2022.05.09
Semiconductor is a high-tech industry that requires continuous investment in the development of cutting-edge technologies to create new economic value.
반도체는 새로운 경제적 가치를 창출하기위해 최신 기술 개발에 지속적인 투자가 요구되는
최첨단 기술 산업이다.
With the advantage of entering the market early, leading semiconductor companies can generate significant profit and use that profit to develop more advanced manufacturing processes to extend their lead.
반도체 시장에 먼저 진입한 이점으로 선두 반도체 회사들은 상당한 이익를 창출할 수있고,
그들의 선도적 위치를 연장하기 위해 더욱 진보된 생산 기술을 개발하는 이점을 가질수 있다.
By increasing their capital spending, they can build up stronger economies of scale.
This virtuous circle is the winning formula for businesses competing in high-tech industries.
그들은 자본 투자를 증가시킴으로써 강한 규모의 경제를 이룰수있다.
이런 선순환 과정은 최첨단 산업에서 경쟁ㅇ에서 승리하는 공식이다.
Memory is the largest subcategory in the semiconductor industry, and common memory types
include DRAM, NAND flash, NOR flash, EEPROM, and emerging memory.
메모리는 반도체 산업에서 가장큰 카테고리이다.
보통 메모리에는 디램,낸드,노어플래시,EEPROM과 이머징 메모리가있다.
The output value of memory accounts for about 25-30% of the entire semiconductor market.
In terms of the output value of individual semiconductor products, DRAM accounts for about 13% of the semiconductor market, followed by NAND Flash (11%) and CPU (9%).
메모리 매출은 전체 반도체 매출의 25-30%정도를 차지한다.
메모리 비메모리 구분없이 개별 반도체 종류별 매출 비중은 디램 매출은 13%, 낸드 매출은 11%,
CPU 매출은 9% 정도 차지한다.
Although there are slight changes to these numbers every year, the order remains mostly the same, and therefore competitive strategies related to memory can strongly influence the growth of the semiconductor industry.
매년 이런 수치에 대한 미세한 변동이 있음에도 불구하고, 순서는 대부분 비슷하고,
그러므로 메모리 관련 경쟁적 전략은 반도체 산업 성장에 강한 영향을 줄수있다.
Development of different memory sectors can be roughly divided into four eras:
다른 메모리 섹터의 발전은 4개 세대로 나눌 수있다.
(1) The era of DRAM driving semiconductor manufacturing process improvement (1980-2000);
첫번째는 1980에서 2000년 사이로 디램이 반도체 제조 과정 발전을 주도했다.
(2) the era of companies utilizing manufacturing processes and equipment for both DRAM and 2D NAND flash (2000-2013);
ㅝㄴ째는 200년에서 2013년 사이로 디램과 2D낸드의제조와 장비 회사의 시대였다.
(3) The era of technology diversion between DRAM and 3D NAND flash (2013-2022);
세번째는 2013년에서 2022년 사이로 디램과 3D낸드사이의 기술 전환의 시기.
and (4) the era of creating new economic value for memories (2022 onward).
네번째는 2022년부터 메모리에 대한 새로운 경제적 가치 창출의 시기.
How did DRAM become the main driver of semiconductor manufacturing process improvement in the past?
There are three reasons. First, from a technical perspective, the main body of a DRAM memory is constructed by bits of memory cells, and the maturity level of the manufacturing process is tightly related to costs.
Second, since DRAM products are designed with the same industrial specifications, there is no performance difference between products made by different manufacturers, and costs became a major factor determining the products' competitiveness.
Third, DRAM is the only semiconductor subcategory that can generate enough operating profit to invest in the development of more advanced semiconductor manufacturing processes.
The concept of "the threshold for a company to independently develop in-house technology" should be mentioned here. Developing cutting-edge technologies is obviously a highly expensive process, and related expenses are accumulated from a company's operating profit.
A company must first secure a certain market share before it can accumulate enough operating profit to pass this threshold. As a rule of thumb, a company must account for 15% of the global turnover of the semiconductor subcategory it is in before it can afford developing advanced processes independently.
The same rule applies to the memory sector and logic foundry sector.
Due to the reality and competitive structure of the memory sector, every memory company wants to increase its economies of scale and accelerate its development of advanced processes. The leading companies that remain in the memory industry today have all managed to cross this threshold with financial support from business conglomerates, technology development cooperation partnerships, or through horizontal mergers.
During this era when DRAM was a driver for semiconductor manufacturing process improvement,
the most common business model between memory companies was that the leading company would license its technologies to its partners in exchange for their production capacity.
Under the model, the leading company provided its technologies to potential competitors in exchange for production capacity at a relatively cheap price to scale up its production and R&D.
For the company gaining access to advanced manufacturing processes, the model helps save it time from developing its own technologies but could limit its profit, hence the strategy is not suitable for long-term competition.
This business model fulfilled the needs of both participating parties and was popular during this era,
and it also led to the rise of Taiwan's DRAM sector.
Regardless, DRAM played an important role propelling the improvement of semiconductor advanced processes during this time. This is evident in that DRAM was the first memory sector to adopt 12-inch fabs, as well as DUV, CMP, and other important manufacturing processes and equipment.
(Editor's note: This is part of a series about the memory industry written by DIGITIMES adviser Albert Lin. Lin received his PhD in Physics in 1988, taught at National Central University, and then move to the technology industry. Lin used to serve as director and vice president of ProMOS Technologies, and president of ConDel International Technologies. He was an advisory member of Taiwan Semicon, chaired the Huangguang Forum, and was chairman of Supervisory Board of Taiwan Semiconductor Industry Association. Now, Lin is visiting research fellow in the Department of Physics, National Taiwan University. His main research fields are new materials, new mechanisms, and basic research on quantum information. He is standing supervisor of Taiwan Association of Quantum Computing and Information Technology.)