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By Jay Chittooran, Manager, Public Policy, SEMI

International trade is one of the best tools to spur growth and create high-skill and high-paying jobs. Over 40 million American jobs rely on trade, and this is particularly true in the semiconductor supply chain. Over the past three decades, the semiconductor industry has averaged nearly double-digit growth rates in revenue and, by 2030, the semiconductor supply chain is forecast to reach $1 trillion. Trade paves the way for this growth.

Unfortunately, despite its importance to the industry, trade has been transformed from an economic issue into a political one, raising many new trade challenges to companies throughout the semiconductor industry.

GHz-ChinaChina’s investments in the industry will continue to anchor the country as a major force in the semiconductor supply chain. China’s outsized spending has spawned concern among other countries about the implications of these investments. According to SEMI’s World Fab Forecast, 20 fabs are being built in China – and construction on 14 more is rumored to begin in the near term – compared to the 10 fabs under construction in the rest of the world. China is clearly outpacing the pack.

The Trump Administration has levied intense criticism of China, citing unfair trade practices, especially related to intellectual property issues. The U.S. Trade Representative has launched a Section 301 investigation into whether China’s practice of forced technology transfer has discriminated against U.S. consumers. Even as the probe unfolds, expectations are growing that the United States will take action against China, raising fears of not only possible retaliation in time but rising animosity between two trading partners that rely deeply on each other.

A number of other open investigations also cloud the future. The Administration launched two separate Section 232 investigations into steel and aluminum industry practices by China, claiming Chinese overproduction of both items are a threat to national security. The findings from these investigations will be submitted to the President, who, in the coming weeks, will decide an appropriate response, which could include imposing tariffs and quotas.

Another high priority area is Korea. While U.S. threats to withdraw from the U.S.-Korea Free Trade Agreement (KORUS) reached a fever pitch in August, rhetoric has since tempered. Informal discussions between the countries on how best to amend the trade deal are ongoing. The number of KORUS implementation issues aside, continued engagement with Korea – instead of scrapping a comprehensive, bilateral trade deal – will be critically important for the industry.

Lastly, negotiations to modernize the North American Free Trade Agreement (NAFTA) will continue this year. The United States wants to conclude talks by the end of March, but with the deadline fast approaching and the promise of resolution waning, tensions are running high. Notably, the outcome of the NAFTA talks will inform and set the tone for other trade action.

What’s more, a number of other actions on trade will take place this year. As we wrote recently, Congress has moved to reform the Committee on Foreign Investment in the United States (CFIUS), a government body designed to review sales and transfer of ownership of U.S. companies to foreign entities. Efforts have also started to revise the export control regime – a key component to improving global market access and making international trade more equitable.

SEMI will continue its work on behalf of its members around the globe to open up new markets and lessen the burden of regulations on cross-border trade and commerce. In addition, SEMI will continue to educate policymakers on the critical importance of unobstructed trade in continuing to push the rapid advance of semiconductors and the emerging technologies they enable into the future. If you are interested in more information on trade, or how to be involved in SEMI’s public policy program, please contact Jay Chittooran, Manager, Public Policy, at [email protected].

Technavio market research analysts forecast the global reset IC market to grow at a CAGR of close to 12% during the forecast period, according to their latest report.

The report further segments the global reset IC market by end-user (consumer electronics, telecommunication, automotive, industrial, and healthcare), by type (1-5 V, 5-12 V, and above 10 V), and by geography (the Americas, APAC, and EMEA).

Technavio analysts highlight the following three market drivers that are contributing to the growth of the global reset IC market:

  • Growth of smart grid technology
  • Increasing need for external brownout protection
  • Growth of IoT

Growth of smart grid technology

Due to their reliability and real-time information, smart grids have become an important trend in the energy industry. A smart grid is an electricity supply network integrated with digital communications technology to detect and react to local changes in the consumption of electricity and it is equipped with computational intelligence and network capabilities.

According to a senior analyst at Technavio for embedded systems research, “Smart grids are developed to improved operations and the maintenance of electric grids by allowing smooth exchange of data between various components. Transmission lines, generators, transformers, smart meters, smart appliances, and energy-efficient devices are components of a smart grid.”

