Staying ahead of the curve is essential to meeting customer needs. Cadence has consistently demonstrated its commitment to innovation, and its latest IP portfolio available on TSMC's 3nm (N3) process is no exception. Today, rapid advancements in AI/ML, hyperscale computing (HPC), and the automotive industry are driving significant changes in technology. Let's explore the impressive array of IP that Cadence offers on this advanced node.

Memory Solutions: High-Speed and Power-Efficient

Cadence's DDR5 12.8G MRDIMM IP supports the highest speed grade Gen2 MRDIMMs and features a fully hardened PHY optimized to the customer's floorplan. The LPDDR5X IP is silicon-proven at 9.6Gbps and is ideal for power-sensitive applications, offering a fully integrated memory subsystem.

GDDR7: Leading the Way in Graphics Memory

Cadence has achieved a significant milestone with the world's first silicon-proven GDDR7 IP, supporting data rates up to 32Gbps. This IP offers the best price/performance ratio for AI interfaces, making it a game-changer in the graphics memory domain.

PCIe and CXL Solutions: Robust and Reliable

Cadence's PCIe 3.0 IP is a mature and production-proven solution available across a wide range of process nodes from 28nm to 3nm. It offers a versatile multi-link architecture for optimum SoC configurability and flexible use cases. The PCIe 6.0 and CXL 3.x solutions are silicon-proven, power-optimized, and highly robust, with jitter-tolerant capabilities. These IP are the only subsystem proven with eight lanes of controller and PHY in silicon, ensuring interoperability with leading test vendors and OEMs.

UCIe PHY: Setting New Standards

The UCIe PHY IP from Cadence are set to be generally available after successful silicon characterization in both standard and advanced package options on the TSMC N3 (3nm) process. These IP demonstrate significantly better power, performance, and area (PPA) metrics than the specifications, with a bit error rate (BER) better than 1E-27 compared to the spec of 1E-15. The power consumption is also notably lower than the spec limit, ensuring a simpler integration with a best-in-class power profile.

112G PHY IP: Pushing the Boundaries of Performance

Cadence's 112G PHY IP are designed to meet the demands of high-speed data transmission. The 112G-ULR PHY IP, characterized in the 3nm process, showcases exceptional performance with support for insertion loss over 45dB at data rates ranging from 1.25Gbps to 112.5Gbps. This IP is optimized for both power and area, making it a versatile choice for various applications. The 112G-VSR/MR PHY IP also stands out with its excellent power and performance metrics, making it ideal for short-reach applications and optical interconnects. Additionally, the 112G PAM4 PHY solutions cater to hyperscale, AI, HPC, and optics applications, featuring a mature DSP-based SerDes architecture with advanced techniques such as reflection cancellation.

Cadence's IP portfolio on TSMC N3 shows innovation and expertise to solve today's design challenges. From high-speed PHY IP to robust PCIe and CXL solutions and advanced memory IP, Cadence continues to lead the way in semiconductor IP development. These solutions not only meet but exceed industry standards, ensuring that customers can confidently achieve their design goals. Stay tuned for more updates on Cadence's groundbreaking advancements in semiconductor technology.

Learn more about Cadence IP and other silicon solutions.

Read this blog to know more about the innovation behind Universal Connect Modules (UCM).(read more)

Using the EMX solver, X-FAB design engineers can efficiently develop next-generation RF technology for the latest communication standards (including sub-6GHz 5G, mmWave, UWB, etc.), which are enabling technologies for communications and electric vehicle (EV) wireless applications. (read more)

This blog introduces you to an efficient way to debug interface elements or connect modules in a mixed-signal simulation.(read more)

As the Digital Kazakhstan programme creates an environment conducive to innovation, start-up hubs are springing up across the country. Their task? To move the economy beyond commodities and make the country a regional centre of innovation. 

Antwerp’s vice-mayor, Claude Marinower, talks about the city's history as a diverse business location, and its plans to promote traditional industries alongside innovative concepts.

With a multilingual population, Antwerp enjoys a diverse talent pool that has made it a popular testbed for digital innovation and entrepreneurship.

