INPUT OUTPUT CONTROL DEVICE

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Tetsuro Takizawa of Nisshin-shi (JP)

INPUT OUTPUT CONTROL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18475359 titled 'INPUT OUTPUT CONTROL DEVICE

Simplified Explanation

The abstract describes an input-output control device that acts as an intermediary between a verification circuit and a semiconductor memory device. It includes ports for receiving read transactions, sending read responses, and buffering data between the verification circuit and the memory device.

• The device has a first port for receiving read transactions from the verification circuit and sending read responses back.
• It also has a second port for transmitting the read transactions to the semiconductor memory device and receiving the read responses from it.
• A buffer device is included to delay the output of data between the memory device and the verification circuit.

Potential Applications

This technology could be applied in secure systems where data verification is crucial, such as in financial transactions, secure communications, or access control systems.

Problems Solved

This device helps ensure the integrity and security of data transfers between a verification circuit and a semiconductor memory device by providing a controlled buffer for the data flow.

Benefits

- Enhanced security and data integrity - Efficient data transfer between verification circuits and memory devices - Controlled buffering to manage data flow effectively

Potential Commercial Applications

"Secure Data Transfer Device for Semiconductor Memory Devices" could be used in industries such as banking, cybersecurity, and government agencies for secure data handling.

Possible Prior Art

One possible prior art could be a similar device used in military applications for secure data transfer between different components of a system.

What is the impact of this technology on data security in semiconductor memory devices?

This technology enhances data security by providing a controlled buffer for data transfer between verification circuits and memory devices, reducing the risk of unauthorized access or data tampering.

How does this device improve the efficiency of data transfer in secure systems?

By managing the flow of data between the verification circuit and the memory device, this device ensures efficient and reliable data transfer, reducing latency and potential errors in the process.

Original Abstract Submitted

An input output control device between a verification circuit and a semiconductor memory device includes: a first port that receives a read transaction for requesting reading of data in the semiconductor memory device from the verification circuit, and outputs a read response to the verification circuit; a second port that outputs the read transaction to the semiconductor memory device, and receives the read response output from the semiconductor memory device in response to the read transaction; and a buffer device that delays at least one of an output of the read transaction to the semiconductor memory device and an output of the read response to the verification circuit.