Voltage noise is the main source of dynamic variability in integrated circuits and a major concern for the design of Power Delivery Networks (PDNs). Ring Oscillators Clocks (ROCs) have been proposed as an alternative to mitigate the negative effects of voltage noise as technology scales down and power density increases. However, their effectiveness highly depends on the design parameters of the PDN, power consumption patterns of the system and spatial locality of the ROCs within the clock domains. This paper analyzes the impact of the PDN parameters and ROC location on the robustness to voltage noise. The capability of reacting instantaneously to unpredictable voltage droops makes ROCs an attractive solution, which allows to reduce the amou...
Modern system-on-chip IC designs show great requirement on minimizing power consumptions. One of the...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
Signal and power integrity are crucial for ensuring high performance in high speed digital systems. ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Voltage noise is the main source of dynamic variability in integrated circuits and a major concern f...
Technology scaling enables lower supply voltages, but also increases power density of integrated cir...
As the semiconductor technology advances, minimum feature sizes are reduced and clock speeds are inc...
The Smartphone revolution and the Internet of Things (IoTs) have triggered rapid advances in complex...
As VLSI technology advances to gigascale integration, billions of transistors will be packed on a si...
Graduation date: 2010Modern day digital systems employ frequency\ud synthesizers to provide a common...
Due to non-ideal technology scaling, delivering a stable supply voltage is increasingly challenging....
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
The design and implementation of high purity, high speed and power efficient clock generation Integr...
With the increasing demand for small volume and low power devices, such as the Internet of Things, ...
The on-chip activities of any modern IC are always inhibited due to the occurrence of power supply n...
Modern system-on-chip IC designs show great requirement on minimizing power consumptions. One of the...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
Signal and power integrity are crucial for ensuring high performance in high speed digital systems. ...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Voltage noise is the main source of dynamic variability in integrated circuits and a major concern f...
Technology scaling enables lower supply voltages, but also increases power density of integrated cir...
As the semiconductor technology advances, minimum feature sizes are reduced and clock speeds are inc...
The Smartphone revolution and the Internet of Things (IoTs) have triggered rapid advances in complex...
As VLSI technology advances to gigascale integration, billions of transistors will be packed on a si...
Graduation date: 2010Modern day digital systems employ frequency\ud synthesizers to provide a common...
Due to non-ideal technology scaling, delivering a stable supply voltage is increasingly challenging....
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
The design and implementation of high purity, high speed and power efficient clock generation Integr...
With the increasing demand for small volume and low power devices, such as the Internet of Things, ...
The on-chip activities of any modern IC are always inhibited due to the occurrence of power supply n...
Modern system-on-chip IC designs show great requirement on minimizing power consumptions. One of the...
Clock generation and distribution are getting difficult due to increased die size and increased numb...
Signal and power integrity are crucial for ensuring high performance in high speed digital systems. ...