Results 1-9 of 9 (Search time: 0.004 seconds).
NO | Title, Author(s) (Publication Title, Volume Issue, Page, Issue Date) |
---|---|
On submesh allocation for mesh multicomputers: A best-fit allocation and a virtual submesh allocation for faulty meshes Kim, G; Yoon, Hyunsoo, IEEE TRANSACTIONS ON PARALLEL AND DISTRIBUTED SYSTEMS, v.9, no.2, pp.175 - 185, 1998-02 | |
Cost-effective algorithms for multicast connection in ATM switches based on self-routing multistage networks Park, J; Yoon, Hyunsoo, COMPUTER COMMUNICATIONS, v.21, no.1, pp.54 - 64, 1998-02 | |
A simulation scheme for estimating deadline of real-time task modeled in timed petri net Chung, WH; Yoon, Hyunsoo, IEICE TRANSACTIONS ON FUNDAMENTALS OF ELECTRONICS COMMUNICATIONS AND COMPUTER SCIENCES, v.E81A, no.2, pp.288 - 294, 1998-02 | |
Fault-Tolerant Multicasting in MIN's for ATM Switches Kim, Jinsoo; Park, Jaehyung; Yoon, Hyunsoo; Cho, Jung Wan, IEEE COMMUNICATIONS LETTERS, v.2, no.12, pp.331 - 333, 1998-12 | |
An analysis of punctuated equilibria in simple genetic algorithms Oh, S; Yoon, Hyunsoo, ARTIFICIAL EVOLUTION BOOK SERIES: LECTURE NOTES IN COMPUTER SCIENCE, v.1363, pp.195 - 206, 1998 | |
A Skipped Windowing Contection-Resolution Policy for Bursty Traffic In Input-Queuing ATM Switches B. Kim; B. Kwon; H. Song; J. Kim; Yoon, Hyunsoo, INTERNATIONAL JOURNAL OF PARALLEL AND DISTRIBUTED SYSTEMS AND NETWORKS, v.1, no.4, 1998-12 | |
A fault-tolerant wormhole routing algorithms in two dimensional mesh networks Kim, J; Kim, JY; Yoon, Hyunsoo; Maeng, SeungRyoul; Cho, Jung Wan, IEICE TRANSACTIONS ON INFORMATION AND SYSTEMS, v.E81D, no.6, pp.532 - 544, 1998-06 | |
An efficient causal multicast algorithm for distributed system Jang, IH; Cho, Jung Wan; Yoon, Hyunsoo, IEICE TRANSACTIONS ON INFORMATION AND SYSTEMS, v.E81D, no.1, pp.27 - 36, 1998-01 | |
A fast and efficient output scheduler for high-performance input queueing ATM switches Jacob, L; Song, HJ; Kim, H; Yoon, Hyunsoo, IEICE TRANSACTIONS ON INFORMATION AND SYSTEMS, v.E81D, no.3, pp.288 - 296, 1998-03 |
Discover