I observed an Algebra class recently where students were trying to multiply two polynomials, (x + 5) and (3x 2 - 5x - 4). And as I roamed the room, I noticed several students who were stuck because ...

The classical Multiply and Accumulate (MAC) architecture represents the best solution for the implementation of many general purpose algorithms. This structure is found in DSPs, and also in some ...

Dividing rational expressions is very similar to multiplying, with one extra step: invert and multiply. This means you flip ...

Algorithms for polynomial computation over finite fields form a crucial domain in computational mathematics, with extensive applications ranging from cryptography and ...

A C implementation of Niederreiter's algorithm for factoring polynomials over F 2 is described. The most time-consuming part of this algorithm, which consists of setting up and solving a certain ...