iBOLT Business Integration Suite is a flow oriented composite applications toolset, delivering a comprehensive, business-driven integration framework that empowers enterprises to dramatically improve business performance. iBOLT enables customers to easily design, develop and deploy automated business processes. Increasing the usability and lifespan of existing legacy and other IT systems, iBOLT allows fast application integration, development and customization of diverse applications, systems and databases, assuring rapid ROI and customer satisfaction.
Scalability
iBOLT is able to accommodate the natural expansion or rapid growth of an organization by providing a flexible means of scaling capacity. Capacity of the iBOLT server can be increased without having to redevelop the entire integration solution.
The simplest means to increase performance is to upgrade the iBOLT Server's host platform. A faster, stronger platform provides more processing power and increases performance of the iBOLT Server.
A distributed iBOLT architecture can also be utilized to increase capacity. In this type of architecture, iBOLT business flows can be automatically distributed across multiple iBOLT Servers, with each Server receiving a different part of the flow.
Distributed iBOLT architectures have the added benefit that they can be affordably implemented in a heterogeneous environment. iBOLT's unique platform independent architecture allows iBOLT servers to be hosted on different hardware platforms, yet seamlessly communicate and interact with each other. For the many enterprises with heterogeneous environments, this enables them to greatly reduce the cost of integration as iBOLT is able to operate on their existing platform of choice and does not require new hardware to be purchased.
Reliability
The iBOLT product is a highly reliable and stable platform. Additional procedures can also be implemented to ensure reliability. iBOLT can operate in a load balancing manner, distributing processes among several iBOLT Servers. This enables resources to be utilized more efficiently and maintains processing power within the limits of individual platforms. Server redundancy can also be employed to eliminate single points of failure and maintain high system availability and reliability.