6.3.1 A Slow but Steady Mode of Catch-Up

As discussed in Section 3.4 of Chapter 3, Penang, Malaysia, has long been recognized as a productive cluster capable of hosting MNCs that produce electronic parts and components. MNCs began operating in Penang in 1972 following the establishment of a free trade zone in that year. In the 1970s, MNCs were attracted to Penang because it was one of the few locations that offered attractive incentives, such as cheap labor costs and low taxes. Although Penang has not been as successful as Shenzhen at generating domestically owned firms, it does not represent a failed attempt at catch-up; rather, Penang is a decent case of steady catch-up. Penang’s per capita income level is much higher than the average level in Malaysia. Due to rising wage rates, some MNCs in Penang have downsized their manufacturing operation, moving low value-added operations to lower wage countries. However, many MNCs have maintained operations in Penang, as they benefit from privileged access to strong supply chains enabling them to produce and provide cutting-edge technology products and services. Further, a new cycle of firms emerged and performed high value-added activities, including high-value engineering tasks, such as prototyping and services. For instance, Motorola oversees a full cycle of engineering operations for its telecommunication business, from R&D to prototyping, production, and engineering services (Lee et al., Reference Lee, Wong, Intarakumnerd and Limapornvanich2020).

In summary, Penang has evolved from a labor-intensive manufacturing center into a cluster that provides software, engineering design, R&D, and industrial system-based services. Consequently, low value-added manufacturing has largely disappeared from Penang. Notably, a new cycle of development is emerging, and Penang has diversified into high value-added servicing activities and industries, such as medical tourism, education, shared service centers, and R&D (Penang Institute, 2015, pp. 10–15). Next, I will discuss the key local institutions that have facilitated such value chain upgrades at MNCs.

Policy intervention in Penang aimed at upgrading social capital and state-of-the-art skills useful in GVCs. The key vehicle for this upgrading was the Penang Skill Development Centre (PSDC), a public agency established to cultivate production-related skills among the blue-collar workforce, as explained in detail in Lee et al. (Reference Lee, Wong, Intarakumnerd and Limapornvanich2020). Established in 1969, the Penang Development Centre (PDC) was a state agency that supported the development of industrial parks in Penang and employment creation. The PDC also cooperated with MNCs, such as HP, Intel, and Motorola. Together, they founded the PSDC in 1989, a nonprofit institution that provided technical knowledge and training programs to technicians and engineers within the industrial park. The center has an established network of industry partners and a robust knowledge base, and it can teach specialized knowledge useful for advanced industrial operations. Approximately 200 company members of the PSDC contribute to its technical knowledge base and enjoy access to a stable supply of labor power. The PSDC also hosts several laboratories that provide shared services to members. In 2016, the PSDC trained and certified 7,048 individuals as skilled workers in the industrial park, a ratio of 35 workers per company in Penang. The PSDC also runs training programs to develop the necessary human competencies for Industry 4.0.Footnote ³

6.3.2 A Faster Mode of Catching Up

Although both Penang and Shenzhen began as FDI-led growth economies at their initial stages, Shenzhen came to adopt a faster mode of catch-up. The discussion in Section 3.4 of Chapter 3 demonstrates that one important source of the different speeds of catch-up between Penang and Shenzhen has been the emergence of domestically owned and globally successful firms in Shenzhen. Therefore, the important question is to determine how this was possible in Shenzhen and other regions of China. The answer is a strategy that combines firm-level R&D efforts with supportive industrial and innovation policies by the government, including public–private collaborations (Lee et al., Reference Lee, Qu and Mao2021; Yang, Reference Yang2015). This strategy can be further demonstrated by several cases of catch-up in China, in particular, the case of Huawei in Shenzhen.

Huawei was established in 1987 by Ren Zhengfei, a former communications officer for the People’s Liberation Army, and five of his fellow PLA members with a starting capital of Renminbi 20,000 (about $3,000).Footnote ⁴ Huawei began from nothing in the city of Shenzhen. The firm began as a telecommunication equipment distributor operating out of a barn on a farm in Shenzhen that was used as an office. From here, the founders sold telephone switches imported from Hong Kong. In 1990, Huawei decided to attempt to transform itself into a telecommunication equipment manufacturer by relying on in-house research and development rather than forming a joint venture with a multinational firm, which was the typical strategy of most Chinese manufacturers at that time. This constituted a significant risk, as Huawei had neither the relevant knowledge nor sufficient money to develop the capacity to manufacture telecommunications equipment. Despite this, Huawei evolved to become a global player in both telecom systems and cell phones. What were the sources of the stunning growth of this private startup company?

