https://introspectivemarketresearch.com/reports/factory-simulation-software-market/

The Evolution of CAM (Computer-Aided Manufacturing) in Industry

Hello, engineering students and tech enthusiasts! If you’re curious about how products go from ideas to reality, let’s dive into the world of Computer-Aided Manufacturing (CAM). CAM has transformed industries, making manufacturing faster, smarter, and more precise. As your mentor, I’m excited to walk you through its evolution, from its early days to its role in today’s high-tech factories. With insights grounded in industry trends, this guide will show you why CAM is a game-changer for mechanical engineers.

The Birth of CAM: A New Era Begins

CAM started in the 1950s when computers first entered manufacturing. Early systems used punched tapes to control machines, a far cry from today’s tech. By the 1970s, Numerical Control (NC) machines evolved into Computer Numerical Control (CNC), allowing engineers to program tools with precision. A 2023 ASME report notes that these advancements cut production times by 40% in industries like aerospace. CAM was born to bridge design and production, turning digital models into physical parts with minimal human intervention.

The 1980s and 1990s: CAM Goes Mainstream

The 1980s brought CAD/CAM integration, letting engineers design and manufacture in one workflow. Software like Mastercam and CATIA emerged, enabling complex geometries for automotive and aviation parts. By the 1990s, CAM systems supported multi-axis machining, which meant machines could move in multiple directions for intricate shapes. According to a 2024 Manufacturing Technology Insights study, this boosted productivity by 25% in factories. If you’re at one of the best private engineering colleges in Odisha, like NM Institute of Engineering and Technology (NMIET), you’re likely using similar software in labs to simulate these processes, getting a taste of real-world applications.

The 2000s: Automation and Precision Take Over

The 2000s saw CAM embrace automation. Robotic arms, guided by CAM software, started handling repetitive tasks like welding and assembly. This was huge for industries like automotive, where companies like Toyota slashed production costs by 20%, per a 2023 Industry Week report. CAM also integrated with simulation tools, letting engineers test toolpaths virtually before cutting metal, reducing errors. Cloud-based CAM software, like Fusion 360, made collaboration easier, allowing teams to share designs globally. These tools are now standard in many engineering curriculums, giving students hands-on experience.

CAM Today: Industry 4.0 and Beyond

Fast forward to 2025, and CAM is at the heart of Industry 4.0. It’s now paired with AI, IoT, and additive manufacturing (3D printing). AI-powered CAM optimizes toolpaths, cutting waste by up to 15%, according to a 2024 McKinsey report. IoT connects machines to monitor performance in real-time, predicting maintenance needs. Additive manufacturing, guided by CAM, creates complex parts layer by layer, revolutionizing aerospace and medical device production. A 2024 Deloitte study predicts the global CAM market will reach $5.2 billion by 2030, driven by demand for smart manufacturing.

Students at the best private engineering colleges in Odisha are well-positioned to jump into this field. Institutes like NMIET, with modern labs and industry ties to companies like IBM, offer exposure to CNC machines and CAM software, helping you build skills employers value. The hands-on learning you get now is your ticket to thriving in this dynamic industry.

How to Prepare for a CAM Career

Want to be part of CAM’s future? Start with a strong grasp of mechanical engineering fundamentals like mechanics and materials science. Learn CAM software—Mastercam, Siemens NX, and Fusion 360 are industry favorites. A 2024 LinkedIn report found that 82% of CAM-related job postings list software proficiency as a must. Online courses on platforms like Coursera can help you master these tools.

Internships are key. Look for opportunities with manufacturers or CNC shops. A 2023 Glassdoor study showed that engineering interns with CAM experience are 30% more likely to land full-time roles. Network with professionals through ASME or LinkedIn, and attend industry events to stay updated on trends. Your college’s placement cell, especially at institutes like NMIET, might connect you with firms using CAM technologies.

Why CAM Matters for Your Future

CAM isn’t just about machines—it’s about innovation. It powers industries from automotive to healthcare, creating jobs for skilled engineers. Roles like CAM programmer or manufacturing engineer offer salaries ranging from ₹5-12 LPA in India, per 2024 Payscale data, with higher earnings as you gain experience. You could work for global giants like General Electric or local manufacturers, or even start your own CNC workshop.

Final Thoughts

The evolution of CAM has reshaped manufacturing, and it’s only getting bigger. From CNC machines to AI-driven factories, mechanical engineers are driving this revolution. Stay curious, master the tools, and seek hands-on experience. A 2024 Industry 4.0 report predicts a 25% rise in CAM-related jobs by 2030, so the opportunities are endless. Whether you’re at NMIET or another institute, use your education to dive into CAM. The future of manufacturing is in your hands—go shape it!

GCC in Automotive and Manufacturing Market – Size, Share, Scope, Analysis, Forecast, Growth, and Industry Report 2032: Digital Twin and Simulation Capabilities

The GCCs in the Automotive and Manufacturing Market Size was valued at USD 26.6 Billion in 2023 and is expected to reach USD 99.2 Billion by 2032, growing at a CAGR of 14.22 % over the forecast period 2024-2032.

The GCCs in the Automotive and Manufacturing Market are rapidly transforming into innovation hubs.They are no longer limited to cost-saving support functions but are driving digital transformation.This shift is reshaping the way global automotive and manufacturing companies operate and grow.

The GCCs in the Automotive and Manufacturing Market are evolving from traditional back-end service providers into strategic units contributing to core R&D, product engineering, and digital innovation. With the rise of Industry 4.0, electrification, and connected vehicles, global companies are leveraging these centers to drive agility, speed, and competitiveness. These hubs, often based in talent-rich regions like India and Eastern Europe, are playing a key role in redefining global operations.

Get Sample Copy of This Report: https://www.snsinsider.com/sample-request/4717 

Market Keyplayers:

Siemens AG (Siemens Digital Industries Software, Siemens Teamcenter)

General Electric (GE) (GE Digital Wind Farm, Predix Platform)

ABB Ltd. (ABB Ability, RobotStudio)

Bosch Group (Bosch IoT Suite, Bosch Connected Industry)

Tata Consultancy Services (TCS) (TCS DigiFleet, TCS Smart Manufacturing)

Capgemini (Capgemini Manufacturing Cloud, Smart Industry)

Cognizant (Cognizant Smart Factory, Intelligent Manufacturing)

Infosys (Infosys Manufacturing Edge, Infosys Cloud)

Wipro Limited (Wipro Holmes, Wipro Digital Operations)

Accenture (Accenture Industry X.0, Accenture Connected Asset)

Trends Driving GCC Evolution

Digital Engineering & Innovation: GCCs are becoming centers of excellence for automotive software development, especially in ADAS, EV systems, and vehicle connectivity.

Smart Manufacturing & Industry 4.0: Advanced analytics, IoT, and automation are being deployed to optimize production processes and reduce downtime.

Shift to Product Ownership: Many GCCs are transitioning from execution support to owning complete product modules and leading design-to-delivery cycles.

Talent and Skilling Initiatives: Companies are investing in upskilling talent in areas such as mechatronics, AI, data science, and embedded systems to meet evolving needs.

Enquiry of This Report: https://www.snsinsider.com/enquiry/4717 

Market Segmentation:

By Functional Expertise

Digitalization and tech design

AI and ML

Product design and development

Embedded systems

Quality Control & Testing

By Service

End-to-End Support

Specialized/Niche Services

Consulting and Strategy Services

Managed Services for IT/Engineering

Shared Services

By Innovation and Emerging Technologies

Connected Vehicles & IoT

Electrification & Electric Vehicles (EVs)

Autonomous Driving

Additive Manufacturing & 3D Printing

Predictive Maintenance & AI-driven Insights

Augmented Reality (AR) & Virtual Reality (VR) for Design & Training

By Industry Application

Automotive OEMs

Heavy Machinery Manufacturing

Precision Engineering Firms

Industrial Equipment Manufacturers

Market Analysis

Global Expansion: GCCs are expanding their geographic footprint beyond traditional hubs, moving into Tier 2 cities and new regions to tap into emerging talent pools.

Cost and Efficiency Benefits: They continue to deliver significant cost optimization while ensuring faster go-to-market through 24x7 operational models.

Collaborative Ecosystems: GCCs increasingly partner with startups, academia, and innovation hubs to drive co-creation and accelerate prototyping.

Strategic Role in Transformation: They are now critical to implementing global digital strategies, such as AI-enabled design, cloud transformation, and cybersecurity.

Future Prospects

The future of GCCs in the Automotive and Manufacturing Market looks promising, as they shift from support centers to full-fledged strategic units. Companies will increasingly rely on these centers to lead innovation in autonomous mobility, battery technology, and sustainability-focused product development.

With growing demand for intelligent vehicles and personalized mobility solutions, GCCs are set to become the backbone of global R&D networks. We will also see increased adoption of agile and product-centric delivery models, enabling GCCs to respond faster to changing market demands. Additionally, the role of these centers in ESG (Environmental, Social, and Governance) initiatives—especially in optimizing energy usage and materials—will continue to grow.

Access Complete Report: https://www.snsinsider.com/reports/gccs-in-the-automotive-and-manufacturing-market-4717 

Conclusion

The GCCs in the Automotive and Manufacturing Market are no longer operating in the shadows of headquarters—they are stepping into the spotlight. As global manufacturers accelerate their digital transformation journeys, these centers will continue to gain prominence as innovation and engineering powerhouses.

By embracing emerging technologies, cultivating top-tier talent, and taking ownership of strategic initiatives, GCCs are poised to shape the future of mobility and manufacturing on a global scale.

About Us:

SNS Insider is one of the leading market research and consulting agencies that dominates the market research industry globally. Our company's aim is to give clients the knowledge they require in order to function in changing circumstances. In order to give you current, accurate market data, consumer insights, and opinions so that you can make decisions with confidence, we employ a variety of techniques, including surveys, video talks, and focus groups around the world.

Contact Us:

Jagney Dave - Vice President of Client Engagement

Phone: +1-315 636 4242 (US) | +44- 20 3290 5010 (UK)

A Step-by-Step Guide to Creating an Industrial Walkthrough Video

Introduction: Industrial Walkthrough Video

In this article, we will get started with concept of Industrial Walkthrough Video. From Industrial plant walkthrough to how to create Factory automation video. We will cover more topics like 3D manufacturing animation, How 3D animation helps manufacturing plants, Best industrial animation company in India, etc.

Finally, we will explore why to choose Chasing Illusions Studio as best Industrial plant video production in India.

What is Industrial plant walkthrough?

An Industrial Plant Walkthrough is a 3D animation or virtual tour that provides a realistic and immersive visualization of an industrial facility, including its infrastructure, machinery, workflows, and production processes.

These walkthroughs help stakeholders, engineers, and clients explore the plant layout, understand operational processes, and identify potential improvements without needing a physical visit. By showcasing intricate details such as assembly lines, safety protocols, and equipment placements, industrial plant walkthroughs are widely used for training, project planning, marketing, and investor presentations.

How to Create an Industrial Walkthrough Video?

