We present an algorithm called MOVER (Multiple Operating Voltage Energy Reduction) to minimize datapath energy dissipation through use of multiple supply voltages. In a single voltage design, the critical path length, clock period, and number of control steps limit minimization of voltage and power. Multiple supply voltages permit localized voltage reductions to take up remaining schedule slack. MOVER initially finds one minimum voltage for an entire datapath. It then determines a second voltage for operations where there is still schedule slack. New voltages can be introduced and minimized until no schedule slack remains. MOVER was exercised for a variety of DSP datapath examples. Energy savings ranged from 0% to 50% when comparing dual to...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
Abstract — This paper presents a multiple-voltage high-level synthesis methodology for low power DSP...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
In t\u27his paper we will consider how to select an optimal set of supply voltages and account for l...
We present a dynamic programming technique for solving the multiple supply voltage scheduling proble...
In this paper we will consider how to select an optimal set of supply voltages and account for level...
This paper presents a time-constrained algorithm and a resource-constrained algorithm to minimize th...
ing with credit is permitted. To copy otherwise, to republish, to post on servers, to redistribute t...
The use of multiple supply voltages for energy and average power reduction is well researched and se...
The proliferation of portable systems and mobile computing platforms has increased the need for the ...
Abstract:- We present a multiple-voltage high-level synthesis methodology that minimizes power dissi...
With today\u27s increasingly large and complex digital integrated circuit (IC) and system-on-chip de...
This paper presents a novel resource-constrained synthesis scheme to minimize power consumption with...
this paper, we propose an ILP-based framework for the reduction of energy and transient power throug...
With the scaling of process technology and increase in integration density, the demand for high perf...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
Abstract — This paper presents a multiple-voltage high-level synthesis methodology for low power DSP...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
In t\u27his paper we will consider how to select an optimal set of supply voltages and account for l...
We present a dynamic programming technique for solving the multiple supply voltage scheduling proble...
In this paper we will consider how to select an optimal set of supply voltages and account for level...
This paper presents a time-constrained algorithm and a resource-constrained algorithm to minimize th...
ing with credit is permitted. To copy otherwise, to republish, to post on servers, to redistribute t...
The use of multiple supply voltages for energy and average power reduction is well researched and se...
The proliferation of portable systems and mobile computing platforms has increased the need for the ...
Abstract:- We present a multiple-voltage high-level synthesis methodology that minimizes power dissi...
With today\u27s increasingly large and complex digital integrated circuit (IC) and system-on-chip de...
This paper presents a novel resource-constrained synthesis scheme to minimize power consumption with...
this paper, we propose an ILP-based framework for the reduction of energy and transient power throug...
With the scaling of process technology and increase in integration density, the demand for high perf...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
Abstract — This paper presents a multiple-voltage high-level synthesis methodology for low power DSP...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...