In this thesis we propose a set of independent techniques in the overall concept of LC resonant clocking where each technique reduces power consumption and improve system performance. Low-power design is becoming a crucial design objective due to the growing demand on portable applications and the increasing difficulties in cooling and heat removal. The clock distribution network delivers the clock signal which acts as a reference to all sequential elements in the synchronous system. The clock distribution network consumes a considerable amount of power in synchronous digital systems. Resonant clocking is an emerging promising technique to reduce the power of the clock network. The inductor used in resonant clocking enables the conve...
Abstract—Power consumption is becoming more critical in modern integrated circuit (IC) designs and c...
Growing power dissipation and clock instability are resisting the continued scaling of high-performa...
There is growing demand for circuits that can provide ever greater performance from a minimal power...
Resonant clocking is an attractive alternative to conventional clocking due to its significant poten...
With better manufacturing technologies, each generation of processors grows smaller, faster, and con...
Distributed inductor-capacitor (LC) resonant clocking is a recent, promising technique to reduce the...
Clock distribution networks consume a significant portion of total chip powerin high-performance des...
Power is a primary concern in modern circuits. Clock distribution networks, in particular, are an es...
Paper presented at the Midwest Symposium on Circuits and Systems, San Juan, Puerto Rico.Resonant clo...
Designing a low power clock network in synchronous circuits is an important task. This requirement i...
The problem of power densities in system-on-chips (SoCs) and processors has become more exacerbated ...
In synchronous circuit design, data is processed in an orderly fashion with the help of sequential e...
Our work concentrates on high-level optimization of the power of clock network, which is a relativel...
Over the last four decades the integrated circuit industry has evolved in a tremendous pace. This su...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
Abstract—Power consumption is becoming more critical in modern integrated circuit (IC) designs and c...
Growing power dissipation and clock instability are resisting the continued scaling of high-performa...
There is growing demand for circuits that can provide ever greater performance from a minimal power...
Resonant clocking is an attractive alternative to conventional clocking due to its significant poten...
With better manufacturing technologies, each generation of processors grows smaller, faster, and con...
Distributed inductor-capacitor (LC) resonant clocking is a recent, promising technique to reduce the...
Clock distribution networks consume a significant portion of total chip powerin high-performance des...
Power is a primary concern in modern circuits. Clock distribution networks, in particular, are an es...
Paper presented at the Midwest Symposium on Circuits and Systems, San Juan, Puerto Rico.Resonant clo...
Designing a low power clock network in synchronous circuits is an important task. This requirement i...
The problem of power densities in system-on-chips (SoCs) and processors has become more exacerbated ...
In synchronous circuit design, data is processed in an orderly fashion with the help of sequential e...
Our work concentrates on high-level optimization of the power of clock network, which is a relativel...
Over the last four decades the integrated circuit industry has evolved in a tremendous pace. This su...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
Abstract—Power consumption is becoming more critical in modern integrated circuit (IC) designs and c...
Growing power dissipation and clock instability are resisting the continued scaling of high-performa...
There is growing demand for circuits that can provide ever greater performance from a minimal power...