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[Joy Wida]

GIS is a technology that is used to create, manage, analyze, and map all types of data. GIS connects data to a map, integrating location data (where things are) with all types of descriptive information (what things are like there). This provides a foundation for mapping and analysis that is used in science and almost every industry. GIS helps users understand patterns, relationships, and geographic context. The benefits include improved communication, efficiency, management, and decision-making.

Finding the best route. Make logistics operations more efficient and adaptable. Reduce costs and emissions. Keep drivers safe and customers happy. Sophisticated GIS technology can handle complex routing and logistics scenarios, such as coordinating daily routes for a large fleet of delivery vehicles or managing a global supply chain in real time.

Planning for the future. Make predictions and informed decisions that benefit both people and the planet. Model possible scenarios to address complex challenges like climate resilience and sustainability. GIS analysis can identify where adding green spaces would reduce extreme heat for the most vulnerable, or where expected population growth would support a business expansion.

At the architecture level, complex memory hierarchies, multi-core, and multi-threading as well as core specialization (xPUs...) on a single system-on-chip (SoC) or in chiplets have become the way to overcome these scaling walls.

Moreover, an optimal system implementation will be the result of a subtle optimization across multiple technologies such as extreme CMOS logic scaling, advanced 3D packaging, novel memory elements and even Si photonics. These different technology research activities have up to now been conducted separately, each with their own DTCO research and roadmap.

To prepare ourselves for the system-driven scaling transition, we have reorganized our core program offering and integrated all DTCO activities into one single program that will study technology-to-circuit optimization across all core technology programs. We have complemented this DTCO program with a STCO program that will ensure the liaison between the DTCO research and the system application space.

A good example is the backside power delivery network that we presented at the 2022 VLSI Symposium. This work was the result of 3D program activities and logic activities working together to develop a system solution to power delivery. The backside technology heavily affects the logic scaling roadmap as much as it requires 3D technology capabilities such as wafer handling and through-silicon via (TSV) processing. But understanding why and how a backside power delivery network can bring true system performance benefits requires assessing its behavior in a more complex environment and diving deeper into system configurations. In 2021, in IEEE Spectrum, imec and Arm reported the system-level benefits of a backside power delivery network with buried power rails at processor design level.

Another example is emerging memories, some of which are envisioned to replace on-chip SRAM. Such a memory solution will inevitably affect the logic scaling roadmap and can only be evaluated in a system simulation framework. Not to mention that some of these memories may be stacked in 3D.

Our DTCO/STCO activities are articulated around 3 essential scaling walls for systems: the memory/bandwidth wall (i.e., how to get data at enough speed to feed the logic cores), the power/thermal wall (i.e., how to efficiently handle power delivery and thermal dissipation) and the dimensional scaling wall.

A true STCO research requires the integration of many disciplines together, each dealing with widely different scales and operating their science at different domains of abstraction. A true challenge is then to build a proper set of abstraction layers from one domain to another without losing critical information along the way. This is the only way to propagate information from top to down and bottom to up in order to perform a complete system optimization.

To do this properly, you not only need all the right expertise in each domain, but you also need these disciplines to closely interact with one another. Imec holds a unique infrastructure where most of these disciplines sit under the same roof working closely together. This facilitates the exchange of ideas, the smooth propagation of information and the broadening of a critical eye on the results and interpretations.

Agricultural systems technology graduates are prepared for a variety of careers and industries in which technology interfaces with agricultural, food and natural systems. Some of these potential career paths include:

You will take hands-on courses, engage in personal and professional development and connect with faculty members who invest in your success. Upon graduation, you will be prepared to engage with communities, industries and businesses as technologists, technicians, engineers and entrepreneurs.

WITH THE AMBITION TO DELIVER TO OUR CUSTOMERS THE BEST TECHNOLOGY FOR FASTEST INTEGRATION AND COMMISSIONING, HIGHEST PRODUCT AVAILABILITY AND OPTIMIZED PRODUCTIVITY, WE BRING THE BEST FROM THE WORLD OF MECHANICS AND THE LATEST TECHNOLOGY FROM THE IOT TOGETHER. FOR YOUR UNCOMPROMISING SUCCESS.

