Parallel, Proactive and Power Efficient Virtual Network Embedding in a Green and Distributed SD-ODCN Architecture

Abstract: With a view to overcome internet ossification problem, various Virtual Network Embedding (VNE) approaches has been proposed in last few years. Nevertheless, most of prior approaches neglect some major operational requirements implied by the inherent virtualization platforms. In the case of SD-ODCN architecture, a crucial operational requirement instance is the ability to route application-specific flows or wavelengths dynamically and efficiently across multi-tenant network providers. With the perpetual burstin… Show more

“…Ranking -Parallel and Proactive Virtual Network Embedding (PGTR-PPVNE) approach achieved a 93% decrease in carbon emissions compared to the Delay-sensitive scenario [92]. 11) The PGTR-PPVNE approach resulted in a decrease of 24.14% to 33.95% in power consumption at the DC nodes, contributing to carbon reduction [92]. 12) Carbon footprint reduced from 4,049.758 to 4,045.419 tons CO2e [93].…”

“…Stationary energy 42 [58], [60], [55], [62], [69], [70], [27], [110], [29], [111], [73], [32], [77], [79], [81], [4], [39], [83], [41], [56], [88], [3], [89], [91], [45], [46], [94], [95], [97], [49], [57], [52], [100], [53], [54], [102], [103], [92], [104], [105], [106], [6] Transportation 10…”

Greenhouse Gas Emission Reduction Architecture in Computer Science: A Systematic Review

“…Ranking -Parallel and Proactive Virtual Network Embedding (PGTR-PPVNE) approach achieved a 93% decrease in carbon emissions compared to the Delay-sensitive scenario [92]. 11) The PGTR-PPVNE approach resulted in a decrease of 24.14% to 33.95% in power consumption at the DC nodes, contributing to carbon reduction [92]. 12) Carbon footprint reduced from 4,049.758 to 4,045.419 tons CO2e [93].…”

“…Stationary energy 42 [58], [60], [55], [62], [69], [70], [27], [110], [29], [111], [73], [32], [77], [79], [81], [4], [39], [83], [41], [56], [88], [3], [89], [91], [45], [46], [94], [95], [97], [49], [57], [52], [100], [53], [54], [102], [103], [92], [104], [105], [106], [6] Transportation 10…”

Greenhouse Gas Emission Reduction Architecture in Computer Science: A Systematic Review

Predicting Instances Demand and Occupancy Toward Efficient VMs Rightsizing and Resources Allocation Strategies: Amazon Case Study

Univariate Nonlinear VMs Instances Demand Forecasting for Optimized Cloud Resources Orchestration