Intel’s Future in a Bid of Regaining Lost Glory–Rise, Fall, and Migration of Semiconductor Prosperity

Intel, once a symbol of technological dominance and semiconductor prosperity, has found itself grappling with the daunting challenges of the modern technology landscape—raising the question about Intel’s Future. Is it doomed to follow Yahoo’s or Nokia’s slow fade into irrelevance? Or will it regain its lost glory like Sony or Apple once did?

As outlined in The Waves article Intel Falling Due to PC and Mobile Waves two years ago, the company’s decline has been emblematic of a broader phenomenon: the rise and fall of Innovation leaders and the migration of silicon processing prosperity to rivals such as TSMC. Despite various efforts, including governmental interventions, strategic leadership changes, and operational restructuring, Intel continues to face existential threats. To understand Intel’s plight, it is essential to analyze the underlying mechanics of technological waves and the cycle of Creative Destruction they unleash.

The Rise of Intel and the Decline Triggered by Technological Waves

In its heyday, Intel was synonymous with the dominance of the PC wave, producing the processors that powered a computing revolution. This wave was fueled by Moore’s Law, which Intel famously upheld, ensuring consistent advancements in chip performance and efficiency, ferreting out as high as 60 percent gross margin. However, the maturing of the PC wave kept declining profit, as customers’ willingness to pay for further advancement kept declining. Besides, as the mobile wave emerged, spearheaded by smartphones and portable devices fueling the business model of fabless chip companies and 3^rd party foundry service, Intel struggled to adapt.

While competitors such as TSMC and ARM embraced the mobile paradigm of fabless and foundry, Intel remained tethered to its PC-centric integrated device maker (IDM) strategies, missing out on the explosive growth of mobile computing. This failure was compounded by the rise of cloud computing, AI accelerators, and custom silicon solutions, areas where Intel lagged behind innovative fabless and custom silicon players like Nvidia (in AI chips), AMD (in data center chips), Apple (customized, proprietary chips), and TSMC (in manufacturing).

Migration of Silicon Prosperity to TSMC and Fabless Companies

TSMC’s rise has been nothing short of meteoric. As a foundry-focused model, TSMC capitalized on Economies of Scale and collaboration with fabless semiconductor firms such as Apple, Qualcomm, and Nvidia. Its ability to lead in advanced node technologies (e.g., 3nm and 5nm chips) has cemented its position as the industry leader, a spot once dominated by Intel. The migration of silicon prosperity to TSMC exemplifies the broader theme of innovation cycles: the fall of incumbents and the rise of challengers. Besides, fabless companies have taken over the market of chips made by IDMs like Intel.

The transfer of prosperity underscores a critical lesson: technological leadership requires relentless Reinvention. Intel’s initial advantage of IDM model in PC chips could not shield it from the creative destruction brought about by successive Waves of Innovation. Besides, as TSMC has attained dominance position due to superior technology capability, scale, scope and Network effect, Intel’s bid to survive through entering the foundry service, IDM 2.0, could not gain traction. Furthermore, Intel’s chiplet strategy as an alternative to smaller transistors in making complex chips, led by TSMC through advanced process nodes, could not yield result either.    

Government Intervention and the Chips and Science Act

In a bid to revitalize its domestic semiconductor industry, the US Government enacted the Chips and Science Act, offering billions in subsidies to companies like Intel. These measures were complemented by export restrictions aimed at slowing the rise of China’s semiconductor industry, effectively giving Intel a lifeline.

However, such measures have yielded mixed results. Government support can provide temporary relief but cannot compensate for a company’s inability to anticipate and capitalize on emerging technological waves. Intel’s deepening losses, which reached a staggering $16.6 billion in Q3 2024, are a stark reminder of this reality. Besides, Intel’s stock has fallen by more than 50% over a year (from Dec 2023 to Nov 2024), indicating that analysts are not foreseeing a brighter tomorrow.

Leadership Shakeups: The Role of Pat Gelsinger

Intel’s decision to appoint Pat Gelsinger as CEO in 2021 was widely seen as a bold step to reignite the company’s tech-driven culture. Gelsinger’s return brought a renewed focus on technical excellence and a commitment to restoring Intel’s manufacturing prowess. Under his leadership, the company embarked on ambitious initiatives such as the Integrated Device Manufacturing (IDM) 2.0 strategy, aimed at combining manufacturing, foundry services, and chip design. Besides, his leadership also focused on chiplet strategy in making complex microchips as alternative to winning the race of shrinking Transistor size by moving to next process nodes.  

However, the results have been underwhelming. Despite Gelsinger’s efforts, Intel’s competitive position has continued to erode. The board’s recent decision to replace him highlights a harsh truth: leadership changes alone cannot reverse the fortunes of a company stuck in a declining wave.

