Latest news with #IBM
Yahoo
4 hours ago
- Business
- Yahoo
Why Rigetti Computing Stock Lit Up Today
Cantor Fitzgerald urged investors to buy unprofitable and near-revenue-less quantum computing company Rigetti today. Investors dutifully bought the stock. Quantum computing could have "enormous economical implications," but that doesn't mean quantum stocks like Rigetti will be profitable. 10 stocks we like better than Rigetti Computing › Rigetti Computing (NASDAQ: RGTI) surged ahead to close up 15.5% Wednesday after investment bank Cantor Fitzgerald initiated coverage of the quantum computing stock with an outperform rating (i.e., buy) and a $15 price target -- which, if correct, implies Rigetti stock could go up another 20% over the next 12 months. "Quantum computing is in its infancy," explains Cantor in a note covered on today, "but remains one of the most highly coveted technical milestones with enormous economical implications." Rigetti is a small fish in this still-small pond, sharing the water with megalodons like Alphabet, IBM, Intel, and Microsoft. But as Cantor sees things, this isn't necessarily bad news for Rigetti, which might "benefit from the efforts of other," larger companies, to advance the technology, notes The Fly. And yet, this all seems pretty speculative. Cantor itself confides: "We are likely years away from full-scale quantum capabilities," and admits Rigetti, which has only $9 million in annual revenue (and no profits) to back up its $3.6 billion market capitalization, trades at a "steep" multiple to "any near-term revenue or earnings forecast." That's putting it mildly. Rigetti stock actually sports a nosebleed price-to-sales ratio of 273, and costs infinity times the earnings it doesn't have. Momentum investors like Cantor might still drive the stock higher, but most analysts don't see the company turning profitable, ever -- or at least not before 2030, which is as far out as estimates go. Buy the stock anyway if you like. But do realize that in doing so, you're gambling, plain and simple, and not investing at all. Before you buy stock in Rigetti Computing, consider this: The Motley Fool Stock Advisor analyst team just identified what they believe are the for investors to buy now… and Rigetti Computing wasn't one of them. The 10 stocks that made the cut could produce monster returns in the coming years. Consider when Netflix made this list on December 17, 2004... if you invested $1,000 at the time of our recommendation, you'd have $697,627!* Or when Nvidia made this list on April 15, 2005... if you invested $1,000 at the time of our recommendation, you'd have $939,655!* Now, it's worth noting Stock Advisor's total average return is 1,045% — a market-crushing outperformance compared to 178% for the S&P 500. Don't miss out on the latest top 10 list, available when you join . See the 10 stocks » *Stock Advisor returns as of June 30, 2025 Suzanne Frey, an executive at Alphabet, is a member of The Motley Fool's board of directors. Rich Smith has no position in any of the stocks mentioned. The Motley Fool has positions in and recommends Alphabet, Intel, International Business Machines, and Microsoft. The Motley Fool recommends the following options: long January 2026 $395 calls on Microsoft, short August 2025 $24 calls on Intel, and short January 2026 $405 calls on Microsoft. The Motley Fool has a disclosure policy. Why Rigetti Computing Stock Lit Up Today was originally published by The Motley Fool
Globe and Mail
4 hours ago
- Business
- Globe and Mail
Why Rigetti Computing Stock Lit Up Today
Rigetti Computing (NASDAQ: RGTI) surged ahead to close up 15.5% Wednesday after investment bank Cantor Fitzgerald initiated coverage of the quantum computing stock with an outperform rating (i.e., buy) and a $15 price target -- which, if correct, implies Rigetti stock could go up another 20% over the next 12 months. Where to invest $1,000 right now? Our analyst team just revealed what they believe are the 10 best stocks to buy right now. Continue » Quantum investing "Quantum computing is in its infancy," explains Cantor in a note covered on today, "but remains one of the most highly coveted technical milestones with enormous economical implications." Rigetti is a small fish in this still-small pond, sharing the water with megalodons like Alphabet, IBM, Intel, and Microsoft. But as Cantor sees things, this isn't necessarily bad news for Rigetti, which might "benefit from the efforts of other," larger companies, to advance the technology, notes The Fly. Is Rigetti Computing stock worth buying? And yet, this all seems pretty speculative. Cantor itself confides: "We are likely years away from full-scale quantum capabilities," and admits Rigetti, which has only $9 million in annual revenue (and no profits) to back up its $3.6 billion market capitalization, trades at a "steep" multiple to "any near-term revenue or earnings forecast." That's putting it mildly. Rigetti stock actually sports a nosebleed price-to-sales ratio of 273, and costs infinity times the earnings it doesn't have. Momentum investors like Cantor might still drive the stock higher, but most analysts don't see the company turning profitable, ever -- or at least not before 2030, which is as far out as estimates go. Buy the stock anyway if you like. But do realize that in doing so, you're gambling, plain and simple, and not investing at all. Should you invest $1,000 in Rigetti Computing right now? Before you buy stock in Rigetti Computing, consider this: The Motley Fool Stock Advisor analyst team just identified what they believe are the 10 best stocks for investors to buy now… and Rigetti Computing wasn't one of them. The 10 stocks that made the cut could produce monster returns in the coming years. Consider when Netflix made this list on December 17, 2004... if you invested $1,000 at the time of our recommendation, you'd have $697,627!