Corrections to "Generalized Hyperbolic CORDIC and Its Logarithmic and Exponential Computation With Arbitrary Fixed Base"

@article{Luo2019CorrectionsT,
  title={Corrections to "Generalized Hyperbolic CORDIC and Its Logarithmic and Exponential Computation With Arbitrary Fixed Base"},
  author={Yuanyong Luo and Yuxuan Wang and Yajun Ha and Zhongfeng Wang and Siyuan Chen and Hongbing Pan},
  journal={IEEE Trans. Very Large Scale Integr. Syst.},
  year={2019},
  volume={27},
  pages={2222}
}
In [1] , the iterative formulas of generalized hyperbolic CORDIC, i.e., (21) , should read as follows: 

2019 Index IEEE Transactions on Very Large Scale Integration (VLSI) Systems Vol. 27

  • Computer Science
    IEEE Transactions on Very Large Scale Integration (VLSI) Systems
  • 2019
ion. Dong, X., +, TVLSI April 2019 854-863

Metaprogramming with combinators

This work advocates for a point in the design space, which is metaprogramming with combinators, where programmers use (and write) combinator libraries that directly manipulate object language terms, to provide what is essentially a rich, well-typed macro language.

References

Generalized Hyperbolic CORDIC and Its Logarithmic and Exponential Computation With Arbitrary Fixed Base

A generalized hyperbolic COordinate Rotation Digital Computer to directly compute logarithms and exponentials with an arbitrary fixed base is proposed and is more efficient than the state of the art which requires both ahyperbolic CORDIC and a constant multiplier.