作者: Rao Mikkilineni
DOI: 10.1007/978-1-4614-1924-2_5
关键词: Distributed computing 、 FCAPS 、 Data mining 、 Turing machine 、 Single system image 、 Dynamic coupling 、 Network architecture 、 Engineering 、 Workload 、 Latency (engineering) 、 Mission critical
摘要: The DIME computing model, with FCAPS management and signaling, allows establishing equilibrium patterns monitor control exceptions system-wide. It contention resolution based on system-wide view eliminates race conditions other common issues found in current distributed practice. In systems strong dynamic coupling between various elements of the system, where each change one element continually influences element’s direction change, signaling helps implement coordination priorities, workload fluctuations, latency constraints. These features are used to identify some future research directions. order take these concepts practical application mission critical environments, DME network architecture prototypes require validation acceptance by a larger community.