Reason
보수 성향
경제
Australia Tried To Tax Smoking Out of Existence. Now 80% of Tobacco Aussies Consume Is From the Black Market.
An illustration of the Australian flag and a cigarette
🇺🇸 미국 · "EXISTE" · 총 29건
필터 보기현재 지수
50.0
0 = 부정 우세
50 = 중립
100 = 긍정 우세
최근 7일 기준 11,550건을 분석한 결과, 뉴스 심리지수는 50.0(균형)입니다. 긍정 1건(0.0%)·중립 11,548건(100.0%)·부정 1건(0.0%)이며, 중립 비중이 뚜렷하게 높습니다. 성향 지수는 종합 18.4(중도 균형)입니다.
An illustration of the Australian flag and a cigarette
Is the Bowdens’ whole existence built on lies, on perverting the law to get the lives they want, even at the expense of others?
The Trump administration delivered a sweeping blow to the Cuban regime on Thursday, sanctioning its president, members of the Castro family dynasty, Cuba’s military ministry, and a gold mining operation that funnels wealth to regime elites. Secretary of State Marco Rubio has framed the Trump administration’s efforts as an existential campaign against a government he ...
From Plato's Theory of Forms to Simone de Beauvoir's argument that womanhood is constructed rather than given, these are the ideas that changed how humans think about existence, knowledge, and power
For all the stigma and turmoil that President Trump has brought onto the Kennedy Center, the people who are most harmed are the people who work there — including the National Symphony Orchestra, the very existence of which is imperiled by the callousness and confusion surrounding the president’s attempted takeover of the organization (which, of […]
Far-left New York congressional hopeful Darializa Avila Chevalier called for the seizure of property from landlords and the abolition of police and prisons in more unhinged social media posts — in which she also rejected the existence of the state of Israel. Chevalier, who is challenging incumbent Rep. Adriano Espaillat in New York’s 13th Congressional...
A leading leftist in the National Assembly has claimed that France was never a white and Christian country, and that the idea is merely a "fantasy" of the so-called far-right. The post French Far-Left Leader Claims ‘White, Christian’ France Never Existed appeared first on Breitbart.
Seas the day. Plans are being put forward to create the world’s first-ever “floating city,” which would be powered by nuclear energy and have a capacity of 80,000 – dwarfing the finest cruise ships in the world. Visions of the so-called Freedom Ship have existed since the 1990s, but they have been brought back to...
In the 1990s, I asked Milton Friedman how I should approach charitable giving. His answer was to invest in school choice, a concept he had invented decades earlier. At the time, school choice barely existed. Now, it’s exploding. Friedman’s advice was right on — my bet has paid off. Now, it is time for all of […]
Launched in 2014 for AOL Originals, the short-form series paired Buscemi and Geo Orlando with everyone from Chris Rock to John Oliver — and won an Emmy in the process.
The Democrats’ call for Americans to “protect democracy” from candidate Donald Trump fell flat in the 2024 presidential election. Over and over, President Joe Biden and Vice President Kamala Harris said that Trump and other Republicans represented an existential threat to the political system, calling out things like Project 2025 and the extreme anti-immigration aims […]
The European Union is holding key discussions on Friday over whether to impose tariffs or other measures against Chinese imports. While symbolic action is likely, that action will likely be delayed and largely watered down. Assuming that is the case, European industries will remain victim to China’s endemic dumping of state-subsidized goods into their markets. […]
YouTuber Kane Parsons takes the premise of his eerie videos depicting endless, empty spaces and runs with it. The result is existentially scary AF
Salesforce has been trying to counter the prevailing market narrative that AI poses an existential threat to its business.
"It's a Jackie Robinson moment." That declaration by House Minority Leader Hakeem Jeffries struck a curious chord because Jeffries was calling for Black athletes to boycott SEC conference teams to protest not the existence but the elimination of racial discrimination.
I have been an application-specific IC (ASIC) designer for almost three decades. Over that time, I’ve moved through the full academic trajectory, from graduate student to full professor; later, I transitioned to industry after an unsuccessful stint at entrepreneurship. When I made the switch to the private sector in 2019, I began focusing on a critically important aspect of the electronic industry: silicon intellectual property. As much as 80 percent of the physical area in today’s most advanced chips is occupied by blocks that aren’t made for specific products or even designed by the consumer-facing companies that built them. Instead, chipmakers draw heavily on established silicon IP from companies like Arm, Cadence, Rambus, Synopsys, and the company I work for, Silicon Creations. Throughout my career, I’ve designed chips for very different purposes, including enabling the research program in my academic lab and expanding the IP portfolio of my company. When I joined Silicon Creations, I had no idea how differently the industry approaches IC design and encountered a steep learning curve. Initially, it seemed that much of my two decades of academic research and training did not directly translate to the role. I had to learn new skills and adopt a new mindset. Today, demand for ASICs is rapidly growing, driven by the need for specialized chips in the automotive sector, AI applications, and more. By one market estimate, the ASIC market is expected to grow from US $23.4 billion to $38.8 billion by 2033, and the semiconductor industry as a whole is projected to hit $1 trillion by 2030. The industry needs more chip designers—but if you’re coming from an academic background as I did, there are a few things you’ll need to know. Different goals lead to different strategies The differences between industry and academe begin with a divergence in purpose. In academia, my primary objective was to generate new knowledge: to propose a novel circuit technique, validate an unconventional architecture, or explore the limits of performance in a given domain. A successful chip is one that demonstrates a concept. In industry, it is not nearly enough to prove that something can work. The goal is to ensure that it works reliably, repeatedly, and at scale. Success is measured not by novelty but by whether the silicon meets specifications, yields as expected in production, and supports a competitive product delivered on schedule. This leads to a stark contrast in risk tolerance. Academic designs often deliberately push into unproven territory, where even partial success can yield valuable insight. In industry, however, we systematically minimize risk. The cost of failure makes first-time