MEMORY CONTROLLER FIRMWARE VIRTUALIZATION

Organization Name

Micron Technology, Inc.

Inventor(s)

Niccolò Izzo of Vignate (MI) (IT)

Danilo Caraccio of Milano (MI) (IT)

MEMORY CONTROLLER FIRMWARE VIRTUALIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17899900 titled 'MEMORY CONTROLLER FIRMWARE VIRTUALIZATION

Simplified Explanation

The abstract of this patent application describes a device that includes a datapath, a firmware storage device, and a processor with a hypervisor. The hypervisor is designed to execute firmware tasks in a container and control access to the datapath based on tags associated with instructions of the firmware tasks.

• The device includes a datapath that facilitates data transfers between a host device and a storage device.
• A firmware storage device is present, which stores multiple firmware tasks.
• The processor of the device includes a hypervisor that executes a specific firmware task in a container.
• The hypervisor also controls access to the datapath based on tags associated with instructions of the firmware task.

Potential Applications

• This technology can be applied in storage devices, such as solid-state drives (SSDs) or hard disk drives (HDDs), to enhance data transfer efficiency and security.
• It can be used in virtualized environments to improve the performance and security of data transfers between host devices and storage devices.
• The device can find applications in cloud computing environments where efficient and secure data transfers are crucial.

Problems Solved

• The technology addresses the problem of inefficient data transfers between host devices and storage devices by optimizing the datapath and executing firmware tasks in a container.
• It solves the problem of security vulnerabilities in data transfers by controlling access to the datapath based on tags associated with firmware task instructions.

Benefits

• The device improves data transfer efficiency by optimizing the datapath and executing firmware tasks in a container.
• It enhances security by controlling access to the datapath based on tags associated with firmware task instructions.
• The technology can lead to faster and more secure data transfers in various computing environments.

Original Abstract Submitted

In some aspects, the techniques described herein relate to a device including: a datapath facilitating data transfers between a host device and a storage device; a firmware storage device storing a plurality of firmware tasks; and a processor, the processor including a hypervisor configured to: execute a given firmware task in the plurality of firmware tasks in a container, and control access to the datapath based on tags associated with instructions of the given firmware task.