* Or when Nvidia made this list on April 15, 2005... if you invested $1,000 at the time of our recommendation, you'd have $939,655!* Now, it's worth noting Stock Advisor 's total average return is1,045% — a market-crushing outperformance compared to178%for the S&P 500. Don't miss out on the latest top 10 list, available when you join Stock Advisor. See the 10 stocks » *Stock Advisor returns as of June 30, 2025 Suzanne Frey, an executive at Alphabet, is a member of The Motley Fool's board of directors. Rich Smith has no position in any of the stocks mentioned. The Motley Fool has positions in and recommends Alphabet, Intel, International Business Machines, and Microsoft. The Motley Fool recommends the following options: long January 2026 $395 calls on Microsoft, short August 2025 $24 calls on Intel, and short January 2026 $405 calls on Microsoft. The Motley Fool has a disclosure policy.
The Guardian
5 hours ago
- Business
- The Guardian
The Guardian view on the graduate jobs crunch: AI must not be allowed to eclipse young talent
As annual degree ceremonies take place on campuses across the country this month, new graduates will doubtless be turning their thoughts to enjoying some stress-free time off. Given the current state of the labour market, some may be forced to make that break a long one. For university leavers, these are worrying times. A mounting pile of data suggests that accessing the kind of entry-level jobs that traditionally put degree holders on a path to professional success is becoming ever harder. One report published last month by the job-search site Indeed found that the market for young people fresh out of university is tougher than at any time since 2018. Compared with last year, the number of jobs advertised for recent graduates is down 33%. Some of the squeeze can be put down to a general slowdown in hiring, as employers opt for caution in an unpredictable, growth-starved economic climate. Another analysis, published this week, found that the number of entry-level jobs on offer throughout the labour market has fallen. But the steepest drop-off appears to be in professional occupations, where the impact of artificial intelligence (AI) may be beginning to affect the bottom rungs of the white-collar career ladder. According to some analysts, a growing number of companies are using AI to perform many of the collative, summarising or research-heavy kind of tasks that young graduates might previously have done. IBM's human resources department now deploys AI to perform 94% of routine tasks, including performance reviews and development plans. Other employers may be hiring fewer graduates than in the past on the assumption that the use of AI will transform their productivity. For a graduate cohort whose education was blighted by the pandemic, and which is burdened by an average student debt of about £45,000, such developments risk stunting careers before they have begun. Recruitment systems are steadily being transformed through the introduction of AI-driven sifting processes, in which applications are rejected without a human judgment being made. A sustained contraction of the graduate job market, as pathways into professional careers are shortsightedly shut down in the name of cost savings, would further undermine trust between the generations at a time when it is already in short supply. The technology minister, Peter Kyle, has urged businesses and employees to 'act now' in gaining AI skills or risk being left behind, and the government hopes to collaborate with tech companies to deliver training to 7.5 million workers. But a focus on those hoping to enter the digitised workplace is also clearly needed. The evidence that entry-level jobs in areas such as law, finance and consulting are becoming scarcer should set alarm bells ringing both in Westminster and in boardrooms. Politically and economically, the country cannot afford to waste the acquired skills, creativity and dynamism of those who have actually come of age in the digitised world. That may mean companies eventually reimagining the spectrum of early career opportunities that can be offered to recent graduates. But business and government should make it a priority to ensure that they are given the openings and encouragement they need in a rapidly transforming environment. Innovations such as ChatGPT have become embedded in everyday life at vertiginous speed. But their benefits must not come at the expense of the young talent that will be crucial to shaping our future. Do you have an opinion on the issues raised in this article? If you would like to submit a response of up to 300 words by email to be considered for publication in our letters section, please click here.
