SEMICONDUCTOR STORAGE DEVICE

Organization Name

kioxia corporation

Inventor(s)

Ryosuke Matsuo of Yokkaichi Mie (JP)

Kohei Yoshimi of Yokkaichi Mie (JP)

Hiroomi Nakajima of Setagaya Tokyo (JP)

SEMICONDUCTOR STORAGE DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240321852 titled 'SEMICONDUCTOR STORAGE DEVICE

The semiconductor storage device described in the abstract consists of a first chip containing memory cells and a second chip responsible for controlling operations on these cells. The first chip features a stacked body with multiple conductive layers, pillar structures, partitions extending in different directions, a pad portion, and a connection structure linking the pad portion to a circuit in the second chip.

• The first chip includes memory cells and a complex structure with conductive layers, pillar structures, partitions, a pad portion, and a connection structure.
• The second chip controls operations on the memory cells and is connected to the first chip via the connection structure.
• The stacked body of the first chip is designed with multiple conductive layers for efficient memory storage.
• The pillar structures and partitions within the stacked body optimize the performance and organization of the memory cells.
• The connection structure ensures seamless communication between the first and second chips.

Potential Applications: - This technology can be used in various electronic devices requiring high-speed and reliable storage capabilities. - It can be applied in smartphones, laptops, servers, and other computing devices to enhance data storage and processing efficiency.

Problems Solved: - Addresses the need for advanced semiconductor storage solutions with improved performance and reliability. - Solves the challenge of efficiently controlling operations on memory cells within a semiconductor device.

Benefits: - Enhanced memory storage capacity and speed. - Improved reliability and efficiency in data processing. - Compact design suitable for various electronic devices.

Commercial Applications: Title: Advanced Semiconductor Storage Device for Enhanced Data Processing This technology can revolutionize the storage capabilities of electronic devices, leading to faster data processing speeds and improved overall performance. It has significant implications for the consumer electronics market, data centers, and other industries requiring efficient data storage solutions.

Questions about Semiconductor Storage Devices: 1. How does this semiconductor storage device differ from traditional storage solutions? This semiconductor storage device stands out due to its advanced structure, including stacked bodies, conductive layers, and intricate connection structures, enabling superior memory storage and processing capabilities.

2. What are the potential future developments in semiconductor storage technology? Future advancements in semiconductor storage technology may focus on increasing storage capacity, improving data transfer speeds, and enhancing overall efficiency in memory management and operations.

Original Abstract Submitted

a semiconductor storage device according to an embodiment includes a first chip with memory cells, and a second chip that controls operations performed on the memory cells. the first chip includes a stacked body including a plurality of conductive layers stacked in a first direction, a plurality of pillar structures, a plurality of partitions extending within the stacked body in the first direction and a second direction intersecting the first direction, a pad portion, and a connection structure that electrically connects the pad portion and a circuit provided in the second chip, and includes a plate-shaped part extending in the first direction and one of the second direction and a third direction intersecting the first and second directions.