In this paper, we propose a robust register-transfer level (RTL) power modeling methodology for functional units. Our models are consistently accurate over a wide range of input statistics, they are automatically constructed and can provide pattern-by-pattern power estimates. An additional desirable feature of our modeling methodology is the capability of accounting for the impact of technology variations, library changes and synthesis tools. Our methodology is based on the concept of node sampling, as opposed to more traditional approaches based on input sampling
We propose a hybrid power model for estimating the power dissipation of a design at the RT-level. Th...
[[abstract]]We propose a hybrid power model for estimating the power dissipation of a design at the ...
[[abstract]]Power estimation at the register transfer level (RTL) often suffers from inadequate accu...
Abstract—In this paper, we propose a robust register-transfer level (RTL) power modeling methodology...
Register-transfer level (RTL) power estimation is a key feature for synthesis-based design flows. Th...
We propose a new power macromodel for usage in the context of register-transfer level (RTL) power es...
This paper presents novel techniques for the cycle-accurate power macro-modeling of complex RTL comp...
We propose a new RTL power macromodel that is suitable for re-configurable, synthesizable soft-macro...
Although RTL power macromodeling is a mature research topic, it is not yet broadly accepted in the i...
RTL power macromodeling is a mature research topic with a variety of equation and table-based approa...
Power estimation at the Register-Transfer level is usually narrowed down to the problem of building ...
Abstract—Despite its maturity, RTL power macromodeling is not yet widely accepted as a de facto indu...
Most power macromodels for RTL datapath modules are both data-dependent and activity-sensitive, that...
Abstract In this paper we present a methodology and techniques for generating cycle-accurate macro-m...
We propose a new approach to RT-level power modeling for combinational macros, that does not require...
We propose a hybrid power model for estimating the power dissipation of a design at the RT-level. Th...
[[abstract]]We propose a hybrid power model for estimating the power dissipation of a design at the ...
[[abstract]]Power estimation at the register transfer level (RTL) often suffers from inadequate accu...
Abstract—In this paper, we propose a robust register-transfer level (RTL) power modeling methodology...
Register-transfer level (RTL) power estimation is a key feature for synthesis-based design flows. Th...
We propose a new power macromodel for usage in the context of register-transfer level (RTL) power es...
This paper presents novel techniques for the cycle-accurate power macro-modeling of complex RTL comp...
We propose a new RTL power macromodel that is suitable for re-configurable, synthesizable soft-macro...
Although RTL power macromodeling is a mature research topic, it is not yet broadly accepted in the i...
RTL power macromodeling is a mature research topic with a variety of equation and table-based approa...
Power estimation at the Register-Transfer level is usually narrowed down to the problem of building ...
Abstract—Despite its maturity, RTL power macromodeling is not yet widely accepted as a de facto indu...
Most power macromodels for RTL datapath modules are both data-dependent and activity-sensitive, that...
Abstract In this paper we present a methodology and techniques for generating cycle-accurate macro-m...
We propose a new approach to RT-level power modeling for combinational macros, that does not require...
We propose a hybrid power model for estimating the power dissipation of a design at the RT-level. Th...
[[abstract]]We propose a hybrid power model for estimating the power dissipation of a design at the ...
[[abstract]]Power estimation at the register transfer level (RTL) often suffers from inadequate accu...