A study of the permutation capability of a binary hypercube under the commonly used dimension-order routing is presented. Two modes of the basic routing algorithm have been explored based on non-skipping or skipping identical bits in source and destination addresses when adjusting a route. All the study was done computationally. It has been found that the skip mode in comparison with the non-skip one provides better permutation capability, its beneficial effect on lowdimensional hypercubes, especially in concern with the routing of the so called BPC (bit-permute-complement) permutations, is evident. The possibility of conflict-free routing of the most frequently used permutations under dimension-order routing was also tested.
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