ACCELERATOR ADAPATION LAYER (AAL) PROFILE QUEUES FOR INLINE ACCELERATION OF LAYER 1

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

Christopher Richards of Ottawa (CA)

ACCELERATOR ADAPATION LAYER (AAL) PROFILE QUEUES FOR INLINE ACCELERATION OF LAYER 1 - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240045744 titled 'ACCELERATOR ADAPATION LAYER (AAL) PROFILE QUEUES FOR INLINE ACCELERATION OF LAYER 1

Simplified Explanation

The patent application describes a method, system, and apparatus for managing data exchange between different communication layers and hardware accelerator queues. The node includes processing circuitry that receives a messaging from the communication layer interface, determines its predefined messaging characteristic, and communicates it to a hardware accelerator queue based on this characteristic.

• The invention involves a node that manages data exchange between communication layers and hardware accelerator queues.
• The node receives a messaging from the communication layer interface.
• The node determines if the messaging has a predefined messaging characteristic.
• The node communicates the messaging to a hardware accelerator queue based on its messaging characteristic.

Potential applications of this technology:

• This technology can be applied in communication systems that require efficient data exchange between different communication layers and hardware accelerators.
• It can be used in network infrastructure to optimize data processing and improve overall system performance.
• This technology can be implemented in cloud computing environments to enhance data processing capabilities.

Problems solved by this technology:

• The technology solves the problem of managing data exchange between different communication layers and hardware accelerator queues efficiently.
• It addresses the challenge of determining the messaging characteristics and routing them to the appropriate hardware accelerator queue.
• This technology solves the problem of optimizing data processing in complex communication systems.

Benefits of this technology:

• The technology improves the efficiency of data exchange between communication layers and hardware accelerators, leading to enhanced system performance.
• It enables faster data processing and reduces latency in communication systems.
• This technology enhances the overall scalability and flexibility of communication systems by efficiently managing data exchange.

Original Abstract Submitted

a method, system and apparatus are disclosed. according to one or more embodiments, a node for managing data exchange between a first communication layer-second communication layer interface and a plurality of hardware accelerator queues is provided. the first layer is different from the second communication layer. the node including processing circuitry configured to: receive a first messaging from the first communication layer-second communication layer interface, determine that the first messaging is associated with at least one predefined messaging characteristic, and communicate the first messaging to a first hardware accelerator queue of the plurality of hardware accelerator queues based on the at least one predefined messaging characteristic of the first messaging.