telemedicine

Dr. Lanza, Managing Partner of Lanza techVentures and 2014 winner of the Phil Kaufman Award for Distinguished Contributions to Electronic System Design, addresses why he believes semiconductors in MedTech is about to become the next big thing.

COVID-19 has likely had a greater impact on healthcare than on any other industry sector, said Glenn Snyder, Principal and Lead Analyst for MedTech at Deloitte, and a featured speaker at a recent SEMI webinar that offered a glimpse into the Future of MedTech in the run-up up to the SEMI Global Smart MedTech Symposium, kicking off tomorrow and running through August 5th. Snyder said medtech growth may appear muted in its early years but is poised to begin a steep climb as innovation continues, harkening back to the super-charged growth of circuitry on a wafer (aka Moore’s Law), which also saw a seemingly slow, flat start. Medtech enjoy its own exponential growth powered by 5G implementations, consumer demand, and the development of a robust ecosystem of bio-sensors, data standards, and regulatory improvements. Consumer-Driven Future and COVID-19 Impact Snyder noted that the future of medtech will be consumer-driven – enabled by open, highly interoperable data and secure platforms geared toward end users. A case in point: Detecting disease early through sensor systems will rely on not only on-body and environmental sensors, marking a fundamental shift from the today’s today’s hospital-centric system to improve health outcomes. Telemedicine growth during the pandemic is a notable example. In one case study of a health system, Snyder noted that telehealth usage skyrocketed from 1% to 60% of all patient visits over the early months of the pandemic but has since dropped to 10% due to the lack of charting, billing and other support systems needed to sustain the high rate of telehealth visits. Even so, hospitals expect to see a steady rise in consumers’ use of telehealth in the coming years. One driver are pilot programs for healthcare-at-home services for post-surgical patients. The programs have delivered better health outcomes and are more personalized and family-friendly than medical clinic or hospital visits. They also cost less. Digital monitoring using remote biometrics sensors are one key to driving the long-term success of these programs. Health Systems Changing Their Business Model In the medtech sector, changes in health system business models lag consumer adoption. What’s more, policy changes aren’t keeping pace with new models for medtech products. For medtech products to thrive, a solid foundation of data gathering, transmission and management capabilities that tie into traditional healthcare systems must be formed. Companies considering a vertically integrated approach to the medtech market can steer clear of healthcare providers – but only at the risk of having less access to patients and their historical healthcare data. Snyder said companies that control vertically integrated healthcare products and patient data can make support systems more efficient and robust but may struggle to deepen their market penetration. Companies such as Intuitive Surgical have found success with this model by offering highly differentiated products. Supply Chain Alarmingly Thin for Medtech Devices In a recent Deloitte survey of medtech companies, 60% reported that at least half of their products are powered by semiconductors, yet 70% noted pointed to high supply chain risks with most of their products because they have only a single source. Risk management and creating a resilient supply chain will remain key for medtech providers to adapt on a global scale. Partnerships and Collaborations During the event roundtable, Snyder mentioned that bio and pharma companies have partnered successfully to grow their businesses. Doug Kiehl of Eli Lilly, the moderator of the discussion, added that traditional healthcare providers should look outside of their usual business circles for medtech innovation. COVID-19 highlighted how new multi-disciplinary healthcare partnerships risk assessment processes have opened several paths to innovation previously unexplored. Both Snyder and Kiehl expect to see more collaboration between health systems and medtech innovators as they uncover synergistic business models. SEMI Global Smart MedTech Symposium Kicks Off Today Explore the gaps in the supply chain at the Global Smart MedTech Symposium and join the conversation with medtech device companies and health systems providers. Sessions include: Realtime Continuous Diagnostics and Monitoring Decentralized DNA Sequencing and Molecular Diagnostics Data Science and Infrastructure – AI/Data Fusion Applications in Rural and Decentralized Healthcare in the Digital Age The four-day symposium features three sessions at different times each day to cater to participants in Taiwan/Asia, Europe and North America. Register today! Heidi Hoffman is senior director of Technology Communities marketing at SEMI.