Tourism Research Australia (TRA) is Australia’s official provider of tourism data and analysis to support Australia’s visitor economy. TRA has a rich 35-year history of data collection at the leading edge of tourism research in Australia.

Lifelike digital humans engage with audiences in real time. Autonomous systems streamline complex logistics. And AI-driven language tools break down communication barriers on the fly. This isn’t sci-fi. This is Tokyo’s startup scene. Supercharged by AI — and world-class academic and industrial might — the region has become a global innovation hub. And the NVIDIA Read Article

Robots transporting heavy metal at a Toyota plant. Yaskawa’s robots working alongside human coworkers in factories. To advance efforts like these virtually, Rikei Corporation develops digital twin tooling to assist planning. And if that weren’t enough, diversified retail holdings company Seven & i Holdings is running digital twin simulations to enhance customer experiences. Physical AI Read Article

THIS year marks the 75th anniversary of diplomatic relations between China and Hungary, with both nations elevating their ties to a comprehensive strategic partnership. As the Guest Country of Honor at

Research Innovation & Collaboration Exchange (RICE)

The Innovative Finance Facility for Climate in Asia and the Pacific, or IF-CAP, is a multi-donor financing partnership facility with the goal of scaling-up finance for accelerated action against climate change in Asia and the Pacific.

Remarks by Masatsugu Asakawa, President, Asian Development Bank, at the Innovative Finance Facility for Climate in Asia and the Pacific Kick-Off Event, 12 November 2024

The technical assistance (TA) will support the Kingdom of Cambodia in building resilience within, and improving the competitiveness of the country's private sector by enhancing the capacity of state institutions to support adoption of digital technologies and to foster innovation and diversification in micro-, small- and medium-sized enterprises (MSMEs), where women entrepreneurs and workers are traditionally prevalent.

This report outlines the cascading environmental, social, and economic impacts of aquatic biodiversity loss in Southeast Asia and recommends ways to develop scalable projects that tackle river pollution and support sustainable development.

ABSTRACTWe document the effort over the last 30 years to respond to the call by women advocates at the International Conference on Population and Development for more woman-initiated single or dual-purpose contraceptive methods by developing the Caya contoured diaphragm, an innovative diaphragm designed to meet the needs of women and their partners and expand options for nonhormonal barrier contraception. We describe the complex and interrelated set of activities undertaken to develop the product using a human-centered design process and how we are working to create a corollary sustainable market. This review includes the evidence generated around improved acceptability among couples in low- and middle-income countries and depicts challenges and practical actions on how to dispel misconceptions about diaphragm use. Importantly, we share programmatic lessons learned on increasing universal access to this new sexual and reproductive health technology. Following our new model for increasing access to new and underutilized methods, Caya is now registered and being marketed in nearly 40 countries worldwide.

ABSTRACTBackground: This analysis aimed to evaluate the effectiveness of eliciting sexual partners from HIV-positive clients using the elicitation box model (where an HIV-positive index can report sexual contacts on paper and insert in a box for a health care provider to contact at a later time) compared to the conventional model (in which a health care provider elicits sexual contacts directly from clients) in Akwa Ibom, Southern Nigeria.Methods: Between March 2021 and April 2022, data were collected from index testing registers at 4 health facilities with a high volume of HIV clients currently on treatment in 4 local government areas in Akwa Ibom State. Primary outcome analyzed was the elicitation ratio (number of partners elicited per HIV-index offered index testing services). Secondary outcomes were the index testing acceptance (index HIV-positive clients accepted index testing service), testing coverage (partners tested for HIV from a list of partners elicited from HIV-index accepted index testing services), testing yield (index partners identified HIV positive from index partners HIV-tested), and linkage rate (index partners identified HIV positive and linked to antiretroviral therapy).Results: Of the total 2,705 index clients offered index testing services, 91.9% accepted, with 2,043 and 439 indexes opting for conventional elicitation and elicitation box models, respectively. A total of 3,796 sexual contacts were elicited: 2,546 using the conventional model (elicitation ratio=1:1) and 1,250 using the elicitation box model (elicitation ratio=1:3). Testing coverage was significantly higher in the conventional compared to the elicitation box model (P<.001). However, there was no significant difference in the testing yield (P=.81) and linkage rate using the conventional compared to elicitation box models (P=.13).Conclusion: The implementation of the elicitation box model resulted in an increase in partner elicitation compared to the conventional model. Increasing the testing coverage by implementing the elicitation box model should be considered.