Increasing need for external brownout protection

Restriction or reduction in the availability of electrical power in an area or locality is known as brownout. Voltage is limited or regulated in a brownout, unlike a blackout where the supply of voltage is completely removed for a period of time. Voltage overload on power grid and aging electrical system are some of the causes of brownouts. A reset IC sometimes integrates a brownout detector (BOD). It helps in preventing a reset if the voltage drops unexpectedly for a short duration of time.

Growth of IoT

The significant growth of IoT proved to be a major driver for the global reset IC market. IOT is a system of interrelated computing devices, machines, objects, and people, which are provided with unique identifiers. Without the need for any human-to-human or human-to-computer interaction, IoT allows the transfer of data over a network. IoT is also driving the demand for connected devices, which has significantly increased the bandwidth requirements. Vendors in the market are working together to satisfy the need for connecting several products, including gateways, home appliances, entertainment systems for smart homes, by a common networking standard that provides interoperability with a wide range of smart devices.

IoT will drive the need for enabler technologies which will have an impact on semiconductor foundries. An enabler technology can be classified as an invention, product, or technology which can provide a radical change in a user or an application. IoT shows great potential in several applications, which will drive the market.

Worldwide semiconductor revenue is forecast to total $451 billion in 2018, an increase of 7.5 percent from $419 billion in 2017, according to Gartner, Inc. This represents a near doubling of Gartner’s previous estimate of 4 percent growth for 2018.

“Favorable market conditions for memory sectors that gained momentum in the second half of 2016 prevailed through 2017 and look set to continue in 2018, providing a significant boost to semiconductor revenue,” said Ben Lee, principal research analyst at Gartner. “Gartner has increased the outlook for 2018 by $23.6 billion compared with the previous forecast, of which the memory market accounts for $19.5 billion. Price increases for both DRAM and NAND flash memory are raising the outlook for the overall semiconductor market.”

However, these price increases will put pressure on margins for system vendors of key semiconductor demand drivers, including smartphones, PCs and servers. Gartner predicts that component shortages, a rising bill of materials (BOM) and the resulting prospect of having to raise average selling prices (ASPs) will create a volatile market through 2018.

Despite the upward revision for 2018, the quarterly growth profile for 2018 is expected to fall back to a more normal pattern with a mid-single-digit sequential decline in the first quarter of the year, followed by a recovery and buildup in both the second and third quarters of 2018, and a slight decline in the fourth quarter.

On January 3, a security vulnerability that spans all microprocessor vendors was revealed, impacting nearly all types of personal and data center computing devices. While this is an obscure security vulnerability that is difficult to achieve, the potential of a high-impact security issue cannot be ignored and must be mitigated.

“The current mitigation solution is via firmware and software updates, and has a potential processor performance impact. This may result in an increased demand for high-performance data center processors in the short term, but Gartner expects that in the longer term, microprocessor architectures will be redesigned, reducing the performance impact of the software mitigations and limiting the long-term forecast impact,” said Alan Priestley, research director at Gartner.

Taking the memory sectors out of the equation, the semiconductor market is forecast to grow 4.6 percent in 2018 (compared with 9.4 percent in 2017) with field-programmable gate array (FPGA), optoelectronics, application-specific integrated circuits (ASICs) and nonoptical sensors leading the semiconductor device categories.

The other significant device category driving the 2018 forecast higher is application-specific standard products (ASSPs). The predicted growth in ASSPs was influenced by an improved outlook for graphics cards used in gaming PCs and high-performance computing applications, a broad increase in automotive content and a stronger wired communications forecast.

The mixed fortunes of semiconductor vendors in recent years serves as a reminder of the fickleness of the memory market,” said Mr. Lee. “After growing by 22.2 percent in 2017, worldwide semiconductor revenue will revert back to single-figure growth in 2018 before a correction in the memory market results in revenue declining slightly in 2019.”

The historic flood of merger and acquisition agreements that swept through the semiconductor industry in 2015 and 2016 slowed significantly in 2017, but the total value of M&A deals reached in the year was still more than twice the annual average in the first half of this decade, according to IC Insights’ new 2018 McClean Report, which becomes available this month.  Subscribers to The McClean Report can attend one of the upcoming half-day seminars (January 23 in Scottsdale, AZ; January 25 in Sunnyvale, CA; and January 30 in Boston, MA) that discuss the highlights of the report free of charge.