Let's go behind the scene and learn how we covert complex industrial concept into engaging 3d industrial plant walkthrough. From starting stage of scriptwriting to final stage of editing, we will cover all steps one by one and go through why you need to choose Chasing Illusions as 3D Walkthrough Industrial Plant Animation Company.

Understand Project Requirements

Gather client specifications, including plant layout, machinery details, and key areas to highlight.

Identify the purpose (e.g., training, marketing, presentations).

Collect Reference Materials

Obtain CAD drawings, blueprints, and 3D models of the plant.

Gather images, videos, and technical documents for accuracy.

Create a 3D Model of the Plant

Use 3D modeling software (e.g., Blender, 3ds Max, Maya) to build the industrial facility.

Ensure accurate detailing of machines, structures, and safety elements.

Apply Textures and Lighting

Add realistic materials and textures to enhance the visual appeal.

Set up proper lighting to simulate real-world conditions.

Animate the Walkthrough

Define the camera path to guide viewers smoothly through the plant.

Add dynamic elements like moving machinery, workers, and operational workflows.

Integrate Visual Effects and Annotations

Highlight key areas with labels, infographics, or text callouts.

Use animations to demonstrate specific processes.

Render the Final Video

Optimize rendering settings for high-quality output.

Choose suitable resolutions based on client requirements (e.g., HD, 4K).

Post-Production Enhancements

Edit the video using software like Adobe Premiere Pro or DaVinci Resolve.

Add background music, voiceovers, and transitions for a professional touch.

Client Review and Revisions

Share the draft version with the client for feedback.

Implement changes as needed for final approval.

Delivery and Promotion

Export the final video in required formats (MP4, AVI, etc.).

Provide versions optimized for presentations, websites, or marketing campaigns.

What are industrial plant animation Company Services?

Manufacturing & Industrial Plants

We create compelling visuals for manufacturing and industrial plants. We develop realistic virtual tour of industrial factories and Smart factory simulation walkthroughs that showcase plant layouts, production processes, and machinery functionality. Our visualizations help clients optimize workflows, improve safety training, and communicate complex technical information effectively.

Energy and water Plants

We create engaging Energy and Water Plants Animations that showcase the complex infrastructure and processes involved in energy generation and water treatment. Our virtual tour of water treatment plants help clients communicate effectively, whether it's explaining the technology behind renewable energy sources or demonstrating the purification process of a water treatment facility. We bring the best 3D water plant walkthrough to life, highlighting their importance and impact on the community.

Logistics Plant

We create dynamic Logistics plant 3D walkthroughs, bringing complex operations to life. We develop virtual warehouse facility that showcase warehouse layouts, inventory management systems, and the flow of goods through the facility. Our 3D walkthrough logistics plant visualizations highlight efficiency, safety, and technological integration, helping clients optimize logistics processes, improve communication.

Innovative Machines and Processes

We specialize in visualizing innovative machines and processes in 3D animation. We create 3D virtual Industrial animations and simulations that showcase the inner workings and functionality of cutting-edge technology. Whether it's a manufacturing process or machinery product, we bring these innovations to life, clearly communicating their benefits and potential impact.

Industrial Safety Training and Compliance

We create engaging Industrial Safety Training Animations. We transform complex safety procedures and regulations into clear and concise visual experiences. Our Safety animations cover a range of topics, from proper equipment usage and hazard identification to emergency response protocols and regulatory compliance. Our goal is to create a safer working environment for everyone.

Aerospace and Defense

We create compelling visuals for the Aerospace and Defense industry. We develop high-quality animations and simulations showcasing complex aircraft, spacecraft, and defense systems. Our expertise includes visualizing technical processes, demonstrating product functionality, and creating engaging marketing materials. We help clients communicate complex information clearly and effectively, from training simulations to mission visualizations, supporting their communication and strategic objectives.

Sustainable and Environmental Parks

We create captivating visuals for sustainable and environmental parks, showcasing their beauty and importance. We develop 3D walkthroughs for sustainable parks that highlight the park's natural features, from lush landscapes and diverse ecosystems to innovative sustainable practices. Our virtual tour of eco-friendly parks communicate the park's mission and bring green spaces to life, emphasizing their role in creating a healthier and more sustainable future.

Agriculture and Animal Farming Plant

We create visuals for Agriculture and Animal Farming Plants. We develop informative 3D animations and walkthroughs that showcase modern farming techniques, from crop cultivation and harvesting to animal husbandry and sustainable practices. Our virtual tour of farming plants highlights the efficiency and innovation within the agricultural sector, promoting sustainable farming methods or showcasing the journey from farm to table.

What are Benefits of 3D Industrial Animation for Manufacturing?

Enhanced Visualization – Provides a clear and detailed view of machinery, processes, and plant layouts.

Improved Training & Safety – Helps train workers on equipment operation and safety protocols without real-world risks.

Cost-Effective Prototyping – Reduces the need for physical prototypes by visualizing designs in a 3D environment.

Better Marketing & Sales – Engaging animations showcase products and processes effectively for clients and investors.

Efficient Design & Planning – Identifies design flaws and optimizes workflows before implementation.

Remote Accessibility – Enables stakeholders to explore and understand manufacturing processes from anywhere.

Increased Investor Confidence – Visually appealing animations make it easier to explain complex processes to potential investors.

Faster Decision-Making – Helps management and engineers make informed decisions with detailed process simulations.

Customization & Scalability – Allows easy updates and modifications to reflect process improvements or facility expansions.

Competitive Advantage – Sets businesses apart by leveraging advanced visualization for presentations, training, and marketing.

Why to choose Chasing Illusions for 3D factory Industrial walkthrough?

Chasing Illusions Studio is best 3D factory industrial walkthroughs company, offering high-quality, immersive visualizations tailored to the manufacturing industry. With a team skilled in detailed 3D modeling, realistic animations, and precise industrial process simulations, we bring factory layouts, machinery, and workflows to life. Our walkthroughs help businesses with training, project planning, marketing, and investor presentations, ensuring a cost-effective and engaging way to showcase operations.

Which is best Virtual plant walkthrough company in India?

The best virtual plant walkthrough company in India is Chasing Illusions Studio for 3D industrial walkthroughs. With expertise in realistic 3D modeling, detailed factory layouts, and immersive animations, Chasing Illusions provides tailored solutions for manufacturing, engineering, and industrial sectors. Their walkthroughs help businesses with process visualization, training, marketing, and investor presentations, offering a cost-effective way to showcase operations without physical site visits.

What is the role of 3d animation in Industrial Plant Walkthroughs?

3D animation plays a crucial role in industrial plant walkthroughs by creating realistic, immersive, and interactive visualizations of factory layouts, machinery, and workflows. It allows businesses to showcase complex industrial processes, safety protocols, and equipment operations without the need for physical site visits.

By simulating real-world conditions with high-detail modeling, lighting, and motion, 3D animation enhances training, project planning, and marketing presentations. It also helps in identifying design flaws, optimizing workflows, and improving communication, making industrial plant walkthroughs a powerful tool for engineers, investors, and decision-makers.

Conclusion: Industrial Walkthrough Video

At Chasing Illusions Studio, we transform industrial spaces into immersive, high-quality 3D walkthroughs that enhance visualization, planning, training, and marketing. Our expertise in detailed 3D animation, realistic simulations, and cutting-edge technology ensures that your factory or industrial plant is showcased with precision and impact.

FAQs: Industrial Walkthrough Video

What Is Industrial Plan Manufacturing Animation?

Industrial Plant Manufacturing Animation is a 3D visualization technique that showcases the entire manufacturing process within an industrial facility. It brings factory layouts, machinery, assembly lines, and workflows to life through realistic animations. These animations are widely used for training, process optimization, marketing, and investor presentations, providing a cost-effective and immersive way to understand complex industrial operations.

What is the Role of 3D Walkthroughs in Factory Automation & Training?

3D walkthroughs play a vital role in factory automation and training by providing an interactive and immersive visualization of manufacturing facilities, automated systems, and workflows. In factory automation, 3D walkthroughs help in simulating automated processes, identifying inefficiencies, and optimizing workflow designs before implementation. They also enhance decision-making for engineers by offering a realistic preview of automation systems in action, ensuring smoother integration and operational efficiency.

How AI & VR Are Changing the Future of Industrial Training?

AI and VR are changing industrial training by creating highly interactive, immersive, and data-driven learning experiences for workers and engineers. AI-powered simulations personalize training by adapting to individual learning speeds, analyzing performance, and providing real-time feedback.

Virtual Reality (VR) enables trainees to practice operating machinery, follow safety protocols, and troubleshoot issues in a risk-free, virtual environment, reducing accidents and equipment downtime.

Together, AI and VR improve skill retention, reduce training costs, and enhance workforce efficiency, making industrial training more engaging, scalable, and future-ready in an era of automation and digital transformation.

Why Industrial Companies Are Investing in 3D Factory Plant Walkthrough?

Industrial companies are increasingly investing in 3D factory plant walkthroughs to enhance visualization, planning, training, and marketing. These immersive animations provide a realistic digital representation of factory layouts, machinery, and workflows, helping businesses streamline operations, improve safety training, and optimize plant designs before physical implementation.

Additionally, they serve as powerful marketing tools, showcasing state-of-the-art infrastructure and automation systems to attract clients and business partners.

CONTACT NOW

Adoption of Product Lifecycle Management (PLM) Solutions: Market Insights, Industry Impact

The global product lifecycle management market size is expected to reach USD 54.36 billion by 2030, expanding at a CAGR of 9.2% from 2023 to 2030, according to a new report by Grand View Research, Inc. Product lifecycle management is gradually advancing and witnessing continuous developments in the form of improved software capabilities. In addition to this, the demand for robust data analytics software platforms is also increasing and has been augmented by the evolution of core technologies such as blockchain, artificial intelligence, machine learning. Furthermore, the emergence of smart products and factories by small-scale enterprises is expected to open new avenues for the market players. These smart products have complex functionalities in terms of connectivity, security compliances, and others. Hence, the increasing demand for connected devices is anticipated to drive the growth of the product lifecycle management market over the forecast period.

Product Lifecycle Management Market Report Highlights

The design and engineering PLM software is extensively used by the manufacturing sector to manage designing, development, and engineering processes for continuous industrial digitization. For instance, Dassault Systèmes use CATIA, an engineering and design leading software for product, which is used to design, simulate, analyze, and manufacture products in various industries including aerospace, automotive, consumer goods, and industrial machinery

The automotive & transportation segment dominated the market with the highest revenue share of 23.6% in 2022. The increasing use of digital manufacturing and the rising integration of IoT in producing autonomous cars is one of the key trends expected to drive the automotive and transportation market during the forecast period

North America dominated the market with the largest revenue share of 35.4% in 2022, the region is continue dominating the market over the forecast period in line with the aggressive adoption of next-generation technologies, such as IoT, additive manufacturing, augmented reality, and telecommunications technologies, such as LTE and 5G

For More Details or Sample Copy please visit link @: Product Lifecycle Management Market Report

Over the past few years, the product lifecycle management market has been witnessing several new developments, particularly in the end-use sectors to increase transparency in supply chain & manufacturing processes. Product lifecycle management software has the potential to offer improved supply chain accuracy, lower lead times, and increase sales. For instance, in June 2021, Accenture, an Ireland-based company that provided professional services, acquired DI Square, a Japan-based IT company specialized in data analytics software, for firm’s consulting for product lifecycle management (PLM) and application lifecycle management (ALM) systems integration. This acquisition of DI Square will increase Accenture’s engineering expertise for the automotive and other manufacturing clients in Japan and other markets.

