18098110. SEMICONDUCTOR SYSTEM simplified abstract (SK hynix Inc.)

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SEMICONDUCTOR SYSTEM

Organization Name

SK hynix Inc.

Inventor(s)

Won Ha Choi of Gyeonggi-do (KR)

SEMICONDUCTOR SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18098110 titled 'SEMICONDUCTOR SYSTEM

Simplified Explanation

The semiconductor system described in the patent application involves a controller and a semiconductor device working together to perform read modify write operations efficiently. The controller outputs commands and multiple addresses for selecting contiguous regions, as well as first data for write operations. The semiconductor device stores the first data as write data, outputs internal data for read operations, generates parities using error correction codes, and stores the write data and parities in the core circuit.

  • Controller outputs commands, multiple addresses, and first data for read modify write operations
  • Semiconductor device stores write data, outputs internal data, generates parities using error correction codes, and stores write data and parities in the core circuit

Potential Applications

This technology can be applied in:

  • Data storage systems
  • Communication systems
  • Embedded systems

Problems Solved

This technology helps in:

  • Efficient read modify write operations
  • Error correction in data storage
  • Enhancing data integrity

Benefits

The benefits of this technology include:

  • Improved data reliability
  • Faster data processing
  • Enhanced system performance

Potential Commercial Applications

The potential commercial applications of this technology include:

  • Solid-state drives
  • Networking equipment
  • Industrial automation systems

Possible Prior Art

One possible prior art for this technology could be:

  • Error correction codes in memory systems

What are the specific error correction codes used in this technology?

The specific error correction codes used in this technology are not mentioned in the abstract. Further details would be needed to determine the exact error correction codes employed.

How does this technology compare to existing read modify write operations in terms of speed and efficiency?

The abstract does not provide a direct comparison to existing read modify write operations. Additional information or a detailed analysis would be required to assess the speed and efficiency of this technology compared to existing methods.


Original Abstract Submitted

A semiconductor system includes a controller configured to output a command and multiple addresses for performing a read modify write operation when the multiple addresses for performing a read operation have a logic level combination for selecting contiguous regions and configured to output first data for performing a write operation, and a semiconductor device configured to store the first data for performing the write operation as write data based on the command, configured to output internal data from a core circuit as the read operation is consecutively performed based on the command and the addresses, configured to generate parities by performing an error correction code (ECC) operation based on the internal data and the write data, and configured to store the write data and the parities in the core circuit.