How Can a Connected Digital Infrastructure Help Address Chip Shortage?
Shinichi Murakami, Senior Manager, Segment Marketing, Equinix
Shinichi Murakami, Senior Manager, Segment Marketing, Equinix
As the global semiconductor challenge extends into 2022, businesses continue to feel supply chain disruptions as they wait for chips to be available. As foundry companies specialise in production exclusively, their manufacturing capacity has limitations, and currently, they are not able to meet the demand from global and fabless companies.
Furthermore, integrated device manufacturers (IDM) are decreasing their manufacturing capacity due to their dependency on foundry companies. On the other hand, a number of fabless companies, such as Apple, Google and NVIDIA, are expected to grow due to the diversification of semiconductors. The shortage, which worsened due to the pandemic, has heavily disrupted industries like mobile, electronic and automotive, forcing companies to spend more time and money to control their supply chains.
From a technology point of view, semiconductor processing technology continues to evolve to support a demand for a higher spec processor. With IBM recently launching the world’s first 2nm chip, more companies are expected to follow soon. As the latest semiconductor chip can have over ten billion transistors, it is anticipated to have a large amount of electronic design automation (EDA) data, including design and masking data.
So how can companies create a digital infrastructure to unlock efficiency, ease disruptions and future-proof their functions?
Create a secure and direct connection to improve supply chain visibility
The majority of the world’s semiconductor foundry companies are located in the East Asia-Pacific region. In 2020, Trendforce reported thatTaiwan controlled 63% of the market share, with South Korea at 18% and China at 6%. As a result, companies around the globe rely heavily on them for production.
Additionally, many fabless companies are located in Silicon Valley, relying on multilocation R&D on a global scale. The physical geographical distance between foundry and fabless companies proved to become a vulnerable point in the industry as the pandemic created constraints on the global transportation system.
As supply chains slowly recover, businesses need to start investing in a digital infrastructure that enables direct communication across borders and can help them interact and transact in real-time, with secure connection points to protect their designs. Promoting real-time information exchanges can help mitigate the bullwhip effect, a supply chain phenomenon in which demand forecasts yield supply chain inefficiencies—illustrated by the current semiconductor shortage.
Building a robust digital framework can also aid in synchronized planning. As the semiconductor network is complex with multiple players, digital models help facilitate capacity planning, demand and supply alignment across a mix of stakeholders while remaining adaptable to any varying requirements and external forces.
According to Accenture’s Globality and Complexity of the Semiconductor Ecosystem Report, each segment of the semiconductor value chain has, on average, 25 countries involved in the direct supply chain and 23 countries involved in supporting market function.
Build an IIoT platform to scale productivity and production
Companies deploying more agile digital infrastructures improve their production by bringing edge resources and services closer to partners. For example, digital infrastructure architected using an Interconnection Oriented Architecture strategy eliminates the distance between IT services, users and fabrication plants, optimising the data exchange among various entities across clouds and networks over secure private interconnections.
With great strides in technology, the semiconductor industry is extremely fast-paced. To keep up and stay efficient, one companies can invest in is creating a robust IIoT platform. This helps them link the physical processes with their internal systems to visualise manufacturing operations fully. It can provide agility in the manufacturing and prototyping, and supports efficient pre-production processes such as design and proof of concept. This enables them to frictionlessly adapt to innovations and releases by adjusting and learning from data in real-time, so they can make their supply chains more responsive, proactive and predictive.
Leverage seamless remote working operations
Remote work and government-mandated lockdowns also played a role in exacerbating the semiconductor shortage. Businesses were ill-equipped to deal with digital working and management. Communication, an essential to any ecosystem, broke down and caused disruptions. In terms of production, many factories also saw a decrease in capacity. According to Bloomberg, Malaysia only allowed companies to operate with 60% of their workforce during June 2021.
For non-production workers, such as product test engineers, developing a tool that makes it possible to perform validation testing remotely lessens disruptions in the process. By creating digital infrastructures available to employees, partners, stakeholders and networks, businesses can future-proof their operations, even if they are working from home or sitting in a different country.
Connected cloud architecture
As supply chains work to catch up on the existing demand pile-up, companies also need to look ahead. The market for smart devices is becoming more competitive, requiring chip designs to be smaller and more complex. As EDA test and development environments tend to have high levels of concurrency, at a given moment in time, only so many jobs can access the same project folders and perform a vast amount of concurrent I/O operations. Storage becomes a performance bottleneck and impacts EDA job run times.
To mitigate the effects of storage-related slowdowns, an interconnected infrastructure can reduce bottlenecks. Increasingly, easy-to-use storage solutions on bare metal provides low latency and unparalleled access to all the right places, partners and possibilities to achieve digital transformation.
Digital infrastructure providers enable semiconductor companies to leverage cloud EDA applications (such as Azure) and AI/ML technology without worrying about latency issues and build their ideal IIoT platforms for factories to improve quality, productivity and production. The IDM companies can also benefit from the global backbone network to roll out their IDM2.0 strategy, strengthen their global factory network, accelerate joint business, and own foundry organisations. By placing digital infrastructure locally, closer to their employees, partners and customers, companies can better support user experience with EDA systems for the front-end and back-end design phase to further facilitate work innovation during the pandemic.
The future is digital-first
The pandemic has highlighted the semiconductor industry, and many similar industries are rooted in traditional systems. Due to concerns over security and innovation capacity, the rate of technology adoption remained low pre-pandemic. Today, the urgency of the situation has forced many companies to accelerate the adoption of new technologies in their systems.
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