100-Gb/s non-retu...
This thesis discusses low-power wireline receivers with particular focus on clocking circuitry and ...
With the ever-increasing need for high throughput from chip-to-chip I/Os, wireline transceivers are ...
With the rapidly increasing Internet traffic and storage volume, the aggregate I/O bandwidth require...
A four-level pulse-amplitude modulation (PAM-4) transceiver operating up to 64 Gb/s in 28-nm CMOS fu...
Abstract—Serial link transmitters which efficiently incorporate equalization, while also enabling fa...
With the recent surge in the demand for high data rates, communication over copper media faces new c...
As data and computing systems get larger with more elements composing a single system, streamlined c...
While the majority of wireline standards use simple binary non-return-to-zero (NRZ) signaling, four-...
Future processor I/Os must aggressively improve per-channel data-rates and energy efficiency to meet...
This paper presents a 2-40 Gb/s dual-mode wireline transmitter supporting the four-level pulse ampli...
The demand for the aggregate I/O bandwidth increases rapidly while the number of available I/Os are ...
— Pushed by the ever-increasing demand of high-speed connectivity, next generation 400 Gb/s electri...
Graduation date: 2012High speed serial links are critical components for addressing the growing dema...
Total I/O bandwidth demand is growing in high-performance systems due to the emergence of many-core ...
This article presents a 200-Gb/s pulse amplitude-modulation four-level (PAM-4) and 100-Gb/s non-retu...
This thesis discusses low-power wireline receivers with particular focus on clocking circuitry and ...
With the ever-increasing need for high throughput from chip-to-chip I/Os, wireline transceivers are ...
With the rapidly increasing Internet traffic and storage volume, the aggregate I/O bandwidth require...
A four-level pulse-amplitude modulation (PAM-4) transceiver operating up to 64 Gb/s in 28-nm CMOS fu...