Inter- and intra-chip connections have become the new challenge to enable the scaling of computing systems, ranging from mobile devices to high-end servers. Demand for aggregate I/O bandwidth has been driven by applications including high-speed ethernet, backplane micro-servers, memory, graphics, chip-to-chip and network onchip. I/O circuitry is becoming the major power consumer in SoC processors and memories as the increasing bandwidth demands larger per-pin data rate or larger I/O pin count per component. The aggregate I/O bandwidth has approximately doubled every three to four years across a diverse range of standards in different applications. However, in order to keep pace with these standards enabled in part by process-technology scal...
As VLSI technology advances to deep sub-micron regime, power consumption has become a critical conce...
Strategies for power supply distribution in high speed I/O interfaces including the design of low dr...
Technology trends and especially portable applications are adding a third dimension (power) to the p...
Inter- and intra-chip connections have become the new challenge to enable the scaling of computing s...
Power management is essential in state-of-the-art many-core processor and system-on-chip designs due...
The explosive development of various computation and communication platforms has demanded the per-pi...
Energy efficiency has become a key performance metric for wireline high speed I/O interfaces. Conseq...
As data and computing systems get larger with more elements composing a single system, streamlined c...
International audienceEmerging Internet of Everything (IoE) applications and Artificial Intelligence...
Abstract — Both power efficiency and per-channel data rates of high-speed input/output (I/O) links m...
Modern microprocessors require high-bandwidth, low-power interfaces to memory in order to fully real...
As complexity increases and gate sizes shrink for monolithic, mixed-signal integrated circuit (IC) t...
As semiconductor process technologies continue to scale and the demand for ubiquitous computing devi...
The state-of-the-art design methodology for high-speed I/O links is to specify component-level desig...
High-speed I/O circuits, once used only for PHYs, are now widely used for intra-system signaling as ...
As VLSI technology advances to deep sub-micron regime, power consumption has become a critical conce...
Strategies for power supply distribution in high speed I/O interfaces including the design of low dr...
Technology trends and especially portable applications are adding a third dimension (power) to the p...
Inter- and intra-chip connections have become the new challenge to enable the scaling of computing s...
Power management is essential in state-of-the-art many-core processor and system-on-chip designs due...
The explosive development of various computation and communication platforms has demanded the per-pi...
Energy efficiency has become a key performance metric for wireline high speed I/O interfaces. Conseq...
As data and computing systems get larger with more elements composing a single system, streamlined c...
International audienceEmerging Internet of Everything (IoE) applications and Artificial Intelligence...
Abstract — Both power efficiency and per-channel data rates of high-speed input/output (I/O) links m...
Modern microprocessors require high-bandwidth, low-power interfaces to memory in order to fully real...
As complexity increases and gate sizes shrink for monolithic, mixed-signal integrated circuit (IC) t...
As semiconductor process technologies continue to scale and the demand for ubiquitous computing devi...
The state-of-the-art design methodology for high-speed I/O links is to specify component-level desig...
High-speed I/O circuits, once used only for PHYs, are now widely used for intra-system signaling as ...
As VLSI technology advances to deep sub-micron regime, power consumption has become a critical conce...
Strategies for power supply distribution in high speed I/O interfaces including the design of low dr...
Technology trends and especially portable applications are adding a third dimension (power) to the p...