Research Highlights

Boosting Memory Performance by Strong Ion Bombardment

2022-06-21 212

[POSTECH professor Yoonyoung Chung’s research team develops a technology to increase data storage by intentionally generating defects.]

[Multilevel non-volatile flash memory technology high-performance AI applications.]

Bumper cars are enjoyed by people of all ages as riders deliberately bump into other vehicles nearby. Recently, new technology has emerged that dramatically improves the performance of flash memory by a strong ion bombardment process. This memory platform can reliably express multiple data in a single device, rendering it applicable for future neuromorphic computing as well as increasing memory capacity.

정윤영교수팀(en)_뷰페이지POSTECH professor Yoonyoung Chung (Department of Electrical Engineering and Department of Semiconductor Engineering) and Ph.D. candidate Seongmin Park (Department of Electrical Engineering), in joint research with Samsung Electronics, have developed a flash memory with increased data storage by intentionally generating defects.

As artificial intelligence technology advances, developing a novel semiconductor device optimized for the neural network with multilevel data is required. New materials and devices have been developed as neuromorphic devices but have limitations in durability, scalability, and storage capacity compared to flash memory, which has been widely used as a storage device for various applications.

To overcome these issues, the research team implemented a strong plasma*1 bombardment process during the deposition of the data-storage layer to generate artificial defect sites in a flash memory device. The researchers confirmed that more electrons can be stored in generated defects, dramatically increasing the amount of data storage compared to conventional flash memory.

[영문-본문] 그림1-2
A memory with multiple levels of data can be demonstrated when the electrons are gradually filled in the data storage layer in which many defects are generated. The multilevel flash memory developed in this study can reliably distinguish eight data levels.

[영문-본문] 그림2
The findings from the study are significant in that they can minimize the risk of developing a new semiconductor material or structure and, at the same time, significantly advance flash memory with excellent performance and scalability for AI applications. When applied to neuromorphic systems, inference accuracy and reliability are expected to be dramatically improved compared to conventional devices.

Recently published in Materials Today Nano, a renowned international academic journal in the field of nanotechnology, this study was supported by Samsung Electronics and the Next-generation Intelligence-Type Semiconductor Development Program.

1. Plasma
A gaseous state separated into negatively charged electrons and positively charged ions.