The Battle for Chips

Arguments

The US has been focusing on semiconductor manufacturing

Supporting facts:

• The US has rolled out a series of policies to build up the chip industry

• Congress passed the Chips and Science Act, which focused on semiconductor manufacturing in the US

• The US government has allotted $52 billion for the project, with $39 billion for manufacturing incentives and the rest for R&D

Topics: Semiconductors, Manufacturing, US Industrial Policy

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Subsidies are vital for semiconductor manufacturing

Supporting facts:

• US was the only country that wanted semiconductor manufacturing that wasn’t subsidizing manufacturing.

• Because of subsidies in other nations, this has become a standard for semiconductor manufacturing.

Topics: globalization, subsidies, semiconductor industry

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Design is an important part of the semiconductor process

Supporting facts:

• Rise of fabless semiconductor companies like NVIDIA, Qualcomm in the US

• Fabless business model has allowed for startups to thrive

Topics: Chip Manufacturing, Fabless Semiconductor Sector, United States Industrial Policy

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Predominance of chip manufacturing in Taiwan is a risk due to its fragility

Supporting facts:

• Leading edge chips crucial to infrastructure, national security, AI and automotive manufacturing are built in Taiwan

• Scarcity of chips during the pandemic paused automotive manufacturing, indicating vulnerability

Topics: Chip Manufacturing, Global Supply Chains, United States Industrial Policy

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Export controls and regulations are not absolute but are designed to influence the direction of AI technologies

Supporting facts:

• Semiconductor market is over half a trillion dollars a year in revenues

• The GPUs power most advanced AI technology

Topics: AI, Export controls, National security

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The purpose of the US export control policies is national security.

Supporting facts:

• Information technologies and AI are integral to both economic progress and military national security capabilities

Topics: U.S. policy, export control policies, national security

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The concentration of advanced chip manufacturing in Taiwan, particularly TSMC, is a bottleneck and a source of concern

Supporting facts:

• Taiwan has led the development of semiconductor technology and TSMC has become a key player

• Especially for AI and advanced military systems, a significant number of important chips are produced in TSMC

Topics: Chip Manufacturing, TSMC, Taiwan, US National Security

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Policy has been designed to adapt to rapidly moving technology.

Supporting facts:

• The policy was designed to recognize that the technology is moving, that what constitutes the leading edge is moving.

• The regulations have been updated a year after they were originally formed.

• AI is morphing even as we speak.

Topics: Export Control Policy, Chip technology, Artificial Intelligence

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CHIPS Act mainly focuses on filling the strategic gap in the American semiconductor capability

Supporting facts:

• Advanced new chips have been created thanks to public sector funding and they are all manufactured in a fab in Taiwan causing a strategic gap in the American semiconductor capability

Topics: CHIPS Act, Semiconductor, American strategic capability

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The important aspect of the CHIPS Act is about semiconductor R&D

Supporting facts:

• The structure of the chip industry today is the result of how the technology has developed but that’s not a fixed paradigm

• The R&D part of the CHIPS Act could help to change that structure and shift the advantage

Topics: CHIPS Act, Semiconductor, R&D

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The importance of semiconductors in the economy

Supporting facts:

• Semiconductors are essential for electronics and technology industries

• The concentration of semiconductor manufacturing in certain regions is a potential vulnerability

Topics: CHIPS Act, Economics, Semiconductors

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The necessity to reduce vulnerability by becoming resilient

Supporting facts:

• The entire globe is critically reliant on one geography for semiconductors

• The CHIPS Act aims to address this concentration and vulnerability

Topics: CHIPS Act, Global Economy, Semiconductors

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Government and private sector should collaborate to achieve goals separate parties cannot

Supporting facts:

• Mentioned the bipartisan infrastructure law and the Inflation Reduction Act.

• Referred to President Biden’s focus on a modern industrial strategy including chips.

Topics: Globalization, Investments, Clean energy, Infrastructure, Chips industry

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Report

The US has implemented a series of policies and allocated significant funding to strengthen its semiconductor manufacturing industry. The focus of these efforts is to gain economic and national security advantages in this critical sector. The Chips and Science Act, passed by Congress, specifically targets semiconductor manufacturing in the US.