A subsequent driver of growth of this company had been the spillover and diffusion of knowledge; knowledge began by spilling over from the FDI firm Shanghai Bell to a public–private R&D consortium and then finally to Huawei (Mu & Lee, Reference Mu and Lee2005). In the 1980s, the telecom equipment market in China, particularly fixed-line telephone switch manufacturing, experienced an unmet demand surge following the opening and growth of the Chinese economy. In response, the Chinese government invited several foreign firms to form joint ventures with Chinese partners to produce and sell goods in the Chinese market. Shanghai Bell was one such joint venture, with the Chinese holding a majority stake of shares at 60%. This joint venture was an exemplar case of the Chinese strategy of “trading market for technology” (Mu & Lee, Reference Mu and Lee2005), with the Chinese government leveraging its ability to grant access to the massive Chinese market as a bargaining tool to induce foreign firms to transfer important technology and know-how to their Chinese partners.

The Chinese government did not stop at facilitating joint ventures. Soon after, they initiated a public–private R&D consortium designed to take advantage of knowledge spillover from joint ventures. This consortium eventually developed a large-capacity digital telephone switch (model HJD-04) in 1991, which was first installed in rural markets in 1992. This indigenously developed digital switch technology was transferred to four local manufacturers, including three state-owned enterprises (SOEs) and one private firm (Huawei). As we now know, Huawei was the ultimate winner in the market among these four companies, and its success was due to its aggressive corporate culture and commitment to in-house R&D. Huawei also continued building up its technological capabilities by recruiting engineers with experience and knowledge of the development of the HJD-04 system. Huawei rapidly increased its market share by spearheading an aggressive marketing campaign and taking advantage of the Chinese government’s support, as exemplified by its “buy local” policy and preferential loans.Footnote ⁵ In 1998, Huawei became the largest digital switch supplier in China (Mu & Lee, Reference Mu and Lee2005).

The above history of Huawei demonstrates that there would have been no Huawei today if the Chinese government had not taken the initiative to establish a public–private R&D consortium for the development of domestic telephone switch manufacturing. Government policies supporting local manufacturers were also crucial to this success. As these cases show, inviting FDI is not the end but just the beginning of the long-term process of economic development. However, the type of government intervention that is most effective is dependent on contextual factors, such as time and place. For instance, in the case of Tencent, another pioneering firm that is also based in Shenzhen, the primary assistance provided by the local government came in the form of guaranteeing funding by attracting venture capital (with public capital involvement) and other financial investors during the initial growth stage (Breznitz & Murphree, Reference Breznitz and Murphree2011, pp. 175–178; Yang, Reference Yang2015). There has been an impressive rise in local innovators in Shenzhen, which is reflected in the list of the top ten patent assignees in the region. In 2002, foreign firms dominated the list. However, by 2015, all of the top ten assignees were Chinese firms, including Huawei, ZTE, Tencent, and BYD.

The basic role of the public sector in China’s telecom sector and in Shenzhen was similar to that of FCh in the Chilean salmon sector, as discussed in Section 3.2 of Chapter 3. FCh, however, is not a public–private consortium but a nonprofit organization. Salmon is not native to Chile and thus Chile has no comparative advantage in the salmon business. However, FCh was dedicated to fostering the salmon business and its growth, and it was instrumental in importing Norwegian technology and experimenting with farming various species under different conditions, eventually proving that cultivating salmon was commercially viable. Salmones Antártica, a salmon production and processing company created by FCh, successfully demonstrated the economic potential of salmon cultivation as an industry, and subsequently, more entrepreneurs have entered the salmon business.

6.3.3 Transitioning from Slow to Fast Catch-Up: The Auto Sector in China

The Chinese auto sector is a typical example of shifting from a slow mode of catch-up that relies on FDI or joint ventures to an eventually faster mode of catch-up that relies on domestically based firmsFootnote ⁶. China initiated economic reforms and an open-door policy in the late 1980s, and subsequently, it sought to establish its own automotive industry. In the initial stages, this industry was to rely on foreign joint ventures. The Chinese government anticipated benefiting from technology transfers by forming joint ventures and pursuing a policy strategy of leveraging the “market for technology.” This approach was also applied to other industries, such as telecommunication equipment (Mu & Lee, Reference Mu and Lee2005).

One of the first joint ventures was the Beijing Jeep Company formed in 1983, followed by a joint venture between Shanghai Auto Industry Corporation (SAIC) and Volkswagen in 1984 and Guangzhou-Peugeot in 1985. More joint ventures followed in the 1990s (Chu, Reference Chu2011). In these joint ventures, foreign ownership was capped at 50% (Liu et al., Reference Liu, Xin and Lu2014), and foreign joint ventures were required to establish R&D centers (Yu et al., Reference Yu, Ming and Hui2008). However, this strategy of relying on FDI and joint ventures did not yield the anticipated benefits in terms of technology transfer and the eventual enhancement of the technological capabilities of Chinese automakers (Chu, Reference Chu2011). In the early stages of the industry, the size of China did not constitute a considerable advantage; rather, it was a source of information and coordination failure due to the complex politics involving the central and local governments, which made it difficult to conduct Japan–Korea-style centralized industrial policy (Lee et al., Reference Lee, Qu and Mao2021).