In 2017, about two dozen acquisition agreements were reached for semiconductor companies, business units, product lines, and related assets with a combined value of $27.7 billion compared to the record-high $107.3 billion set in 2015 and the $99.8 billion total in 2016 (Figure 1).  Prior to the explosion of semiconductor acquisitions that erupted several years ago, M&A agreements in the chip industry had a total annual average value of about $12.6 billion between 2010 and 2015.

Figure 1

Figure 1

Two large acquisition agreements accounted for 87% of the M&A total in 2017, and without them, the year would have been subpar in terms of the typical annual value of announced transactions.  The falloff in the value of semiconductor acquisition agreements in 2017 suggests that the feverish pace of M&A deals is finally cooling off.  M&A mania erupted in 2015 when semiconductor acquisitions accelerated because a growing number of companies began buying other chip businesses to offset slow growth rates in major end-use applications (such as smartphones, PCs, and tablets) and to expand their reach into huge new market opportunities, like the Internet of Things (IoT), wearable systems, and highly “intelligent” embedded electronics, including the growing amount of automated driver-assist capabilities in new cars and fully autonomous vehicles in the not-so-distant future.

With the number of acquisition targets shrinking and the task of merging operations together growing, industry consolidation through M&A transactions decelerated in 2017.  Regulatory reviews of planned mergers by government agencies in Europe, the U.S., and China have also slowed the pace of large semiconductor acquisitions.

One of the big differences between semiconductor M&A in 2017 and the two prior years was that far fewer megadeals were announced.  In 2017, only two acquisition agreements exceeded $1 billion in value (the $18 billion deal for Toshiba’s memory business and Marvell’s planned $6 billion purchase of Cavium).  Ten semiconductor acquisition agreements in 2015 exceeded $1 billion and seven in 2016 were valued over $1 billion.  The two large acquisition agreements in 2017 pushed the average value of semiconductor M&A pacts to $1.3 billion.  Without those megadeals, the average would have been just $185 million last year. The average value of 22 semiconductor acquisition agreements struck in 2015 was $4.9 billion.  In 2016, the average for 29 M&A agreements was $3.4 billion, based on data compiled by IC Insights.

Worldwide semiconductor revenue totalled $419.7 billion in 2017, a 22.2 percent increase from 2016, according to preliminary results by Gartner, Inc. Undersupply helped drive 64 percent revenue growth in the memory market, which accounted for 31 percent of total semiconductor revenue in 2017.

“The largest memory supplier, Samsung Electronics, gained the most market share and took the No. 1 position from Intel — the first time Intel has been toppled since 1992,” said Andrew Norwood, research vice president at Gartner. “Memory accounted for more than two-thirds of all semiconductor revenue growth in 2017, and became the largest semiconductor category.”

The key driver behind the booming memory revenue was higher prices due to a supply shortage. NAND flash prices increased year over year for the first time ever, up 17 percent, while DRAM prices rose 44 percent.

Equipment companies could not absorb these price increases so passed them onto consumers, making everything from PCs to smartphones more expensive in 2017.

Other major memory vendors, including SK Hynix and Micron Technology, also performed strongly in 2017 and rose in the rankings (see Table 1).

 

2017 Rank

2016 Rank

Vendor

2017 Revenue

2017 Market Share (%)

2016 Revenue

2016-2017 Growth (%)

1

2

Samsung Electronics

61,215

14.6

40,104

52.6

2

1

Intel

57,712

13.8

54,091

6.7

3

4

SK Hynix

26,309

6.3

14,700

79.0

4

6

Micron Technology

23,062

5.5

12,950

78.1

5

3

Qualcomm

17,063

4.1

15,415

10.7

6

5

Broadcom

15,490

3.7

13,223

17.1

7

7

Texas Instruments

13,806

3.3

11,901

16.0

8

8

Toshiba

12,813

3.1

9,918

29.2

9

17

Western Digital

9,181

2.2

4,170

120.2

10

9

NXP

8,651

2.1

9,306

-7.0

Others

174,418

41.6

157,736

10.6

Total Market

419,720

100.0

343,514

22.2

Source: Gartner (January 2018)

Second-placed Intel grew its revenue 6.7 percent in 2017, driven by 6 percent growth in data center processor revenue due to demand from cloud and communications service providers. Intel’s PC processor revenue grew more slowly at 1.9 percent, but average PC prices are on the rise again after years of decline following the market’s shift from traditional desktops toward two-in-one and ultramobile devices.