The growing need for the latest IT technologies, such as cloud computing, Artificial Intelligence (AI), big data, and communication technologies, such as 5G, is expected to open new opportunities for the adoption of product lifecycle management solutions in various end-use industries. Several large enterprises are already pursuing a cloud-first strategy for deploying their enterprise software and other systems. It has led to the amalgamation of interconnected devices, robots, and a quick knowledge network within a factory environment. Moreover, the PLM cloud deployments are mostly focused on non-conventional industries and small and medium enterprises. It allows the manufacturers to consolidate information about product development, streamline or change orders and requests, and improve communication with the suppliers. In addition to this, the increasing specialization in customer experience, rapid implementation times, and deeper integration capabilities are propelling the growth of the market over the forecast period.

List of Key Players in the Product Lifecycle Management Market

ANSYS, Inc

Aras

PTC Inc

Seimens

Oracle

SAP

Autodesk Inc.

Dassault Systèmes

Synopsys, Inc.

PTC

We have segmented the global product lifecycle management market based on component, deployment, end-use, and region.

"Digital Twins for Smart Factories: A $23.5 Billion Industry in the Making by 2034 🚀"

Digital Twins for Smart Factories market is transforming the manufacturing industry by adopting virtual replicas of physical assets and processes. By integrating advanced technologies like IoT, AI, and machine learning, these digital twins enhance operational efficiency, predictive maintenance, and decision-making. They enable real-time monitoring, simulation, and optimization, driving innovation and competitiveness in the industrial sector.

To Request Sample Report: https://www.globalinsightservices.com/request-sample/?id=GIS10932 &utm_source=SnehaPatil&utm_medium=Article

This market is experiencing rapid growth, fueled by the rise of Industry 4.0 technologies. The Manufacturing Execution System (MES) sub-segment leads, optimizing production processes and improving operational efficiency. Predictive maintenance is another key area, helping reduce downtime and maintenance costs.

Regionally, North America dominates the market with its advanced technological infrastructure and strong investments in digital transformation. Europe follows, with government policies promoting smart manufacturing. The U.S. and Germany are at the forefront, leveraging their industrial bases and engineering expertise to push digital twin adoption.

Market Segmentation:

Type: Product, Process, System Digital Twin

Products: Simulation Software, Digital Twin Platforms, Integrated Solutions

Services: Consulting, Implementation, Support, Maintenance

Technology: IoT, AI, Machine Learning, Blockchain, Cloud Computing, 5G, AR/VR

Components: Sensors, Connectivity Solutions, Data Management

Applications: Predictive Maintenance, Performance Monitoring, Asset Management

Processes: Discrete, Continuous, Batch Manufacturing

Deployment: On-Premises, Cloud-Based, Hybrid

End Users: Automotive, Aerospace, Healthcare, Electronics, Energy, Food, Chemicals

In 2023, the market reached approximately 600 million units. Discrete manufacturing led with 45% market share, followed by process and hybrid manufacturing. Key players like Siemens AG, General Electric, and IBM Corporation drive the market, with advancements in IoT and AI expected to propel a 15% CAGR by 2033.

#DigitalTwins #SmartFactories #IoT #AI #Industry40 #ManufacturingInnovation #PredictiveMaintenance #MES #TechIntegration #IndustrialEfficiency #SmartManufacturing #TechTrends #DigitalTransformation #RealTimeMonitoring #SimulationTech #CloudComputing #BigData #ARVR #5GTechnology #FutureFactorie

Metaverse Market by Region: Segmentation, Opportunities, and Regional Insights

The global metaverse market size was valued at USD 82.02 billion in 2023, with a projected growth at a compound annual growth rate (CAGR) of 43.9% from 2024 to 2030. The integration of spatial technologies allows users to interact with digital content as if it exists in their physical surroundings, creating a seamless blend between virtual and real-world experiences. Companies are adopting this technology to develop immersive products and services that elevate user interaction, bridging the digital and physical worlds, and sparking innovation across industries. For example, in January 2024, Unity Technologies, a U.S.-based software company, partnered with Apple Inc. to advance spatial experiences, including augmented reality (AR) and spatial computing. This partnership aims to empower developers to create interactive digital content that merges with physical environments, enriching user experiences and pushing forward the development of the metaverse.

Innovations in augmented reality (AR), virtual reality (VR), mixed reality (MR), and 3D visualization are key drivers of market expansion, enhancing immersive experiences for businesses. These technologies enable improved visualization, simulation, and prototyping across sectors. Additionally, the focus on digital twins and smart factories further enhances their potential. Rising investments and strategic partnerships underscore market growth, highlighting increased support and interest. Emphasis on delivering improved customer experiences is driving both adoption and innovation. Integrating AR, VR, MR, and 3D visualization helps industries simplify processes and reduce costs. Businesses leverage these tools for training, remote collaboration, and product design, resulting in higher efficiency and productivity. Moreover, the demand for immersive experiences in sectors like entertainment, gaming, and education continues to fuel market growth.

Gather more insights about the market drivers, restrains and growth of the Metaverse Market

Regional Insights

North America:

North America led the metaverse market, accounting for 43.7% of the share in 2023. North American consumers are early adopters of cutting-edge technologies, frequently investing in VR headsets, metaverse-compatible gaming consoles, and high-speed internet needed for smooth metaverse experiences. This trend establishes a strong foundation for metaverse-related products and services in the region. The gaming industry, fueled by North America’s well-established gaming culture, is expected to be a major driver of the metaverse, with platforms like Roblox and Fortnite, developed by companies such as Roblox Corporation and Epic Games, actively incorporating metaverse elements. Their established user bases align well with the evolving metaverse landscape, favoring early adoption within the business environment.

United States:

The metaverse market in the United States is projected to grow significantly from 2024 to 2030. Growth factors include the increasing accessibility and affordability of VR and AR technologies, along with growing interest from consumers and businesses in digital experiences.

Europe:

European businesses across diverse industries, such as gaming, retail, real estate, and education, are exploring metaverse applications for marketing, customer engagement, training, and virtual collaboration. This corporate adoption is a significant driver of the demand for metaverse solutions and services across the region.

United Kingdom:

The UK’s metaverse market sees gaming as the primary driver of adoption, supported by the country's strong gaming culture and a large community of avid gamers accustomed to immersive digital experiences.

Germany:

Germany holds a substantial share of the metaverse market in Europe. The country’s growth in this space is driven by an awareness of the transformative potential of virtual environments to improve productivity in sectors like manufacturing, engineering, and retail. By utilizing the immersive aspects of the metaverse, German businesses are optimizing processes, fostering collaboration, and enhancing supply chain management.

Asia Pacific:

The Asia Pacific region is expected to register the fastest CAGR from 2024 to 2030. Significant investments in technological infrastructure and innovation, such as smart cities, digital economies, and 5G networks, are propelling the development of advanced digital ecosystems. These investments create an environment conducive to metaverse growth by facilitating connectivity, immersive experiences, and broad access to virtual spaces. With a massive and rapidly growing digital population, millions of users in Asia Pacific are adopting technology and digital experiences, laying fertile ground for the metaverse’s adoption and expansion, especially in gaming, social media, and digital entertainment.

China:

China’s metaverse market is expected to experience considerable growth over the forecast period. The country’s vast and digitally engaged population supports the optimal environment for adopting and expanding metaverse applications and services.

India:

India's metaverse market is set to grow significantly from 2024 to 2030, driven by rising internet penetration and smartphone usage, which provide a substantial user base for metaverse applications. Advancements in VR and AR are making metaverse experiences more accessible and appealing to Indian consumers.

Middle East & Africa (MEA):

In the MEA region, virtual events have gained momentum as organizations and individuals seek innovative ways to connect and engage. These events span areas like conferences, concerts, exhibitions, and social gatherings and are powered by metaverse applications that offer immersive, interactive experiences. The e-commerce and retail sectors in MEA are also incorporating metaverse elements to enhance customer experiences and drive sales.

Browse through Grand View Research's Category Next Generation Technologies Industry Research Reports.

The global generative AI market sizewas valued at USD 16.87 billion in 2024 and is projected to grow at a CAGR of 37.6% from 2025 to 2030.

The global voice communication control system market sizewas estimated at USD 4.26 billion in 2024 and is projected to grow at a CAGR of 6.9% from 2025 to 2030. 

Key Companies & Market Share Insights

Leading companies have employed strategies such as product launches and development initiatives, along with expansions, mergers, acquisitions, contracts, agreements, partnerships, and collaborations, as central tactics to grow their market share. These approaches enable firms to deepen market penetration and strengthen their competitive position. For example, in February 2024, The Walt Disney Company, a prominent American media conglomerate, partnered with Epic Games Inc., investing $1.5 billion to gain a substantial ownership stake in the company. This strategic partnership is aimed at building a vast games and entertainment universe connected to Fortnite, where Disney plans to incorporate its iconic stories and characters. Leveraging Unreal Engine, this collaboration seeks to deliver an immersive metaverse experience for both players and fans, blending Disney’s storytelling heritage with Epic Games’ cutting-edge virtual platform.

 

Key Metaverse Companies:

The following are the leading companies in the metaverse market. These companies collectively hold the largest market share and dictate industry trends.

Active Theory

Antiersolutions.

ByteDance Ltd.

Decentraland

Epic Games, Inc.

Lilith Games

Meta

Microsoft

NetEase, Inc.

Nextech AR Solutions Inc.

NVIDIA Corporation

Roblox Corporation

Tencent Holdings Ltd.

The Sandbox

Unity Technologies

Order a free sample PDF of the Market Intelligence Study, published by Grand View Research.

Computer Aided Engineering Market 2024 : Size, Growth Rate, Business Module, Product Scope, Regional Analysis And Expansions 2033

The computer aided engineering global market report 2024 from The Business Research Company provides comprehensive market statistics, including global market size, regional shares, competitor market share, detailed segments, trends, and opportunities. This report offers an in-depth analysis of current and future industry scenarios, delivering a complete perspective for thriving in the industrial automation software market.

Computer Aided Engineering Market, 2024 report by The Business Research Company offers comprehensive insights into the current state of the market and highlights future growth opportunities.

Market Size - The computer aided engineering market size has grown strongly in recent years. It will grow from $8.97 billion in 2023 to $9.87 billion in 2024 at a compound annual growth rate (CAGR) of 10.0%.The growth in the historic period can be attributed to advancements in computational power, globalization of engineering work, increasing complexity in product design, simulation-driven design, cost and time savings, regulatory compliance requirements, automotive crash testing simulation.