The recent global pandemic redefined well-established paradigms in healthcare. The classic model involving frequent hospital visits is no longer viable due to the risk of contagion. The focus is now on remote and pervasive vital sign monitoring solutions and automated data processing for health assessment. Social-distancing-friendly technologies, such as wearables, implantables, insertables and ingestables that enable long-term monitoring, can help detect medical abnormalities both in individuals and large populations. SEMI spoke with Carlos Agell, program manager and principal member of Technical Staff at imec, about remote vital sign monitoring using innovative form factors and methodologies. imec’s healthcare technology vison for remote care systems will be the focus of Agell’s presentation at the SEMI MedTech Forum, 19 February, as part of the SEMI Technology Unites Global Summit, 15-19 February 2021, online event. Join us to meet experts from imec and other key industry influencers. Registration is open. SEMI: What is driving innovation in diagnostics and what is the role played by the semiconductor industry? Agell: There is a clear need for remote diagnostics triggered by the COVID-19 pandemic. Two examples are respiration monitoring and SARS-CoV2 testing technologies. The fact that some of the more obvious symptoms of COVID-19 are respiratory has revealed a big gap in medtech: the need for low-friction, ambulatory, continuous and pervasive respiratory monitoring solutions. At imec we have been working on bioimpedance-based technologies (from chipsets to smartphone-enabled sensing devices) that can provide feasible solutions in that space. Hence, novel sensing modalities from the semiconductor industry can make a difference when it comes to remote ambulatory respiratory monitoring. On the other hand, SARS-CoV2 diagnostic technologies have become paramount during the health crisis. In this space there is a clear need to simplify, speed up and lower the cost of testing. Additionally, from a practical perspective society needs to prevent virus spreading. imec is spearheading an innovative semiconductor-based solution aimed at simplifying SARS-CoV2 testing by collecting aerosols from subjects’ breath using a silicon-based solution for analysis using the polymerase chain reaction (PCR) method, the gold standard in COVID-19 testing. Determining viral load in exhaled breath is a clear indicator of infectiousness, and detecting subjects with a high viral load is key when developing these rapid tests to facilitate economic recovery. A cost-effective and speedy though reliable SARS-CoV2 testing solution opens up possibilities for its use as gating mechanism (such as testing to allow access to facilities and prior to boarding a plane) to help jump-start some of the hardest-hit sectors in the economy, such as travel and hospitality (hotels and restaurants) by enabling more in-person interactions. SEMI: Please share more about imec’s commitment to improving the healthcare sector. Agell: imec R D is active in the field of remote unobtrusive respiration solutions, which are vital in treating respiratory system conditions such as asthma, chronic obstructive pulmonary disease (COPD) and COVID-19. These solutions rely on a combination of silicon chipsets, sensor integration and algorithms to interpret sensor data. As part of our effort to understand biological fundamentals, imec’s multi-electrode array (MEA) platform for heart-on-chip applications offers unparalleled capabilities to acquire high-density information (4444 electrodes/mm2) to enable extra- and intracellular recordings, electrical stimulation and impedance gauging to study patient-derived cardiomyocytes, cells that make up the heart muscle. imec is developing a rapid, low-cost SARS-COV2 test based on breath analysis (aerosol capture) aimed at a 5-minute analysis. Such tool is a key to economic recovery, and imec is planning large-scale testing of the prototype device at Brussels Airport later in 2021. imec has recently supported spinoffs and external companies that develop social distancing tools for usage during the pandemic. Healthcare is a key strategic area at imec, with multiple departments working on complementary topics, ranging from cell-sorting technologies and multi-electrode arrays, through sensors and systems for non-invasive cardiorespiratory and neurological monitoring, all the way to advanced processing of medical data and tooling for trials. SEMI: How is the pandemic impacting remote diagnostics? What’s new in that field? Agell: The pandemic has accelerated advances in remote diagnostics for healthcare – for example making remote doctor visits possible and launching telehealth into a successful sector. But in my opinion, this is just the starting point. Telehealth doctors will soon need to collect health data points such as body temperature, weight, or blood pressure remotely, the same information they collect during an office visit. Soon thereafter though, doctor’s will need more and more data, sparking the next stage of advances in remote diagnostics as algorithms are developed to analyze sizeable amounts of data. All in all, it will result in a big move from doctor-centric paradigms to more patient-centric solutions. Hopefully that jump will also drive a more proactive approach to health, enabling prevention and keeping people healthy, and leaving behind the era of curing the sick. imec research tools for respiratory monitoring will come in the form of a health patch. SEMI: Besides infectious disease diagnostics, what solutions will enable a paradigm shift? Can you name two global market trends related to the rising need for remote diagnostics? Agell: The paradigm shift in healthcare will be largely fueled by the hyperconnectivity trend. Communications are fast and far-reaching. The pandemic has proven that healthcare, similar to retail, banking, trading and business in general, can also be done partly remotely through a communications line. The need for proof of performance in the case of diagnostics has been proven challenging, due to the highly regulated medical field and the general conservativeness of this market. There is a clear trend underway in which algorithms and automated diagnostics are slowly gaining the trust of the medical community. Trials and regulatory submissions will help here, but the clear proof will be the general trust of the medical community (and general population) in solutions that have been on the market for a while. Similar to what happened with GPS navigation technologies back in the day, it would require a critical mass to reach general acceptance. As far as the healthcare market is concerned, there is a forecast bounce back from telehealth into hybrid models (a mix between in-office visits and telehealth) as a first post-pandemic scenario. Although this is perceived as the best of both worlds, its effectiveness