The current rankings may not last long, however, “Samsung’s lead is literally built on sand, in the form of memory silicon,” said Mr. Norwood. “Memory pricing will weaken in 2018, initially for NAND flash and then DRAM in 2019 as China increases its memory production capacity. We then expect Samsung to lose a lot of the revenue gains it has made.”

2017 was a relatively quiet year for mergers and acquisitions. Qualcomm’s acquisition of NXP was one big deal that was expected to close in 2017, but did not. Qualcomm still plans to complete the deal in 2018, but this has now been complicated by Broadcom’s attempted takeover of Qualcomm.

“The combined revenues of Broadcom, Qualcomm and NXP were $41.2 billion in 2017 — a total beaten only by Samsung and Intel,” said Mr. Norwood. “If Broadcom can finalize this double acquisition and Samsung’s memory revenue falls as forecast, then Samsung could slip to third place during the next memory downturn in 2019.”

From the Internet of Things to the cloud to artificial intelligence, industries are seeing a new wave of technologies that have the potential to transform and significantly impact the world around us. For its latest white paper, business information provider IHS Markit (Nasdaq: INFO) surveyed its leading technology experts to find out how these technologies are coming together in new and powerful ways to fundamentally change businesses, fuel innovation, disrupt industries and create both threats and opportunities.

The top eight transformative technologies for the global technology market in 2018, as identified in the IHS Markit report, are as follows:

Trend #1: Artificial intelligence (AI)

AI has matured to the point where it is being used as a competitive differentiator in several industries, particularly in the smartphone, automotive and medical markets. Also, optimization for on-device versus cloud-based solutions is becoming an area of focus. Cloud AI has more computing power to analyze data as it utilizes deep learning algorithms, but there are potential issues around privacy, latency and stability. On-device AI, meanwhile, can help offset those dangers to some degree. For instance, smartphone users who deploy the built-in AI of their phones are able to store data locally and thus safeguard their privacy.

Trend #2: Internet of Things (IoT)

The global installed base of IoT devices will rise to 73 billion in 2025, IHS Markit forecasts show. Accelerating IoT growth in 2018 and movement through a four-stage IoT evolution — “Connect, Collect, Compute and Create” — will be the confluence of enhanced connectivity options with edge computing and cloud analytics.

Enhancements in IoT connectivity, such as low-power wireless access (LPWA) will drive growth. Moreover, technologies adjacent to the IoT will become increasingly sophisticated. Machine video and ubiquitous video will empower new types of visual analytics. And AI, the cloud and virtualization will help develop critical insights sourced from data at the so-called “edge” of computing networks. Applying AI techniques to data will drive monetization in the form of cost savings, greater efficiencies and a transition from product- to service-centric business models.

Trend #3: Cloud and virtualization

Cloud services will pave the way for technologically immature companies to utilize machine learning (ML) and AI, radically transforming their usage and understanding of data.

Trend #4: Connectivity

As the first 5G commercial deployments emerge, the story will focus on connectivity. However, the path to full 5G adoption and deployment is complicated, with new opportunities and challenges alike in store for mobile network operators, infrastructure providers, device manufacturers and end users. 5G represents a dramatic expansion of traditional cellular technology use cases beyond mobile voice and broadband, to include a multitude of IoT and mission-critical applications.

Trend #5: Ubiquitous video

The growing use of screens and cameras across multiple consumer- and enterprise-device categories, along with increasingly advanced broadcast, fixed and mobile data networks, is powering an explosion in video consumption, creation, distribution and data traffic. More importantly, video content is increasingly expanding beyond entertainment into industrial applications for medical, education, security and remote controls, as well as digital signage.

Trend #6: Computer vision

The increasing importance of computer vision is directly tied to the mega-trend of digitization that has been playing out in the industrial, enterprise and consumer segments. The proliferation of image sensors, as well as improvements in image processing and analysis, are enabling a broad range of applications and use cases including industrial robots, drone applications, intelligent transportation systems, high-quality surveillance, and medical and automotive.

Trend #7: Robots and drones

The global market for robots and drones will grow to $3.9 billion in 2018. The deeper underpinnings of the story, however, lie in the disruptive potential of robots and drones to transform long-standing business models in manufacturing and industry, impacting critical areas such as logistics, material picking and handling, navigational autonomy and delivery.

