Frank Brunetti’s Post

Here are four trends to look for in the year ahead that will define what the chips of the future will look like, who will make them, and which new technologies they’ll unlock. #artificialintelligence #semiconductors #technology

Innovation is not exclusive to any one entity. Fifty years ago, during the era of the American Telephone and Telegraph Company's monopoly on U.S. phone service, the cost of the first minute of a toll call was as high as a dollar, equivalent to about $5 today. A portion of this fee supported research and development at Bell Telephone Laboratories and Western Electric, which were responsible for groundbreaking innovations like the transistor, the laser, the solar cell, cellular telephony, and satellite communications, as well as advancements in silicon technology that led to the invention of the microchip. However, since the breakup of AT&T in 1984, these institutions have experienced a decline. The acquisition of AT&T by SBC Communications for $16 billion marked the end of the once-dominant company. Bell Labs, known for its Nobel Prize-winning physicists, has diminished under Lucent Technologies, and Western Electric was spun off as Agere Systems in 2002. While long-distance calls are now affordable, the loss of these institutions has been a blow to the nation's scientific and technological landscape. Many economists argue that monopolies hinder innovation by stifling competition and promoting complacency. In contrast, AT&T and Bell Labs fostered a culture of innovation by investing in research and development, attracting top talent, and taking a long-term view of technological advancements. The transistor, for example, was a result of AT&T's patient capital and commitment to developing solid-state technology over several decades. The collaborative efforts of Bell Labs and Western Electric laid the groundwork for subsequent innovations, such as the microchip, which has had a significant impact on the global economy. Smaller companies like Fairchild Semiconductor and Texas Instruments benefited from the technological advancements pioneered by these larger corporations, highlighting the importance of sustained R&D efforts in driving innovation. Large corporations like AT&T, General Electric , and IBM played a crucial role in supporting multidisciplinary research and development initiatives that led to transformative technologies. Their focus on delivering better products and services in the long run set them apart from government or university laboratories, emphasizing the importance of industrial settings for innovation. In conclusion, institutions like AT&T, Bell Labs, and Western Electric played a vital role in shaping the information age and driving technological progress through their commitment to research and development. Their legacy continues to inspire innovation and serves as a reminder of the value of long-term investment in scientific advancement

Envision your semiconductor enterprise not just participating in, but leading the next technological renaissance, guiding the direction of worldwide progress. Imagine the immense scope of your influence - over 1 trillion transistors were produced in 2023, a clear indicator of the sophisticated interplay between silicon technology and human creativity. As a hiring manager at the helm of this venture, you're acutely aware of the critical role your team plays in this intricate ballet of innovation. The global semiconductor market, with projections of reaching an astounding $500 billion by 2025, highlights the significance of your sector. Your enterprise transcends the mere production of chips; it's actively sculpting the future. Each transistor, each breakthrough, represents a definitive stroke on the vast canvas of our modern world. Now, let's delve into figures that resonate deeply in strategic discussions: In 2023, the automotive industry alone accounted for over 15% of global semiconductor consumption. Your team is not just fueling vehicles; it's pulsating at the heart of an entire sector. As we advance, the thirst for avant-garde semiconductor solutions grows exponentially. The unexpected twists in our story, notably the semiconductor shortage of 2021, highlight the necessity of a robust team. This isn't solely about pioneering; it's about strategic vision. The global community observed how even a minor disruption in semiconductor supply could have seismic effects across industries, emphasizing the urgent need for a team capable of foresight, adaptability, and excellence under duress. Thus, as you seek to reinforce your ranks, bear in mind - the narrative of semiconductors is written by those who relentlessly pursue perfection. An elite team is not a mere luxury, but an imperative. Together, your collective expertise will not only shape the future of industries but will also push the frontiers of what's technologically feasible. In the ongoing epic of semiconductors, your team is more than a contributor – it's the primary force driving the story forward. As you chart this technological journey, remember that the numbers represent more than mere data; they are landmarks in the quest for a future that your team is uniquely equipped to forge. The world eagerly anticipates the next chapter, and it is your team that holds the pen. Are you ready to build a formidable team that will be at the vanguard of the semiconductor revolution? Reach out to us at ITEOM - [email protected], and together we'll assemble the ideal team to thrust your business into the limelight of technological innovation. #SemiconductorRevolution #TechInnovation #TeamBuilding #FutureForward #SemiconductorLeadership #InnovateWithITEOM #TechTalent #ResilientTeams #ShapeTheFuture #ITEOMRecruitment

