In this paper, we present a new non-restoring square root algorithm that is very efficient to implement. The new algorithm presented here has the following features unlike other square root algorithms. First, the focus of the "nonrestoring " is on the "partial remainder", not on "each bit of the square root", with each iteration. Second, it only requires one traditional adder/subtractor in each iteration, i.e., it does not require other hardware components, such as seed generators, multipliers, or even multiplexors. Third, it generates the correct resulting value even in the last bit position. Next, based on the resulting value of the last bit, a precise remainder can be obtained immediately without any correct...
A new architecture is presented for shared radix 2 division and square root whose main characteristi...
In this paper an algorithm for finding the square root of non-square numbers with higher precision i...
International audienceThis paper presents some work in progress on fast and accurate floating-point ...
In this paper, we present a new non-restoring square root algorithm that is very efficient to implem...
Abstract. This paper presents the operation and the implementation of novel fixed point square root ...
Arithmetic Square Root is one of the most complex but nevertheless widely used operations in modern ...
Square root calculation is one of the most useful and vital operation in digital signal processing w...
textThis dissertation focuses on improving the non-restoring division and square root algorithm. Alt...
Square root calculation is one of the most useful and vital operation in digital signal processing w...
随着嵌入式等实时系统技术的发展,越来越多的数字信号处理要求将开平方等运算用硬件实现.本文介绍了一种改进的不恢复余数的开平方算法,分析了它的一些优点,用VHDL语言在Xilinx公司的FPGA器件上实现...
A general discussion on nonrestoring square root algorithms is presented, showing bounds and constra...
Abstract The square root operation is indispensable in a myriad of computational science and enginee...
The calculation of square roots is a frequently used operation in control systems of power electroni...
International audienceThe inverse square root is a common operation in digital signal processing arc...
Inverse square roots are used in several digital signal processing, multimedia, and scientific compu...
A new architecture is presented for shared radix 2 division and square root whose main characteristi...
In this paper an algorithm for finding the square root of non-square numbers with higher precision i...
International audienceThis paper presents some work in progress on fast and accurate floating-point ...
In this paper, we present a new non-restoring square root algorithm that is very efficient to implem...
Abstract. This paper presents the operation and the implementation of novel fixed point square root ...
Arithmetic Square Root is one of the most complex but nevertheless widely used operations in modern ...
Square root calculation is one of the most useful and vital operation in digital signal processing w...
textThis dissertation focuses on improving the non-restoring division and square root algorithm. Alt...
Square root calculation is one of the most useful and vital operation in digital signal processing w...
随着嵌入式等实时系统技术的发展,越来越多的数字信号处理要求将开平方等运算用硬件实现.本文介绍了一种改进的不恢复余数的开平方算法,分析了它的一些优点,用VHDL语言在Xilinx公司的FPGA器件上实现...
A general discussion on nonrestoring square root algorithms is presented, showing bounds and constra...
Abstract The square root operation is indispensable in a myriad of computational science and enginee...
The calculation of square roots is a frequently used operation in control systems of power electroni...
International audienceThe inverse square root is a common operation in digital signal processing arc...
Inverse square roots are used in several digital signal processing, multimedia, and scientific compu...
A new architecture is presented for shared radix 2 division and square root whose main characteristi...
In this paper an algorithm for finding the square root of non-square numbers with higher precision i...
International audienceThis paper presents some work in progress on fast and accurate floating-point ...