The computer aided engineering market size is expected to see strong growth in the next few years. It will grow to $14.1 billion in 2028 at a compound annual growth rate (CAGR) of 9.3%.The growth in the forecast period can be attributed to rise of industry 4.0 and smart manufacturing, increased complexity in electronics design, focus on sustainability and environmental impact, enhanced human-machine interaction simulations, digitalization of construction and infrastructure, increased use in consumer electronics. Major trends in the forecast period include increased integration of multiphysics simulations, advancements in high-performance computing (hpc), growing adoption of cloud-based cae, focus on user-friendly interfaces and workflows, increased use of generative design, use of virtual prototyping for system-level simulation.

Order your report now for swift delivery @ https://www.thebusinessresearchcompany.com/report/computer-aided-engineering-global-market-report

The Business Research Company's reports encompass a wide range of information, including:

1. Market Size (Historic and Forecast): Analysis of the market's historical performance and projections for future growth.

2. Drivers: Examination of the key factors propelling market growth.

3. Trends: Identification of emerging trends and patterns shaping the market landscape.

4. Key Segments: Breakdown of the market into its primary segments and their respective performance.

5. Focus Regions and Geographies: Insight into the most critical regions and geographical areas influencing the market.

6. Macro Economic Factors: Assessment of broader economic elements impacting the market.

Market Drivers - Increasing automation in the manufacturing sector is expected to propel the growth of the computer-aided engineering market going forward. Automation refers to the development and deployment of technologies for the production and delivery of products and services with little or no human participation. Automation technologies such as computer-aided drafting and computer-assisted N/C tape preparation are now available and widely used in the manufacturing sector to help reverse the troubling trend of declining productivity. For instance, in September 2023, according to the International Federation of Robotics (IFR), a Germany-based professional non-profit organization, the total number of service robots sold for professional use hit 158,000 units in 2022—an increase of 48%. It is recorded that 553,052 industrial robot installations are in factories around the world—a growth rate of 5% in 2022, year-on-year. Therefore, increasing automation in the manufacturing sector is expected to drive the growth of the computer-aided engineering market.

Market Trends - Technological advancements are the key trend gaining popularity in the computer-aided engineering market. Major companies operating in computer-aided engineering are focused on developing new technological solutions to attain a competitive edge in the market. For instance, in June 2021, Siemens AG, a German-based industrial manufacturing company, launched Simcenter Femap, a sophisticated simulation application that allows users to create, update, and evaluate finite element models of complicated goods or systems. Simcenter Femap offers sophisticated data-driven and graphical result visualization and assessment when paired with the industry-leading Simcenter Nastran, resulting in a full computer-aided engineering solution that optimizes the product's performance. When paired with the industry-leading Simcenter Nastran, Simcenter Femap offers sophisticated data-driven and graphical results display and evaluation, resulting in a full CAE solution that enhances product performance.

The computer aided engineering market covered in this report is segmented –

1) By Type: Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), Multibody Dynamics, Optimization and Simulation 2) By Depolyment: On-Premise, Cloud-Based 3) By End-Use: Automotive, Defense and Aerospace, Electronics, Medical Devices, Industrial Equipment

Get an inside scoop of the computer aided engineering market, Request now for Sample Report @ https://www.thebusinessresearchcompany.com/sample.aspx?id=7941&type=smp

Regional Insights - Europe was the largest region in the computer-aided engineering market in 2023. The regions covered in the computer aided engineering market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa.

Key Companies - Major companies operating in the computer aided engineering market report are Altair Engineering Inc., Dassault Systèmes SE, ESI Group, Siemens AG, Hexagon AB, Seiko Epson Corporation, Exa Corporation, Bentley Systems Inc., Numeca International, Dell Inc., Aspen Technology Inc., Symscape Pty Ltd, Synopsys Inc., Aveva Group plc, Autodesk Inc., ANSYS Inc., PTC Inc., COMSOL Inc., MSC Software Corporation, Mentor Graphics Corporation, The MathWorks Inc., OpenText Corporation, Siemens Industry Software NV, CD-adapco, ETA Engineering Inc., Ricardo Software, ZWSOFT Co. Ltd., Zemax LLC, Flow Science Inc., GNS Systems GmbH, AVL List GmbH, EnginSoft S.p.A.

Table of Contents 1. Executive Summary 2. Computer Aided Engineering Market Report Structure 3. Computer Aided Engineering Market Trends And Strategies 4. Computer Aided Engineering Market – Macro Economic Scenario 5. Computer Aided Engineering Market Size And Growth ….. 27. Computer Aided Engineering Market Competitor Landscape And Company Profiles 28. Key Mergers And Acquisitions 29. Future Outlook and Potential Analysis 30. Appendix

Contact Us:

The Business Research Company

Europe: +44 207 1930 708

Asia: +91 88972 63534

Americas: +1 315 623 0293

Email: [email protected]

Follow Us On:

LinkedIn: https://in.linkedin.com/company/the-business-research-company

Twitter: https://twitter.com/tbrc_info

Facebook: https://www.facebook.com/TheBusinessResearchCompany

YouTube: https://www.youtube.com/channel/UC24_fI0rV8cR5DxlCpgmyFQ

Blog: https://blog.tbrc.info/

Healthcare Blog: https://healthcareresearchreports.com/

Global Market Model: https://www.thebusinessresearchcompany.com/global-market-model

Metaverse Market Share, Supply, Sales, Manufacturers, Competitor and Consumption 2024 to 2030

Metaverse Industry Overview

The global metaverse market size was estimated at USD 82.02 billion in 2023 and is projected to grow at a CAGR of 43.9% from 2024 to 2030.

The integration of spatial technologies enables users to engage with digital content as if it exists in their physical surroundings, blurring the boundary between virtual and real-world experiences. Companies are increasingly adopting this technology to create immersive products and services that enhance user interactions and bridge the gap between the digital and physical realms, driving innovation in various industries. For instance, in January 2024, Unity Technologies, an American software company collaborated with Apple Inc. to support spatial experiences, including augmented reality (AR) and spatial computing. This collaboration aims to support the development of spatial experiences, particularly within the realm of AR and spatial computing. This collaboration seeks to empower developers to create interactive digital content that seamlessly integrates with the physical world, thereby enhancing user experiences and advancing the evolution of the metaverse.

Gather more insights about the market drivers, restrains and growth of theMetaverse Market

Advancements in augmented reality (AR), virtual reality (VR), mixed reality (MR), and 3D visualization drive market growth, enhancing immersive experiences for businesses. These technologies facilitate improved visualization, simulation, and prototyping across industries. Moreover, the focus on digital twins and smart factories further leverages their capabilities. Rising investments and partnerships underscore the market's expansion, indicating increased interest and support. Moreover, the emphasis on delivering enhanced customer experiences drives adoption and innovation. Furthermore, the integration of AR, VR, MR, and 3D visualization technologies enables industries to simplify processes and reduce costs. Businesses utilize these tools for training, remote collaboration, and product design, improving efficiency and productivity. Additionally, the growing demand for immersive experiences in the entertainment, gaming, and education sectors further propels market growth.

Cryptocurrencies and Non-Fungible Tokens (NFTs) are exerting transformative influence over the market. Within virtual realms, cryptocurrencies redefine transactions through the establishment of a decentralized, borderless digital economy. They empower users to engage in seamless commerce, surpassing traditional payment systems and facilitating efficient transactions across the metaverse. Meanwhile, NFTs transform ownership by certifying the uniqueness and provenance of digital assets, spanning from artwork to virtual real estate. This introduces a new dimension of value and scarcity, propelling the creation of diverse digital creations and collectibles. These developments converge in a metaverse where ownership, commerce, and creativity intersect, fostering innovative and rewarding interactions and laying the foundation for a dynamic digital ecosystem.

Browse through Grand View Research's Next Generation Technologies Industry Research Reports.

The global digital twin market size was estimated at USD 16.75 billion in 2023 and is projected to grow at a compound annual growth rate (CAGR) of 35.7% from 2024 to 2030.

The global non-fungible token market size was estimated at USD 26.9 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 34.5% from 2024 to 2030.

Key Companies profiled:

Bentley Systems, Inc.

Dassault Systems SE

HTC Corporation

Magic Leap, Inc.

Microsoft Corporation

NVIDIA Corporation

PTC Inc

Siemens AG

Swanson Analysis Systems Inc.

Unity Software Inc.

Key Metaverse Company Insights

Prominent firms have used product launches and developments, followed by expansions, mergers and acquisitions, contracts, agreements, partnerships, and collaborations as their primary business strategy to increase their market share. The companies have used various techniques to enhance market penetration and boost their position in the competitive industry. For instance, in February 2024, The Walt Disney Company, an American multinational mass media company, collaborated with Epic Games Inc., with Disney investing $1.5 billion to secure a significant ownership interest in Epic Games. Disney plans to create an expansive games and entertainment universe connected to Fortnite.

Recent Developments

In March 2024, Cornerstone, a software company, acquired TALESPIN REALITY LABS, INC., a software company that develops and builds virtual, augmented, and mixed reality applications in the U.S.  This acquisition enables the integration of immersive learning experiences, utilizing spatial computing and GenAI, into its content subscriptions and learning solutions, providing personalized, contextually relevant training across various industries.

In March 2024, Meta, a U.S. technology company, partnered with NVIDIA Corporation to procure 350,000 H100 GPUs. The company intends to strengthen its infrastructure for the advancement of artificial general intelligence (AGI) and enhance support for various metaverse-related services and devices through AGI.

February 2024, Capgemini, a French IT company, and Unity have strengthened their partnership, with Capgemini overseeing Unity’s Digital Twin Professional Services arm, creating one of the largest groups of Unity developers worldwide. This collaboration speeds up the development of real-time 3D visualization software for the industrial use of digital twins, allowing users to interact with physical systems and advance intelligent industry solutions.

In January 2024, Ansys Inc., an American multinational company introduced Ansys SimAI, an AI-powered SaaS application to transform engineering workflows by combining simulation accuracy with generative AI speed. This launch aims to accelerate performance prediction, enabling rapid analysis and reducing time-to-market for product development.

Order a free sample PDF of the Metaverse Market Intelligence Study, published by Grand View Research.

Brazil Industry 4.0 Market - Forecast(2024 - 2030)

Brazil Industry 4.0 Market Overview

Brazil Industry 4.0 Market size is forecasted to reach $6230.29 million by 2027, growing at a CAGR of 10.91% during the forecast period from 2022-2027. Industry 4. has become vital for all organizations owing to paradigm shift towards real time or near real-time process monitoring in the industrial sector. The growing emphasis towards high-speed machine-to-machine (M2M) communication on the factory floor coupled with the increasing investment in plant digitalization is set to drive the Brazil Industry 4.0 Market growth during the forecast period. In addition to this, adoption of various advanced technologies including augmented reality, cloud computing, enterprise resource planning, internet of things, robotics and others; across industry verticals such as oil and gas, transportation, energy, mining, utilities and so on, is set to drive system integration service market growth. Increasing penetration of industry 4.0 across the globe combining artificial intelligence, big data and analytics, 4G, 5G with operational technology as a part of addressing worker safety, optimizing field operations, and boosting maintenance productivity along with process efficiency in industrial environments is considered vital in driving the growth of Brazil industry 4.0 industry.

