This memo describes fundamental algorithms for computing factorial and its performance. n! = n * (n - 1) * ... * (k + 2) * (k + 1) * k * (k - 1) * (k - 2) * ... * 3 ...

Four factorial is equal to four times three times two times one. (see Figure 3; we denote a number's factorial as n!) While this might sound very theoretical, calculating a factorial has real-world ...

Fractional factorial designs are popular and widely used for industrial experiments. Generalized minimum aberration is an important criterion recently proposed for both regular and non-regular designs ...

Abstract: Previous researchers developed new learning architectures for sequential data by extending conventional hidden Markov models through the use of distributed state representations. Although ...

Abstract: In recent years, multi-task optimization is one of the emerging topics among evolutionary computation researchers. Multi-Factorial Evolutionary Algorithm (MFEA) is developed based on that ...