PURPOSE

The impact of digital health on medically underserved patients is unclear. This study aimed to determine the early impact of a digital innovation to grow quality care through an interprofessional care team (DIG IT) on the blood pressure (BP) and 10-year atherosclerotic cardiovascular disease (ASCVD) risk score of medically underserved patients.

After a star explodes, the resulting supernova remnant collapses in on itself and could begin the cycle again, creating generations of stars enriched with heavy elements

A nearby star that exploded some 3 million years ago could have removed all dust smaller than a millimetre from the outer solar system

This is a sponsored article brought to you by Khalifa University of Science and Technology.

Abu Dhabi-based Khalifa University of Science and Technology in the United Arab Emirates (UAE) will be hosting the 36th edition of the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2024) to highlight the Middle East and North Africa (MENA) region’s rapidly advancing capabilities in the robotics and intelligent transport systems.

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Themed “Robotics for Sustainable Development,” the IROS 2024 will be held from 14-18 October 2024 at the Abu Dhabi National Exhibition Center (ADNEC) in the UAE’s capital city. It will offer a platform for universities and research institutions to display their research and innovation activities and initiatives in robotics, gathering researchers, academics, leading corporate majors, and industry professionals from around the globe.

A total of 13 forums, nine global-level competitions and challenges covering various aspects of robotics and AI, an IROS Expo, as well as an exclusive Career Fair will also be part of IROS 2024. The challenges and competitions will focus on physical or athletic intelligence of robots, remote robot navigation, robot manipulation, underwater robotics, as well as perception and sensing.

Delegates for the event will represent sectors including manufacturing, healthcare, logistics, agriculture, defense, security, and mining sectors with 60 percent of the talent pool having over six years of experience in robotics. A major component of the conference will be the poster sessions, keynotes, panel discussions by researchers and scientists, and networking events.

Khalifa University will be hosting IROS 2024 to highlight the Middle East and North Africa (MENA) region’s rapidly advancing capabilities in the robotics and intelligent transport systems.Khalifa University

Abu Dhabi ranks first on the world’s safest cities list in 2024, according to online database Numbeo, out of 329 global cities in the 2024 standings, holding the title for eight consecutive years since 2017, reflecting the emirate’s ongoing efforts to ensure a good quality of life for citizens and residents.

With a multicultural community, Abu Dhabi is home to people from more than 200 nationalities and draws a large number of tourists to some of the top art galleries in the city such as Louvre Abu Dhabi and the Guggenheim Abu Dhabi, as well as other destinations such as Ferrari World Abu Dhabi and Warner Bros. World Abu Dhabi.

The UAE and Abu Dhabi have increasingly become a center for creative skillsets, human capital and advanced technologies, attracting several international and regional events such as the global COP28 UAE climate summit, in which more than 160 countries participated.

Abu Dhabi city itself has hosted a number of association conventions such as the 34th International Nursing Research Congress and is set to host the UNCTAD World Investment Forum, the 13th World Trade Organization (WTO) Ministerial Conference (MC13), the 12th World Environment Education Congress in 2024, and the IUCN World Conservation Congress in 2025.

Khalifa University’s Center for Robotics and Autonomous Systems (KU-CARS) includes a vibrant multidisciplinary environment for conducting robotics and autonomous vehicle-related research and innovation.Khalifa University

Dr. Jorge Dias, IROS 2024 General Chair, said: “Khalifa University is delighted to bring the Intelligent Robots and Systems 2024 to Abu Dhabi in the UAE and highlight the innovations in line with the theme Robotics for Sustainable Development. As the region’s rapidly advancing capabilities in robotics and intelligent transport systems gain momentum, this event serves as a platform to incubate ideas, exchange knowledge, foster collaboration, and showcase our research and innovation activities. By hosting IROS 2024, Khalifa University aims to reaffirm the UAE’s status as a global innovation hub and destination for all industry stakeholders to collaborate on cutting-edge research and explore opportunities for growth within the UAE’s innovation ecosystem.”

