International audienceThree approaches for computing sines and cosines on FPGAs are studied in this paper, with a focus of high-throughput pipelined architecture, and state-of-the-art implementation techniques. The first approach is the classical CORDIC iteration, for which we suggest a reduced iteration technique and fine optimizations in datapath width and latency. The second is an ad-hoc architecture specifically designed around trigonometric identities. The third uses a generic table- and DSP-based polynomial approximator. These three architectures are implemented and compared in the FloPoCo framework
Trigonometric functions have wide variety of applications in real life. Specially SIN and COSINE wav...
In this final year project (Digital system design with FPGA using Verilog HDL) CORDIC is selected a...
OBJECTIVE: The digital signal processing landscape has long been dominated by the microprocessors wi...
Three approaches for computing sines and cosines on FP-GAs are studied in this paper, with a focus o...
International audienceThree approaches for computing sines and cosines on FPGAs are studied in this ...
AbstractThrough analysis of CORDIC algorithm principle, the CORDIC algorithm structure of pipeline a...
[[abstract]]For traditional hyperbolic and trigonometric functions calculation algorithms, multiplie...
The current trend back toward hardware intensive signal processing has uncovered a relative lack of ...
Abstract: The aim of this paper is to investigate CORDIC schemes for fast and silicon area efficient...
The traditional method for solving trigonometric functions utilizing look up tables or the power ser...
The trigonometric function of cos(θ) plays an important role in communication systems, digital signa...
With increasing on chip complexities the on chip area is a major concern. Today users desire every g...
The demand of DSP applications and their VLSI implementations is ever increasing. Arithmetic computa...
Abstract: This paper is concerned with FPGA implementation of CORDIC schemes for fast and silicon ar...
Abstract—Linear (order-one) function evaluation schemes, such as bipartite and multipartite tables, ...
Trigonometric functions have wide variety of applications in real life. Specially SIN and COSINE wav...
In this final year project (Digital system design with FPGA using Verilog HDL) CORDIC is selected a...
OBJECTIVE: The digital signal processing landscape has long been dominated by the microprocessors wi...
Three approaches for computing sines and cosines on FP-GAs are studied in this paper, with a focus o...
International audienceThree approaches for computing sines and cosines on FPGAs are studied in this ...
AbstractThrough analysis of CORDIC algorithm principle, the CORDIC algorithm structure of pipeline a...
[[abstract]]For traditional hyperbolic and trigonometric functions calculation algorithms, multiplie...
The current trend back toward hardware intensive signal processing has uncovered a relative lack of ...
Abstract: The aim of this paper is to investigate CORDIC schemes for fast and silicon area efficient...
The traditional method for solving trigonometric functions utilizing look up tables or the power ser...
The trigonometric function of cos(θ) plays an important role in communication systems, digital signa...
With increasing on chip complexities the on chip area is a major concern. Today users desire every g...
The demand of DSP applications and their VLSI implementations is ever increasing. Arithmetic computa...
Abstract: This paper is concerned with FPGA implementation of CORDIC schemes for fast and silicon ar...
Abstract—Linear (order-one) function evaluation schemes, such as bipartite and multipartite tables, ...
Trigonometric functions have wide variety of applications in real life. Specially SIN and COSINE wav...
In this final year project (Digital system design with FPGA using Verilog HDL) CORDIC is selected a...
OBJECTIVE: The digital signal processing landscape has long been dominated by the microprocessors wi...