A total of $52 billion has been allotted, with $39 billion for manufacturing incentives and the remaining funds dedicated to research and development (R&D). However, there are concerns about the concentration of the semiconductor industry in one region, which poses risks both geopolitically and in terms of vulnerability to natural shocks.

The industry’s dominance in Taiwan, particularly through companies like Taiwan Semiconductor Manufacturing Company (TSMC), has caused a strategic gap in the American semiconductor capability. This has led to calls for the US to strengthen its domestic chip-making capacity as a solution to mitigate this risk.

Another issue highlighted is the reliance on subsidies from other nations. While the US was the only country that did not initially subsidise semiconductor manufacturing, subsidies have become the standard practice in other nations. The argument is made that subsidies are vital for sustaining semiconductor manufacturing in a globally competitive market.

Collaboration with global partners is considered crucial, not only for economic and national security advantages but also for the robustness of supply chains and the distribution of manufacturing jobs. The US aims to work with partners around the world to ensure a globally distributed supply chain and to reap the benefits of global partnership.

Export controls and regulations are also an important aspect of the semiconductor industry. The US has implemented export control policies to influence the direction of artificial intelligence (AI) technologies, particularly in relation to China’s military ambitions. The export controls specifically target military capabilities that China is developing using AI.

The importance of semiconductors in the economy is recognised, as they are essential for electronics and technology industries. The concentration of semiconductor manufacturing in certain regions is seen as a potential vulnerability. To address this issue, the US implemented the CHIPS Act, which aims to reduce the reliance on international chip suppliers and fill the strategic gap in American semiconductor capability.

In conclusion, the US has been actively focusing on strengthening its semiconductor manufacturing industry to gain economic and national security advantages. However, there are concerns about the concentration of the industry in one region and the reliance on subsidies. Collaboration with global partners, the need for a globally distributed supply chain, and the importance of export controls are also crucial aspects.

The implementation of the CHIPS Act demonstrates the US government’s commitment to addressing the potential risks and vulnerabilities associated with semiconductor manufacturing.

Arguments

India is focusing on developing a comprehensive ecosystem of semiconductors

Supporting facts:

• India has a large pool of around 300,000 design engineers

• India’s semiconductor mission includes design capabilities, the software part, and talent development

• The program involves developing 85,000 talent over the next 10 years including engineers, B.Tech, M.Tech, Ph.D., and technicians

Topics: Semiconductor industry, Industrial policy, Talent pool

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Focus on producing chips for the vast demand of 28 nanometer and above segments including automotive, telecom, power, power electronics and train sets.

Supporting facts:

• Significant demand exists for this niche of chips in multiple sectors.

• Ecosystem development is necessary before proceeding to more leading edges.

Topics: Semiconductor Market, Chip Manufacturing

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India navigates international power dynamics via trust and global cooperation

Supporting facts:

• India has signed a memorandum of cooperation with the US, Europe, Japan on semiconductors, and is working with the South Korean government and companies

• Practically every possible company wants to collaborate with India in one way or the other

Topics: Foreign Policy, Economic Policy, Trust, Global Cooperation

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The technology sector is too complex and dynamic to predict its state in the next 10 years

Supporting facts:

• According to Ashwini Vaishnaw, nobody predicted that 28 or 40 nanometers would be viable anymore five years back, but they take important market share now.

Topics: Technology, Future Prediction

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India’s biggest priority in semiconductor development is design.

Supporting facts:

• India has about 300,000 design engineers.

• India is advancing from being a back office to actually producing complete chip

Topics: Semiconductors, Design, India

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Developing talent across the ecosystem is a secondary focus.

Supporting facts:

• India is working to continuously upgrade course curriculums.

• There are collaborations with companies such as Applied Materials.

Topics: Talent Development, Industry Ecosystems

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Many collaborations are being established to boost capacity and resilience.

Supporting facts:

• Applied Materials has approved a $300 million investment in India.

