As the 5G landscape continues to expand, the need for efficient, scalable infrastructure has never been more pressing. A revolutionary new Platform-as-a-Service (PaaS) application is set to transform the industry by reimagining how network functions are developed and managed. This cutting-edge solution separates essential services, such as logging and metrics, from the core network functions, deploying them in isolated namespaces to optimize performance and resource utilization. By consolidating these common services into a unified platform, the PaaS application promises to drastically cut development time and costs while significantly boosting the efficiency of 5G networks. As telecommunications companies strive to meet the demands of an increasingly connected world, this innovative approach represents a pivotal advancement in accelerating 5G deployment and enhancing overall network capabilities.
Pallavi Priya Patharalagadda has made significant strides in optimizing 5G network functions through innovative infrastructure solutions. As a senior member of her team, Pallavi was recognized for her critical contributions, which garnered praise from senior management and highlighted her impact on the project.
At the heart of her work was the development of a Platform-as-a-Service (PaaS) application designed to support 5G network functions (NFs). This solution involved segregating common applications—such as logging, metrics, and networking—into a separate repository. By deploying these elements in distinct namespaces from the actual NF applications, her approach not only isolated critical functions but also facilitated scalability and efficiency.
The PaaS infrastructure she developed has proven to be a game-changer. Instead of building individual infrastructures for each of the five 5G NFs, this unified platform was used across all applications. This strategic decision led to a remarkable 60% reduction in overall costs and accelerated the development process for 5G NFs. The streamlined infrastructure significantly reduced both the effort and cost required to develop each network function, delivering considerable savings and performance improvements.
Among the challenges Pallavi overcame was establishing effective communication between infrastructure and application Pods. This critical issue was addressed with the help of Kubernetes, which provided a robust solution for inter-namespace communication.
While she has not published external papers, she has shared her expertise through an internal wiki page within her company, contributing to the broader knowledge base and fostering a collaborative environment.
Looking ahead, Pallavi Priya Patharalagadda’s insights suggest a move towards deploying infrastructure on bare metal hardware, rather than virtual machines. This transition could potentially enhance application performance by removing the hypervisor layer, though it requires a deep understanding of bare metal hardware. Her forward-thinking approach reflects a commitment to pushing the boundaries of current technologies and optimizing performance in the evolving landscape of 5G networks.