and survival within the market is still to be proven. A clear market trend accelerated by the pandemic is the commoditization of health and wellness features in consumer electronics. A glimpse into consumer electronics venues reveals that watches, smartphones, weight scales and even your office chair or mattress will soon be collecting healthcare information. imec MultiElectrode Array (MEA) chipset SEMI: What is imec’s role in addressing the challenges and trends in healthcare? Agell: As an R D organization, imec offers expertise in the semiconductor, integration, data interpretation, data management and health-specific application domains. Thanks to our experience in horizontal technology and multiple application domain verticals (including healthcare), imec provides solutions to partners that push the boundaries of performance in health-tangential fields such as communications, consumer electronics, automotive and energy. imec is part of big European initiatives aiming to tackle the challenges of the pandemic. For example, we recently started working on the Digipredict project, which aims at early intervention in infectious diseases. We’re working with key players in the research domain within the EU such as École Polytechnique Fédérale de Lausanne, University of Twente and Eidgenössische Technische Hochschule Zürich. Additionally, imec has worked for market leaders in the healthcare sector such as Philips and Biotelemetry (recently integrated in Philips) and can help partners make the next health solution a reality. SEMI: How can technology unite us? What do you expect from your participation at SEMI Technology Unites Global Summit? Agell: I am a big optimistic on this pandemic. I believe technology has played a key role in putting boundaries around damage caused by the global health crisis. Technology does not only unite us, but it arguably saves lives! My personal expectation for the SEMI Technology Unites Global Summit is for us to get a better understanding about how the semiconductor industry reacts to a pandemic and upcoming post-pandemic scenario. I am curious to see if health-related trends emerge, and whether this is a transitory effect. During the last global pandemic, the semiconductor industry was not even existing, so there is no clear precedent for the current situation. Carlos Agell, program manager and principal member of Technical Staff at imec, where he oversees the development of projects and sets strategy directions for research topics. He has a background in wearable device development, having taken leadership roles in development of two FDA-approved medical devices in the field of wearable cardiology. He is member of the Dutch chapter of the standardization committee, which develops next-generation international standards for active medical devices. Carlos Agell holds two MSc degrees in Electronics Engineering and EECS from the Polytechnical University of Catalonia (Spain) and the University of California in Irvine (Irvine, CA, USA). Serena Brischetto is senior manager of Marketing and Communications at SEMI Europe.

Tracking and quickly diagnosing COVID-19 infections, working from home and telemedicine recently came into sharp focus as technology executives and other subject matter experts from microelectronics heavyweights recently gathered for the first-ever virtual SEMI CTO Forum to explore how the microelectronics industry and their own companies can leverage future technology trends to drive growth. Themed Intelligent Medtech and Wearable Technologies, the forum drew CTOs from ARM, Babblelabs, Brewer Science, Dell, Dow/Dupont, E-Ink, Hewlett Packard Enterprise, Intel, Lam Research, KLA, Microchip, ON Semiconductor, Qualcomm, Tokyo Electron, Ulvac, Veeco and Xilinx. The event is designed as a strategic driver of pre-competitive innovation. Following are key takeaways from the forum. Microfluidics Promises to Speed COVID-19 Diagnosis More than 240 companies worldwide are developing microfluidics solutions to improve diagnosis and treatment of COVID-19 and other conditions, said forum speaker Dr. Kurt Petersen, a member of Band of Angels, Silicon Valley's oldest angel investment group, with an illustrious background1 in technology. And their innovations are bearing fruit. Cepheid, a company founded by Dr. Petersen, has developed a disposable microfluidic cartridge, Xpert Xpress SARS-CoV-2, used by doctors to swab the inside of a patient’s mouth. Highlighting the vital role of MEMS in medical electronics, the tiny powerful devices are behind a test that can detect COVID-19 infection in under 40 minutes. Dr. Petersen also cited a few examples of implantables and injectables under development, including: In vivo chemical sensing: Profusa developed a continuous glucose monitoring sensor via an optical patch. Glaucoma pressure monitors: Injectsense built a silicon chip the size of a grain of rice that is embedded in the eye to measure eye pressure. Retinal implants: Second Sight implanted a 60-electrode array chip that projects images onto the retina to improve vision. Microelectronics Takes Aim at Battling COVID-19 The event’s CTO roundtable, a platform for discussing societal and technology issues, revealed microelectronics technology will likely give rise to solutions for combatting pandemics and new business opportunities both in the short and long run. Areas of the greatest interest included: Tracking and Security: Infection tracking accuracy is key to limiting the spread of viruses yet comes with inherent privacy and security challenges. The consensus view of the executives was that developing trusted hardware capabilities is critical for adoption of accurate infection-tracking technologies. Remote Operation: Executives expect working from home or the use of telehealth to continue building momentum long after pandemic. To give staying power to the remote communications at the heart of these trends, microelectronics ecosystems will need to boost compute performance, both at the edge and in the cloud, while increasing bandwidth to enable applications such as augmented reality/virtual reality (AR/VR), artificial intelligence (AI), machine learning and advanced data analytics. Edge intelligence: The challenge of remote communications spans both people and the Internet of Things (IoT). Questions persist about how hundreds of billions of sensors will connect to the cloud and how much power they will consume. The need to push computing to where data is generated – at the edge – is rising and the necessary underlying technologies will only come by combining various forms of distributed computing and analytics. The microelectronics industry’s ability to seize these opportunities will only be possible with huge strides in innovation, raising concerns among the CTOs about the financial viability of cutting-edge devices because of increasing device complexity and R D costs. Technology