• Another company has set up an advanced training system called SemiVerse in India.

Topics: Collaborations, Capacity Building

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Industrialization, including building out the semiconductor sector, is a major priority for India

Supporting facts:

• India is developing an ecosystem for semiconductor manufacturing

• A cluster has been selected for a renewable energy plant that will provide energy for the manufacturing

Topics: Industrialization, Semiconductors

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Advanced packaging technology will contribute significantly to solving power consumption issues

Supporting facts:

• Research is being conducted into advanced packaging and design for power consumption

• The approach does not result in a linear power consumption increase with the number of chips

Topics: Advanced Packaging, Power Consumption, Tech Industry

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Finding right-minded countries for collaboration and speeding up the process is important.

Topics: International Collaboration, World Economy, Technology Transfer

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Report

India is placing a strong emphasis on developing a comprehensive ecosystem for the semiconductor industry. The country boasts a large talent pool of approximately 300,000 design engineers, establishing a strong foundation for semiconductor development. The focus is on enhancing design capabilities, as India aims to transition from being a back office to developing complete chips.

In terms of chip production, India is targeting the demand for 28 nanometres and above segments. This includes catering to various sectors such as automotive, telecoms, power electronics, and train sets. By focusing on these specific segments, India aims to meet the significant demand and create a niche for itself in the semiconductor market.

In recognising the dynamic nature of the technology sector, India takes a pragmatic approach by prioritising adaptation to evolving market trends. This includes capturing market share in the currently viable 28 nanometres and above segment, rather than solely pursuing cutting-edge technologies.

Expert opinions support this strategy, highlighting the importance of understanding and responding to the market’s evolving needs. India actively seeks global cooperation and works to establish trust-based collaborations with various countries. The country has signed a memorandum of cooperation with the US, Europe, Japan, and is engaged with the South Korean government and companies.

The willingness of numerous companies to collaborate with India reflects its positive reputation and its commitment to fostering global partnerships. With the goal of advancing its semiconductor industry, India recognises the importance of talent development and continuously upgrading course curriculums.

Collaborations with companies like Applied Materials further contribute to nurturing skilled professionals within the ecosystem. India’s industrialisation plan for the semiconductor sector extends beyond manufacturing. The establishment of a renewable energy plant is a pivotal component. This plant, set to be the largest at a single location with a capacity of 30,000 megawatts, will provide green energy for manufacturing processes, including semiconductors and data centres.

This commitment to renewable energy aligns with India’s broader sustainability goals, specifically SDG 7 (Affordable and Clean Energy) and SDG 13 (Climate Action). Addressing power consumption concerns in the semiconductor industry, India is actively engaged in research on advanced packaging technology. This research explores innovative packaging and design solutions that mitigate power consumption, ensuring responsible consumption and production in line with SDG 12.

Notably, the importance of collaboration and technology transfer with like-minded countries is acknowledged as a key factor in the semiconductor industry’s progress. By working closely with countries that share similar objectives and values, India seeks to expedite development in this field.

Additionally, India advocates for providing more opportunities, investments, and technology to countries with greater potential, aligning with the principles of reduced inequalities outlined in SDG 10. In conclusion, India’s strategic approach to developing a comprehensive semiconductor ecosystem demonstrates a commitment to technological advancement, sustainable industrialisation, and global collaboration.

By leveraging its talented engineers, focusing on targeted segments, adapting to market dynamics, and fostering partnerships, India aims to position itself as a significant player in the semiconductor industry while contributing to various sustainable development goals.

Arguments

India is following the path of Taiwan and South Korea in developing their chip industries

Supporting facts:

• Taiwan, South Korea started a half-century ago developing their chip industries, and today they’re among the world leaders

Topics: India, Chip Industry, Technology, Supply Chain

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India’s move towards chip industry is gaining interest among investors

Supporting facts:

• There’s a lot of interest among investors at really every stage of the supply chain in India

• Apple is shifting iPhone assembly to India

• Design firms are investing in India

Topics: India, Investors, Chip Industry, Economic Growth

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Countries overstate the importance of chip manufacturing and understate the importance of design

Supporting facts:

• Most of the money in the chip industry accrues to people who design chips and don’t manufacture them

Topics: Chip Industry, Design, Manufacturing

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Government subsidy on chip manufacturing has marginally positive impact on AI developers

Supporting facts:

• If you’re subsidizing chip manufacturing, the cost of chip manufacturing falls a bit.