Yahoo
6 hours ago
- Business
- Yahoo
Global Quantum Computing in Energy and Utility Market Size/Share Worth USD 23.72 Billion by 2034 at 4.40% CAGR: Custom Market Insights (Analysis, Outlook, Leaders, Report, Trends, Forecast, Segmentation, Growth Rate, Value, SWOT Analysis)
[220+ Pages Latest Report] According to a market research study published by Custom Market Insights, the demand analysis of Global Quantum Computing in Energy and Utility Market size & share revenue was valued at approximately USD 15.42 Billion in 2024 and is expected to reach USD 16.10 Billion in 2025 and is expected to reach around USD 23.72 Billion by 2034, at a CAGR of 4.40% between 2025 and 2034. The key market players listed in the report with their sales, revenues and strategies are IBM, Google, Microsoft, Rigetti Computing, D-Wave Systems, Honeywell Quantum Solutions, Intel, IonQ, Xanadu Quantum Technologies, Alibaba Quantum Laboratory, Cambridge Quantum Computing, Zapata Computing, Quantum Circuits Inc., Toshiba Corporation, Fujitsu, Accenture, AWS (Amazon Web Services) Quantum Computing, Microsoft Azure Quantum, Baidu Quantum Computing, QCI (Quantum Computing Inc.) and others. Austin, TX, USA, July 03, 2025 (GLOBE NEWSWIRE) -- Custom Market Insights has published a new research report titled 'Quantum Computing in Energy and Utility Market Size, Trends and Insights By Technology (Quantum Hardware, Quantum Software, Quantum Services), By Application (Grid Optimization, Energy Storage Systems, Renewable Energy Forecasting, Predictive Maintenance, Supply Chain Optimization), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025–2034' in its research database. 'According to the latest research study, the demand of global Quantum Computing in Energy and Utility Market size & share was valued at approximately USD 15.42 Billion in 2024 and is expected to reach USD 16.10 Billion in 2025 and is expected to reach a value of around USD 23.72 Billion by 2034, at a compound annual growth rate (CAGR) of about 4.40% during the forecast period 2025 to 2034.' Click Here to Access a Free Sample Report of the Global Quantum Computing in Energy and Utility Market @ Overview As per the industry experts at CMI, the main positioning factor for quantum computing applications in the energy and utilities industry is the increase in efficiency to operate complex and data-rich processes. As renewable energy sources continue to grow, quantum computing is allowing for better utility forecasting and optimization of renewable energy, such as wind and solar. These capabilities can also improve responsiveness in grid management, predictive maintenance, and energy storage systems. Convenience and allowing utility companies to solve complex optimization problems faster than they could do with classical computing ensures more reliable and cost-effective solutions and ultimately will lead to more widespread adoption of quantum technologies in the energy sector. Key Trends & Drivers Better Energy Efficiency: Quantum computing can process large datasets considerably faster than classical computers. This enables significant improvements in predictions and optimizations for energy systems, which improves energy distribution, grids, and storage and increases energy efficiency. Quantum algorithms can quickly identify consumptive behavior patterns or consumption to optimize resources and reduce waste, which is a growing need, particularly in renewable energy management. Aside from the energy efficiency impact, it is one of the main systems driving quantum computing in energy and utilities. Better Inclusion of Alternative Energy Sources: The growing demand for renewable energy generation requires systems at times that require optimization, from solar, wind, hydroelectricity, etc. Quantum computing optimizes how we forecast the next day's and next hour's weather and provides more accurate renewable energy production models. Quantum computing improves the incorporation of renewable energy into existing grids and helps improve the balancing of supply and demand, and in doing so, reduces the need for non-renewable resources. The emphasis on cleaner energy systems and climate sustainability will significantly influence the adoption of quantum computing in the energy and utilities sector. Cost Optimization and Reduction: Energy systems are complex, including grid systems, generation production, and regulations to consider. Energy systems require constantly optimized integrations of a vast number of systems to reduce costs and ultimately help provide better services to consumers. In theory, quantum computing should help accomplish large-scale optimization processes to improve energy systems across the electricity supply chain in the future. Request a Customized Copy of the Quantum Computing in Energy and Utility Market Report @ Enhanced Decision-Making and Predictive Analytics: Quantum computing can help to improve predictive analytics by allowing users to analyze vast amounts of data quickly and with the highest degree of accuracy. The energy and utility sectors can leverage quantum predictive analytics to more accurately forecast energy demands, grid stability, and maintenance. Quantum algorithms are also capable of forecasting potential system failures or energy shortages before they happen, allowing them to remedy inefficiencies proactively and mitigate unexpected inhibitors to energy availability. The real-time analytics of quantum computing provide energy and utility operators with increased operational efficiencies, which is essential to the maintenance of reliability in the energy supply chain. Support for Smart Grid and IoT Integration: The transition to smart grids, in combination