Transparent Peer Review By Scholar9
GREEN CLOUD COMPUTING AND GLOBAL CARBON FOOTPRINT REDUCTION
Abstract
Green Cloud Computing (GCC) is a sustainable approach to protect Cloud-Based Infrastructure. The increasing trend of cloud computing has led to a prolifertaion in security threats, compromising the authenticity and security of cloud-based data. The main goal of green computing is to reduce the use of risk-laden materials, maximize energy efficiency that increase the product's longevity and promote the recyclability of obsolete products.GCC provides high performance at lower cost in comparison to dedicated high performance computing machines.The extensive consumption of power and energy leads to huge carbon emissionwhich has brought up the requirement for the concept of Green Cloud Computing that makes IT resources both energy and cost efficient.This research contributes to the development of sustainable and secure green cloud computing solutions, addressing the pressing needs of both environmental sustainability and also focuses on the beneficial parameters of green cloud computing.
Murali Mohana Krishna Dandu Reviewer
26 Sep 2024 03:58 PM
Approved
Relevance and Originality
The research article addresses a critical and timely topic: Green Cloud Computing (GCC). As cloud computing continues to expand, the increasing security threats and environmental concerns surrounding energy consumption are pressing issues. This article's focus on GCC as a solution highlights its relevance to contemporary challenges in IT infrastructure. The originality of the work is evident in its emphasis on balancing performance with sustainability, positioning GCC as an innovative approach that is necessary for future cloud solutions.
Methodology
The methodology described in the article appears to align well with the objectives of promoting energy efficiency and security in cloud computing. However, the article would benefit from a clearer explanation of the specific techniques and frameworks used to evaluate GCC’s effectiveness. Details on the selection criteria for case studies, as well as any analytical models employed, would enhance the credibility of the methodology. Providing insights into the data collection methods and sources would also strengthen the research's foundation.
Validity & Reliability
While the research makes compelling claims about the benefits of GCC, the article lacks detailed empirical evidence to support its assertions. The inclusion of quantitative data demonstrating energy savings, cost reductions, or improvements in security metrics would bolster the validity of the findings. Furthermore, discussing any potential limitations or biases in the study would provide a more balanced view and enhance the reliability of the conclusions drawn.
Clarity and Structure
The article is generally well-structured, with a logical flow from the introduction to the discussion of GCC’s benefits. However, certain sections could be more clearly delineated, especially when introducing complex concepts related to energy efficiency and security measures. Enhanced use of headings, bullet points, and visual aids such as charts or diagrams would improve readability and help convey key information more effectively.
Result Analysis
The result analysis section of the article could be more robust. While the narrative discusses the benefits of GCC, it lacks specific data or case studies that demonstrate these benefits in practice. Including comparative analyses of traditional cloud computing versus GCC in terms of energy consumption, cost efficiency, and security outcomes would provide a clearer understanding of its impact. Concrete examples or pilot studies would significantly strengthen the argument for adopting GCC solutions.
IJ Publication Publisher
Ok Sir
Murali Mohana Krishna Dandu Reviewer