Trend #8: Blockchain

Blockchain enables decentralized transactions and is the underlying technology for digital currency such as bitcoin and ether. Blockchain-based services beyond financial services are already being developed and deployed and will continue to ramp in 2018. These include: the use of blockchain to improve advertising measurement and combat ad fraud; blockchain-based systems for distributing music royalty payments; and solutions to better track and manage electronics supply chains.

IC Insights is currently researching and writing its 21st edition of The McClean Report, which will be released later this month.  As part of the report, a listing of the 2017 top 50 fabless IC suppliers will be presented.

Figure 1 shows the top 10 ranking of fabless IC suppliers for 2017.  Two China-based fabless companies made the top 10 ranking last year—HiSilicon, which sells most of its devices as internal transfers to smartphone supplier Huawei, and Unigroup, which includes the IC sales of both Spreadtrum and RDA. Fabless company IC sales are estimated to have exceeded $100 billion in 2017, the first time this milestone has been reached.

Figure 1

Figure 1

Unlike the relatively close annual market growth relationship between fabless IC suppliers and foundries, fabless IC company sales growth versus IDM (integrated device manufacturers) IC supplier growth has typically been very different (Figure 2).  The first time IDM IC sales growth outpaced fabless IC company sales growth was in 2010 when IDM IC sales grew 35% and fabless IC company sales grew 29%.  Since very few fabless semiconductor suppliers participate in the memory market, the fabless suppliers did not receive much of a boost from the surging DRAM and NAND flash memory markets in 2010, which grew 75% and 44%, respectively.  However, the fabless IC suppliers once again began growing faster than the IDMs beginning in 2011 and this trend continued through 2014.

Figure 2

Figure 2

In 2015, for only the second time on record, IDM IC sales “growth” (-1%) outpaced fabless IC company sales “growth” (-3%).  The primary cause of the fabless companies’ 2015 sales decline was Qualcomm’s steep 17% drop in sales. Much of the sharp decline in Qualcomm’s sales that year was driven by Samsung’s increased use of its internally developed Exynos application processors in its smartphones instead of the application processors it had previously sourced from Qualcomm.  Although Qualcomm’s sales continued to decline in 2016, the fabless companies’ sales in total (5%) once again outpaced the growth from IDM’s (3%).

In 2017, the market behaved very similarly to 2010, when strong growth in the memory market propelled the IDM IC sales growth rate higher than the fabless IC supplier growth rate.  With the total memory market, a market in which the fabless IC companies have very little share, surging by 58% last year, IDM IC sales growth easily outpaced fabless company IC sales growth in 2017.

Through three quarters of calendar year 2017, market shares of top semiconductor equipment manufacturers indicate large gains by Tokyo Electron and Lam Research, according to the report “Global Semiconductor Equipment: Markets, Market Shares, Market Forecasts,” recently published by The Information Network, a New Tripoli-based market research company.

The chart below shows shares for the entire year of 2016 and for the first three quarters of 2017. Market shares are for equipment only, excluding service and spare parts, and have been converted for revenues of foreign companies to U.S. dollars on a quarterly exchange rate.

equipment shares

Market leader Applied Materials lost 1.3 share points, dropping from 28.2% in 2016 to 26.9% YTD (year to date). Gaining share are Tokyo Electron Ltd. (TEL), which gained 2.4 share points while rising from 17.0% in 2016 to 19.4% in 2017 YTD. Lam Research gained 1.6 share points and growing from a 19.0% share in 2016 to a 20.6% share in 2017 YTD.

On a competitive basis, Applied Materials competes against both competitors in conductor and dielectric etch equipment and in deposition equipment (atomic layer deposition [ALD] and non-tube low pressure chemical vapor deposition [LPCVD]). TEL also competes against Screen Semiconductor Solutions, which dropped 1.4 share points, in photoresist track and wet clean equipment.

According to SEMI, the industry consortium, semiconductor equipment grew 41% in 2017.

The year-end update to the SEMI World Fab Forecast report reveals 2017 spending on fab equipment investments will reach an all-time high of $57 billion. High chip demand, strong pricing for memory, and fierce competition are driving the high-level of fab investments, with many companies investing at previously unseen levels for new fab construction and fab equipment. See figure 1.

Figure 1

Figure 1

The SEMI World Fab Forecast data shows fab equipment spending in 2017 totaling US$57 billion, an increase of 41 percent year-over-year (YoY). In 2018, spending is expected to increase 11 percent to US$63 billion.