Report Coverage

The report: “Brazil Industry 4.0 Market Report– Forecast (2022-2027)” by IndustryARC, covers an in-depth analysis of the following segments in the Brazil Industry 4.0 Market.

By Offerings: Hardware, Software and Services (System Integration Services, Testing & Certification, Maintenance and Operational Services, Consulting and Others).

By Technology: Artificial Intelligence, Machine-to-Machine, Big Data and Analytics, Augmented Reality & Virtual Reality, Autonomous Robots, SCADA, Simulation, Horizontal and vertical System Integration, Cloud Computing, Cyber Security, Internet of Things (IoT), Digital Twin, Advanced human-machine interfaces (HMI), Additive Manufacturing (3D Printing) and Others.

By End-User: General Manufacturing, Transportations & Logistics, Medical & Pharmaceutical, Metal & Mining, Oil & Gas (Upstream, Midstream and Downstream), Automotive & Tire, Aerospace & Defence, Food & Beverage, Electronics & Semiconductors, Power (Power Generation, Power Distribution and Power Transmission), Construction, Agriculture (Seeding and Weeding, Monitoring, Fertilizer Application, Harvesting, Pruning, and Others), Water & Wastewater Treatment, Paper & Pulp, Chemical and Others.

Request Sample

Key Takeaways

Big Data & Analytics held a significant market share in 2021 and is estimated to be the fastest segment during 2022-2027, owing to the shift of Brazil towards Industry 4.0, with industries such as oil, gas, minerals, and agriculture through the adoption of big data & analytics.

The market of Brazil Industry 4.0 is estimated to witness a significant upsurge during the forecast period, owing to the increasing adoption of advanced technologies such as predictive maintenance, data analytics, digital twins, artificial intelligence and others in the Oil & Gas sector.

This industry is consolidated with top market players including Iastech Automação De Sistemas Ltda, Simatec Tecnologia em Automacao Ltda, Techplus Automacao, Automind Automação, Greylogix Brasil among others.

Brazil Industry 4.0 Market Segment Analysis - by Offerings

Brazil's Industry 4.0 market is segmented into Hardware, Software and Services, based on offerings. According to the Brazil Industry 4.0 Market report of IndustyrARC, the Hardware segment held the major market share in 2021 of $1659.71 million and is estimated to reach $2978.08 million in 2027, with a CAGR of around 10.19% during the forecast period 2022-2027. The growth of this segment is mainly driven by the increasing adoption of industry 4.0 across industries and a growing inclination toward digitalization along with increasing investment. Furthermore, Industry standards that achieve higher levels of security to enable connected solutions in the factory are driving the need for hardware security. This is expected to boost market growth. The increasing popularity and high penetration rate among the end-user industries play a major role in offering incentives to the market players to take various strategic steps. For instance, in February 2021, ABB introduced the SWIFTI cobot, which combines a payload of 4 kg and a reach of up to 580 mm with the advantages of safe collaborative operation and convenience of use. This will offer up new opportunities for increased efficiency in a variety of sectors ranging from manufacturing to logistics and beyond, allowing more organizations to embrace automation. Such developments fuel the growth rate Brazil Industry 4.0 Market in the forecast period 2022-2027.

Inquiry Before Buying

Brazil Industry 4.0 Market Segment Analysis - by Technology

By Technology, the Brazil Industry 4.0 Market is segmented into Artificial Intelligence, Machine-to-Machine, Big Data and Analytics, Augmented Reality & Virtual Reality, Autonomous Robots, SCADA, Simulation, Horizontal and vertical System Integration, Cloud Computing, Cyber Security, Internet of Things (IoT), Digital Twin, Advanced human-machine interfaces (HMI), Additive Manufacturing (3D Printing) and Others. Big Data and Analytics segment held the major market share in 2021 of $474.28 million and is estimated to reach $834.86 million in 2027, with a CAGR of around 9.84% during the forecast period. Brazil is gradually moving toward Industry 4.0, with industries such as oil, gas, minerals, and agriculture expected to be early adopters of Big Data services. According to Software.org, 21 to 24 percent of Brazilian small and medium-sized businesses believe digitization will aid in the development of more personalized products and services. Such high penetration of advanced technologies and inclination towards digitalization will give incentives to the market players to take various steps to expand their business. Hence, the above-mentioned factors will drive the growth of this market during 2022-2027.

Brazil Industry 4.0 Market Segment Analysis – by End-user

Based on end-user, the market is segmented into General Manufacturing, Transportations & Logistics, Medical & Pharmaceutical, Metal & Mining, Oil & Gas, Automotive & Tire, Aerospace & Defence, Food & Beverage, Electronics & Semiconductors, Power, Construction, Agriculture, Water & Wastewater Treatment, Paper & Pulp, Chemical and Others. The metal and Mining segment held the major Brazil Industry 4.0 Market share in 2021 of $434.20 million and is estimated to reach $831.47 million in 2027, with a CAGR of around 11.40% during the forecast period. The value of digital technology in the mining industry is growing as companies look for ways to reduce geological uncertainty, market volatility, and operational hazards. Big data analytics and the internet of things (IoT) offer a unique opportunity to rethink existing processes and create new value. The metal and mining industry is now involved in connecting previously unconnected operational technology (OT), devices and systems, and information technology (IT) for data exchange and operational efficiency via IT/OT convergence, integrated sales and operational planning, agile supply chain, digital EHS monitoring, and performance parameters. According to the Ibram association, the mining industry in Brazil will invest $40.4 billion by 2026. This will help to improve the mining business in Brazil and, eventually, the Industry 4.0 market in Brazil. Such factors will drive the growth of this market.

Schedule a Call

Brazil Industry 4.0 Market Drivers

Increasing proliferation of technologies like predictive maintenance, data analytics, digital twins, artificial intelligence and others in Oil & Gas sector fuels the growth:

Over the last few years, the oil & gas sector is undergoing a transition as leading players in this industry are adopting advanced technology to reshape their operating landscape and reap the benefits of improved productivity, higher efficiency, and increased cost savings. In order to decarbonize and optimize operations, the Brazilian O&G industry has started to take advantage of advanced technologies including cloud services, digital twins Internet of things (IoT) and Artificial Intelligence (AI), among other digital services. Apart from that, the adoption of video surveillance complemented by advanced analytics and machine learning to improve operational efficiency as well as health and safety in the O&G sector can be considered vital in driving the Brazil Industry 4.0 Market growth forward. For instance, in November 2021, Brazil’s Petrobras, the leading oil, natural gas and derivatives exploration, production and distribution company, announced the plan of investing $68 Bn from 2022-2026 to boost oil production in the subsea pre-salt area by leveraging the advanced technologies to fulfill the demand of the customers. Such steps create a positive impact on the growth of this market.

The burgeoning demand for establishing a digital infrastructure in the mining sector is accelerating the growth of this market:

The Brazilian mining industry is opting for technological innovation to remain competitive while driving safety and transparency standards. Mining is of major importance to the Brazilian economy, having more than 3,000 mines spread across the national territory. The Brazilian mining industry is facing significant challenges due to plummeting commodity prices, lessening global demand and increasing safety and security risks. To reduce the effect of such challenges, miners need to improve safety, scale operations, improve operational processes, and enhance production, thereby driving the need for new business models and operating models. Leading mining companies in Brazil are harnessing the high computing power of digital technologies, including cloud-enabled mobility, big data-powered analytics and the industrial Internet of Things (IoT). This in turn drives the growth of this market. Furthermore, the increasing usage of robotics and penetration of automation with assisted and remote-control equipment and autonomous drilling and related process in the mining industry, to deliver safer and more effective mining performance, is fueling the growth of this market. In June 2021, Japan’s ITOCHU Corporation announced signing an MoU with the Brazilian CSN Group with the aim of promoting decarbonization and digital transformation (DX) for Casa de Pedra iron ore mines in Brazil. Such events trigger the growth of this market.

Buy Now

Brazil Industry 4.0 Market Challenge

The lack of investments in digital infrastructure in Brazil is creating hurdles for the market growth

Even though the Brazil Industry 4.0 Market is growing rapidly, but the lack of investment for developing digital infrastructure in Brazil creates challenges for the growth of this market. The implementation of Industry 4.0 in Brazil is still a challenge owing to the lack of investment in IT infrastructure in the country. IT readiness and appropriate telecommunications infrastructure are necessary for Industry 4.0 to thrive across Brazil. The research conducted by CNI shows that the alarming point is that only 33% of companies in Brazil claim that no new investment is needed. Another survey report of CNI states that innovation benefits the production chain and the country, demonstrating impacting results for the companies involved and for the country's economy, but the reality in Brazil is approximately half of the companies are still considered industry 2.0. To shift it from industry 2.0 to industry 4.0, a huge amount of investment is required. Hence, the lack of investment creates challenges for this market.

Brazil Industry 4.0 Industry Outlook

Technology launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the Brazil Industry 4.0 Market. In 2021, the market of Brazil Industry 4.0 industry outlook has been fragmented by several companies. The top 10 companies in the Brazil Industry 4.0 include

Iastech Automacao De Sistemas Ltda

Simatec Tecnologia em Automacao Ltda

Techplus Automacao

Automind Automacao

Greylogix Brasil

Icone Tecnologia e Automacao

Automaton Automacao

Company 8

Company 9

Company 10

Recent Developments

In June 2021, Schneider Electric, a global leader in digital transformation and energy management and automation, inaugurated a new industrial automation laboratory in Brooklyn, south of São Paulo which was made in partnership with Westcon Instrumentation Industrial to simulate the industrial internet of things (IIoT) and industry 4.0 applications with augmented reality demonstrations.

In May 2020, Siemens announced its partnership with GreyLogix to produce respirators in-house for use in healthcare facilities in Brazil to help fight the coronavirus. The equipment featured Siemens solutions, with emphasis on the controllers and HMIs of the SIMATIC line and the power supplies of the SITOP line, and at the same time, GreyLogix ensured that the equipment produced followed the necessary medical requirements.

In March 2020, Schneider Electric announced to invest in the Titled High-Performance Machine journey based on Industry 4.0, by providing a series of training and workshops to support machine manufacturers and end users who want to improve performance and productivity and reduce costs in production processes in Brazil.

Product Lifecycle Management (PLM) Market Size, Revenue, Segments, Expansion, Demand, and Opportunities During 2022-2031

During the forecast period of 2022-2031, the global product lifecycle management (PLM) market is expected to reach an estimated value of ~USD 65.0 billion by 2031, by expanding at a CAGR of ~9%. The market further generated a revenue of ~USD 50.0 billion in the year 2022. Major key factors propelling the growth of product lifecycle management (PLM) market worldwide are the higher adoption of the integrated internet of things, and growing internet penetration across the globe.

Market Definition of Product Lifecycle Management (PLM)

Product lifecycle management (PLM) refers to an information system used to manage and optimize products as they progress through development, growth, maturity, and decline stages. The term "product lifetime" describes each stage a product experiences, from conception through retirement. Ideation, design, prototyping, manufacturing, service, and end-of-life management are all included in this. Additionally, PLM software is a solution that controls all the data and procedures throughout the whole lifespan of a good or service in a network of global supply chains. Data from things, parts, products, documentation, specifications, engineering change orders, and quality procedures is included.