Although the central government attempted to achieve economies of scale by limiting the number of firms in the auto industry to three major and three minor automakers, provincial governments often circumvented such regulations and allowed entries by local firms and foreign joint ventures. Consequently, China ended up with over 110 automobile assembly plants, with nearly half being foreign joint ventures (Chu, Reference Chu2011). The problems of the Chinese auto sector have been summarized as “outdated products, high prices, and no R&D capabilities,” as well as “too many production sites, indiscreet project approval, redundant investment, and slow localization” (Chu, Reference Chu2011). Joint venture firms tended to adopt old, mid-market designs from foreign partners and concentrated on fulfilling government-mandated localization requirements rather than developing their own engines or undertaking R&D (Thun, Reference Thun2018). Guangzhou-Peugeot Automobile Company, which closed in March 1997, is a representative example of a joint venture that failed in China (Lassere & Zeng, Reference Lassere and Zeng2002). Peugeot was unwilling to promote local value chains and instead continued to rely on foreign imported parts, which ultimately raised the final cost of products (Harwit, Reference Harwit1994). Thus, the Chinese partner believed that Peugeot was focusing on obtaining short-term profits from quickly selling knock-down kits without facilitating localization.

It is domestically owned companies that secured the success of the contemporary Chinese auto sector, and these domestic firms only entered the market after China joined the WTO in 2001. Before 2000, joint ventures dominated the Chinese market. Beginning in 2001, domestically owned manufacturers, such as Great Wall, Chery, and Geely, began emerging rapidly, and they continued to increase their market share, reaching 30% in 2009 (Tian et al., Reference Tian, Li, Yang, Wang, Liu, Zhu and Zhu2010). These new companies pursued slightly different strategies from those of foreign joint ventures in building their technological capabilities and acquiring foreign technology. They conducted in-house R&D activities, filed more patents than foreign joint ventures,Footnote ⁷ and relied on active licensing and international M&As. For example, Chery bought a used assembly line from SEAT, a Volkswagen subsidiary in Spain, and an engine factory from a Ford plant in England in 1997 (Lee et al., Reference Lee, Cho and Jin2009). After importing this assembly line, they recruited engineers from foreign joint ventures. For example, Chery CEO Tongyao Yin was a former manager at FAW-Volkswagen, and over 100 engineers of FAW-Volkswagen also left to join Chery. Moreover, thirteen key engineers moved to Chery from Dongfeng-Nissan. They joined the development team for the famous QQ model, the success of which resulted in the rapid growth of Chery (Lee et al., Reference Lee, Fujimoto and Chen2007).

Given the strong motivation for success associated with private or nonstate ownership and the pressures of tough market competition, indigenous firms, including Chinese conglomerate BYD, invested aggressively in new facilities and technologies to build their technological capabilities.Footnote ⁸ Chery acquired Jaguar Land Rover to enhance its brand reputation and technological capabilities. In 2007, Geely established an overseas factory and bought a stake in the UK cab firm Manganese Bronze Holdings. In 2009, Geely acquired the Australian company Drivetrain Systems International, the world’s second-largest gearbox manufacturer, and Geely further improved its technological capabilities through an acquisition of Volvo. The rise of indigenous firms also created more competition between local firms and joint ventures, which further contributed to the deepening and widening of local supply chains in China, which was also facilitated by the local contents requirement policy.

While one may emphasize the unique Chinese advantage of large market size, the story of the auto sector in China suggests that market size can only be utilized as such when government has an effective plan and the will to promote local industry. Thus, the so-called “trading market for technology” strategy was effectively utilized in the case of telecommunication switch development in China. However, this was not the case in the auto sector because the government, during the industry’s early stages, failed to implement a similar strategic vision and did not begin providing effective coordination for the promotion of a part–supplier network until the 2000s (Chu, Reference Chu2011).

Furthermore, there were several policy measures that contributed to the successful rise of domestically owned firms in China. In addition to the local contents requirement policy, which was eventually canceled in accordance with WTO demands, there were three other policy initiatives: import restrictions, entry controls, and market discrimination. First, since the promulgation of the Automotive Industry Policy Law in 1994, import quota licenses have been used to regulate the import of auto parts and assembled cars. Even the types of cars allowed for import are regulated in accordance with nationwide policies meant to promote the automotive sector. Therefore, the importation of both used cars and parts for car assembly is forbidden, which implies that automotive manufacturers are not allowed to import semi-knock-down kits to produce cars (Chen & Han, Reference Chen and Han2007). Second, foreign enterprises are not allowed to establish more than two joint ventures producing the same type of car in China. For investment projects related to completely built units and engines, foreign automotive manufacturers are required to collaborate with domestic manufacturers (Nan, Reference Nan2005). Third, foreign cars face higher registration fees and taxes in the market than domestic cars (Chen & Han, Reference Chen and Han2007).