While many companies, including Intel, Micron, Toshiba (and Western Digital), and GLOBALFOUNDRIES increased fab investments for 2017 and 2018, the strong increase reflects spending by just two companies and primarily one region.

SEMI data shows a surge of investments in Korea, due primarily to Samsung, which is expected to increase its fab equipment spending by 128 percent in 2017, from US$8 billion to US$18 billion. SK Hynix also increased fab equipment spending, by about 70 percent, to US$5.5 billion, the largest spending level in its history. While the majority of Samsung and SK Hynix spending remains in Korea, some will take place in China and the United States. Both Samsung and SK Hynix are expected to maintain high levels of investments in 2018. See figure 2.

Figure 2

Figure 2

In 2018, China is expected to begin equipping many fabs constructed in 2017. In the past, non-Chinese companies accounted for most fab investments in China. For the first time, in 2018 Chinese-owned device manufacturers will approach parity, spending nearly as much on fab equipment as their non-Chinese counterparts. In 2018, Chinese-owned companies are expected to invest about US$5.8 billion, while non-Chinese will invest US$6.7 billion. Many new companies such as Yangtze Memory Technology, Fujian Jin Hua, Hua Li, and Hefei Chang Xin Memory are investing heavily in the region.

Historic highs in equipment spending in 2017 and 2018 reflect growing demand for advanced devices. This spending follows unprecedented growth in construction spending for new fabs also detailed in the SEMI World Fab Forecast report. Construction spending will reach all-time highs with China construction spending taking the lead at US$6 billion in 2017 and US$6.6 billion in 2018, establishing another record: no region has ever spent more than US$6 billion in a single year for construction.

Samsung Electronics Co., Ltd. announced today that it has begun mass producing the industry’s first 2nd-generation of 10-nanometer class (1y-nm), 8-gigabit (Gb) DDR4. For use in a wide range of next-generation computing systems, the new 8Gb DDR4 features the highest performance and energy efficiency for an 8Gb DRAM chip, as well as the smallest dimensions.

Samsung_1y-nm_8Gb_DDR4_Chp+Mod

“By developing innovative technologies in DRAM circuit design and process, we have broken through what has been a major barrier for DRAM scalability,” said Gyoyoung Jin, president of Memory Business at Samsung Electronics. “Through a rapid ramp-up of the 2nd-generation 10nm-class DRAM, we will expand our overall 10nm-class DRAM production more aggressively, in order to accommodate strong market demand and continue to strengthen our business competitiveness.”

Samsung’s 2nd-generation 10nm-class 8Gb DDR4 features an approximate 30 percent productivity gain over the company’s 1st-generation 10nm-class 8Gb DDR4. In addition, the new 8Gb DDR4’s performance levels and energy efficiency have been improved about 10 and 15 percent respectively, thanks to the use of an advanced, proprietary circuit design technology. The new 8Gb DDR4 can operate at 3,600 megabits per second (Mbps) per pin, compared to 3,200 Mbps of the company’s 1x-nm 8Gb DDR4.

To enable these achievements, Samsung has applied new technologies, without the use of an EUV process. The innovation here includes use of a high-sensitivity cell data sensing system and a progressive “air spacer” scheme.

In the cells of Samsung’s 2nd-generation 10nm-class DRAM, a newly devised data sensing system enables a more accurate determination of the data stored in each cell, which leads to a significant increase in the level of circuit integration and manufacturing productivity.

The new 10nm-class DRAM also makes use of a unique air spacer that has been placed around its bit lines to dramatically decrease parasitic capacitance**. Use of the air spacer enables not only a higher level of scaling, but also rapid cell operation.

With these advancements, Samsung is now accelerating its plans for much faster introductions of next-generation DRAM chips and systems, including DDR5, HBM3, LPDDR5 and GDDR6, for use in enterprise servers, mobile devices, supercomputers, HPC systems and high-speed graphics cards.

Samsung has finished validating its 2nd-generation 10nm-class DDR4 modules with CPU manufacturers, and next plans to work closely with its global IT customers in the development of more efficient next-generation computing systems.

In addition, the world’s leading DRAM producer expects to not only rapidly increase the production volume of the 2nd-generation 10nm-class DRAM lineups, but also to manufacture more of its mainstream 1st-generation 10nm-class DRAM, which together will meet the growing demands for DRAM in premium electronic systems worldwide.