“This event serves as a platform to incubate ideas, exchange knowledge, foster collaboration, and showcase our research and innovation activities” —Dr. Jorge Dias, IROS 2024 General Chair

Dr. Dias added: “The organizing committee of IROS 2024 has received over 4000 submissions representing 60 countries, with China leading with 1,029 papers, followed by the U.S. (777), Germany (302), and Japan (253), as well as the U.K. and South Korea (173 each). The UAE with a total of 68 papers comes atop the Arab region.”

Driving innovation at Khalifa University is the Center for Robotics and Autonomous Systems (KU-CARS) with around 50 researchers and state-of-the-art laboratory facilities, including a vibrant multidisciplinary environment for conducting robotics and autonomous vehicle-related research and innovation.

IROS 2024 is sponsored by IEEE Robotics and Automation Society, Abu Dhabi Convention and Exhibition Bureau, the Robotics Society of Japan (RSJ), the Society of Instrument and Control Engineers (SICE), the New Technology Foundation, and the IEEE Industrial Electronics Society (IES).

More information at https://iros2024-abudhabi.org/

A biologist at Cape Breton University is hoping a piece of technology used to keep people safe in the pandemic can help protect Nova Scotia's oysters against the effects of warming waters.

Apple recently announced its new lineup of Macs and rolled out Apple Intelligence, its latest artificial intelligence-powered feature for its products.

ROGER FEDERER has explained why he gets injured less than rivals Rafael Nadal and Novak Djokovic..

The grant program provides hardware startups with reimbursement for working with local manufacturers.

Asahi Kasei Medical has launched the Planova FG1, a next-generation virus removal filter featuring higher flux for the manufacture of biotherapeutics, in October 2024.

Accumold, with over 40 years of experience in micromoulding technology, is set to participate at Compamed, taking place in Düsseldorf, Germany, from 11-14 November. The company will highlight its small and complex parts for medical device OEMs.

A strange supernova remnant first appeared as a “guest star” seen in 1181 by sky watchers in China and Japan

The U.S. Food and Drug Administration posted a photo:

Catherine Dasenbrock, director of the U.S. Food and Drug Administration’s National Forensic Chemistry Center, speaks to guests prior to officially reopening the center during a ribbon-cutting ceremony, Sept. 24, 2024, celebrating the completion of the 64,000-square-foot expansion and renovation of the facility in Cincinnati, Ohio. The NFCC is a specialty laboratory that serves as the FDA’s national forensic laboratory providing specialized laboratory services in analytical chemistry and molecular/microbiology related to adulteration/contamination, counterfeiting, and product tampering of FDA regulated commodities including drugs, dietary supplements, foods, cosmetics, veterinary feeds, and medical devices.

FDA photo by Matthew MacRoberts

The U.S. Food and Drug Administration posted a photo:

U.S. Food and Drug Administration officials and General Services Administration leaders officially reopen the National Forensic Chemistry Center during a ribbon-cutting ceremony, Sept. 24, 2024, highlighting the completion of the 64,000-square-foot expansion and renovation of the center in Cincinnati, Ohio. The NFCC is a specialty laboratory that serves as the FDA’s national forensic laboratory providing specialized laboratory services in analytical chemistry and molecular/microbiology related to adulteration/contamination, counterfeiting, and product tampering of FDA regulated commodities including drugs, dietary supplements, foods, cosmetics, veterinary feeds, and medical devices.

(From left)
Marie Maguire, Assistant Special Agent in Charge, Headquarters Operations, Office of Criminal Investigations, FDA
James Sigg, Deputy Commissioner for Operations and Chief Operating Officer, Office of the Commissioner, FDA
Catherine Dasenbrock, Director, National Forensic Chemistry Center, Office of Inspections and Investigations (OII), FDA
Duane Satzger, Associate Director, Office of Medical Products and Specialty Laboratory Operations, OII, FDA
Katy Kale, Deputy Administrator, GSA
Douglas Stearn, Principal Deputy Associate Commissioner, OII, FDA

FDA photo by Matthew MacRoberts

The U.S. Food and Drug Administration posted a photo:

Scientists explain the work they do to guests attending a ribbon-cutting ceremony celebrating the completion of a 64,000-square-foot expansion and renovation of the U.S. Food and Drug Administration’s National Forensic Chemistry Center in Cincinnati, Ohio, Sept. 24, 2024.