6.3.4 The Key Takeaways

The takeaway of this chapter is not that the same measures should be applied to all contexts and countries but rather that latecomers require some forms of tailored asymmetric support, as they are unable to compete against incumbent foreign firms. Without such asymmetric support, latecomer economies and industries will continue to be dominated by foreign firms and FDI firms, and given the existing asymmetry in power and technologies, domestically owned firms will fail to emerge. For domestic firms, there is no such thing as a peaceful rise to prominence; their emergence always entails some form of rivalry and tension with incumbent firms. This is because any effort to establish and strengthen domestic firms is often met with hostile reactions or counterattacks by incumbents and existing joint venture partners. In such cases, public intervention is justified to correct market imperfections and inefficiency because incumbents often abuse their market power and the market structure to maintain their monopolistic power. Power and technology asymmetries in GVCs are the source of latecomers’ failure to upgrade. I will now elaborate on this point while providing several examples.

The three modes of original equipment manufacturer (OEM), original design manufacturer (ODM), and original brand manufacturer (OBM) are examples of GVC participation where flagship firms from advanced economies, such as Nike, sit at the top of value chains due to their brand power (or power as OBMs), while latecomer firms serve brand owners by producing for them as OEMs and ODMs. Although OEMs and ODMs strive to become OBMs and capture a larger share of global profit, upgrading from one mode to the next is neither automatic nor easy. Transitioning into an OBM involves several risks, including weathering counterattacks from incumbents and flagship firms in existing GVCs. This finding was noted in a previous essay of mine discussing how Korean SMEs try to become OBMs (Lee et al., Reference Lee, Song and Kwak2015), as well as in another case study on the footwear and furniture sectors in Brazil (Navas-Alemán, Reference Navas-Alemán2011). The aversion of former buyer firms toward suppliers that are trying to transform into OBMs was also documented in earlier studies on Latin America (Giuliani et al., Reference Giuliani, Pietrobelli and Rabellotti2005; Navas-Alemán, Reference Navas-Alemán2011). Thus, this transition can be prolonged by a slowdown, which may even lead to a decline in sales or market shares for latecomer firms trying to upgrade. And eventually, this can cause a possible crisis for such firms. For instance, as I noted in an earlier essay (Lee, Reference Lee2019, Chapter 4), in the consumer goods sector, former vendor companies (brand owners) often cease their patronage of OEMs that begin to sell their competing brands in order to destroy the former OEM firms. In the case of capital goods, when an incumbent realizes that a latecomer firm has become successful in developing products that can compete with the incumbent, they often begin charging predatory prices in the market.

The pervasiveness of such interference tactics by leading incumbent firms in GVCs implies that functionally upgrading to an OBM requires a latecomer to fight with leading firms for their independence in GVCs. To some extent, this argument contradicts several studies in the GVC literature that tend to emphasize collaborations between flagship firms in the Global North and firms in the Global South (e.g., Ernst & Kim, Reference Ernst and Kim2002; Sturgeon & Lester, Reference Sturgeon, Lester, Yusuf, Altaf and Nabeshima2004). Latecomer firms in the South have the option of choosing “no fight and no associated risk”; however, they can also choose to remain dependent on one or several MNC vendor firms, or a single client firm. This strategy of dependent or path-following catch-up is not always detrimental because it may lead to temporary growth during the low or lower middle-income stages. However, in the long term, it is not certain that this strategy can guarantee long-term survival, as new late-entrant firms will emerge from the next tier of catch-up countries and offer lower wages and costs.Footnote ⁹ The footwear sector in southern Brazil is an example of a cluster that was once prosperous but subsequently declined after the rise of China as an alternative site of production (Lee et al., Reference Lee, Szapiro and Mao2018).

6.4.1 How to Generate Big Businesses

In a country like the United States, which has a large market size and a higher degree of market efficiency, there is no need for intervention via public policies to promote big businesses. Many startups in the United States tend to grow quickly into “unicorns” within a short period of time.Footnote ¹⁰ Therefore, it is important to ask why other countries fail to generate such unicorns.

One answer could be that a typical emerging or developing country faces a high degree of market failure while also having to overcome its smaller market size. In such situations, productive ideas by individuals or startups tend not to be financed either by venture capital or bank loans. When making a loan, banks typically require some form of collateral, regardless of expected return on investment projects. The literature on business groups and conglomerates in emerging economies tends to identify market failures as a factor influencing the rise of conglomerates (Lee, Reference Lee2019, Chapter 4). That is, business groups and family-owned conglomerates are understood as entities that emerge to fill institutional voids or to correct market failures by utilizing internal capital markets and labor markets. When business groups and family-owned conglomerates have started new businesses or entered new sectors, they have tended to secure initial capital not via regular capital markets but through funds received from sister companies within the business group. The government or public agencies often participate in this process by issuing debt guarantees when the private firms try to obtain loans from domestic or foreign banks.