partnerships and collaborations – an area where SEMI is contributing and will continue to expand its efforts as it works with the CTO community – will be critical to containing R D costs. SEMI will help the executives identify and mobilize the resources key to future innovation. Improving Home, Work Productivity and Experiences Key to AR Adoption Smart wearables also offer great promise. In just over a decade, AR and VR have grown from science fiction to practical uses such as AR applications for smart contact lenses, said Dr. Mike Wiemer, Co-Founder and CTO of Mojo Vision2. Dr. Wiemer said that while many AR applications remain under development, the technology will only see widespread adoption once it starts to improve productivity and efficiency at home and work and the quality of other experiences. The smart augmented reality contact lens developed by Mojo Vision is a step in that direction. The product’s built-in display gives users timely information about everything they see while remaining invisible by packing 70,000 pixels into a space smaller than a half a millimeter across, making it the smallest and densest dynamic display ever made. The contact lens is powered by an ARM-based processor, with later versions adding an image sensor, eye-tracking sensors and a communications chip. SEMI thanks EMD Performance Materials and Telit for sponsoring the CTO Forum. For more information on the CTO Forum and SEMI’s Smart Data-AI initiative, please sign up on our webpage. 1 Dr. Kurt Petersen is a member of the National Academy of Engineering, an IEEE Medal of Honor winner, and a Life Fellow of the IEEE for his contributions to the commercialization of MEMS technology. 2 Dr. Wiemer also co-founded Solar Junction, where he led technical teams to two world records in solar cell efficiency (43.5% and 44%). He also has patents and papers in Semiconductor Devices Applications, Silicon Photonics, Materials Integration, Lasers, Solar Cells, Solar Systems, and Analog Circuits. Tom Salmon is Vice President of Collaborative Technology Platforms at SEMI. Pushkar P. Apte, Ph.D., is Strategic Technology Advisor for the Smart Data AI Initiative at SEMI.

Companies around the world are increasingly turning to mergers and acquisitions, research and development, and corporate venture capital (CVC) investment to sustain growth. For many years, global semiconductor companies including Intel, Qualcomm and Samsung have been active CVC investors. However, the economic fallout from the COVID-19 pandemic has forced many venture capital (VC) and CVC investors to rethink their investment strategies as they look to an uncertain future. To help provide SEMI members with the latest market trend information, SEMI Taiwan held the webinar Challenges and Opportunities in Corporate Venturing during the Global Pandemic Crisis on April 28th. Featured speaker James Mawson, founder and editor in chief of Global Corporate Venturing, provided an analysis of the pandemic’s impact on deal flow, capital movement, sentiment and strategies among CVCs. CVC takes larger role in past decadeCorporations have been increasingly active direct and indirect venture investors over the past decade. From 2011-2019, more than US$1.3 trillion of venture capital was invested globally, with corporations accounting for more than half that total, according to data from Pitchbook/GCV Analytics.Semiconductor companies that have been active in corporate venturing include Intel, Samsung, Nvidia, ARM, AMD, SK Hynix, Broadcom and Qualcomm. Pure-play semiconductor and chip companies tend to make few investments in their start-up counterparts because sector saturation of powerful incumbents leaves little opportunity for growth, James said. “While it is hard to find entrepreneurs wanting to be engaged in pure play S C, once they do, they can be very valuable and often be able to bring disruptive forces to the whole ecosystem,” James said.S C corporate investors focus on chip applicationsSemiconductor companies looking beyond pure-play S C start-ups for investment opportunities often target applications or developers that require the additional data, processing power, and memory their chips provide. “There is lots of interest by the big chip companies such as Intel, Qualcomm, and Samsung in developing some of those chip applications, getting them used more and creating a whole ecosystem,” James said.For example, Intel Capital, based on its data-centric theme, has focused on areas like autonomous vehicles, data centers and artificial intelligence (AI) because of the sheer amount of data and processing power they require. In another notable trend, non-traditional S C players such as Apple and Alibaba are leveraging investments in start-ups to develop their own chips for competitive advantage, James said.March deal flow down 20% With COVID-19 slowing the global economy, James expects semiconductor and chip companies to scale back direct investments this year due to rising pressure on their balance sheets. Deal flow in March was down roughly 20% from February.James is hopeful corporates will focus on investing in innovation over the long term rather than target share buybacks to boost near-term earnings. James pointed out that investors can uncover opportunities by identifying future problems to be solved in areas such as quantum computing, biotech, energy, healthcare, communications and ICT. Still, in the near term, where there is a crisis, there is opportunity. While the pandemic hit some sectors hard, it benefits start-ups in industries including gaming, education and telemedicine. This time is different?James said corporates need to rethink the investment model they want to follow. One option is the approach taken by General Electric, which divested its investment team and sold all its portfolio companies last year. Another is to focus on the long term. For example, Intel Capital has been dedicated to investments in innovation for nearly 30 years and continues to invest during downturns.Compared with the internet bubble and global financial crisis, today there are more experienced and mature CVCs that better know how to negotiate a crisis. James also pointed out investors are interested in backing CVCs with sector investing experience. There are now more than 600 CVCs with a 10-year-plus track record.James expects a variety of funding models to emerge over the next decade as pressure on corporate balance sheets encourages corporate investors to consider models that allow third-party capital to effectively leverage their CVC units. Corporate investors are also open to other ways to efficiently deliver financial returns.For more information about the SEMI Taiwan Corporate Growth and Innovation Community, please contact Irene Lin at [email protected]. For GCV’s latest news and event, visit its website.Jo-Ann Su is senior director of the Corporate Growth and Innovation Community at SEMI Taiwan.

