AbstractThe sophistication of applications and hunger for high quality digital data demands increase in the processing power. High performance signal processing is possible only though parallelism. At the same time, flexibility and scalability are the need of the hour due to dynamically changing standards and design up gradation. This paper describes an implementation of the computational framework using the DSP Slices in the FPGA. The customized instructions will provide the computation flexibility whereas specialized DSP macros in FPGA ensure high performance
Abstract. In this paper we describe DPFPA (Double Precision Floating Point Accelerator), a FPGA-base...
The FFT is a well known computation method for the frequency analysis of digital signals. For high s...
Thesis (M.Eng. and S.B.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and...
This work shows how one parallel technology Field Programmable Gate Array (FPGA) can be applied to d...
The benefits of adding explicit DSP operation support to an FPGA-based softcore processor are examin...
The Data Stream Processing (DSP) paradigm studies novel algorithms and parallel processing technique...
This paper discusses the balance between loop-level parallelism and clock rate for enhancing the per...
AbstractIncreasing the speed and accuracy for a fast image processing algorithms during computing th...
The paper deals with various parallel platforms used for high performance computing in the signal pr...
The embedded DSP blocks in modern Field Programmable Gate Arrays (FPGAs) are highly capable and supp...
With the arrival of large Field Programmable Gate Arrays (FPGAs) it is possible to build an entire c...
The Mini-Symposium "Parallel computing with FPGAs" aimed at exploring the many ways in which field p...
Applications that require digital signal processing (DSP) functions are typically mapped onto genera...
As CPU clock frequencies plateau and the doubling of CPU cores per processor ex-acerbate the memory ...
Two ways to exploit chips with a very large number of transistors are multicore processors and progr...
Abstract. In this paper we describe DPFPA (Double Precision Floating Point Accelerator), a FPGA-base...
The FFT is a well known computation method for the frequency analysis of digital signals. For high s...
Thesis (M.Eng. and S.B.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and...
This work shows how one parallel technology Field Programmable Gate Array (FPGA) can be applied to d...
The benefits of adding explicit DSP operation support to an FPGA-based softcore processor are examin...
The Data Stream Processing (DSP) paradigm studies novel algorithms and parallel processing technique...
This paper discusses the balance between loop-level parallelism and clock rate for enhancing the per...
AbstractIncreasing the speed and accuracy for a fast image processing algorithms during computing th...
The paper deals with various parallel platforms used for high performance computing in the signal pr...
The embedded DSP blocks in modern Field Programmable Gate Arrays (FPGAs) are highly capable and supp...
With the arrival of large Field Programmable Gate Arrays (FPGAs) it is possible to build an entire c...
The Mini-Symposium "Parallel computing with FPGAs" aimed at exploring the many ways in which field p...
Applications that require digital signal processing (DSP) functions are typically mapped onto genera...
As CPU clock frequencies plateau and the doubling of CPU cores per processor ex-acerbate the memory ...
Two ways to exploit chips with a very large number of transistors are multicore processors and progr...
Abstract. In this paper we describe DPFPA (Double Precision Floating Point Accelerator), a FPGA-base...
The FFT is a well known computation method for the frequency analysis of digital signals. For high s...
Thesis (M.Eng. and S.B.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and...