Topics: AI companies, chip manufacturing, technology policy

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U.S.’s policy restricts countries, most importantly China, from accessing advanced chips

Supporting facts:

• U.S. rolled out rules in 2022 restricting countries to get access to the advanced chips

• The U.S. is betting that access to advanced compute is critical for advances in AI

Topics: Advanced chips, Technology Restriction, AI Development

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Chinese AI companies face a headwind in the AI industry

Topics: AI Companies, Chinese Market

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Huawei’s production capacity is unlikely to be high this year, and the quality of their chips is probably inferior to NVIDIA’s.

Supporting facts:

• Huawei is using chips stockpiled before the US ban

Topics: Huawei, NVIDIA, AI, technology, US restrictions

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90% of the most advanced processor chips are made in Taiwan.

Supporting facts:

• Taiwan has built capacity over multiple decades

• TSMC has become a leader in semiconductor technology

Topics: Semiconductor Industry, Taiwan Semiconductor Manufacturing Company, Advanced Processor Chips

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A disruption in Taiwan could cost $10 trillion.

Supporting facts:

• Bloomberg estimated the potential cost to be $10 trillion

Topics: Taiwan, Global Economy, Conflict Risk

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The technology is downstream of the geopolitics

Supporting facts:

• Until the geopolitical issues are sorted out, the entire technology competition will be structured by that fact

Topics: Geopolitics, Technology, Chips Industry

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The West has a chance to maintain its lead in bleeding edge technology

Supporting facts:

• US or the West sell to 80% of the global GDP compared to domestic China GDP which is 20% of GDP

Topics: US, Technology, GDP

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Continuous demand from industry for more energy efficient chips

Supporting facts:

• Energy inefficient computing is where we started and then we started miniaturizing computing to make it ubiquitous which caused us to economize on energy

• Every computing use case, whether it’s data centers, phones, or PCs, is demanding more efficiency because battery life matters, as well as energy costs.

Topics: Industry, Energy Efficiency

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If the West loses access to TSMC, TSMC would shut down due to its complex international supply chain

Supporting facts:

• TSMC’s supply chain relies on Japan, the United States, and the Netherlands etc.

• During the pandemic, a lack of certain types of CHIPS hindered car productions, causing the industry to lose half a trillion dollars worth of sales despite more CHIPS being produced each year.

Topics: TSMC, US-China tensions, global economy, supply chain

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Speeding up industrial production is difficult and time-consuming.

Supporting facts:

• Building facilities, buying tools and training workforce takes time and resources.

• Money alone can’t speed up the process, the physical work and training require their own time.

Topics: Industrial Production, Workforce Training

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The West could survive the loss of TSMC, but it would take years and significant economic impact

Supporting facts:

• Increase in CHIPS investment from $50 billion to $500 billion

• European Union invests another $100 billion

Topics: CHIPS Investment, Economic Impact, Global Economy

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Every year that the US and other countries produce more CHIPS domestically, the amount of leverage over TSMC declines.

Supporting facts:

• US, Europe, and Japan are working on improving domestic CHIP production

• Domestic production is seen as insurance in case access to production in Taiwan and China is lost

Topics: TSMC, Semiconductors, Domestic production

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Despite talks of deglobalization, the chip industry is showing signs of further globalization with divergence into a China sphere and a non-China sphere

Supporting facts:

• Intel is investing more than ever in Ireland, Germany, and Israel

• TSMC investing in United States and Japan

Topics: Deglobalization, Chip Industry, Globalization

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Report

The chip industry is of high importance, with a particular focus on countries such as India, Taiwan, and South Korea. India is following the successful paths of Taiwan and South Korea in developing its chip industry. These two countries began developing their chip industries half a century ago and are now among the world leaders.