In advanced economies, market failures tend to refer to entire sectors becoming oligopolies or monopolies. In contrast, in developing economies, market failures are more fundamental in nature, as they involve the very absence of a market or the thinness and smallness of markets, which can give rise to an inability to finance large or long-term projects. This, in turn, results in an inability to generate big businesses. In such cases, an alternative method for growing big businesses is for the government to create them directly. In many cases in the Global South, governments are directly involved in creating SOEs. Governments can grow SOEs quickly by mobilizing all domestically available resources and competencies, allowing the enterprises to go public via an initial public offering (IPO), and finally pursuing gradual privatization. There are various examples of governments building SOEs to eventually be converted into big businesses.

One example is POSCO in South Korea, which is one of the top five steel companies in the world. As Korea lacked any private capitalists who could take on such a project, only the government was positioned to create the beginnings of a Korean steel-making industry. From 1958 to 1968, the Korean government tried six times to construct an integrated steel mill but failed each time. The World Bank and the United States Agency of International Development refused to provide loans for the project over doubts that Korea could repay them; they also doubted the necessity of a large-capacity steel mill in a small developing economy (D’Costa, Reference D’Costa1994, p. 64; Song, Reference Song2002, p. 57). Instead, these agencies suggested that Korea develop steel-consuming industries, such as machinery, automobiles, and shipbuilding (Song, Reference Song2002, p. 57). However, the Korean government insisted that the construction of steel-consuming industries was not a prerequisite for the successful development of the Korean steel industry and that the steel industry should first expand and supply quality steel at competitive prices, after which steel-consuming industries would follow (Song, Reference Song2002, p. 58).

Former President Park Chung-Hee made this steel project a top priority of the second Five-Year Economic Development Plan (1967–1971). The Korean government established POSCO as an SOE in 1968. The government held 56.2% of the company’s shares, and the remaining 43.8% were held by the state-run Korea Tungsten Co. In retrospect, the plan to construct a steel mill before the development of steel-consuming industries turned out to be valid, as evidenced by the subsequent strong growth of steel-consuming industries in Korea since the 1970s, such as the automotive and shipbuilding industries. Since the 2000s, POSCO gradually become privatized, and the government distributed a portion of its shares to all Korean citizens free of charge.

Another example is TSMC, the world’s largest semiconductor foundry. As discussed in Section 4.4 of Chapter 4, TSMC was created in 1986 as a spin-off of a government research institute known as ITRI and started as a joint venture with Philips, as well as other fabless firms. Further, the rise of the semiconductor industry in Taiwan was not simply a natural process; rather, it was the product of a policy of targeted industry promotion. With a clear and calculated vision, the government in Taiwan first allocated robust resources to ITRI and two other research institutes in Hsinchu to develop the capabilities needed for the foundry businesses, in particular fabrication services (Yeung, Reference Yeung2016, p. 138). TSMC’s rise to global prominence occurred ten to fifteen years after its spin-off from the ITRI, which could be attributed to firm-specific innovation efforts undertaken after the initial government promotion of the industry in the 1980s (Yeung, Reference Yeung2016, p. 140).

Chapter 3 discussed several resource-based sectors in Malaysia that served as a growth engine for the country past the middle-income stage. The oil and gas company Petronas is the only Malaysian company that ranks in the Fortune Global 500. This SOE has gradually developed its capabilities and upgraded into higher-value activities, and it is now a fully integrated international oil and gas company that operates in over thirty countries. The public sector also played a critical role in the early stages of the Malaysian rubber and palm oil sector. Malaysia nationalized several domestic firms to consolidate them into a larger firm, and in 1981, it also executed a hostile takeover of three British palm oil and rubber plantation conglomerates listed on the London Stock Exchange (Lebdioui et al., Reference Lebdioui, Lee and Pietrobelli2021). Such initiatives were important for the growth of these resource-based sectors.

SOEs are not necessarily inefficient as long as they are subject to global market discipline and are run by competent managers. There are multiple examples of successful SOEs, such as Singapore Airlines, Aramco, and Ethiopian Air. For instance, Saudi Arabian Oil Company, or Aramco, has overtaken Apple as the world’s most valuable company, worth about $2.43 trillion compared to Apple’s $2.37 trillion as of May 2022.Footnote ¹¹ Some SOEs have also proven to be extremely innovative, such as the State Grid Corporation of China, which was thoroughly analyzed by Rikap (Reference Rikap2022). The State Grid Corporation of China is a leading firm in artificial intelligence applications for the energy sector, and it became an innovator by relying on China’s national innovation system, particularly its public research organizations, public funding, and innovation and energy policies. It is unique for not having relied on technology transfers from global leaders, unlike other large firms from developing or emerging countries.

