An Interactive Approach to Timing Accurate PCI-X Simulation

To date, most system-level bus simulation platforms have focused on the functional correctness of individual bus components rather than the full system-level evaluation of multiple components operating simultaneously. In this pa-per, a new scalable system-level bus simulation environment is described which allows for the evaluation of the PCI-X bus and a series of components. This simulation environment takes advantage of the tight integration of timing-accurate simulation of PCI hardware components with software-level functional modeling to create a fast, accurate system. A series of software techniques is used to allow for time step synchronization across multiple bus components and bus recovery following a transaction. A graphical user interface allows designers to add new components to the system easily, enhancing modularity. The accuracy of the new simulation environment has been validated for a collection of candidate PCI-X systems using an in-circuit PCI-X emulator. The new simulation environment is shown to be accurate to within a percent error of 0.95%, 3.79%, and 2.78% for utilization, efficiency, and band-width, respectively.