India’s chip industry development is seen positively, with significant interest from investors throughout the supply chain. Companies like Apple are even moving their iPhone assembly to India, and design firms are investing in the country. While reorienting the supply chain will take time due to historical investment structures, the importance of chip design is emphasized.

Most of the money in the chip industry goes to chip designers, challenging the notion that manufacturing is the most vital aspect. Government subsidies on chip manufacturing have a marginally positive impact on AI developers. Subsidizing chip manufacturing reduces production costs, making it more accessible for AI development.

However, US restrictions on advanced chips have negative consequences for countries like China, limiting their access to essential components. This policy is seen as a means to limit China’s access to advanced technology and maintain a competitive advantage. Geopolitical issues also play a role in the chip industry.

Technological competition is influenced by geopolitics, with technology being downstream of these factors. The potential impact of losing access to Taiwan’s chip manufacturing capacity is a significant concern. A disruption in Taiwan could cost up to $10 trillion. Taiwan leads in the production of advanced processor chips, manufacturing 90% of them.

Dependence on Taiwan’s chip manufacturing and its complex international supply chain poses risks to the global economy. To mitigate these risks, countries are taking measures such as the US CHIPS Act, the EU CHIPS Act, and Japanese policies. These initiatives address the concentration and dependence on Taiwan for advanced chips, but their implementation would take time and have significant economic impacts.

There is a focus on energy-efficient chips in the industry. The demand for energy efficiency arises from the need for longer battery life and reduced energy costs across various computing use cases. There is a belief in the industry’s ability to continue economizing on energy and manufacturing more efficient chips.

Rapidly increasing chip production rates face barriers. Building facilities, acquiring tools, and training the workforce require time and resources. Significant spending alone is not a solution without adequate time to equip and educate the workforce. Diversifying chip production is seen as an insurance policy against disruptions.

By reducing dependency on a single country or manufacturer, like Taiwan’s TSMC, countries can mitigate risks and ensure a more resilient industry. The chip industry exhibits globalization despite talks of deglobalization in other sectors. Companies like Intel and TSMC are investing in different countries, showcasing further globalization and a division into a China sphere and a non-China sphere.

In summary, the chip industry’s growth and development, along with the complex geopolitical landscape, present both opportunities and challenges. Countries must consider various factors, such as design, manufacturing, supply chain structures, subsidies, restrictions, and geopolitical dynamics, to navigate this industry successfully.

Arguments

A transitioning phase from open trade to more guarded economies is being observed.

Supporting facts:

• Distinct shift from open trade possibilities we had for years

Topics: Trade, Economy

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The need for policy changes that protect countries from misuse of knowledge by ‘bad’ parties

Supporting facts:

• Difference noted in world today that shows importance of protection

Topics: Industrial Policy, Knowledge Protection

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Cooperation with like-minded countries on parts of the supply chain such as design phase is crucial

Supporting facts:

• Micky highlights the importance of cooperation in design phase of supply chain

Topics: Cooperation, Supply Chain

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TSMC building a new factory in Germany presents an interesting development

Supporting facts:

• European parties are investing in TSMC’s new factory in Germany

Topics: Investment, Semiconductor Industry

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Strong support for the CHIPS Act as a strategy for the European Union

Supporting facts:

• First time that EU chooses to have such strategically important supply chain

• 1900 suppliers including small and big sizes

Topics: CHIPS Act, European Union, Technology

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Praises ASML as a European company with deep connections

Supporting facts:

• ASML is a Dutch company having 800 or 900 suppliers

Topics: ASML, Europe

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ASML has some years progress in advance with regard to EUV machine technology

Supporting facts:

• ASML has maintained progress in advance possibly for 5 or 10 years or more.

