\u3cp\u3eMany signal processing applications demand for highly energy efficient flexible implementations. In this paper, we propose a novel Domain Specific Instruction-set Processor (DSIP) architecture template which is tuned to deploy in the targeted domain of on-line surveillance. The architectur e, when implemented using a 40-nm CMOS standard cell library, executes a representative test vehicle with an energy efficiency of near ly 900 MOPS/mW including instruction and data memor ies. This is about 20 times higher than a state-of-the-ar t low power DSP architecture and less than a factor 2 below a heavily optimized ASIC realization for the same application benchmark.\u3c/p\u3
Current mobile phone applications demand high performance from the DSP, and future generations are l...
The design of multi-Gbit/s low-density parity-check code (LDPC) decoders has become a hot topic in r...
We present a novel processor architecture designed specifically for use in low-power wireless sensor...
This work presents a methodology for designing an ultra low power application specific instruction s...
In the last ten years, limited clock frequency scaling and increasing power density has shifted IC d...
This book describes a new design approach for energy-efficient, Domain-Specific Instruction set Proc...
As electronic circuits enter the domain of silicon nanoscale technology the usual design space adopt...
In this dissertation, we focus on data-intensive applications in wireless communication systems, and...
In this study, the authors explore sequential and parallel processing architectures, utilising a cus...
High efficiency and low power consumption are among the main topics in embedded systems today. For c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Ahstract-The energy cost of asymmetric cryptography, a vital component of modern secure communicatio...
Applications requiring cost-effective, low-power digital signal processing (DSP) are prevalent not o...
High performance computing and high resolution range sensor motivates the intelligent system innovat...
Sensor processors and their applications are a growing area of focus in computer system research and...
Current mobile phone applications demand high performance from the DSP, and future generations are l...
The design of multi-Gbit/s low-density parity-check code (LDPC) decoders has become a hot topic in r...
We present a novel processor architecture designed specifically for use in low-power wireless sensor...
This work presents a methodology for designing an ultra low power application specific instruction s...
In the last ten years, limited clock frequency scaling and increasing power density has shifted IC d...
This book describes a new design approach for energy-efficient, Domain-Specific Instruction set Proc...
As electronic circuits enter the domain of silicon nanoscale technology the usual design space adopt...
In this dissertation, we focus on data-intensive applications in wireless communication systems, and...
In this study, the authors explore sequential and parallel processing architectures, utilising a cus...
High efficiency and low power consumption are among the main topics in embedded systems today. For c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Ahstract-The energy cost of asymmetric cryptography, a vital component of modern secure communicatio...
Applications requiring cost-effective, low-power digital signal processing (DSP) are prevalent not o...
High performance computing and high resolution range sensor motivates the intelligent system innovat...
Sensor processors and their applications are a growing area of focus in computer system research and...
Current mobile phone applications demand high performance from the DSP, and future generations are l...
The design of multi-Gbit/s low-density parity-check code (LDPC) decoders has become a hot topic in r...
We present a novel processor architecture designed specifically for use in low-power wireless sensor...