With the digitalization of its system toolkit, Zimmer Group is the worldwide technology leader for combining reliability and experience gained from 30 years and 9,000 successful system solutions with the efficiency and flexibility of digitalization. Industrie 4.0 is of paramount importance for production and manufacturing. Therefore, Zimmer Group is all in when it comes to continuously developing sustainable application solutions for all industries. Automation concepts from Zimmer Group are customized to meet individual needs and offer customers precise and efficient solutions for optimized production rates and the highest quality standards. This is true whether the engineering is for manual, semi-automated or fully automated production and assembly lines. Here is where you will find multiple examples of customer projects from all industries, processing types and products. Select the perfect system solution for your application and choose the ideal path to success with the Know-How Factory.

WHATEVER MARKET YOUR COMPANY IS BASED IN, WHETHER YOU ARE A LOCAL PROVIDER SERVING YOUR HOME MARKET OR A GLOBAL PLAYER FOCUSED ON WORLDWIDE SUPPLY CHAINS, AND WHATEVER YOUR TECHNICAL CHALLENGES MAY BE: ZIMMER GROUP IS YOUR EXPERT PARTNER.

ZIMMER GROUP IS ONE OF THE LEADING WORLDWIDE SPECIALISTS IN THE AREA OF SYSTEM SOLUTIONS. WE OFFER YOU SOPHISTICATED SYSTEM SOLUTIONS FOR ALMOST EVERY TASK, IN VIRTUALLY ALL INDUSTRIES AND APPLICATIONS. IT DOESN'T MATTER IF IT IS A SIMPLE GRIPPER AND HANDLING SOLUTION OR A COMPLEX SYSTEM SOLUTION.

As an industry partner with many years of experience, we are very familiar with the requirements of modern production systems, whether in mechanical engineering, the automotive and supplier industries, foundries or in the electronics, plastics or the consumer goods sectors. Zimmer Group system solutions allow us to equip any make of robot optimally and significantly increase the functionality and efficiency of your robots. The extensive expert solutions of our system technology department, with their experienced team of project engineers, designers and manufacturers, has been valued by our customers for 30 years. Our systems are the result of a close collaboration with end customers and integrators built on trust. Zimmer system technology has specially tailored production and assembly areas with a high degree of production depth. This means that we can guarantee flexible, quick implementation of your project at any time. Zimmer Group has traditionally worked for a series of core industries that have benefited from our extensive experience and recognized development expertise for decades. We would be happy to speak with you about specific applications in new growth industries. We are well equipped for the development of new concepts. Together, we will be able to find the right solutions.

AS ONE OF THE WORLD'S LEADING AUTOMATION SOLUTION EXPERTS, WE SUPPORT YOU WITH OUR EXPERIENCE AND EXPERTISE. WHATEVER YOUR INDUSTRY OR PRODUCTION ENVIRONMENT, WE HAVE WHAT YOU NEED AND ARE YOUR PARTNER FOR SUCCESS. HERE IS A SELECTION FROM OUR EXTENSIVE RANGE OF ZIMMER GROUP INDUSTRY STANDARDS AND REFERENCE SYSTEMS. THE INDUSTRY STANDARDS DESCRIBE SYSTEM PLATFORMS THAT HAVE BEEN REFINED AND OPTIMIZED THROUGH MANY YEARS OF FIELD TESTING. THE CUSTOM SYSTEMS FEATURED IN THE SHOWROOM ARE A SMALL SELECTION OF MULTIPLE THOUSANDS OF SYSTEMS THAT PROVE ZIMMER GROUP'S EXPERIENCE AND EXPERTISE IN EVERY INDUSTRY IMAGINABLE.

The Computer Systems Technology program prepares technology professionals to manage computer systems and develop applications in a variety of settings. Students develop knowledge and communication skills to successfully collaborate on projects.

When it's time to upgrade your fire and life safety system, Edwards understands that a total system replacement can be daunting. That's why we have prioritized backward features in our new product designs, supporting our legacy solutions while improving and protecting the value of your investment.

Cybersecurity is defined by Merriam-Webster as "the measures taken to protect a computer or computer system (on the internet) against unauthorized access or attack." How does this apply to fire alarm systems that traditionally haven't connected to the internet like computers? Find out in this informative and detailed white paper, where we explore the new cybersecurity needs of a modern life safety system.

Introducing FIREside Chat - a webinar series brought to you by the Strategic Accounts Team at Edwards, where we discuss news, trends, and technology impacting the fire and life safety community with subject matter experts in fire alarm, mass notification, and emergency communications.

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