with the increased utility of the Internet of Things (IoT) with energy systems, is creating a powerful need for advanced computational solutions. Quantum computing can facilitate the computational power needed to assist in the integration of IoT devices by analyzing real-time and near-real-time data produced by the IoT devices. Quantum computing can help utilities optimize data from IoT devices to make smart grids responsive and adaptive to even further changing energy demands. As utilities continue to modernize their assets and infrastructure, quantum computing assists with the coordinated operation and scalability of smart grids and IoT systems. Report Scope Feature of the Report Details Market Size in 2025 USD 16.10 Billion Projected Market Size in 2034 USD 23.72 Billion Market Size in 2024 USD 15.42 Billion CAGR Growth Rate 4.40% CAGR Base Year 2024 Forecast Period 2025-2034 Key Segment By Technology, Application and Region Report Coverage Revenue Estimation and Forecast, Company Profile, Competitive Landscape, Growth Factors and Recent Trends Regional Scope North America, Europe, Asia Pacific, Middle East & Africa, and South & Central America Buying Options Request tailored purchasing options to fulfil your requirements for research. (A free sample of the Quantum Computing in Energy and Utility report is available upon request; please contact us for more information.) Our Free Sample Report Consists of the following: Introduction, Overview, and in-depth industry analysis are all included in the 2024 updated report. The COVID-19 Pandemic Outbreak Impact Analysis is included in the package. About 220+ Pages Research Report (Including Recent Research) Provide detailed chapter-by-chapter guidance on the Request. Updated Regional Analysis with a Graphical Representation of Size, Share, and Trends for the Year 2025 Includes Tables and figures have been updated. The most recent version of the report includes the Top Market Players, their Business Strategies, Sales Volume, and Revenue Analysis Custom Market Insights (CMI) research methodology (Please note that the sample of the Quantum Computing in Energy and Utility report has been modified to include the COVID-19 impact study prior to delivery.) Request a Customized Copy of the Quantum Computing in Energy and Utility Market Report @ SWOT Analysis Strengths: Quantum computing allows for an unprecedented level of computational ability, providing energy and utility companies with rapid solutions to complex optimization problems. With its unique ability to analyze large sets of data simultaneously, quantum computing has the potential to improve grid management, predictive maintenance, and energy efficiency. Furthermore, quantum computing's abilities would enable energy companies to facilitate renewable energy sources to be integrated into the energy grid, optimize energy storage capabilities, and reduce operational costs. No other technology has the same ability to support the implementation of sustainability programs. These strengths are unique to quantum computing and are why it's a very promising technology for the energy sector; it will help companies operate more efficiently and sustainably and help provide a competitive advantage. Weaknesses: Quantum computing still has many challenges to overcome within the energy and utility sectors. While quantum computing has much potential, it is still in its early stages for the energy sector and has little in the way of actual, realizable applications that can be scaled. Quantum hardware is also very expensive to build and operate, which will deter some companies from pursuing the technology. The skilled labor shortage is about to emerge with quantum computing; it's very difficult to find a quantum physicist who also understands the application of quantum algorithms to energy and utility optimization. In other words, for energy to realize the value of quantum computing, there are still significant hurdles to overcome. Opportunities: With the rise of renewable energy, the need for more intelligent, more efficient energy systems presents major opportunities for quantum computing. The technology can provide the needed solutions for energy forecasting, optimization of the grid system, and energy storage, helping to leverage a transformation away from carbon-based energy sources. In addition, as it matures, the demand for quantum-based solutions in areas such as smart grids, energy storage, and predictive maintenance will increase, allowing firms to invest in an emerging and rapidly changing market where they can differentiate themselves with cutting-edge technology. Threats: Quantum computing certainly faces threats in the energy space, mainly because of competition with different classical computing technologies. Classical supercomputing continues to improve its performance in specific energy applications, and in some circumstances, it may provide similar or equivalent levels of performance to quantum in a short-term perspective. Furthermore, regulatory issues and the costs of implementing quantum computing systems can delay or limit the adoption possibilities. Despite the potential benefits, complex and variable information surrounding critical reasons to adopt products and services based on quantum technologies can deter investor confidence, leading to delayed adoptions from the utility and energy sector. Request a Customized Copy of the Quantum Computing in Energy and Utility Market Report @ Key questions answered in this report: What is the size of the Quantum Computing in Energy and Utility market and what is its expected growth rate? What are the primary driving factors that push the Quantum Computing in Energy and Utility