The NFCC is a specialty laboratory that serves as the FDA’s national forensic laboratory providing specialized laboratory services in analytical chemistry and molecular/microbiology related to adulteration/contamination, counterfeiting, and product tampering of FDA regulated commodities including drugs, dietary supplements, foods, cosmetics, veterinary feeds, and medical devices.

FDA photo by Matthew MacRoberts

The U.S. Food and Drug Administration posted a photo:

Scientists explain the work they do to guests attending a ribbon-cutting ceremony celebrating the completion of a 64,000-square-foot expansion and renovation of the U.S. Food and Drug Administration’s National Forensic Chemistry Center in Cincinnati, Ohio, Sept. 24, 2024.

The NFCC is a specialty laboratory that serves as the FDA’s national forensic laboratory providing specialized laboratory services in analytical chemistry and molecular/microbiology related to adulteration/contamination, counterfeiting, and product tampering of FDA regulated commodities including drugs, dietary supplements, foods, cosmetics, veterinary feeds, and medical devices.

FDA photo by Matthew MacRoberts

The U.S. Food and Drug Administration posted a photo:

Scientists explain the work they do to guests attending a ribbon-cutting ceremony celebrating the completion of a 64,000-square-foot expansion and renovation of the U.S. Food and Drug Administration’s National Forensic Chemistry Center in Cincinnati, Ohio, Sept. 24, 2024.

The NFCC is a specialty laboratory that serves as the FDA’s national forensic laboratory providing specialized laboratory services in analytical chemistry and molecular/microbiology related to adulteration/contamination, counterfeiting, and product tampering of FDA regulated commodities including drugs, dietary supplements, foods, cosmetics, veterinary feeds, and medical devices.

FDA photo by Matthew MacRoberts

Chicken was once an expensive delicacy. In 1928, America’s quest for a better diet and a better standard of living was summarized by the campaign promise of “a chicken in every pot.” Today, chicken is a ubiquitous, low-cost source of protein, which we largely take for granted. Despite depletion of ocean-based stocks, fish hold similar potential. To begin this transformation, FDA must approve a scientifically-based innovative product—a faster growing genetically-engineered (GE) Atlantic salmon. When FDA Matters wrote about this subject 18 months ago, I believed the agency was near to approval of this first-ever food product from a GE animal. It is still not resolved and there are implications for all innovations that require FDA approval.

Novartis recently announced the acquisition of Mariana Oncology, an emerging biotech focused on advancing a radioligand therapeutics platform, for up to $1.75 billion in upfronts and future milestones. The capstone of its three short years of operations, this acquisition represents

The post Mariana Oncology’s Radiopharm Platform Acquired By Novartis appeared first on LifeSciVC.

Over the past 20 years, technological advances have enabled inventors to go from strength to strength. And yet, according to the legendary inventor Dean Kamen, innovation has stalled. Kamen made a name for himself with inventions including the first portable insulin pump for diabetics, an advanced wheelchair that can climb steps, and the Segway mobility device. Here, he talks about his plan for enabling innovators.

How has inventing changed since you started in the 1990s?

Dean Kamen: Kids all over the world can now be inventing in the world of synthetic biology the way we played with Tinkertoys and Erector Sets and Lego. I used to put pins and smelly formaldehyde in frogs in high school. Today in high school, kids will do experiments that would have won you the Nobel Prize in Medicine 40 years ago. But none of those kids are likely in any short time to be on the market with a pharmaceutical that will have global impact. Today, while invention is getting easier and easier, I think there are some aspects of innovation that have gotten much more difficult.

Can you explain the difference?

Kamen: Most people think those two words mean the same thing. Invention is coming up with an idea or a thing or a process that has never been done that way before. [Thanks to] more access to technology and 3D printers and simulation programs and virtual ways to make things, the threshold to be able to create something new and different has dramatically lowered.