It is no surprise that many of the Fortune Global 500 firms located in emerging economies tend to be SOEs, such as POSCO in South Korea and many SOEs in China. This contrasts sharply with the case of advanced economies, where most Fortune Global 500 firms are not SOEs. A similar contrast can be observed when looking at related sectors; for example, the French energy and petroleum company Total Energies and the US company Shell are private corporations, whereas the Saudi Arabian company Aramco and the Malaysian company Petronas are SOEs. Such a contrast has to do with the different origins of these firms. There exists a high degree of market failure in emerging economies, and therefore, big businesses tend to be either SOEs or business groups, like Korean chaebols. It takes time for them to become privatized or for a new generation of private firms to emerge. China provides a typical example. The Chinese firms on the Fortune Global 500 list were at one time mostly SOEs. Currently, however, many of the Chinese companies on the list are not SOEs. Even though China is a state-led economy, it has been able to generate dynamic non-SOEs, like Huawei, Alibaba, Baidu, and Tencent, some of which are listed on US stock exchanges.

In general, policymakers in emerging economies face two alternatives. They can adopt a slow mode and continue to deploy their resources to a large number of SMEs and startups with the objective of growing them into big businesses, or they can adopt a fast mode, concentrating their resources in a few big businesses to achieve rapid growth. A practical compromise between these two approaches would be to start with a certain number of firms and then focus on a few among them. The Korean experience, as discussed in Chapter 5, is consistent with such a compromise, in that all present-day big businesses in Korea used to be small companies, particularly when judged by international standards. However, they grew into large corporations through a cumulative process that involved screening candidates for privileged support, evaluating firms based on performance, and then selecting the best-performing firms for new projects.

6.4.2 Transitioning from Big Businesses to SMEs and Startups

Once a country achieves success in generating a critical mass of big businesses, these big businesses tend to serve as an umbrella and generator of startups and SMEs in diverse ways, including enabling spin-offs, providing venture capital, and purchasing the products of SMEs. In other words, in emerging economies, it is big businesses that tend to facilitate the growth of startups and SMEs, whereas in an environment absent of big businesses, SMEs and startups take more time and have more difficulty growing into big businesses. In China, large tech giants, such as Alibaba and Tencent, served as vital sources of venture capital for many startups. For instance, Tencent is reported to have invested in over 730 startups from 2006 to 2022, including seven in 2012, forty-two in 2015, ninety-seven in 2018, and ninety-six in 2021.Footnote ¹² It is well known that in Shenzhen, China’s most innovative city, the role of public–private collaborative venture capital has played a central role in fostering many startups. In South Korea, the tech giants Naver and Kakao, which are the Korean equivalents to Google and Facebook, respectively, were founded by former employees of Samsung. Startups and SMEs tend to grow into big businesses only when the public sector offers critical assistance in correcting market, capability, or system failures.

In fact, one study on entrepreneurship sponsored by the Asian Development Bank found that while the presence of big businesses in a low- or middle-income economy tends not to harm the emergence of startups with any statistical significance, it tends to lead to more startups in high-income economies.Footnote ¹³ Such results can be explained by the fact that big businesses tend to have both negative and positive effects on startups. That is, they have a negative effect on startups by discouraging them from offering job opportunities to talented young individuals and possible entrepreneurs while also positively affecting them by serving as sources of funds and producing employees who, after leaving the corporation, start their own businesses. These opposing effects offset each other in low- and middle-income economies; in contrast, the net effect is positive in high-income economies. In a low- or middle-income economy with a higher degree of market failure, especially in capital markets, the risk of starting a new business is higher, and therefore, people tend to prefer being hired by a big business. In contrast, in a high-income economy with a lower degree of market failure, the risk associated with startups is lower than in low- or middle-income economies. In this context, it makes sense to promote the growth of big businesses in low- or middle-income economies with the anticipation that such big businesses will generate more startups at later stages of development.

However, these linkages between big businesses and SMEs are not automatic and, therefore, may require policy intervention. South Korea, like other countries, has tried many policies to promote SMEs and startups; many of them, however, were unsuccessful. Nevertheless, there are several policy initiatives that have proven to be effective. As is explained below, their common success factor is that they have all tried to mobilize synergies and spillover between SMEs and large firms to correct various failures in markets, systems, and capabilities.