In much of post-lockdown China, urban life is humming. The streets of Beijing and Shanghai are bustling with traffic, smog again shrouds city skylines with the resurgence of economic activity, property sales are bouncing back and a revival in consumer confidence is taking hold. Emerging from monthslong shelter-in-place orders, the nation has seized a large measure of control in containing COVID-19 as it breaks fertile new ground in pandemic response and recovery. In Wuhan, Hubei, the fountainhead of the novel coronavirus, one company offers a striking example of China’s muscular COVID-19 containment efforts, carefully continuing to operate through January and February as the virus set root, said Karel Eloot, a Shenzhen-based senior partner and Asia leader of Transformation and Operations practices at McKinsey Company, speaking at a recent webinar presented with SEMI. Soon, COVID-19 spread to eight other provinces that suffered serious outbreaks and forced the nationwide lockdown that sent China’s GDP plunging 7 percent, its first contraction in 28 years. An impressive array of safety protocols, many designed to reduce people density as a bulwark against the virus, animates China’s fight against COVID-19, a return-to-work movement that is laying a path forward for companies around the world. It is these measures, Eloot said, that have kept the Wuhan company afloat and helped other businesses across China restore operations with unusual speed. Community and Social Distancing – The Heart of China’s COVID-19 Response In establishing safeguards, many companies started by assessing staffing requirements, identifying workers essential to sustaining on-site operations while allowing others, such as white-collar staff, to work from home, though some have since returned to their offices. Seen as non-essential, some factory maintenance workers have been instructed to stay home. To fill staffing gaps, business have turned to multi-skilling practices, such as having on-site supervisors and engineers step out of their daily roles to handle lower-level operations activities. Much of the focus has been on community distancing, with businesses quickly identifying workers suffering even minor COVID-19 symptoms and using contact tracing to prevent sick or vulnerable employees from entering offices and factories and turning them into hot zones for community spread, Eloot said. Manufacturing facilities are staggering work shifts to reduce people density, closely monitoring workers’ body temperatures with an eye toward other symptoms, and following up with medical tests and quarantines as needs dictates. QR codes, long a staple of e-commerce, have been a particularly effective weapon in combatting COVID-19. Companies are deployed the scanning technology to identify workers by color code – green, yellow or red – and assign various levels of site access depending on who they’ve been in contact with. Some factory workstations are now walled off by transparent plastic sheeting to prevent COVID-19 infection through aerosol drift. In business meetings and lunchrooms, staffers sit spaced a safe distance apart and facing the same direction to avoid crosscurrents of the microscopic respiratory droplets that can carry the virus. Others eat in isolation. Meeting room windows are opened, weather permitting, to admit fresh air. And elevators – perfect petri dishes for contagion – are shuttered to ward off human clusters, shifting all floor-to-floor movement to staircases. Companies united by the common goal to keep goods flowing through supply chains are providing masks and other personal protective devices to smaller players most vulnerable to the economic shock of COVID-19. The aim: Shield the companies from the potentially crippling effects of the virus to avoid supply chain breakdowns that can undercut the performance of the whole. Even competitors have formed unexpected alliances, sharing parts and components that are in short supply. “Some sectors have maintained steady production throughout the crisis” thanks to these practices, Eloot said. “China has been able to create safe communities where people can operate as normal.” Executive Uncertainty Reigns, Hope Springs Eternal with Innovation The objective of China’s fast, forceful response to the COVID-19 outbreak is economic: A V-shaped rebound after the 7 percent wallop to its GDP in the first quarter of the year. The trajectory is among nine economic recovery scenarios McKinsey Company presented to more than 2,000 executives worldwide in a recent survey seeking their views on the likelihood of each. The business leaders coalesced around two – a full restoration of global GDP growth that could materialize this year or extend into next, or a two- to three-year recovery following the initial economic tsunami, Sven Smit, an Amsterdam-based senior partner with McKinsey and global leader of the McKinsey Global Institute and global COVID-19 response team, said at the webinar. The executives see the multi-year recovery as the most likely. The shorter rebound ranked second on a scale of probabilities. Notably, the business leaders found the V-shaped bounceback China is attempting – returning to GDP growth in one quarter – the least likely outcome. But the biggest surprise from the survey, Smit said, was executives’ view that of the two major global interventions for restoring GDP growth – viral and economic – one will be ineffective, reflecting their deep uncertainty about what lies ahead. A growing body of knowledge about COVID-19 tempers that doubt. It’s established fact that the virus is highly contagious, more lethal than the flu, and spread by means including aerosols and touching contaminated surfaces. But only recently has more insight emerged about human immunity. Broad-based blood testing in the Netherlands has discovered that only 3 percent to 4 percent of the people screened are immune to the coronavirus, leaving the vast majority of the population without natural biological protection – a sweeping vulnerability evident in Asian countries hit early by the virus only to see fresh flare-ups after initial containment. Smit warned of the pandemic’s potential resurgence. Testing has revealed that coronavirus cases are underreported by a staggering 10- to 15-fold, a clarion call that countries “need to be very careful about how they re-open economies.” That means in order to keep COVID-19 at bay until a vaccine is developed, the best defenses will remain temperature monitoring, contact tracing, quarantining, social distancing, mask wearing, frequent hand-washing and other proven protective measures. And while the relative contribution of each safeguard to slowing COVID-19’s spread is unknown, Japan, Korea, China, Taiwan and other Asian countries have shown that “if you apply them all, you are likely to keep this virus under control,” Smit said. It remains to be seen whether protections the U.S. and European countries have put in place will stave off the virus as effectively as the rigorous