The computation of the reciprocal of a numerical value is an important ingredient of many algorithms. We present a compact hardware architecture to compute reciprocals by two or three Newton-Raphson iterations to obtain the accuracy of IEEE 754 single- and double-precision standard, respectively. We estimate the initialization value by a specially designed second-order polynomial approximating the reciprocal. By using a second-order polynomial, we succeed in using one single hardware architecture for both, the polynomial-approximation computations as well as the Newton-Raphson iterations. Therefore, we obtain a most com-pact hardware implementation for the complete reciprocal computation
AbstractReciprocal and root reciprocal functions at “half” and IEEE single precision formats are spe...
In applications as in future MIMO communication systems a massive computation of complex matrix oper...
The authors consider the possibility of designing architectures which combine in the best possible w...
The reciprocal and square root reciprocal operations are important in several applications such as c...
International audienceThis paper presents a simple hardware architecture for computing the seed valu...
This paper presents the design and implementation of a reciprocal unit, in which the initial approxi...
International audienceThe reciprocal is a widespread operation in digital signal processing architec...
International audienceThis paper presents an optimized software implementation of the reciprocal squ...
Abstract This report presents a simple hardware architecture for computing the seedvalues for recipr...
This paper deals with the computation of reciprocals, square roots, inverse square roots, and some e...
Quotients, reciprocals, square roots and square root reciprocals all have the property that infinite...
This paper presents an algorithm for evaluating the functions of reciprocal, square root, 2x, and lo...
International audienceWe analyze two fast and accurate algorithms recently presented by Borges for c...
The advantages of the convergence with the square of the Newton-Raphson method are combined with the...
Abstract—This paper presents the implementation of a sequential hardware core to compute a single fl...
AbstractReciprocal and root reciprocal functions at “half” and IEEE single precision formats are spe...
In applications as in future MIMO communication systems a massive computation of complex matrix oper...
The authors consider the possibility of designing architectures which combine in the best possible w...
The reciprocal and square root reciprocal operations are important in several applications such as c...
International audienceThis paper presents a simple hardware architecture for computing the seed valu...
This paper presents the design and implementation of a reciprocal unit, in which the initial approxi...
International audienceThe reciprocal is a widespread operation in digital signal processing architec...
International audienceThis paper presents an optimized software implementation of the reciprocal squ...
Abstract This report presents a simple hardware architecture for computing the seedvalues for recipr...
This paper deals with the computation of reciprocals, square roots, inverse square roots, and some e...
Quotients, reciprocals, square roots and square root reciprocals all have the property that infinite...
This paper presents an algorithm for evaluating the functions of reciprocal, square root, 2x, and lo...
International audienceWe analyze two fast and accurate algorithms recently presented by Borges for c...
The advantages of the convergence with the square of the Newton-Raphson method are combined with the...
Abstract—This paper presents the implementation of a sequential hardware core to compute a single fl...
AbstractReciprocal and root reciprocal functions at “half” and IEEE single precision formats are spe...
In applications as in future MIMO communication systems a massive computation of complex matrix oper...
The authors consider the possibility of designing architectures which combine in the best possible w...