In South Korea, one such successful intervention was the so-called AMC (advance market commitment) R&D program, which involved supporting the R&D programs of SMEs so that SMEs could develop parts and supplies on the advance commitment by big businesses and state-owned enterprises to use and purchase them once they are developed successfully.Footnote ¹⁴ The nature of the program is similar to the AMC used to develop vaccines.Footnote ¹⁵ Such a program is advantageous, as it is designed to overcome coordination and system failures. The nature of coordination failure is as follows. On the one hand, SMEs do not want to take the risk of launching R&D projects to develop parts and supplies without a guarantee that large assembly companies will purchase their products. On the other hand, large assembly companies tend to purchase high-tech parts and components from foreign suppliers because they are uncertain about the quality of comparable products made by domestic SMEs. Given the South Korean government’s mandate to promote local value chains and domesticate the production of formerly imported parts and components to save dollars, the government intervened between supplier SMEs and large client firms and devised a scheme to overcome this coordination failure by mobilizing public R&D.

According to South Korea’s AMC R&D program, products to be developed are first proposed by either large user firms or supplier SMEs; subsequently, a government agency evaluates the request and decides whether to support it. Once approved, the SME receives an R&D subsidy for two to three years, which covers 55% to 75% of the total R&D expenses. Once an SME is able to generate revenue, it must pay back up to 20% of the received subsidy as a royalty. This program began in 2002 on an experimental basis. Support was provided to thirteen SMEs, with an average subsidy amount of 70 million won. Since then, it was expanded in scale and scope. In 2005, eighty-seven SMEs received an average subsidy of 110 million won (about $110,000) each. In 2010, this had expanded to 214 SMEs receiving an average annual subsidy of 280 million won, involving 177 large user firms. As of 2022, this program is still in operation, indicating its success relative to other programs that were suspended due to ineffectiveness. This initiative was successful because it was designed not only to correct coordination failures but also to promote R&D collaborations between large user firms and supplier SMEs, thereby enhancing the know-how and capabilities of SMEs.

The second policy initiative designed to promote SMEs in South Korea was the opening of a secondary stock market to handle market failures facing new firms in financing their investment in capital market. On this secondary stock market, the requirements for a startup or SME to be listed for an initial public offering were less strict than those for the primary stock markets. This secondary market established by the South Korean government is known as the KOSDAQ (Korean Securities Dealers Automated Quotations) and it is equivalent to the NASDAQ (National Association of Securities Dealers Automated Quotation) in the United States.Footnote ¹⁶ Since opening in 1996, the KOSDAQ has grown rapidly. At the end of 1997, there were 359 firms listed in the market, and by February 2000, there were 469 firms listed. The market value of the KOSDAQ has grown from 7 billion won (about $6 million) at end of 1997 to 105 trillion won (about $100 billion) by February 2000. If we compare the KOSDAQ with the Korean Stock Exchange (KSE), the number of the listed firms is not small, since there are only 725 firms listed in the KSE in 2000. In terms of market value, the aggregate market value of KOSDAQ firms is currently below that of the KSE; however, when KOSDAQ reached its peak in 2001, its market value approached that of the KSE, with as many as 153 new firms listed in 2002.

The KOSDAQ market mainly targeted so-called “venture companies,” which are technology-oriented startups that spend more than 5% of their sales on R&D and receive venture capital investment. Out of the 469 firms listed on the KOSDAQ in 2000, 150 were officially classified as venture companies. These companies were specifically promoted via a law enacted in 1997 to promote startup and venture companies. It is also notable that beginning in December of 1997, South Korea suffered a financial crisis and bankruptcies of some chaebol firms, which led to the IMF bailout. Many of the entrepreneurs who founded these companies were former employees of big businesses and chaebols, where they had built up their experiences, skills, and technological know-how. Moreover, the 1997 crisis was an important trigger factor, as one-third of the top thirty chaebols declared bankruptcy and had to fire many employees. Subsequently, in 1999, venture companies experienced their first boom, which coincided with the post-crisis turnaround of the Korean economy, which witnessed 9% real growth.

This growth was not simply natural; rather, it should be partly attributed to the policy commitments made by the new Kim Dae-jung government, which promised to transition from a “chaebol-led” to a “venture-led” economy. In 1998, the Korean government promulgated the Five-Year Plan for the Vitalization of Venture Companies. Being labeled a “venture” company benefited South Korean firms, as it guaranteed firms substantial tax benefits and exempted them from the strict requirement for being listed in the KOSDAQ. According to the Office of the SME, the number of venture companies grew from a mere 304 in May 1998 to 6,004 in March 2000. The value of the products of these venture companies accounted for about 4.8% of GDP in 1999, and these companies hired a cumulative total of 180,000 workers.

The KOSDAQ experienced a phenomenon similar to overheating in 2001 due to many individual investors rushing to purchase stocks in expectation of quick capital gains. In the early 2000s, even big businesses expressed concern as they witnessed many of their former employees quit their jobs to create startups. Furthermore, in July 2013, the Korean government created a third stock market called the Korea New Exchange (KONEX), which was to offer public listing opportunities for less qualified firms than those on the KOSDAQ. As of 2022, there are about 130 firms listed on the KONEX.

