Current mobile phone applications demand high performance from the DSP, and future generations are likely to require even greater throughput. However, it is important to balance these processing demands against the requirement of low power consumption for extended battery lifetime. A novel low-power digital signal processor (DSP) architecture CADRE (Configurable Asynchronous DSP for Reduced Energy) addresses these requirements through a multi-level power reduction strategy. A parallel architecture and configurable compressed instruction set meets the throughput requirements without excessive program memory bandwidth, while a large register file reduces the cost of data accesses. Sign-magnitude representation is used for data, to reduce swit...
Modern embedded systems have an emerging demand on high performance and low power circuits. Traditio...
Modern cell phones contain various transceivers and their number is expected to increase in the futu...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
An architecture is presented for a digital signal processor (DSP) intended for use in digital mobile...
Abstract: Energy efficient computing in a DSP has become an important research issue in order to hav...
This thesis pertains to the design of a digital signal processor (DSP) with emphasis on lowpower for...
The power consumption of integrated circuits is one of the most problematic considerations affecting...
Power consumption becomes the most important design goal in a wide range of electronic systems. Ther...
[[abstract]]As mobile phones' designing cycles are becoming shorter and shorter: from 6-8 months to ...
An architecture for a low-power asynchronous DSP has been developed, for the target application of G...
For a number of years, the hardware industry has seen a drastic rise in embedded applications. Thank...
Abstract—This paper proposes a low-power high-throughput digital signal processor (DSP) for baseband...
Applications requiring cost-effective, low-power digital signal processing (DSP) are prevalent not o...
Emerging communication paradigms like opportunistic spectrum access and wireless heterogeneous netwo...
Low-power design can be addressed at different levels of design abstraction such as algorithm, archi...
Modern embedded systems have an emerging demand on high performance and low power circuits. Traditio...
Modern cell phones contain various transceivers and their number is expected to increase in the futu...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
An architecture is presented for a digital signal processor (DSP) intended for use in digital mobile...
Abstract: Energy efficient computing in a DSP has become an important research issue in order to hav...
This thesis pertains to the design of a digital signal processor (DSP) with emphasis on lowpower for...
The power consumption of integrated circuits is one of the most problematic considerations affecting...
Power consumption becomes the most important design goal in a wide range of electronic systems. Ther...
[[abstract]]As mobile phones' designing cycles are becoming shorter and shorter: from 6-8 months to ...
An architecture for a low-power asynchronous DSP has been developed, for the target application of G...
For a number of years, the hardware industry has seen a drastic rise in embedded applications. Thank...
Abstract—This paper proposes a low-power high-throughput digital signal processor (DSP) for baseband...
Applications requiring cost-effective, low-power digital signal processing (DSP) are prevalent not o...
Emerging communication paradigms like opportunistic spectrum access and wireless heterogeneous netwo...
Low-power design can be addressed at different levels of design abstraction such as algorithm, archi...
Modern embedded systems have an emerging demand on high performance and low power circuits. Traditio...
Modern cell phones contain various transceivers and their number is expected to increase in the futu...
Computers, regardless of their function, are always better if they can operate more quickly. The add...