Company Filing History:
Years Active: 2015-2017
Title: Nathan J Giardina: Innovator in Cloud Application Development
Introduction
Nathan J Giardina is a prominent inventor based in San Diego, CA. He has made significant contributions to the field of cloud application development, holding a total of 7 patents. His work focuses on creating systems and methods that enhance the efficiency and functionality of cloud applications.
Latest Patents
Giardina's latest patents include innovative technologies such as "Systems, methods and computer program products for construction of cloud applications." This patent provides a declarative programming language for creating applications that can be executed on nodes within a cloud network. The application term is designed to be independent of the application's configuration prior to compilation, allowing for greater flexibility during execution. Another notable patent is "Application centered network node selection," which outlines methods for selecting nodes in a network based on their attributes for executing applications. This technology allows for efficient execution of target applications by selecting the most suitable nodes.
Career Highlights
Giardina has built a successful career at CA, Inc., where he has been instrumental in developing cutting-edge technologies. His expertise in cloud computing and application development has positioned him as a leader in his field. His innovative approach has led to the creation of several patents that address key challenges in cloud application deployment and management.
Collaborations
Throughout his career, Giardina has collaborated with talented professionals, including David S Tyree and Beau Croteau. These collaborations have fostered a creative environment that has resulted in groundbreaking advancements in cloud technology.
Conclusion
Nathan J Giardina's contributions to cloud application development are noteworthy and impactful. His innovative patents and collaborative efforts continue to shape the future of technology in this rapidly evolving field.