A technology dependent power optimization technique is proposed which formulates the problem of hot spot reduction as a variant of the engineering change (EC) problem. A technique is presented for determin-ing the sensitivity of circuit power dissipation to functional changes con-sidering both local and global effects. This sensitivity is combined with a measure of synthesis flexibility to identify hot regions in the circuit which have a lot of flexibility in making functional changes and for whom a small functional change can greatly affect the overall power dissipation. An incompletely specified target function is constructed for the hot region such that any implementation satisfying it is expected to reduce power. A rewiring algorithm is...
While technology scaling has presented many new and exciting opportunities, new design challenges ha...
In the past few years, power efficiency has been increasingly important for integrated circuits. As ...
In his paper, we address the problem of minimizing the average power dissipation during the technolo...
A design technique based on optimizing the supply voltage for simultaneously achieving energy effici...
Power consumption has become a primary metric in the design of integrated circuits due to the pervas...
Power minimization is a critical challenge for modern embedded system design. Recently, due to the r...
We propose a logic synthesis system that includes power optimization after technology mapping. Our a...
One of the most effective ways to design low power circuits is to use low power supply voltages. If ...
: The increasing demand for portable computing has elevated power consumption to be one of the most ...
Technology scaling has been the driving force behind the growth of the semiconductor industry over t...
Total power dissipation in CMOS circuits has become a huge challenging in current semiconductor indu...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Abstract—We survey state-of-the-art optimization methods that target low power dissipation in VLSI c...
This work presents the design of an on-line energy optimizer unit, which is capable of dynamically a...
Energy minimization is one of the premiere design objectives in modern inte-grated circuits (ICs). C...
While technology scaling has presented many new and exciting opportunities, new design challenges ha...
In the past few years, power efficiency has been increasingly important for integrated circuits. As ...
In his paper, we address the problem of minimizing the average power dissipation during the technolo...
A design technique based on optimizing the supply voltage for simultaneously achieving energy effici...
Power consumption has become a primary metric in the design of integrated circuits due to the pervas...
Power minimization is a critical challenge for modern embedded system design. Recently, due to the r...
We propose a logic synthesis system that includes power optimization after technology mapping. Our a...
One of the most effective ways to design low power circuits is to use low power supply voltages. If ...
: The increasing demand for portable computing has elevated power consumption to be one of the most ...
Technology scaling has been the driving force behind the growth of the semiconductor industry over t...
Total power dissipation in CMOS circuits has become a huge challenging in current semiconductor indu...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Abstract—We survey state-of-the-art optimization methods that target low power dissipation in VLSI c...
This work presents the design of an on-line energy optimizer unit, which is capable of dynamically a...
Energy minimization is one of the premiere design objectives in modern inte-grated circuits (ICs). C...
While technology scaling has presented many new and exciting opportunities, new design challenges ha...
In the past few years, power efficiency has been increasingly important for integrated circuits. As ...
In his paper, we address the problem of minimizing the average power dissipation during the technolo...