SPLIT PILLAR AND PIER MEMORY ARCHITECTURES

Organization Name

micron technology, inc.

Inventor(s)

Lorenzo Fratin of Buccinasco (MI) (IT)

Paolo Fantini of Vimercate (MB) (IT)

Enrico Varesi of Milano (MI) (IT)

Fabio Pellizzer of Boise ID (US)

SPLIT PILLAR AND PIER MEMORY ARCHITECTURES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240284660 titled 'SPLIT PILLAR AND PIER MEMORY ARCHITECTURES

Simplified Explanation

The patent application describes methods, systems, and devices for split pillar and pier memory architectures. These architectures involve a memory array with word line plates, pillars, dielectric piers, and storage elements.

• A memory array is divided into two sets of word line plates separated by a trench.
• Pairs of pillars, acting as digit lines, interact with the word line plates.
• Dielectric piers are positioned between the pairs of pillars, connecting them.
• Storage elements are coupled with the word line plates, pillars, and dielectric material between the pillars.

Key Features and Innovation

• Memory array with split pillar and pier architecture.
• Word line plates separated by a trench.
• Pairs of pillars acting as digit lines.
• Dielectric piers connecting pairs of pillars.
• Storage elements coupled with word line plates, pillars, and dielectric material.

Potential Applications

This technology can be used in:

• High-density memory systems.
• Data storage devices.
• Embedded systems.
• IoT devices.
• Wearable technology.

Problems Solved

• Increased memory density.
• Enhanced data storage capabilities.
• Improved memory access speed.
• Reduced power consumption.
• Enhanced reliability of memory systems.

Benefits

• Higher memory capacity.
• Faster data access.
• Lower power consumption.
• Improved system reliability.
• Enhanced performance in various applications.

Commercial Applications

Title: Split Pillar and Pier Memory Architectures for Advanced Data Storage This technology can be applied in:

• Consumer electronics.
• Cloud computing.
• Automotive systems.
• Medical devices.
• Industrial automation.

Prior Art

Readers can explore prior art related to memory architectures, semiconductor technologies, and data storage systems to understand the evolution of similar innovations.

Frequently Updated Research

Researchers are continuously exploring advancements in memory architectures, semiconductor materials, and storage technologies to enhance the performance and efficiency of data storage systems.

Questions about Split Pillar and Pier Memory Architectures

What are the potential advantages of split pillar and pier memory architectures compared to traditional memory systems?

Split pillar and pier memory architectures offer higher memory density, faster data access, and improved reliability, making them ideal for advanced data storage applications.

How can split pillar and pier memory architectures impact the future of data storage technology?

Split pillar and pier memory architectures have the potential to revolutionize data storage technology by enabling higher capacity, faster access speeds, and lower power consumption in various electronic devices.

Original Abstract Submitted

methods, systems, and devices for split pillar and pier memory architectures are described. a memory array may include a first set of word line plates separated from a second set of word line plates by a trench and a set of pairs of pillars (e.g., that are configured as digit lines) that interact with the first and second set of word line plates. further, the memory array may include a set of dielectric piers that are positioned between the pairs of pillars, where each dielectric pier contacts a first pillar from a first pair and a second pillar from a second pair. additionally, the memory array may include a set of storage elements that are each coupled with a word line plate, a pillar, and a dielectric material that is positioned between each first and second pillar of the pairs of pillars.