A Reoccurring Pattern: The Reinvention Fault Line Defines Intel’s Future

Intel’s struggles are not unique. The history of technology is replete with examples of innovation leaders that failed to navigate the reinvention fault line:

1. Nokia: Dominated the mobile phone market but failed to adapt to the fault line created by the Apple by triggering the smartphone revolution through iPhone.
2. Kodak: A pioneer in photography that clung to film while digital cameras reshaped the industry and get Kodak caught the fault line.
3. Sony: Faced similar challenges due to loss of camera market to mobile phone cameras but managed to find a new wave by leveraging its strengths in image sensors to capitalize on the smartphone boom.
4. Apple: Once the Machintosh wave started to decline due to maturity and imitation by Windows, Apple faced the same situation Intel has been facing today. However, it regained its glory by winning the portable music player and mobile phone reinvention waves.

These examples illustrate a crucial insight: surviving technological shifts requires identifying and riding the next long wave of growth. Without this capability, even the most dominant players are vulnerable to obsolescence.

Why Cash, Layoffs, and Leadership Changes Are Not Enough

Intel’s attempts to regain its footing have included a mix of cash-burning investments, widespread layoffs, and management shakeups. While these measures can provide temporary relief, they fail to address the root cause of the company’s decline: its inability to pivot from the IDM model serving the maturing wave (PCs) to an emerging foundry and fabless model fueling the growth of mobile, AI, and custom silicon.

The Trap of Incremental innovation

A recurring issue for incumbents like Intel is the tendency to focus on incremental improvements within their existing paradigm. This approach often leads to diminishing returns as the underlying wave matures. In contrast, challengers like TSMC invest in disruptive innovations that align with emerging waves.

The Need for Long-Wave Vision for Recreating Intel’s Future

To avoid the fate of Nokia or Kodak, Intel must adopt a long-wave vision. This means identifying future growth opportunities, such as:

• Quantum computing
• Neuromorphic chips
• AI-driven edge computing

By investing in suitable new waves and winning the race, Intel can position itself at the forefront of the next wave of semiconductor innovation.

The Road Ahead for Intel’s Future

Intel’s journey highlights a critical reality: government support, cash injections, and leadership changes cannot substitute for technological foresight and strategic reinvention. To regain its past glory, Intel must focus on how to avoid fate of seven out of ten innovation leaders. It should also pay attention to:

1. Diversify its technological bets: Beyond doubling down on traditional manufacturing, Intel must explore Disruptive technologies that promise exponential growth.
2. Embrace open collaboration: Partnering with fabless firms and leveraging external ecosystems can help Intel stay competitive in advanced nodes and specialized applications.
3. Foster a culture of experimentation: A rigid focus on legacy markets stifles innovation. By fostering an agile, risk-tolerant culture, Intel can better adapt to shifting technological landscapes.
4. Learn from the playbook of Sony and Apple: Instead of fighting losing battles, Intel can find ways to leverage emerging trends. For instance, focusing on enabling AI workloads and green computing could open new revenue streams.

Conclusion: Will Intel Find Its Next Wave?

Reinvention fault line defines Intel’s future. The rise and fall of Intel mirror the broader cycles of creative destruction that characterize technological progress. While the company’s decline has been dramatic, its future is not yet sealed. By embracing a next-wave mindset and pivoting toward emerging opportunities, Intel can chart a path to resurgence.

However, the clock is ticking. Unless Intel can break free from the reinvention fault line and ride the next long wave of growth, it risks joining the ranks of once-great innovation leaders that failed to adapt. The lessons of history—from Nokia to Kodak—serve as both a warning and a roadmap. The ultimate question remains: will Intel seize the moment or succumb to the forces of creative destruction?

Five Key Takeaways about Intel’s Future

1. The Cycle of Technological Waves: Intel’s decline highlights the importance of transitioning from maturing waves (e.g., PCs) to emerging ones (e.g., mobile, AI, custom silicon). Failing to adapt to new technological paradigms leads to loss of competitive advantage.
2. Migration of Semiconductor Leadership: TSMC’s rise as a leader in advanced nodes and its collaboration with fabless firms showcase the migration of silicon processing prosperity from Intel to competitors that embraced disruptive innovations.
3. Limits of External Support: Government subsidies and export restrictions under the Chips and Science Act have provided Intel with temporary relief but have not addressed its core inability to capitalize on emerging technology trends.
4. The Reinvention Fault Line: Like Nokia, Kodak, and others, Intel’s struggles reflect a broader pattern where incumbents fail to navigate technological shifts. Only companies like Sony, which leveraged new waves, have managed to survive and thrive.
5. Strategic Reinvention is Key: To regain its position, Intel must adopt a long-wave vision, diversify into future growth areas (quantum computing, AI edge computing), embrace collaboration, and foster a culture of experimentation to stay relevant in a rapidly evolving industry.