Hardware for ambient intelligence needs to achieve extremely high computational efficiency (up to 40GOPS/W). An important way for reaching this is exploiting parallelism, and more specifically data-level parallelism enabled by SIMD. Whereas a large body of research exists on the benefits of the architectural design of and compilation onto SIMD, the design of energy-optimal functional units for SIMD has received limited attention. It appears that existing SIMD functional units are designed in an area optimal, but not energy optimal way. By exploiting the difference in critical path length for the types of operations (e.g., 4times8/2times16/1times32), SIMD adders can be developed that save up to 40% of energy. In this paper, the authors prese...
The use of a wide Single-Instruction-Multiple-Data (SIMD) architecture is a promising approach to bu...
Energy efficiency is one of the most important metrics in embedded processor design. The use of wide...
This paper presents an ultra low power programmable proces-sor architecture for wireless devices tha...
Hardware for ambient intelligence needs to achieve extremely high computational efficiency (up to 40...
Low energy consumption has become one of the most important topics in computing. With single CPUs co...
Energy efficiency has become one of the most important topics in computing. To meet the ever increas...
Leakage power is a growing concern in current and future microprocessors. Functional units of microp...
The inherent capability of wide-SIMD architectures to exploit data level parallelism enables a high ...
Power consumption in modern processor design is a key aspect. Optimizing the processor for power lea...
Over the past few years, energy consumption has become the main limiting factor for computing in gen...
Abstract — The growing use of digital signal processors (DSPs) in embedded systems necessitates the ...
In modern wireless devices, two broad classes of compute-intensive applications are common: those wi...
This research article proposed the reconfigurable Single Instruction Multi Data (SIMD) processor des...
The use of a wide Single-Instruction-Multiple-Data (SIMD) architecture is a promising approach to bu...
Energy efficiency is one of the most important metrics in embedded processor design. The use of wide...
This paper presents an ultra low power programmable proces-sor architecture for wireless devices tha...
Hardware for ambient intelligence needs to achieve extremely high computational efficiency (up to 40...
Low energy consumption has become one of the most important topics in computing. With single CPUs co...
Energy efficiency has become one of the most important topics in computing. To meet the ever increas...
Leakage power is a growing concern in current and future microprocessors. Functional units of microp...
The inherent capability of wide-SIMD architectures to exploit data level parallelism enables a high ...
Power consumption in modern processor design is a key aspect. Optimizing the processor for power lea...
Over the past few years, energy consumption has become the main limiting factor for computing in gen...
Abstract — The growing use of digital signal processors (DSPs) in embedded systems necessitates the ...
In modern wireless devices, two broad classes of compute-intensive applications are common: those wi...
This research article proposed the reconfigurable Single Instruction Multi Data (SIMD) processor des...
The use of a wide Single-Instruction-Multiple-Data (SIMD) architecture is a promising approach to bu...
Energy efficiency is one of the most important metrics in embedded processor design. The use of wide...
This paper presents an ultra low power programmable proces-sor architecture for wireless devices tha...