measures implemented by Asian countries and, if the Western regions deploy a different cocktail of safety protocols, how well they will work. The re-opening of their economies promises to reveal the answers – and the McKinsey recovery scenario they’ll face. These and other open questions help explain the uncertainty of the executives McKinsey polled. Pandemic Supercharges, Adds New Urgency to Long-Term Trends What is known is that, far from upending the way all organizations operate, COVID-19 is supercharging secular trends and showing that people can react with dizzying velocity when confronting global mortal threats. That speed, Smit said, “is not determined by the potential of technology, but by events." For decades, doctors and technologists have teamed to develop ways to examine and treat people from afar, yet telemedicine managed to eke out only small, incremental gains in adoption. Since the COVID-19 outbreak, patients have flocked online, with virtual doctor’s visits accounting for more than 70 percent of all physician-patient interactions. “People like it, and we can reach many more patients as a result. It happened in a few weeks,” Smit said. Similarly, teachers and unions have only inched toward digital communications for years, fearing job losses in education at the hands of technology. When schools closed recently under shelter-in-place orders, teachers quickly switched to online lessons. The transition, Smit said, took one weekend. Meanwhile, as office workers holed up at home, usage of teleconferencing applications skyrocketed. “We’re collectively learning at unprecedented speed,” Smit said. “We’re sharing. We’re learning about supply chains. We’re learning about collaboration. We’re learning about masks. We’re learning about contact tracing. We’re learning how to work more efficiently. We’re learning from real-time data about the behavior of people. And we’re investing collectively enormous sums in finding cures and treatments and expanding hospital capacity.” While the coronavirus’s blistering spread caught many countries off-guard, Smit expects scientists to spare no effort to innovate. Expressing hope that new medical interventions will be available by summer, Smit said the world needs to buttress its key lines of defense against the coronavirus until a vaccine is developed – a shield that will quicken the global economic recovery. “The race is on," he said. Related blog COVID-19: Economic and Microelectronics Industry Impacts – Insights from McKinsey Company For McKinsey’s latest insights on the coronavirus pandemic, visit its website, which is updated daily. For the latest COVID-19 information and SEMI event updates SEMI is providing members, visit Coronavirus Resources. Michael Hall is a marketing communications manager at SEMI.

Japan’s Prime Minister Shinzo Abe declared a state of emergency for Tokyo, Osaka and five other prefectures[1] on April 7 in response to a startling increase of COVID-19 infections in the region’s cities in an uneasy moment for its domestic semiconductor industry. The declaration, effective through May 6, authorized the six prefectural governors to strengthen curbs on the spread of the virus and included guidance for citizens to stay home and restrictions on operations of non-essential businesses.With Japan supplying some 40 percent of the world’s chip production equipment and materials, the declaration stirred fears among semiconductor manufacturers that their uninterrupted operations – critical to sustaining the global industry – might be at risk. Japan Government Designates Semiconductor Industry as EssentialIn April 7 and 11 revisions to its Basic Policies for Novel Coronavirus Disease Control, the Japanese government allayed those concerns by designating semiconductor manufacturers essential businesses – a stark acknowledgment of the chipmakers’ vital role in combatting the novel coronavirus. The policy stated:“Among medical and manufacturing industries, we request the continuation of the following business operators in consideration of infection prevention: operators who are difficult to stop production line due to the characteristics of the equipment (such as blast furnaces and semiconductor factories); and operators who produce essentials (including important items in supply chains) for protection of the people who need medical care and support, as well as for maintenance of social infrastructure. We also request the continuation of the business operators who sustain medical care, the lives of the people, and maintenance of the national economy.”[2]SEMI Japan Reaches Out to Prefectures to Urge Essential Business Designation Equipment and materials shortages can halt production of an entire fab line and ripple through intricately connected global supply chains to stifle the production of end devices including the electronics critical to COVID-19 treatments. Electronic devices also play a central role in containing the virus’s spread by enabling artificial intelligence (AI), data analytics, digital communications, telemedicine, robotics, remote health monitoring, telecommuting, online shopping and other digital services.The essential business designation was explicit recognition that Japan’s semiconductor supply chain is integral to the global chip production ecosystem and worthy of the same protections the government has implemented for semiconductor companies. With SEMI members operating in Japan’s 47 prefectures, I sent letters to all prefectural governors three days after the second policy revision, urging them to apply the same designation, and the SEMI Japan team is following up to secure their support.SEMI Japan Encourages Government to Exempt Members from Travel Restrictions The Japan Foreign Ministry on March 31 raised to level 3 its travel advisory for 49 regions including the U.S., China, Taiwan and South Korea, encouraging Japanese citizens to avoid travel regardless of purpose to blunt the international spread of the coronavirus. SEMI Japan is working with the Semiconductor Equipment Association of Japan to urge the government to exempt semiconductor supply chain companies from the level 3 travel restrictions if they implement measures to prevent domestic infections and contagion in the visited regions. The exemptions would allow supply chain companies to install and service equipment at fabs – one key to maintaining smooth, uninterrupted operations.SEMI Supports Members with COVID-19 ResourcesSEMI international headquarters and regional offices are here to help you, our members. For more information on our webinars, surveys, best practices and other information designed to help you meet the challenges of the pandemic, please visit the SEMI Coronavirus Updates Resources page.[1] The six prefectures are Tokyo, Kanagawa, Chiba, Saitama, Osaka, Hyogo and Fukuoka.[2] Provisional translation by Ministry of Health, Labour and Welfare. Full document is available at https://www.mhlw.go.jp/content/10900000/000620733.pdf.Jim Hamajima is president of SEMI Japan.

