Power estimation at the Register-Transfer level is usually narrowed down to the problem of building accurate power models for the RTL (synthetic) operators. In this work we show that, when RTL power estimation is integrated into a realistic design flow, other types of primitives need to be accurately modeled. In particular, we show that most of the RTL functionality is realized by sparse logic elements. We thus propose statistical power models for these primitives, that we have validated on a set of industrial benchmarks
RTL power macromodeling is a mature research topic with a variety of equation and table-based approa...
Most power macromodels for RTL datapath modules are both data-dependent and activity-sensitive, that...
We will present apower estimation technique for digital integrated circuits that operates at the reg...
Register-transfer level (RTL) power estimation is a key feature for synthesis-based design flows. Th...
In this paper, we propose a robust register-transfer level (RTL) power modeling methodology for func...
We propose a new power macromodel for usage in the context of register-transfer level (RTL) power es...
[[abstract]]We propose a hybrid power model for estimating the power dissipation of a design at the ...
We propose a hybrid power model for estimating the power dissipation of a design at the RT-level. Th...
We analyze the integration of an RT-level power estimation tool, RTPOW into an industrial design flo...
Power dissipation due to the steering logic, that is, the multiplexer network and the interconnect, ...
Although RTL power macromodeling is a mature research topic, it is not yet broadly accepted in the i...
[[abstract]]Power estimation at the register transfer level (RTL) often suffers from inadequate accu...
We propose a new RTL power macromodel that is suitable for re-configurable, synthesizable soft-macro...
International audiencePower consumption constitutes a major challenge for electronics circuits. One ...
The increased complexity and low-power requirements of integrated circuit design demands reliable an...
RTL power macromodeling is a mature research topic with a variety of equation and table-based approa...
Most power macromodels for RTL datapath modules are both data-dependent and activity-sensitive, that...
We will present apower estimation technique for digital integrated circuits that operates at the reg...
Register-transfer level (RTL) power estimation is a key feature for synthesis-based design flows. Th...
In this paper, we propose a robust register-transfer level (RTL) power modeling methodology for func...
We propose a new power macromodel for usage in the context of register-transfer level (RTL) power es...
[[abstract]]We propose a hybrid power model for estimating the power dissipation of a design at the ...
We propose a hybrid power model for estimating the power dissipation of a design at the RT-level. Th...
We analyze the integration of an RT-level power estimation tool, RTPOW into an industrial design flo...
Power dissipation due to the steering logic, that is, the multiplexer network and the interconnect, ...
Although RTL power macromodeling is a mature research topic, it is not yet broadly accepted in the i...
[[abstract]]Power estimation at the register transfer level (RTL) often suffers from inadequate accu...
We propose a new RTL power macromodel that is suitable for re-configurable, synthesizable soft-macro...
International audiencePower consumption constitutes a major challenge for electronics circuits. One ...
The increased complexity and low-power requirements of integrated circuit design demands reliable an...
RTL power macromodeling is a mature research topic with a variety of equation and table-based approa...
Most power macromodels for RTL datapath modules are both data-dependent and activity-sensitive, that...
We will present apower estimation technique for digital integrated circuits that operates at the reg...