Global Product Lifecycle Management (PLM) Market: Growth Drivers

The growth of the global product lifecycle management (PLM) market can majorly be attributed to the increasing IT services spending followed by the surge in the number of IT organizations. For instance, the total IT spending has increased to USD 4.5 trillion in the year 2022 from approximately USD 4 trillion in the year 2021. On the other hand, the rising growth of smart factories and products that need solutions for the complexity faced in terms of security compliances, connectivity, and others is further projected to drive the growth of the market. More than 60 percent of the manufacturers around the globe have an ongoing smart factory initiative or are working on formulating it.

The global product lifecycle management (PLM) market is also estimated to grow majorly on account of the following:

· Skyrocketing IT spending over enterprise software across the globe

· Spike in the number of connected devices to the internet

· Surging demand for product lifecycle management solutions

· Significant growth in the number of data centers worldwide

Global Product Lifecycle Management (PLM) Market: Restraining Factor

There is a requirement for a higher initial investment, and the possibility of a data breach in the market. Hence, these factors are expected to be the major hindrance to the growth of the global product lifecycle management (PLM) market during the forecast period.

By End-User (Aerospace & Defense, Energy & Utilities, Pharmaceutical, and Others)

The energy & utilities segment, amongst all the other segments, is anticipated to garner the largest revenue by the end of 2035. The growth of the segment can be attributed to the constant development in the energy & utility industries across the globe. Additionally, there have been increasing installations of solar panels, wind turbines, and others that are anticipated to further surge the segment’s growth. Furthermore, as of 2021, the electric generated in the USA were more than 4,000 terawatt hours.

· By Services (Consulting, Integration, Maintenance, and Operation)

· By Deployment (On-Premise, and Cloud)

· By Type (Architecture & Engineering, Electronic Design & Automation, Simulation & Analysis, Numerical Control, and Construction)

· By Region

The North America product lifecycle management (PLM) market is anticipated to hold the largest market share by the end of 2035 among the market in all the other regions. Increasing investment in advanced solutions such as connected devices, augmented reality, IOT, & others, and rising demand for product lifecycle management in the aerospace & defense industries in the region are some of the major factors anticipated to drive the growth of the market in North America during the forecast period. For instance, the United States became the highest aerospace exporter in 2021. The aerospace contribution in exports in the USA was valued at approximately USD 80 billion.

The market research report on global product lifecycle management (PLM) also includes the market size, market revenue, Y-o-Y growth, and key player analysis applicable for the market in North America (U.S., and Canada), Latin America (Brazil, Mexico, Argentina, Rest of Latin America), Asia-Pacific (China, India, Japan, South Korea, Singapore, Indonesia, Malaysia, Australia, New Zealand, Rest of Asia-Pacific), Europe (U.K., Germany, France, Italy, Spain, Hungary, Belgium, Netherlands & Luxembourg, NORDIC (Finland, Sweden, Norway, Denmark), Ireland, Switzerland, Austria, Poland, Turkey, Russia, Rest of Europe), and Middle East and Africa (Israel, GCC (Saudi Arabia, UAE, Bahrain, Kuwait, Qatar, Oman), North Africa, South Africa, Rest of Middle East and Africa).

Key Market Players Featured in the Global Product Lifecycle Management (PLM) Market

Some of the key players of the global product lifecycle management (PLM) market are Autodesk Inc., Inflectra Corporation, Oracle Corporation, BAMBOO ROSE LLC, Propel Industries Pvt. Ltd., SAP SE, Ansys, Inc., The Hewlett-Packard Company, and others.

Global Robotics Software Market is expected to reach approximately US$ 15 billion by 2028 – Ken Research

What is the Size of Global Robotics SOFTWARE INDUSTRY?

Global Robotics Software market is growing at a CAGR of ~% in 2017-2022 and is expected to reach ~USD Bn by 2028F.

The Robotics Software Market is largely driven by the investment in various countries by the governments and the high adoption of Robotics Software in various end-user industries Developed markets such as European regions and developing markets such as the Asia-Pacific region are witnessing huge investments by start-ups, and existing large players and governments which are driving the market growth.

Concerns about data privacy and malware attacks along with the high costs associated with the implementation of industrial robots and robotics software are factors that act as constraints for market growth. Increasing cyber-attacks and robot crimes are major hindrances to the market’s growth. These factors are still a major concern for some end-user industries which are worried by data theft and hence they are taking a cautious approach when it comes to the adoption of robotic software.

The COVID-19 outbreak had a positive impact on the demand for Robotics Software as various companies installed robots to disinfect factory areas as well as it helped them to deliver food to their customers without risking any health-related issues during the pandemic for their employees.

For more information, Request a Free Sample Report

GLOBAL ROBOTICS SOFTWARE MARKET BY SOFTWARE TYPE

The Global Robotics Software market is segmented by Software type into Recognition Software, Simulation Software, Predictive Maintenance Software, Data Management and Analysis Software and Communication Management Software. The Recognition Software segment held the largest market share in the Global Robotics Software Market in 2022. The recognition software in the robots enables them with cognitive ability. This software is integrated behind the robots and helps them to identify an object and give its response accordingly.

GLOBAL ROBOTICS SOFTWARE MARKET BY ROBOT TYPE

The Global Robotics Software Market is segmented by Robot type into Industrial Robots and Service Robots. The Industrial Robots segment held the larger share of the Global Robotics Software Market in 2022. The significant growth in demand for industrial robots can be attributed to the fact that they can perform dangerous tasks repeatedly with more accuracy than human beings and have a longer life span to perform such tasks. These robots also help companies in achieving higher operational efficiency and lowering labor costs which are encouraging more and more organizations to install these robots.

Visit A link Request for Custom Report

GLOBAL ROBOTICS SOFTWARE MARKET BY DEPLOYMENT MODE

The Global Robotics Software market is segmented by deployment mode into On-Premise and On-Demand. The On-Demand segment held the larger share of the Global Robotics Software Market in 2022. The on-demand deployment mode or the cloud-based deployment mode is more adopted because it is a cost-effective method by which the companies are able to save a lot of costs related to data, personnel, software, hardware, and maintenance.

GLOBAL ROBOTICS SOFTWARE MARKET BY ENTERPRISE SIZE

The Global Robotics Software market is segmented by enterprise size into Small & Medium Enterprises and Large Enterprises. The Large Enterprises segment held the larger share of the Global Robotics Software Market in 2022. The covid-19 pandemic made a lot of large enterprises make changes in their manufacturing facilities and deployed automated robots to mitigate any such risks in the future. Also, as the investment costs are a bit high so large enterprises have been quicker to adapt to such models faster than their small and medium enterprise counterparts.

GLOBAL ROBOTICS SOFTWARE MARKET BY END-USER

The Global Robotics Software market is segmented by End-User into Automotive, Retail and E-commerce, Government and Defense, Healthcare, Transportation and Logistics, Manufacturing, IT and Telecommunications and Others.

Key Topics Covered in the Report

Snapshot of the Global Robotics Software Market

Industry Value Chain and Ecosystem Analysis

Market size and Segmentation of the Global Robotics Software Market

Historic Growth of the Overall Global Robotics Software Market and Segments

Competition Scenario of the Market and Key Developments of Competitors

Porter’s 5 Forces Analysis of the Global Robotics Software Market

Overview, Product Offerings, and SWOT Analysis of Key Competitors

COVID-19 Impact on the Overall Global Robotics Software Market

Future Market Forecast and Growth Rates of the Total Global Robotics Software Market and by Segments

Market Size of Fiber Type / End User Segments with Historical CAGR and Future Forecasts

Analysis of the Robotics Software Market in Major Regions

Major Production / Consumption Hubs in the Major Regions

Major Country-wise Historic and Future Market Growth Rates of the Total Market and Segments

Overview of Notable Emerging Competitor Companies within Each Major Region

Major Players Mentioned in the report

ABB Ltd.

Clearpath Robotics

NVIDIA Corporation

CloudMinds Technology, Inc.

Liquid Robotics, Inc.

Brain Corporation

AIBrain, Inc.

Furhat Corporation

Neurala, Inc.

IBM Corporation

Notable Emerging Companies Mentioned in the Report

Realtime Robotics, Inc.

HAL Robotics

Vyorius

Quale Infotech

Anscer Robotics

Key Target Audience – Organizations and Entities Who Can Benefit by Subscribing This Report

Robot Manufacturers

Robotics Software Developers

Software and Application Developers for Robotics Industry

Third-party Service and Maintenance Providers

Investors and Venture Capitalists in the Robot and Robotic Software Industry

Market Research & Consulting Firms

Start-ups & Incumbents in Robotics Industry

Company Research and Development Institutes

Government & Regulatory Authorities

Commercial and Industrial Robots Manufacturers

Commercial and Industrial Robots Product Assemblers

Commercial and Industrial Robots Component suppliers

Raw Material Suppliers for Commercial and Industrial Robots

Potential Investors in Commercial and Industrial Robots Companies

Value Added Resellers of Robots

Industrial OEMs of Commercial and Industrial Robots

Industrial Automation Solutions Providers

Robotics Industry Associations

Robotics Research Groups

Government Ministries of Electronics

Government Ministries of Heavy Industries

Regulatory Organizations for Robots

Time Period Captured in the Report

Historical Period: 2017-2021

Forecast Period: 2022E-2028F

For more insights on market intelligence, refer to the link below: –

Global Robotics Software Market Outlook

Related Reports by Ken Research:-

Mexico E-commerce Market Outlook to 2027F

Kenya Data Center Market Outlook to 2027F

India Semiconductor Market Outlook to 2027

Friday, April 9, 2021

The $50 billion race to save America’s renters from eviction (Washington Post) The Biden administration again extended a federal moratorium on evictions last week, but conflicting court rulings on whether the ban is legal, plus the difficulty of rolling out nearly $50 billion in federal aid, means the country’s reckoning with its eviction crisis may come sooner than expected. The year-old federal moratorium—which has now been extended through June 30—has probably kept hundreds of thousands or millions of people from being evicted from their apartments and homes. More than 10 million Americans are behind on rent, according to Moody’s, easily topping the 7 million who lost their homes to foreclosure in the 2008 housing bust. Despite the unprecedented federal effort to protect tenants, landlords have been chipping away at the moratorium in court. Treasury Department officials have been armed with nearly $50 billion in emergency aid for renters who have fallen behind, and are racing to distribute it through hundreds of state, local and tribal housing agencies, some of which have not created programs yet. The idea is to get the money to renters before courts nationwide begin processing evictions again.

A court filing says parents of 445 separated migrant children still have not been found. (NYT) The parents of 61 migrant children who were separated from their families at the U.S.-Mexico border by the Trump administration have been located since February, but lawyers still cannot find the parents of 445 children, according to a court filing on Wednesday. In the filing, the Justice Department and the American Civil Liberties Union indicated slow progress in the ongoing effort to reunite families that were affected by a policy to prosecute all undocumented immigrants in the United States, even if it meant separating children from their parents. Of the 445 remaining children, a majority are believed to have parents who were deported, while more than 100 children are believed to have parents currently in the United States, according to the court filing. The government has yet to provide contact information that would help locate the families of more than a dozen children.

