Virtualized Extensible Hardware Simulation Framework

Organization Name

Google LLC

Inventor(s)

Larry L. Connor, Jr. of Mountain View CA (US)

Peter Edmund Foley of McLean VA (US)

Shiva Rao of Redwood City CA (US)

Patrick Shawn Venture of Sunnyvale CA (US)

Christopher Michael Rowett Rauer of San Jose CA (US)

Daniel Janni of Madison WI (US)

Virtualized Extensible Hardware Simulation Framework - A simplified explanation of the abstract

This abstract first appeared for US patent application 18132138 titled 'Virtualized Extensible Hardware Simulation Framework

The abstract describes a customizable hardware simulation framework that allows for flexible fidelity by configuring components to be simulated, emulated, or real. Developers can use upper-level software that appears identical to the underlying physical hardware, and components can interact via remote procedure calls.

• Customizable hardware simulation framework
• Configurable modules for flexible fidelity
• Components can be simulated, emulated, or real
• Upper-level software appears identical to physical hardware
• Components interact via remote procedure calls

Potential Applications: - Hardware testing and development - Software development and debugging - Training simulations for complex systems

Problems Solved: - Balancing velocity and accuracy in component performance - Providing a realistic simulation environment - Allowing for remote interaction between components

Benefits: - Increased flexibility in hardware simulation - Improved accuracy in testing and development - Streamlined software integration with physical hardware

Commercial Applications: The technology could be used in industries such as aerospace, automotive, and telecommunications for testing and development purposes. It could also be valuable in educational settings for training simulations.

Prior Art: Researchers may want to explore existing hardware simulation frameworks and tools to understand the evolution of this technology.

Frequently Updated Research: Stay informed about advancements in hardware simulation technology, such as new methods for balancing velocity and accuracy in simulations.

Questions about Hardware Simulation Framework: 1. How does the framework balance velocity and accuracy in component performance? 2. What are the potential limitations of using remote procedure calls for component interaction?

Original Abstract Submitted

Generally disclosed herein is a customizable hardware simulation framework implemented with configurable modules to allow for flexible fidelity. The hardware simulation framework may configure various components of the system to be either simulated, emulated, or real. The flexibility in this reconfigurability may provide means to balance the velocity and accuracy of each component's performance. The system allows developers to use upper-level software that relies on the system software in a manner that appears identical to the underlying physical hardware. Moreover, the components of the system may interact via remote procedure calls (RPC) even though the components were originally constructed in different manners using different languages.