Apollo Autonomous Driving USA LLC (20240220437). UNIFORM VIRTUAL BUS FOR SYSTEM-TO-SYSTEM CONNECTIVITY IN AN AUTONOMOUS DRIVING VEHICLE simplified abstract
Contents
- 1 UNIFORM VIRTUAL BUS FOR SYSTEM-TO-SYSTEM CONNECTIVITY IN AN AUTONOMOUS DRIVING VEHICLE
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 UNIFORM VIRTUAL BUS FOR SYSTEM-TO-SYSTEM CONNECTIVITY IN AN AUTONOMOUS DRIVING VEHICLE - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Prior Art
- 1.11 Frequently Updated Research
- 1.12 Questions about Distributed Computing Systems in Autonomous Vehicles
- 1.13 Original Abstract Submitted
UNIFORM VIRTUAL BUS FOR SYSTEM-TO-SYSTEM CONNECTIVITY IN AN AUTONOMOUS DRIVING VEHICLE
Organization Name
Apollo Autonomous Driving USA LLC
Inventor(s)
Qiang Wang of Sunnyvale CA (US)
UNIFORM VIRTUAL BUS FOR SYSTEM-TO-SYSTEM CONNECTIVITY IN AN AUTONOMOUS DRIVING VEHICLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240220437 titled 'UNIFORM VIRTUAL BUS FOR SYSTEM-TO-SYSTEM CONNECTIVITY IN AN AUTONOMOUS DRIVING VEHICLE
Simplified Explanation
The patent application describes a distributed computing system in an autonomous driving vehicle that includes a main compute system, multiple subsystems, and a bus structure connecting them. The system allows for uniform connectivity between different components using FPGA agents.
- The system includes a main compute system, multiple subsystems, and a bus structure.
- A host FPGA agent communicates with slave FPGA agents on the subsystems using specific bus interface protocols.
- The FPGA agents support uniform system-to-system connectivity.
Key Features and Innovation
- Main compute system in autonomous driving vehicles with multiple subsystems.
- Bus structure for uniform connectivity between components.
- FPGA agents facilitate communication between main compute system and subsystems.
Potential Applications
This technology can be applied in various autonomous driving vehicles to enhance communication and data processing capabilities.
Problems Solved
- Facilitates communication between main compute system and subsystems.
- Provides uniform system-to-system connectivity.
Benefits
- Improved data processing and communication in autonomous driving vehicles.
- Enhanced overall system performance and reliability.
Commercial Applications
Potential commercial applications include autonomous vehicles, robotics, and other systems requiring distributed computing capabilities.
Prior Art
Readers can explore prior patents related to distributed computing systems in autonomous vehicles to understand the existing technology landscape.
Frequently Updated Research
Stay updated on advancements in distributed computing systems for autonomous vehicles to leverage the latest innovations in the field.
Questions about Distributed Computing Systems in Autonomous Vehicles
How does the bus structure enhance connectivity in the distributed computing system?
The bus structure provides uniform connectivity between the main compute system and subsystems, allowing for efficient communication and data transfer.
What are the key benefits of using FPGA agents in the distributed computing system of autonomous vehicles?
FPGA agents facilitate communication between different components, ensuring seamless operation and improved system performance.
Original Abstract Submitted
a distributed computing system in an autonomous driving vehicle (adv) includes a main compute system and multiple subsystems, and a bus structure that connect the main compute system and the multiple subsystems. the bus structure provides uniform system-to-system connectivity. a host field-programmable gate array (fpga) agent coupled to the main compute system can communicate with slave fpga agents on the subsystems via multiple pairs of bus interface protocols of a particular type. the bus interfaces on the fpga agents supports the uniform system-to-system connectivity.