N Ireland leaders call for calm after night of rioting (AP) Rioters set a hijacked bus on fire and hurled gasoline bombs at police in Belfast in at least the fourth night of serious violence in a week in Northern Ireland, where Brexit has unsettled an uneasy political balance. Youths threw projectiles and petrol bombs at police on Wednesday night in the Protestant Shankill Road area, while rioters lobbed bricks, fireworks and petrol bombs in both directions over the concrete “peace wall” separating the Shankill Road from a neighboring Irish nationalist area. Police Service of Northern Ireland Assistant Chief Constable Jonathan Roberts said several hundred people gathered on both sides of a gate in the wall, where “crowds ... were committing serious criminal offenses, both attacking police and attacking each other.��� He said a total of 55 police officers have been injured over several nights of disorder. The recent violence, largely in pro-British loyalist areas, has flared amid rising tensions over post-Brexit trade rules for Northern Ireland and worsening relations between the parties in the Protestant-Catholic power-sharing Belfast government.

Biden seems ready to extend US troop presence in Afghanistan (AP) Without coming right out and saying it, President Joe Biden seems ready to let lapse a May 1 deadline for completing a withdrawal of U.S. troops from Afghanistan. Orderly withdrawals take time, and Biden is running out of it. Biden has inched so close to the deadline that his indecision amounts almost to a decision to put off, at least for a number of months, a pullout of the remaining 2,500 troops and continue supporting the Afghan military at the risk of a Taliban backlash. Removing all of the troops and their equipment in the next three weeks—along with coalition partners who can’t get out on their own—would be difficult logistically, as Biden himself suggested in late March. “It’s going to be hard to meet the May 1 deadline,” he said. “Just in terms of tactical reasons, it’s hard to get those troops out.” Tellingly, he added, “And if we leave, we’re going to do so in a safe and orderly way.”

One in six Latin American youths left work since pandemic’s start (Reuters) Across Latin America and the Caribbean, one in every six people aged 18 to 29 has left work since the coronavirus pandemic began, forcing many to abandon their studies, a report said on Thursday. The precariousness of employment for young people rose across the region, according to an investigation by Canadian charity Cuso International based on data from a U.N. commission and a poll by the International Labour Organization. “It’s extremely difficult for young people to access the labor market due to issues around specialization, lower wages, and poverty,” the advocacy group’s Colombia director Alejandro Matos told Reuters. More than half of those who stopped working since the start of the pandemic were let go by their employers, the report said, while others saw their businesses close and those employed in the informal sector could not work due to lockdowns.

Myanmar ambassador in London locked out of embassy after speaking out against military (Washington Post) Myanmar’s ambassador to Britain, who has spoken out again the military coup in his country, said he was barred from the embassy in London on Wednesday by officials loyal to the military junta. “They are refusing to let me inside,” Kyaw Zwar Minn told the Telegraph. “They said they received instruction from the capital, so they are not going to let me in.” Kyaw Zwar Minn told the British newspaper that when he left the embassy during the day, colleagues and officials linked to the military stormed the premises and kept him from reentering that evening. In early March, the ambassador, a former military colonel, spoke out against the military’s detention of the former British colony’s leader Aung San Suu Kyi, drawing criticism from the junta that had orchestrated her ouster and praise from the British government for his “courage.” The London-based ambassador was recalled, according to Myanmar state television, after he posted a statement on the embassy’s Facebook page demanding “the release of State Counsellor Daw Aung San Suu Kyi and President U Win Myint,” but he did not return to Myanmar.

Merkel tells Putin to pull back troops as Kremlin accuses Ukraine of provocations (Reuters) German Chancellor Angela Merkel told Russian President Vladimir Putin on Thursday to pull back the Kremlin’s military buildup near the border with Ukraine, while he in turn accused Kyiv of “provocative actions” in the conflict region. Ukraine has raised the alarm over an increase in Russian forces near its eastern border as violence has risen along the line of contact separating its troops from Russia-backed separatists in its Donbass region. Russia has said its forces pose no threat and were defensive, but that they would stay there as long as Moscow saw fit. A senior Kremlin official said on Thursday that Moscow could under certain circumstances be forced to defend its citizens in Donbass and that major hostilities could mark the beginning of the end of Ukraine as a country.

China builds advanced weapons systems using American chip technology (Washington Post) In a secretive military facility in southwest China, a supercomputer whirs away, simulating the heat and drag on hypersonic vehicles speeding through the atmosphere—missiles that could one day be aimed at a U.S. aircraft carrier or Taiwan, according to former U.S. officials and Western analysts. The computer is powered by tiny chips designed by a Chinese firm called Phytium Technology using American software and built in the world’s most advanced chip factory in Taiwan, which hums with American precision machinery, say the analysts. Phytium portrays itself as a commercial company aspiring to become a global chip giant like Intel. It does not publicize its connections to the research arms of the People’s Liberation Army. The hypersonic test facility is located at the China Aerodynamics Research and Development Center (CARDC), which also obscures its military connections though it is run by a PLA major general, according to public documents, and the former officials and analysts, many of whom spoke on the condition of anonymity to discuss a sensitive matter. Phytium’s partnership with CARDC offers a prime example of how China is quietly harnessing civilian technologies for strategic military purposes—with the help of American technology. The trade is not illegal but is a vital link in a global high-tech supply chain that is difficult to regulate because the same computer chips that could be used for a commercial data center can power a military supercomputer.

Indonesia landslides death toll rises to 140, dozens missing (AP) The death toll from mudslides in eastern Indonesia has risen to 140 with dozens still missing, officials said Wednesday, as rain continued to pound the region and hamper the search. East Flores district on Adonara island suffered the highest losses with 67 bodies recovered so far and six missing. Mud tumbled down from surrounding hills early on Sunday, catching people at sleep. Some were swept away by flash floods after overnight rains caused rivers to burst their banks. On nearby Lembata island, the downpour triggered by Tropical Cyclone Seroja sent solidified lava from a volcanic eruption in November to crash down on more than a dozen villages, killing at least 32 and leaving 35 unaccounted for, according to the National Disaster Mitigation Agency.

Reversing Trump, Biden Restores Aid to Palestinians (NYT) The Biden administration announced on Wednesday that it would restore hundreds of millions of dollars in American aid to Palestinians, its strongest move yet to reverse President Donald J. Trump’s policy on the protracted Israeli-Palestinian conflict. The package, which gives at least $235 million in assistance to Palestinians, will go to humanitarian, economic, development and security efforts in the region, and is part of the administration’s attempt to rehabilitate U.S. relations with Palestinians, which effectively stopped when Mr. Trump was in office. The restoration of aid amounted to the most direct repudiation so far of Mr. Trump’s tilt toward Israel in its decades-old conflict with the Palestinian population in Israeli-controlled territories.

Royal rift ends (NYT) Jordan’s King Abdullah II said on Wednesday that the “discord” that has roiled the kingdom for days has “been stopped,” signaling a resolution to a rare royal rift that resulted in the house arrest of Prince Hamzah bin Hussein, the former crown prince, and the detention of several Jordanian officials who were accused of plotting a foreign-backed coup against the monarchy.

Conflict and COVID driving record hunger in DR Congo, warns UN (Al Jazeera) A record 27.3 million people in the Democratic Republic of the Congo are facing acute hunger, one-third of the violence-wracked Central African country’s population, largely because of conflict and the economic effects of the COVID-19 pandemic, the United Nations has warned. The DRC is “home to the highest number of people in urgent need of food security assistance in the world,” the World Food Programme and the Food and Agriculture Organization said on Tuesday in a joint statement, describing the scale of the crisis as “staggering”. “For the first time ever we were able to analyse the vast majority of the population, and this has helped us to come closer to the true picture of the staggering scale of food insecurity in the DRC,” Peter Musoko, WFP’s representative in the country, said. “This country should be able to feed its population and export a surplus. We cannot have children going to bed hungry and families skipping meals for an entire day,” he said.

Beware The Carpet Cleaner (The Guardian) Parkinson’s disease is the fastest-growing neurological disorder in the world, and the US is experiencing an explosion of cases. In the last decade, the number of Parkinson’s cases in America has increased 35%, and a neurologist at the University of Rochester Medical Center thinks over the next 25 years it will double again. Most cases of the disease are considered idiopathic—without a clear cause. But researchers now believe one factor is environmental exposure to trichloroethylene (TCE), a chemical compound used in industrial degreasing, dry-cleaning, and household products like some shoe polishes and carpet cleaners. TCE is a carcinogen already linked to renal cell carcinoma, cancers of the cervix, liver, biliary passages, lymphatic system and male breast tissue, fetal cardiac defects, and more. Several studies point to a link between Parkinson’s and workplace exposure to TCE. The US Labor Department issued guidance on TCE saying exposures to carbon disulfide (CS2) and TCE are presumed to “cause, contribute or aggravate Parkinsonism.”

‘Tantalizing’ results of 2 experiments defy physics rulebook (AP) Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled. Tiny particles called muons aren’t quite doing what is expected of them in two different long-running experiments in the United States and Europe. The confounding results—if proven right—reveal major problems with the rulebook physicists use to describe and understand how the universe works at the subatomic level. “We think we might be swimming in a sea of background particles all the time that just haven’t been directly discovered,” Fermilab experiment co-chief scientist Chris Polly said in a press conference. “There might be monsters we haven’t yet imagined that are emerging from the vacuum interacting with our muons and this gives us a window into seeing them.” If confirmed, the U.S. results would be the biggest finding in the bizarre world of subatomic particles in nearly 10 years, since the discovery of the Higgs boson, often called the “God particle,” said Aida El-Khadra of the University of Illinois, who works on theoretical physics for the Fermilab experiment.

Unlikely chauffeur (Foreign Policy) Kevin Rudd is best known as a former Australian prime minister. Last Tuesday night in Queensland, he was mistaken for an Uber driver. The former Labor party leader became an unlikely chauffeur when a group of revelers—described as “tipsy” by Rudd’s daughter—piled into his car as he sought parking at a local restaurant. Rudd obliged the passengers, reportedly driving half the journey to the town’s main drag before being recognized by his would-be customers. “Four young Melburnians getting drenched in a Queensland subtropical downpour at Noosa last night with no Uber in sight … So what’s a man to do?” Rudd later wrote on Twitter.

The most complete component selection guide

Electronic components are the basic parts of an electronic system, and are basic units of circuits that can perform predetermined functions and cannot be divided. Due to the large number of electronic components and their variety, their performance, reliability and other parameters have a great impact on the technical performance, reliability, life cycle and other technical indicators of the entire electronic product. Therefore, the correct and effective selection and use of electronic components is an important task to improve the reliability level of electronic products. There are many website that you can learn a component's description, for example, IC Chip Word Home. The reliability of electronic components is divided into inherent reliability and use reliability. The inherent reliability is mainly guaranteed by design and manufacturing work. This is the task of component manufacturers. However, the failure analysis data at home and abroad shows that nearly half of the component failures are not due to the inherent reliability of the components, but due to the user's improper selection or incorrect use of components. Therefore, in order to ensure the reliability of electronic products, it is necessary to strictly control the selection and application of electronic components.

