SK hynix Inc., South Korea’s second-largest chipmaker, on Monday unveiled its technology road map for the memory industry, highlighting that reliability will be the major requirement for its future growth.
SK hynix Unveils Tech Road Map For Memory Industry : SK hynix CEO Lee Seok-hee introduced the company’s vision for the industry at the International Reliability Physics Symposium, a renowned conference for engineers and scientists in the microelectronics field hosted by the Institute of Electrical and Electronics Engineers.
In his keynote speech, Lee said the role of memory will expand significantly in the era of digital transformation.
“So far, high density, high speed, low power was required of memory to satisfy the need of various applications and customers,” Lee said.
“But now on top of those requirements, high reliability is required in growing markets for smart ICT technology such as autonomous cars and smart health care where the components were expected to run for long period of time under extreme conditions.”
When it comes to “scaling value” in driving the memory industry for the next decade, Lee said the sector will face challenges requiring a change in the technology to continue scaling DRAM below 10-nanometer and stacking NAND above 600 layers.
Specifically in the DRAM area, Lee said there are three challenges: overcoming the limitation in patterning in lithography, maintaining capacitance of the cell capacitor, and lowering the resistance of the metal for interconnect.
Lee said SK hynix, currently the world’s No. 2 DRAM supplier, has adopted extreme ultraviolet (EUV) technology and is working with partners to develop advanced photoresist materials.
This file photo, taken on Oct. 20, 2020, shows the corporate logo of South Korean chipmaker SK hynix Inc. displayed at the company’s plant in Icheon, south of Seoul. (Yonhap)
When it comes to the NAND sector, Lee said three tasks are: securing high aspect ratio contact (HARC) etch technology, securing cell dielectric characteristic and solving film stress issues.
SK hynix, which recently decided to acquire Intel Corp.’s NAND business, is dedicated to improve structures of HARC etch technology for further stacking and using atomic layer deposition solutions for cell dielectric characteristic according to Lee.
For film stress issue, the company is trying to optimize the cell oxide and nitride material.
Lee said the technology development beyond the next 10 years will be the era of convergence where memory chips are converged with central processing units (CPU) and storage.
“To overcome the limitation of memory performance, there will be a convergence between memory and logic,” he said. “The concept is to add a few computing functions of CPU to DRAM.”
The CEO also vowed that SK hynix will move toward curbing CO2 emissions, suggesting that if hard disk drives (HDDs) in global data centers are replaced with low-power solid state drives (SSDs), CO2 generation could be reduced by 93 percent.
To achieve its vision, Lee said a paradigm shift in cooperative relationships is needed in the industry, emphasizing that various players that form the ecosystem need to collaborate.
“Only by establishing a strategic partnership for open innovation based on collaboration and sharing with customers, suppliers, academia and government, we can shape a new era which pursues both economic and social values.”
Originally published at The Korea bizwire