Topics: ASML, EUV machine technology

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Micky Adriaansens advocates for technology to be built as long as it’s not misused or abused

Topics: Technology misuse, Abuse

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Necessity of dealing with energy consumption of AI chips

Supporting facts:

• AI data centers are 2% of all energy emissions, heading towards 20%

Topics: AI, energy consumption, design phase

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Climate policy must anticipate inevitable increase in chip energy consumption

Supporting facts:

• The energy consumption of chips is projected to increase

Topics: chip energy consumption, climate policy

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Necessity of new perspective in trading for Netherlands

Supporting facts:

• The Dutch economy is dependent on trade, on open trade

Topics: Trade, Economy, Leadership

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Trade becoming less and open trade not being open anymore affects welfare

Topics: Trade, Welfare

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Report

The analysis of the speeches reveals several key points regarding trade, policy changes, technological leadership, cooperation, and their impact on various sectors. Firstly, there is a distinct shift from open trade to more guarded economies, indicating a transitioning phase in global trade dynamics.

This shift is attributed to the changing geopolitical landscape and the need for countries to protect their interests. The argument is made that policy changes are essential to safeguard countries from the misuse of knowledge by ‘bad’ parties, highlighting the importance of industrial policies and knowledge protection measures.

To maintain technological leadership, it is emphasised that simply protecting borders is insufficient. Instead, investment in new technologies is necessary. Furthermore, cooperation with like-minded countries in the supply chain, particularly during the design phase, is deemed crucial for success. Several positive developments are highlighted, such as the construction of a new TSMC factory in Germany, which signifies growing investment and interest in the semiconductor industry.

The CHIPS Act in the European Union (EU) is also supported as a strategic move to strengthen the EU’s position in this field. Notably, ASML, a Dutch company, is praised as a European firm with extensive connections. The need for Europe to focus more on critical technologies is highlighted, particularly semiconductors, due to their significant impact on national security.

This supports the argument that Europe needs to take strategic actions in this domain. Additionally, the importance of collaboration with like-minded countries is emphasized, as it can lead to the development of stronger capabilities and promote shared interests. The analysis also addresses the issue of energy consumption in relation to technologies such as AI chips.

It is noted that AI data centers already contribute a significant portion to global energy emissions, and their energy consumption is projected to increase. This highlights the necessity of dealing with the energy consumption of AI chips and promoting initiatives that improve chip design and enhance energy efficiency in production processes.

Concerns are raised regarding the impact on climate policy due to the inevitable increase in chip energy consumption. It is argued that climate policy should anticipate and address this issue to mitigate any negative consequences. The dependency of the Dutch economy on open trade is emphasized, indicating the necessity for the Netherlands to explore new perspectives in trading.

The shift towards less open trade and its implications for welfare are seen as negative factors. The analysis concludes by highlighting the importance of finding like-minded countries, parties, and companies to build capabilities. It is suggested that such collaboration is essential for global cooperation and overall welfare.

Additionally, the need for careful and strategic actions is emphasized. Overall, the analysis provides insights into the current state of global trade, policy changes, technological advancements, and the significance of cooperation in various sectors. It underscores the importance of investment in critical technologies, energy consumption concerns, and the role of collaboration in shaping global strategies and partnerships.

Arguments

Nicholas Thompson questions how the U.S. investment in the semiconductor industry can be globally beneficial

Supporting facts:

• The U.S government has passed the Chips and Science Act, investing $52 billion primarily in semiconductor manufacturing and R&D

• Nicholas Thompson suggests that other countries might be opposed to this due to the U.S. industry being highly subsidized

Topics: U.S. semiconductor industry, global impact, subsidies

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Concern about the complexity of international relationships once India starts building high-end chips.

Supporting facts:

• As India strengthens collaborations in sectors such as semiconductors, possible conflicts of interest might arise, especially considering partnerships with nations like the US and China.

Topics: Foreign Policy, Economic Policy, Technology, Chip Manufacturing

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Nicholas Thompson is questioning if the government’s policy is beneficial for AI companies and developers in terms of chip availability and cost.

Supporting facts:

• Nicholas Thompson posed a question about the impact of government policies on the availability and affordability of chips for AI companies.

Topics: AI Companies, Government Policies, Chip Availability, Cost

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US restrictions may have inadvertently accelerated Huawei’s technological development

Supporting facts:

• Kai-Fu Lee’s company has released a large language model that ranks highly on two leaderboards.