 1. The basic principles of component selection:

 a) Universality principle: If the selected components are widely used, they should use less cold gates and partial gate chips to reduce development risks.

 b) Cost-effective principle: In the case of similar functions, performance, and usage rates, try to select components with better price and reduce costs.

 c) Procurement convenience principle: Try to choose components that are easy to buy and have a short lead time.

 d) Sustainable development principles: Try to choose components that will not be discontinued for the foreseeable time.

 e) Alternative principle: try to choose more components with pin to pin compatible chip brands.

 f) Upward compatibility principle: Try to select the components used in previous old products.

 g) Resource saving principle: Try to use all the functions and pins of the components.

2. the whole process pays attention to chip attributes

a) When selecting a type, we need to consider the situation of trial production and also need to consider the situation during mass production.

The price, delivery cycle, and sample application for small-volume purchases; at the same time, attention should be paid to the price and lead time after mass shipments. It is possible that after the batch has become larger, there is no advantage in the price of the supply, or the capacity is insufficient after the batch is large.

In addition, according to your actual purchase situation, find the corresponding level of supplier. For example, the original factory often does not supply directly, and needs to pass the agent. Some agents' supply levels are required.

Previously, there was a selection, and NXP's  MC9S08DV16ACLC was chosen. The original factory is very helpful to apply for samples. However, the difficulties encountered in the procurement process, although we hope to purchase the whole disk, but because of the certain requirements of its agent shipments, the price is inconsistent with the price that was originally learned by the original factory. Be a lot higher.

At the same time, because the scene of the whole industry using the chip is not many, the price of Taobao is very expensive and cannot be accepted at all. At the same time, a friend who has done chip sales said that it was due to the heavy use of drone manufacturers, causing some people to speculate on the price of this chip, which made it difficult to buy.

b) Pay attention to the life cycle of the device itself and the product life cycle

For communication equipment, the devices we choose generally have a life cycle of more than 5 years, and there are follow-up complete product development roadmaps.

At the time of our new hardware platform, the product was planned to replace the mature platform with a shipment volume of one million boards. Because the switching period is relatively long. The new product will gradually increase after 1~2 years after the completion of development. One of the DSP boards, the peripheral storage is SDRAM. At the time of product preparation, several major memory chip manufacturers, such as Magnesium, announced that they would stop production. As a result of the product being just put on the volume, a large number of stock chips were hoarded, and a small factory in Taiwan was sought for device replacement.

Therefore, when the device is selected, it fully embodies that "people must have near-worry without long-term consideration."

c) In addition to considering the functional and laboratory environment, you also need to consider the entire life cycle scenario.

3. The specific selection, processor selection

 There are many factors to consider when choosing a processor. It is not just a pure hardware interface. It also needs to consider the relevant operating system, supporting development tools, emulators, and experience and software support of the engineer's microprocessor. .

 Embedded microprocessor selection considerations

 In product development, the microprocessor, as the core chip, has high expectations for its own functions, performance, and reliability. Because its resources are richer and its own functions are more powerful, the product development cycle is shorter, and the project success rate is The higher. However, any microprocessor can't be perfect to meet the needs of each user, so this involves the problem of selection.

 (1) Application field

Once the function and performance of a product are customized, the application area of ​​the product is also determined. The determination of the application field will narrow the scope of the selection. For example, the working conditions of the products in the industrial control field are usually harsh, so the operating temperature of the chip is usually wide temperature, so that the industrial grade chip is selected, and the civilian grade is selected. Excluded. At present, the more common application areas are classified into aerospace, communications, computers, industrial control, medical systems, consumer electronics, automotive electronics and so on.

(2) Bring your own resources

(3) Scalable resources

 The hardware platform must support OS, RAM and ROM, and the requirements for resources are relatively high. Chips generally have built-in RAM and ROM, but their capacity is generally small, built-in 512KB is very large, but running OS is generally more than mega-level. This requires a chip to expand the memory.

(4) Power consumption

 Just looking at "power consumption" is a more abstract term. Low-power products are energy-efficient and cost-effective, can even reduce environmental pollution, and increase reliability. It has so many advantages, so low power consumption has become an important indicator in chip selection.

 (5) Packaging

 Common microprocessor chip packages mainly include QFP and BGA. BGA type package soldering is troublesome, and ordinary small companies will not solder, but the chip size of BGA package will be much smaller. If the product does not require strict chip size, it is best to choose QFP package when selecting.

 (6) The continuity of the chip and the inheritability of the technology

 At present, the speed of product replacement is very fast, so the scalability of the chip should be considered when selecting the model. If it is the chip of the same core series of the same manufacturer, its technology inheritability is better. You should consider a well-known semiconductor company and then check its related products before making a judgment.

 (7) Price and supply guarantee

 The price and availability of the chip is also a factor that must be considered. Many chips are currently in the trial stage, and their price and availability will be unstable. Therefore, try to choose a chip with mass production.

 (8) Simulator

 The emulator is a tool that is used when debugging hardware and low-level software. If it is not in the early stages of development, it will basically be difficult. Choosing the right emulator will bring a lot of convenience to development. For those who already have an emulator, consider whether it supports the selected chip during the selection process.

 (9) OS and development tools

 As a product development, you must consider its support for software when selecting a chip, such as what kind of OS is supported. For those who have an OS, it is necessary to consider whether the selected chip supports the OS during the selection process, or vice versa, whether the OS supports the chip.

 (10) Technical support

 The current trend is to buy services, that is, to buy technical support. The technical support ability of a good company is relatively guaranteed, so it is best to choose a well-known semiconductor company when selecting chips.

 In addition, the maturity of the chip depends on the size and usage of the user. Choosing a wider range of chips on the market will have more shared resources and bring a lot of convenience to development.

 Here again, some manufacturers are good at making simple applications of MCUs, and some manufacturers are good at industrial control or more complex MCU and CPU applications, so there will be advantages and disadvantages.

 CPU according to the instruction set architecture system is divided into PowerPC, X86, MIPS, ARM four, X86 uses CISC instruction set, POWERPC, MIPS, ARM uses RISC instruction set, RISC CPU is mostly used for embedded.

 The industry's PowerPC is mainly used in the network communication market. The X86 focuses on the PC and server markets. The target market for MIPS is embedded applications such as networking and communication, and digital consumer applications. ARM's target markets are portable and handheld computing devices, multimedia, and digital consumption. Class products.

 In the high-end processor, the x86 architecture dual-core processor and the MIPS architecture multi-core processor have different service orientations. The MIPS processor is easy to implement multi-core and multi-thread operations, and performs well in data plane message forwarding, but the single processor core structure is simple. It is obviously not as good as x86 and PowerPC for complex operations and message deep processing. The data processing uses multi-core MIPS or NP, and the control application selects PowerPC or embedded x86.

 ARM industry's industry ecological environment is better, there are a number of chip suppliers can provide ARM devices, the selection must undergo a number of comparative analysis and competitive evaluation.

Latest technology used in the garment industry

Compared to the industrial revolution of the 18th century, which transformed western civilisation, recent technological breakthroughs have led to quick changes in garment manufacturers in India.

 Those informed about emerging technologies' commercial applications can take advantage of interesting prospects. When used with industrial automation and product technology advancements, big data can improve manufacturing by making it more precise, localised, and sustainable. A speedier manufacturing process, less waste, reshoring and distribution of manufacturing closer to the market, and fewer carbon footprints are just a few benefits that new industrial technologies might provide.

 Latest technology solutions for the garment factory in India

 Technology in the apparel sector is improving, which is encouraging for the sector's future. Artificial intelligence is causing a stir in the world of product development. By speeding up production, enabling intensive distribution, rethinking in-store and online shopping, and producing things specifically for certain clients, technology aids in the optimization of manufacturing supply chain activities. The garment exporters in India are actively embracing five cutting-edge technologies that are currently finding extensive use. They include machine learning, supply chain enhancements, quick data analytics, 3d capabilities, and customised production runs.

 1.    Robotic manufacturing

 It is not always possible to find a suitable alternative for hand-stitched garments. Fashion specialists are priceless because of the extraordinary quality they can generate through meticulous attention to detail. Machine learning, on the other hand, is boosting garment design by removing the need for human input in essential manufacturing phases.

Historically, robots have been adept at completing boring, repetitive jobs in manufacturing assembly lines. The memory and agility of more modern robots, on the other hand, make them more collaborative and programmable. It is not about eliminating jobs; rather, it is about educating people to be more productive and efficient, as well as reducing harm to people by replacing humans with robots in hazardous places.

 Robots using software automation can stitch clothes without the need for human intervention. Perhaps this is the future of readymade garments export from India.

 2.    Rapid data analysis for rapid adaptation

 Shifting fashion trends are the key force driving private consumption in the apparel sector. You need quick access to reports and a complete analysis of your production systems to fulfil your customers' needs and stay on top of the newest fashions and trends.

 Every day, software developers enhance and release new versions of software that employ cloud computing in the manufacturing process to share detailed data with all supply chain stakeholders. As a result, everyone involved in the process, including all government agencies and partners, will have quick access to the data.

 Several companies prefer items because it allows them to track and record real-time production data as components are manufactured and assigned to shop orders.

 3.    3-d technology

Choosing the right size is an important part of developing a new garment. The use of 3d rendering can considerably improve this technique. 2d drawings and technical patterns can be translated into 3d computer simulations to develop the greatest potential design in real-time.

 The ability to create and print 3d models has far-reaching consequences in a variety of industries. These cutting-edge machines can instantly create one-of-a-kind things from a variety of materials. When 3d printing is integrated with other garment production processes, for example, it is feasible to produce anything on demand, from t-shirts and trousers to shoes and caps.

 4.    Sustainability

 3d printing technology has contributed to the creation of environmentally friendly customised apparel. Consumers desire garments that are tailored to their exact measurements. Before you begin making any item, you get money from a secured sale as a supplier of made-to-order goods. Also, custom fits save money on materials and time in the manufacturing process.

 The textile and garment industry accounts for 10% of total greenhouse gas emissions. As a result, more environmentally friendly garment production processes can have a significant impact on the long-term viability of entire economies. Data science and recycling processes are the most significant advancements for enhancing the garment sector's long-term sustainability.

 Various types of current technologies may be useful in the sustainable fashion sector. Yet, the majority of these intriguing technologies will take a significant amount of time, money, and effort to realise their full potential. One of the most significant challenges for firms seeking to advance the cause of sustainability is locating the right people in the right places to make the right decisions.

 Conclusion

 The ultimate product or deliverable has always been the focus of the Indian garment industry. Yet, in today's fast-paced world of technological innovation, manufacturers have begun to take a deep interest in and invest in the development and use of science and technology in the garment and textile industries.

 Substantial investments and steady progress in the industry will eventually result in a better future with limitless potential for cutting costs and increasing profits in both the quality and quantity of the manufacturing process.

 Technology has substantially enhanced the productivity of the top 10 garment manufacturing companies in India. Businesses are implementing new technology to reduce the expenses of product development and trial expansion.

 To know more information visit us on:

https://www.oxymcrafts.com