Huge news and opportunity for both Mexico and the US to continue partnering up in the semiconductor space. One key aspect to make this a truly successful one will be how sustainable chip production will be. Startups can help out in making semiconductor foundries more competitive with new materials, processes, analytics or access to renewable energy supplies, just to start. On a recent article by McKinsey & Company entitled "Keeping the semiconductor industry on the path to net zero", authors found access to renewable energy is a key factor to enable sustainable production and that startups can play a major part to modernize how we will make these chips. In the Boston Consulting Group (BCG) report "For Chip Makers, the Decarbonization Challenge Lies Upstream" one conclusion is that AI is starting to play a key role to better analyze and predict carbon emissions for producing semiconductors. Now is the time for startups solving the major energy, climate, water and air problems to come forward and connect with the key players to make the collaboration happen in a truly successful way. #tech #semiconductors #electronics #startups #vc https://lnkd.in/eHGjvzfd

At the heart of a technological revolution, AI is transforming the world of semiconductors. 🚀 With a growing demand for chips that not only speed up the training of AI models but also enhance the efficiency and security of data processing directly from devices like our phones and satellites, we are marking the beginning of a new era in technology. 📱🛰 This field is fertile ground for those of us passionate about technology and innovation. The opportunities to create and lead have never been so promising. It's time to leave our mark on the technology of tomorrow! Let's keep a close eye on these emerging trends because they will undoubtedly define the future. The time to act is now, and it's exciting! 🌟 #Semiconductors #ArtificialIntelligence #Innovation #FutureTech #TechEntrepreneurship #DigitalRevolution #FutureDigital https://lnkd.in/eudMM_aC

semiconductors

Semiconductors are the foundation of our today’s modern life. Without these tiny components, our phones, computers, and electronic gadget would cease to function. But what are semiconductors, and are they being made? Explore this comprehensive article to gain a deeper appreciation of semiconductors and their transformative impact on technology. https://intel.ly/4cSALsV #IAmIntel https://lnkd.in/gHAk4Vcp

US TO FUND "DIGITAL TWIN" PROJECTS FOR CHIPS WITH $285 MILLION 🎈 Federal awards to be used for a new technology institute 🎆 Chips Act allocates $11 billion for research and development The Biden administration is opening applications for $285 million in federal funding to set up an institute focused on digital twin technology for the semiconductor industry, which uses virtual models of components to help reduce development and manufacturing costs. The funding is part of the 2022 Chips and Science Act, which includes $11 billion for semiconductor research and development. Officials said they anticipate the investment will help the US pivot to more advanced chip technology as it’s developed, limiting reliance on foreign supply chains. Digital twin technology can leverage artificial intelligence to optimize semiconductor manufacturing, National Institute of Standards and Technology Director Laurie Locascio said on a call with reporters. The U.S. Department of Commerce has provided almost $33 billion in preliminary grants to chipmakers to build or expand sites, known as fabs, in the US. Now, the Biden administration is starting to unlock research initiatives. Fab investments are “how we win today,” said Director of the White House White House Office of Science and Technology Policy Arati Prabhakar. “Chips R&D is how we win the future.” Digital twinning can reduce costs by improving capacity planning, production optimization, facility upgrades and provide real-time process adjustments, Locascio said. Project details will depend on applications received by a Sept. 9 deadline, a senior administration official said. Awards are limited to institutions that are incorporated and have their principal place of business in the US. https://lnkd.in/gzw3dQbx #ai #fashion #metaverse #investment

Did you know semiconductors are the brain of your computer, smartphone, and pretty much every electronic device you use? Just one of the many things you'll learn from our new Tech 101 series. Check it out!

If you are interested in learn more about how semiconductors work and how they are made this link can provide you some hints,