silicon success a central requirement—especially at advanced technology nodes, where the lithography masks used to transfer circuit designs onto silicon wafers alone can cost tens of millions of dollars. As a result, industry design flows are built around eliminating uncertainty through conservative margins, extensive validation, and careful reuse of proven solutions. “Academia explores the design space, asking what is possible, while industry exploits it, determining what is viable at scale.” This paradigm has existed since the 1970s, when application-specific chip design was established. However, the gulf between academia and industry has expanded since the mid-2010s, when FinFET technology, a 3D architecture using vertical “fins” of silicon, was widely adopted in industry. System designs are also becoming increasingly modular with the advent of chiplets. This fundamentally altered the economics and complexity of ASIC development, with design costs rising by almost an order of magnitude. Initiatives like Taiwan Semiconductor Manufacturing Co.’s University FinFET Program and new government-funded chip-design hubs now let some well-resourced universities design for more advanced architectures, but the technology is still out of reach for many academics. What the industry-academia split means in practice Consider a startup developing an ASIC. Its engineering team may have deep expertise in a particular algorithm, sensor interface, or system architecture, the features that define its competitive advantage. But it is unlikely to possess world-class expertise in every supporting function. Developing each of these blocks internally would require significant time, capital, and specialized talent. Doing so could delay market entry beyond the startup’s viability. Even large semiconductor companies face similar constraints. Advanced-node development demands intense focus. Allocating a team to redesign a standard interface block that has already been implemented elsewhere may be difficult to justify when differentiation lies at the system level, such as an inference chip’s ability to speed up neural network computations. The time it takes to move a new chip from conception to market and risk mitigation, not self-sufficiency, govern most decisions about in-house development versus outsourcing. The economics of advanced IC manufacturing reinforce this reality. When the development cost of a leading-edge chip reaches hundreds of millions of dollars, minimizing risk becomes a central design imperative. In this context, silicon IP emerged as a practical solution. Similar to how software developers rely on preexisting libraries rather than writing every function from scratch, ASIC designers license predesigned, preverified silicon blocks—such as processor cores, memory interfaces, and security engines—from highly specialized IP vendors. These blocks can then be integrated into larger, increasingly complex systems. Design scope, verification, and time horizons With the use of silicon IP, industry is able to widen the scope of its designs. Academic efforts tend to focus on block-level innovation: a new analog-to-digital converter architecture or an ultralow-noise amplifier, for instance. These designs typically abstract away many of the complexities of bringing a chip to market, such as packaging constraints, long-term reliability, and manufacturing yield. In industry, the focus shifts to system-level integration. Modern systems on chips, or SoCs, incorporate dozens or even hundreds of functional blocks. Managing signal integrity, timing, firmware interaction, and system-level validation becomes as critical as the design of any individual block. Verification philosophy also diverges sharply. In academia, the goal of verification is to demonstrate that the concept works under nominal conditions, which may not always reflect how it would perform in real applications. Even if only a fraction of fabricated chips from a multiproject wafer operates correctly, the design may still be considered a success if it validates the underlying idea. At my academic lab for instance, we used to receive 40 chips from a TSMC prototyping service and started testing them in batches of five. If the first five or 10 chips proved functional, we had already collected more than enough data for a publication. If some of them failed, we weren’t required to mention this when publishing the results. In industry, verification is exhaustive, critical, and often dominates the development schedule. Failures are measured in parts per million, and even rare anomalies are carefully analyzed and documented to identify root causes and prevent recurrence. When I started at Silicon Creations, I was surprised by the level of detail and scrutiny designs face. Differences in time horizons and economic constraints reinforce each of these contrasts. Academic projects operate on flexible timelines aligned with research and funding cycles. If I missed a deadline, I just had to wait for the next cycle. Industry projects are driven by fixed product schedules and market windows, frequently targeting costly leading-edge nodes to achieve competitive performance, power, and area efficiency. Missing a deadline can negate the value of an entire design and may have major financial consequences along the entire supply chain. In essence, academia explores the design space, asking what is possible, while industry exploits it, determining what is viable at scale. Both are indispensable, but they operate under fundamentally different definitions of success. As ASIC complexity continues to grow, understanding both perspectives will be essential for the next generation of engineers navigating the evolving semiconductor landscape. This article appears in the June 2026 print issue.
Director describes how his views on existence of aliens have changed, interspersed with footage from film.
New York Democratic Gov. Kathy Hochul tried to dunk on President Donald Trump but threw up an airball instead. After Trump described himself as “a lifelong Knicks fan,” Hochul said he should prove it by naming the starting lineup from the Knicks’ “1993 championship team,” a team that never existed. The Knicks neither won nor ...
A Human Rights Watch report found that many Cubans deported to Mexico by the Trump administration are living in an “indefinite legal limbo” and struggling to get by.
Iran’s Supreme Leader Mojtaba Khamenei — who has not been seen or heard from publicly since succeeding his slain father following the opening U.S.-Israeli strikes on Iran — declared Tuesday that “Death to America” and “Death to Israel” would become the rallying cries of the Muslim world while vowing that the Jewish state was nearing the “final stages” of its existence. The post ‘Death to America’: Iran’s Supreme Leader Warns U.S. Will Have ‘No Safe Haven’ — Vows Israel’s Annihilation appeared first on Breitbart.