SEMI has urged government representatives around the U.S. and world to designate the semiconductor industry as an essential business so operations at companies across the chip supply chain can continue without interruption as the spread of COVID-19 continues. SEMI President and CEO Ajit Manocha assured the U.S. and global officials that SEMI members – the device makers and suppliers of chemicals, materials, components, design tools and equipment at the heart of chip manufacturing – “are employing all measures necessary to maintain the health and safety of their employees and local communities” to help contain the virus. Manocha last week sent letters to the governors of 16 states and the chairs of the National Governors Association, U.S. Conference of Mayors, National League of Cities, and National Association of Counties requesting consideration of the semiconductor industry as an essential business if shelter-in-place or similar orders are issued to curb the spread of COVID-19. More than half of U.S. states have imposed shelter-in-place or stay-at-home orders in the past month. The designation would allow SEMI members to maintain continuous operations to ensure that manufacturing of components for critical infrastructure equipment, the defense industrial base, and other vital technological products and services is not jeopardized. Semiconductors are the foundation of modern electronics and information technology and are critical in helping health workers effectively treat COVID-19 symptoms, Manocha told the officials. The devices also play a central role in containing its spread by enabling artificial intelligence (AI), data analytics, digital communications, telemedicine, robotics, remote health monitoring, telecommuting, online shopping and other digital services.Manocha urged state and local officials to follow guidelines issued on March 19 by the Department of Homeland Security (DHS) Cybersecurity Infrastructure Security Agency (CISA) identifying “manufacturers and supply chain vendors that provide hardware and software, and information technology equipment (to include microelectronics and semiconductors) for critical infrastructure as ‘essential critical infrastructure workers.’” Most states issuing shelter-in-place or stay-at-home orders have followed the DHS guidelines and/or separately designated the semiconductor industry an essential business. Likewise, other nations have recognized the power of technology in effectively containing COVID-19 and similarly designated the semiconductor industry an essential business.On March 27, SEMI, the Semiconductor Industry Associations in China, Europe, Japan, Korea, Singapore, Taiwan and the U.S., as well as several other trade associations in Asia issued a statement “calling on all governments to specify semiconductor industry operations as ‘essential infrastructure’ and/or ‘essential business’ to allow continuity in operations.” The global semiconductor supply chain forms a highly intricate network consisting of research, design and manufacturing operations. Operating restrictions in one region can compromise production in others, leading to inefficiencies and breakdowns that cascade across the supply chain.With semiconductors underpinning vital sectors of the global economy, the chip associations called on all global governments at all levels – central, states, provinces and localities – to help protect the uninterrupted operations of domestic semiconductor companies and their suppliers by applying the essential infrastructure or essential business designation.Joe Pasetti is Vice President of Global Public Policy and Advocacy at SEMI.

