Amazon Web Services

Genesis Integrative Solutions (GIS) developer security operations (DevSecOps) center (SOC) centralizes developer (Dev), security (Sec), and operations (Ops) (DevSecOps) center (SOC) facility; Amazon Web Services (AWS) where professionals build and maintain automatic contributor identifier/automatic program identifier (ACI/API) architecture; and monitoring, detection, analysis and response to computing and IT end users around the clock — 24/7/365.

AWS

GIS SOC support services, also unifies and enables Global Integrative Support Services to automate, monitor, and apply security at all phases of computing and IT hardware and software lifecycle. GIS SOC support services DevSecOps mission control center plans, develops, builds, tests, releases, delivers, deploys, operates, and monitors clients’ resources to facilitate measurable improvements for both quality of service (QoS) and their computing and IT functions. 

GIS SOC support services help clients to improve and realize faster deployment speed, higher deployment frequency, quicker requirement lead-time and mean-time to production, lower production failure rate and lower mean-time to procure, maintain, scale capital-intensive devices, and time reacquisition context consumption recovery integration. GIS SOC support services meet Cloud Optimal DevSecOps Ecosystem (SCODE) and Platform as a Service (PaaS) requirements which adopts Amazon Web Services Enterprise DevSecOps platform instantiate lessons learned for global integrative computing and IT industry best practices, open-source software and commercial DevSecOps ACI/API mission control solutions.

GIS SOC support services integrates, delivers, and deploys various Open Systems Interconnection model (OSI model) pipelines as a reference model from the International Organization for Standardization (ISO) to provide a common basis for the coordination of standards development for the purpose of systems interconnection. In the OSI reference model, the communications between systems are split into seven different abstraction layers: Physical, Data Link, Network, Transport, Session, Presentation, and Application.

The model partitions the flow of data in a communication system into seven abstraction layers to describe networked communication from the physical implementation of transmitting bits across a communications medium to the highest-level representation of data of a distributed application. Each OSI model intermediate layer has well-defined functions and methods for each layer to communicate and interact with those serves a class of functionality to the layer above it and is served by the layer below as appropriate classes of functionality are realized in all software development through all standardized communication protocols.

The Internet protocol suite as defined in RFC 1122 and RFC 1123 is a model of networking developed contemporarily to the OSI model, and was funded primarily by the U.S. Department of Defense. It was the foundation for the development of the Internet. It assumed the presence of generic physical links and focused primarily on the software layers of communication, with a similar but much less rigorous structure than the OSI model.

GIS SOC support services integrate the OSI reference model as the standard model to discuss and teach networking in the field of information technology. The model allows transparent communication through equivalent exchange of protocol data units (PDUs) between two parties, through what is known as peer-to-peer networking (also known as peer-to-peer communication). The OSI reference model has not only become an important piece among professionals and non-professionals alike, but also in all networking between one or many parties, due in large part to its commonly accepted user-friendly framework.