The work performed by a parallel algorithm is the product of its running time and the number of processors it requires. This paper presents work-efficient (or cost-optimal) routing algorithms to determine the switch settings for realizing permutations on rearrangeable symmetrical networks such as Benes and the reduced /spl Omega//sub N//spl Omega//sub N//sup -1/. These networks have 2n-1 stages with N=2/sup n/ inputs/outputs, each stage consisting of N/2 crossbar switches of size (2/spl times/2). Previously known parallel routing algorithms for a rearrangeable network with N inputs determine the states of all switches recursively in O(n) iterations using N processors. Each iteration determines the switch settings of at most two stages of the network and requires at least O(n) time on a computer of N processors, regardless of the type of its interconnection network. Hence, the work of any previously known parallel routing algorithm equals at least O(Nn/sup 2/) for setting up all the switches of a rearrangeable network. The new routing algorithms run on a computer of p processors, 1/spl les/p/spl les/N, and perform work O(Nn). Moreover, because the range of p is large, the new routing algorithms do not have to be changed in case some processors become faulty.
展开▼
机译:并行算法执行的工作是其运行时间与所需处理器数量的乘积。本文提出了工作效率高(或成本最优)的路由算法,以确定用于实现可重排对称网络(例如Benes)和简化的/ spl Omega // sub N // spl Omega // sub N // sup上的置换的开关设置。 -1 /。这些网络具有2n-1级,其中N = 2 / sup n /个输入/输出,每个级由大小为N / 2的纵横制开关组成(2 / spl倍/ 2)。具有N个输入的可重排网络的先前已知并行路由算法使用N个处理器在O(n)迭代中递归确定所有交换机的状态。每次迭代确定网络最多两个阶段的开关设置,并且在N个处理器的计算机上至少需要O(n)时间,而不管其互连网络的类型如何。因此,任何先前已知的并行路由算法的工作至少等于O(Nn / sup 2 /),以建立可重排网络的所有交换机。新的路由算法在p个处理器(1 / spl les / p / spl les / N / n)的计算机上运行,并执行工作O(Nn)。此外,由于p的范围较大,因此在某些处理器出现故障的情况下不必更改新的路由算法。
展开▼