China has also created two secondary stock markets. The ChiNext, which was formed in 2009, is a NASDAQ-style subsidiary of the Shenzhen Stock Exchange. The Shanghai Stock Exchange Science and Technology Innovation Board (SSE STAR Market) was formed in July 2019. It was launched with an ambition to rival the NASDAQ, and by July 2020, it was ranked second globally for capital raised via IPOs. As of October 2022, it had 480 listed firms, including some multi-listed firms, such as SMIC, China’s fast growing semiconductor foundry.Footnote ¹⁷ Although the amount raised via IPOs on Chinese stock markets (approx. $35 billion) was more than double that raised on Wall Street (approx. $16 billion) as of June 2022, much of the fundraising occurred on the Star Market and ChiNext Market, with the majority raised by companies in the fields of renewables, semiconductors, and other high-end manufacturing sectors.Footnote ¹⁸

These secondary stock markets have served as a key vehicle for startups to grow into big business and have enabled venture capital to quickly recoup their investments. Table 6.1 shows the number of years it took several startups to be listed on various stock markets, such as NASDAQ in the United States, KOSDAQ in South Korea, and the Hong Kong Stock Exchange. It took 3 years for Amazon to be listed, 6 years for Google, and 8.3 years for Facebook. Therefore, it is interesting to note that the years taken for comparable platform firms in Korea are not that different from US platforms. Indeed, it took Naver, the Korean equivalent of Google, 3.4 years to be listed on the KOSDAQ, and it took 4.7 years for Kakao, the Korean equivalent of Facebook, to be listed. Similarly, Baidu, the Chinese equivalent of Google, took 5.6 years, compared to Google’s 6 years, to be listed on the NASDAQ. Tencent, the Chinese equivalent of Facebook, took 5.6 years to be listed on the Hong Kong Stock Exchange, whereas it took Facebook 8.3 years to be listed on the Nasdaq.

Further, Table 6.2 presents the number of “unicorns” generated by each country from 2012 to 2021. Not surprisingly, as of the end of 2021, the United States has generated the largest number at 728. China and South Korea have demonstrated comparable performances, generating 217 and 19 unicorns, respectively; Germany and France have generated 35 and 20, respectively.

The third example of successful policy intervention by the Korean government is the so-called “creative economy innovation center” program, which was instituted in 2014 to promote SMEs and startups.Footnote ¹⁹ Interestingly, this program was designed not only to handle market failures in financing but also to solve capability failures by SMEs by assigning a top business group to the respective innovation center in each of South Korea’s seventeen provinces. Of course, not every province has achieved success, as success has been dependent on the commitment of the individual business groups. The most successful cases were Samsung in Gyongbuk Province and GS Group in Jeonnam Province. As of April 2021, this program had generated 9,854 startups. In 2016, the base year, 1,221 startups were created. In 2018, the program created 1,796, and in 2020, it created 3,432. These startups worked in partnership with 458 different facilitators, including universities, angel investors, venture capital, and public agencies, generating 25,508 jobs. In many cases, the initial commitment or investment by each assigned big business motivated other entities to join as investors or partners.

For the Gyongbuk Center, Samsung contributes 4 billion won (about $3 million) per year for equity investment into startups.Footnote ²⁰ Samsung runs this center in conjunction with its Creative-Lab (C-Lab) Outside program, which is a Samsung program designed to support independent startups. In contrast, Samsung’s Creative-Lab Inside program supports intra-Samsung ventures. Samsung’s C-Lab program first began in 2012 to promote intra-Samsung ventures; it was expanded in 2015 to include a spin-off program. Finally, in 2018, the C-Lab Outside program was created to promote independent startups outside of Samsung. The C-Lab Outside program provides selected startups with cash grants of up to 100 million won (approx. $80,000), office space, mentoring, and consultation services. The C-Lab Inside program offers current employees one year to pursue independent business ideas that may later evolve into a C-Lab spin-off. C-Lap spin-off founders are offered monetary grants and the option to return as an employee within five years.

Over the ten years from 2012 to 2022, a total of 846 startups were generated, including 385 inside Samsung and 460 outside Samsung, and many of them were awarded the Innovation Prize at the CES Convention. For instance, twenty-nine startups won this award in 2023. These startups have attracted equity investments of about 1.34 trillion won (approx. $1.34 billion) and have created about 8,700 jobs. Competition to be selected as a C-Lab startup is high, with approximately only 1 in 38 startups being selected.

This policy intervention designed to nurture startup hubs in the Creative Economy Center was more successful when it was instigated alongside another startup program called TIPS, or Technology Incubator Programs for Startups, which also started in 2013.Footnote ²¹