International Journal of Innovative Research in Computer and Communication Engineering
ISSN Approved Journal | Impact factor: 8.771 | ESTD: 2013 | Follows UGC CARE Journal Norms and Guidelines
| Monthly, Peer-Reviewed, Refereed, Scholarly, Multidisciplinary and Open Access Journal | High Impact Factor 8.771 (Calculated by Google Scholar and Semantic Scholar | AI-Powered Research Tool | Indexing in all Major Database & Metadata, Citation Generator | Digital Object Identifier (DOI) |
| TITLE | Neural Pipeline Orchestration: Deep Learning Approaches to Software Development Bottleneck Elimination |
|---|---|
| ABSTRACT | Software development pipelines have become increasingly complex due to the widespread adoption of microservices, cloud-native architectures, and continuous integration/continuous deployment (CI/CD) practices. Despite advances in orchestration frameworks such as Jenkins, Kubernetes, and Apache Airflow, persistent bottlenecks—ranging from dependency conflicts to inefficient scheduling—continue to affect delivery timelines, scalability, and quality. Existing orchestration solutions are largely static and rule-driven, making them inadequate for dynamic and large-scale environments. This paper introduces the concept of Neural Pipeline Orchestration (NPO), a deep learning–driven framework designed to intelligently detect, predict, and eliminate bottlenecks in software development workflows. Leveraging recurrent neural networks (RNNs) for log analysis, graph neural networks (GNNs) for dependency modeling, and reinforcement learning (RL) for adaptive scheduling, NPO provides an adaptive orchestration layer that enhances pipeline efficiency and resilience. Experimental results using simulated CI/CD datasets demonstrate a 35% reduction in pipeline latency, 92% accuracy in bottleneck prediction, and a 40% improvement in resource utilization. These findings suggest that NPO can significantly improve software development throughput, reduce operational costs, and pave the way for fully autonomous DevOps ecosystems. |
| AUTHOR | CHANDRA SHEKAR CHENNAMSETTY Principal Software Engineer, Autodesk Inc., USA |
| VOLUME | 147 |
| DOI | DOI: 10.15680/IJIRCCE.2023.1108032 |
| pdf/32_Neural Pipeline Orchestration Deep Learning Approaches to Software Development Bottleneck Elimination.pdf | |
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