• Huawei is still able to operate using stockpiled chips.

• The argument is that Huawei will ramp up its own chip production.

Topics: US restrictions, Huawei, AI technology

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There is need for cooperation across Europe in chip manufacturing

Supporting facts:

• Europe is part of the European Union which allows for inter-country cooperation

• ASML machines are made using parts from different countries such as Germany and Zeiss

Topics: Cooperation, Europe, Chip Manufacturing

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Nicholas Thompson is interested in the possibility of a reversal in current tensions over chip export controls, with a potential shift from separation to convergence.

Supporting facts:

• Nicholas Thompson asked Chris if he foresees any plausible scenarios where the direction of the tension over chips reverses and we start to pull more together.

Topics: Artificial Intelligence, Chip export controls, US Tech policies

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Concerned about the environmental impact of AI and chips

Supporting facts:

• AI data centers are maybe 2% of all energy emissions, heading towards 20%

Topics: Artificial Intelligence, Environmental Impact

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Critique of the CHIPS Act and Biden administration’s policy of not adequately focusing on quantum chips or next-gen chips.

Supporting facts:

• There has been more emphasis on catching up in the semiconductor industry rather than thinking about far out innovations like quantum chips.

• Companies mostly can’t fund the development of quantum chips – likely funded by entities like the US government or research universities like Purdue University.

Topics: CHIPS Act, Quantum chips, Technology policy, Biden administration

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Every year in which the US catches up, the amount of leverage over TSMC does decline.

Topics: U.S. Technology Industry, TSMC

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Report

The analysis reveals several key points and arguments related to the global semiconductor industry. One of the main concerns raised by Nicholas Thompson is about the global benefit of US subsidies for the chip industry. He questions whether other countries would support this initiative, as the US industry is highly subsidised.

This suggests that there may be opposition to the US investment as it could give them an unfair advantage. Another important issue highlighted is the potential conflicts of interest that could arise once India starts manufacturing high-end chips. The complexity of international relationships and partnerships with countries like the US and China could lead to complications in this regard.

It is suggested that careful consideration needs to be given to these dynamics to avoid any diplomatic conflicts and ensure smooth collaborations. The impact of government policies on chip availability and cost for AI companies is also discussed. Nicholas Thompson questions whether these policies are beneficial for AI companies and developers in terms of chip availability and affordability.

This raises concerns about the potential hindrance these policies may have on the growth and development of the AI industry. The analysis also touches upon the implications of US restrictions on Huawei and AI technology. It is suggested that these restrictions may inadvertently accelerate Huawei’s technological development, leading to a potential global technology split.

Huawei may start producing their own chips instead of relying on companies like NVIDIA or ASML, which could increase their capacity and impact the global technology landscape. Cooperation across Europe in chip manufacturing is seen as crucial for the advancement of technology in the region.

The European Union allows for inter-country collaborations, and the use of parts from different countries, such as Germany and Zeiss, in the manufacturing process is highlighted. This cooperation is deemed necessary to ensure progress and innovation in chip manufacturing. Concerns about the environmental impact of AI and chips are also noted.

It is highlighted that AI data centres contribute to energy emissions, and the increase in AI usage may further contribute to environmental issues. This raises the need for more climate-friendly solutions in technology to mitigate the environmental impact. Additionally, there is criticism of the focus on catching up in the semiconductor industry rather than investing in quantum chips or next-gen chips.

The CHIPS Act and the Biden administration’s policy are questioned for not adequately prioritising the development of these innovative chips. The argument is made that quantum chips may need to be funded by entities like the US government or research universities to ensure their progress.

In conclusion, the analysis delves into various important aspects of the global semiconductor industry. It raises concerns about the global benefit of US subsidies, potential conflicts of interest in India’s chip manufacturing, the impact of government policies on AI companies, implications of US restrictions on Huawei, the need for cooperation in Europe, environmental concerns, and the critique of the focus on catching up rather than investing in innovative chips.

These insights provide a comprehensive view of the challenges and opportunities within the semiconductor industry.