Historically, inventions were only the starting point to get to innovation. And I’ll define an innovation as something that reached a scale where it impacted a piece of the world, or transformed it: the wheel, steam, electricity, Internet. Getting an invention to the scale it needs to be to become an innovation has gotten easier—if it’s software. But if it’s sophisticated technology that requires mechanical or physical structure in a very competitive world? It’s getting harder and harder to do due to competition, due to global regulatory environments.

[For example,] in proteomics [the study of proteins] and genomics and biomedical engineering, the invention part is, believe it or not, getting a little easier because we know so much, because there are development platforms now to do it. But getting a biotech product cleared by the Food and Drug Administration is getting more expensive and time consuming, and the risks involved are making the investment community much more likely to invest in the next version of Angry Birds than curing cancer.

A lot of ink has been spilled about how AI is changing inventing. Why hasn’t that helped?

Kamen: AI is an incredibly valuable tool. As long as the value you’re looking for is to be able to collect massive amounts of data and being able to process that data effectively. That’s very different than what a lot of people believe, which is that AI is inventing and creating from whole cloth new and different ideas.

How are you using AI to help with innovation?

Kamen: Every medical school has incredibly brilliant professors and grad students with petri dishes. “Look, I can make nephrons. We can grow people a new kidney. They won’t need dialysis.” But they only have petri dishes full of the stuff. And the scale they need is hundreds and hundreds of liters.

I started a not-for-profit called ARMI—the Advanced Regenerative Manufacturing Institute—to help make it practical to manufacture human cells, tissues, and organs. We are using artificial intelligence to speed up our development processes and eliminate going down frustratingly long and expensive [dead-end] paths. We figure out how to bring tissue manufacturing to scale. We build the bioreactors, sensor technologies, robotics, and controls. We’re going to put them together and create an industry that can manufacture hundreds of thousands of replacement kidneys, livers, pancreases, lungs, blood, bone, you name it.

So ARMI’s purpose is to help would-be innovators?

Kamen: We are not going to make a product. We’re not even going to make a whole company. We’re going to create baseline core technologies that will enable all sorts of products and companies to emerge to create an entire new industry. It will be an innovation in health care that will lower costs because cures are much cheaper than chronic treatments. We have to break down the barriers so that these fantastic inventions can become global innovations.

This article appears in the November 2024 print issue as “The Inventor’s Inventor.”

Apr 18, 2023

The following is an event write-up about the recent Future of Diplomacy Project (FDP) seminar on “The Future of Ukraine: Reconstruction, Energy Security, and Innovation” moderated by Ambassador Paula J. Dobriansky, Senior Fellow with the Future of Diplomacy Project. 

Sep 3, 2015

The New Harvest argues that Africa can feed itself in a generation and help contribute to global food security despite its history of persistent food shortages and the rising threat of climate change. This new edition provides ideas on how to place agriculture at the center of the continent's long-term economic transformation. It demonstrates how policy coordination can help realize agriculture's full potential as a motherboard for other economic activities.

The full text of The New Harvest is available here.

Feb 8, 2016

Africa is a youthful continent: nearly 41% of its population is under the age of 18. To address the unique challenges of this demographic structure, the African Union (AU) hopes to reposition the continent as a strategic player in the global economy through improved education and application of science and technology in development. The paper proposes the creation of “Innovation Universities” that combine research, teaching, community service and commercialization in their missions and operations. They would depart from the common practice where teaching is carried out in universities that do little research, and where research is done in national research institutes that do not undertake teaching. Under this model, there is little connection with productive sectors. The idea therefore is not just to create linkages between those activities but to pursue them in a coordinated way under the same university structure. Innovation universities can be created in diverse fields such as agriculture, health, industry, services, and environment to advance sustainable development and inclusive growth.

Aug 31, 2016

As the African Union develops its long-term agenda 2063 for the continent, science, technology and innovation will play a bigger part in development goal setting, especially in the context of social and economic growth.

Matt Snow CEO of DHG

Clayton Homes� building process enables them to build efficient, high-quality homes.