Do you email your doctor when you have a tickle in your throat? Wear a fitness tracker or use an app to monitor your sugar levels, exercise or nutrition? If so, congratulations! You are a part of the rapid growth of digital medicine.Since you’re on the leading edge of this trend to enhance the efficiency of healthcare delivery, you might enjoy learning more about how the medical industry is transforming healthcare in this collection of podcast episodes and video. These are my top picks and just the tip of the proverbial iceberg in how modern medicine is taking today’s technology and applying it to best practices for remote patient monitoring, medical diagnosis, rural healthcare and more.Enjoy! And let me know if you find any others worth the listen!1. Inside Angle: 3M Health Information Systems - Telemedicine: Enhancing Access to Improve OutcomesAccess to healthcare can be a matter of life or death. For some patients, this may mean taking a day off work and driving for hours because services are not available in their hometown.Inside Angle host Dr. Gordon Moore interviews Barb Johnston, co-founder and CEO of HealthLinkNow, about the implementation of telemedicine programs. They discuss how technology impacts telemedicine adoption and related regulations and benefits clinicians and patients in the telepsychiatry and mental health industry. 2. NPR’s The Salt: What’s On Your Plate – This Chef Lost 50 Pounds and Reversed Prediabetes With A Digital ProgramThis short audio clip and article dives into lifestyle and wellness apps designed to motivate users to eat healthier, exercise more and – in some cases – save them from a preventable disease, like diabetes.Wellness apps like Omada Health rely on smartphones, e-coaching, electronic nudging and other methods to encourage users to make and, more importantly, stick to changes that can improve their health. And it’s catching on as other organizations, such as The Centers for Disease Control and Prevention, recognize the difference lifestyle-change programs designed to prevent diabetes are making. 3. Red Hot Healthcare: Episode 57 - Bluer Skies for TelemedicineLast year alone, venture capitalists poured $7 billion into telemedicine. As an emerging concept, telemedicine has a long road ahead until it’s fully integrated and adopted into modern medical practices. Nathaniel Lacktman, partner and health care lawyer with Foley Lardner LLP, discusses legal issues and hurdles surrounding telemedicine today with Red Hot Healthcare host Dr. Steve Ambrose.Lacktman pointed to healthcare providers such as Mercy Virtual Care Center, Mayo Clinic and MDLive that are likely to lead the telemedicine race. This podcast episode is a great listen for entrepreneurs and medical professionals who are interested in learning about compliance and business considerations for the implementation of telemedicine. 4. Digital Health Today: Episode 56 – Eren Bali on Building the World’s Largest Connected Care NetworkEren Bali, CEO and co-founder of Carbon Health, is out to change our fragmented traditional healthcare system with his aim to build the world’s largest connected care network.For Bali, it all started with his sister’s experience consolidating his mother’s health records – scattered over 20 different systems. And from that challenge, his idea to create a universal network that aggregates patient medical records was born.Bali and Digital Health Today host Dan Kendall discuss Bali’s launch of Carbon Health, the new medical records system’s first implementation in a San Francisco primary care clinic, and how providers and patients can get on board with this model. 5. Digital Health Today: Episode 58 – Brennan Spiegel Gets Real About Virtual RealityThis episode of Digital Health Today centers on how Virtual Reality (VR) is being used to enhance patient care. Host Dan Kendall speaks with Dr. Brennan Spiegel, Director of Health Services Research at Cedars-Sinai Health System and Professor of Medicine and Public Health at UCLA, about how immersive technology like VR and Augmented Reality (AR) can improve patients’ experience as well as alleviate pain, anxiety, depression, addiction and more. In a particularly interesting segment, Dr. Spiegel calls the hospital a biopsychosocial jail cell and underscores its importance in not just treating physical ailments but, more wholistically, also addressing the psychological and social wellbeing of patients. 6. TED2017: Raj Panjabi – No one should die because they live too far from a doctor What do you do when access to a doctor means rowing a boat for hours? Millions of people around the world lack access to health care because they live in a remote town or village.In this TED talk, Raj Panjabi, physician in the Division of Global Health Equity at Harvard Medical School, Brigham and Women’s Hospital, and co-founder of Last Mile Health, offers a solution to the problem of healthcare access in the form of the Community Health Academy, a global platform to train and connect community health workers by leveraging devices like smartphones to bring preventative healthcare to even the most far-flung regions of the world. 7. GeekWire’s Health Tech Podcast: How AI is making humans the ‘fundamental thing in the internet of things’Can AI predict which patients are at risk for chronic diseases using their old medical records? This episode of Health Tech Podcast dives deep into the future of healthcare with a look at the potential for AI -- “augmented intelligence” or “assistive intelligence” – to improve patient outcomes, the focus of Ankur Teredesai, a data scientist at the University of Washington and co-founder and CTO of health AI startup KenSci.Clare McGrane, host of GeekWire’s Health Tech Podcast, speaks with numerous experts in this field. They compare precision health to a modern car constantly monitored by microprocessors. The minute something is wrong, you get a warning to take the car to a shop to resolve the issue. The same concept can be applied to humans and deliver big healthcare impacts as research in AI and machine learning continues to evolve. 8. NPR’s Shots: Can Home Health Visits Help Keep People Out Of The ER?In Washington D.C., the city with the highest per capita 911 call volume in all of the U.S., Mary’s Center is piloting a program to provide primary care telemedicine to patients who cannot, or in some cases, do not want to visit the clinic. NPR covers the story of Medicaid patient Dennis Lebron Dolman, who is currently receiving a mix of home visits and virtual treatment.Besides providing healthcare access to rural regions, telemedicine has the potential to reduce emergency room visits in cities as well as improve the health of patients in the long run. Learn more at SEMICON West’s Smart MedTech TechXPOT on Digital Medicine and Remote Patient Monitoring. Hosted by NBMC on July 12, 2018, from 10:30 AM to 12:30 PM, the event will feature healthcare industry leaders exploring state-of-the-art healthcare practices and the future of medical technology. Registration is now open!Amy Ly is a Technical Programs Marketing Coordinator at SEMI.