market forward? What are the Quantum Computing in Energy and Utility Industry's top companies? What are the different categories that the Quantum Computing in Energy and Utility Market caters to? What will be the fastest-growing segment or region? In the value chain, what role do essential players play? What is the procedure for getting a free copy of the Quantum Computing in Energy and Utility market sample report and company profiles? Key Offerings: Market Share, Size & Forecast by Revenue | 2025−2034 Market Dynamics – Growth Drivers, Restraints, Investment Opportunities, and Leading Trends Market Segmentation – A detailed analysis by Types of Services, by End-User Services, and by regions Competitive Landscape – Top Key Vendors and Other Prominent Vendors Buy this Premium Quantum Computing in Energy and Utility Research Report | Fast Delivery Available - [220+ Pages] @ Regional Analysis The Quantum computing in energy and utility market is segmented into various regions, including North America, Europe, Asia-Pacific, and LAMEA. Here is a brief overview of each region: North America: North America is at the forefront of the quantum computing market, receiving extensive investment from the U.S. and Canada. Innovative energy ideas and a commitment to sustainability are even greater drivers for the adoption of quantum technology within the energy industry. Furthermore, major players such as IBM, Google, and Microsoft have established robust footprints in the region by providing quantum hardware, software, and services. The U.S. Federal Government recently launched the National Quantum Initiative, which promotes investments in research into quantum technologies, among many others, which is already driving additional developments and investments into the sector. With a mature infrastructure, substantial technology ecosystem, and investment from government agencies, North America is poised to continue developing quantum solutions to optimize and manage energy consumption. Europe: Meanwhile, Europe is ramping up their investment in quantum computing, and several countries are driving innovation in this space in the energy sector across the continent. The European Union has funded the Quantum Flagship initiative, which provides a platform for deploying systematic initiatives to accelerate quantum research and development. Countries such as Germany, France, and the UK, among others, are currently funding projects to integrate quantum computing within grid optimization, renewable energy forecasting, and energy storage solutions. Given that the European Union has these green energy as sustainability goals, most of which involve reducing energy consumption while increasing the use of renewable energy sources, advances in quantum computing are positioning themselves at a timely time to help the government and private sector achieve these ambitious goals. Asia-Pacific: This region of the world appears to be rapidly growing for quantum computing with the likes of China, Japan, and India at the forefront of developments in quantum technology. China's investment in quantum research and technology means that they are a major player in the sector, and the energy sector is no exception. Likewise, Japan and India are hoping to understand how quantum computing can aid in optimizing energy management and supporting the integration of renewables. Asia-Pacific is likely to be a strong market for quantum computing in energy as demand for sustainable energy practices increases and both the public and private sectors invest in quantum technologies. LAMEA: Latin America, the Middle East, and Africa (LAMEA) may be considered emerging markets for quantum computing, with the technology being increasingly considered for projects relating to the energy sector. In Latin America, some countries, such as Brazil and Mexico, are investigating quantum-based solutions for energy efficiency, integrating renewables, and managing a smart grid. The Middle East continues to make substantial investments in smart grid technology. In Africa, while challenges remain, particularly regarding the wider economic context, clean energy solutions are slowly becoming a part of the energy landscape. The LAMEA region may present challenges for quantum computing adoption due to both economic and infrastructural issues; however, the increasing focus on sustainable development in these areas could provide opportunities for quantum computing to help address issues in the energy sector. Request a Customized Copy of the Quantum Computing in Energy and Utility Market Report @ (We customized your report to meet your specific research requirements. Inquire with our sales team about customizing your report.) Still, Looking for More Information? Do OR Want Data for Inclusion in magazines, case studies, research papers, or Media? Email Directly Here with Detail Information: support@ Browse the full 'Quantum Computing in Energy and Utility Market Size, Trends and Insights By Technology (Quantum Hardware, Quantum Software, Quantum Services), By Application (Grid Optimization, Energy Storage Systems, Renewable Energy Forecasting, Predictive Maintenance, Supply Chain Optimization), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025–2034' Report at List of the prominent players in the Quantum Computing in Energy and Utility Market: IBM Google Microsoft Rigetti Computing D-Wave Systems Honeywell Quantum Solutions Intel IonQ Xanadu Quantum Technologies Alibaba Quantum Laboratory Cambridge Quantum Computing Zapata Computing Quantum Circuits Inc. Toshiba Corporation Fujitsu Accenture AWS (Amazon Web Services) Quantum Computing Microsoft Azure Quantum Baidu Quantum Computing QCI (Quantum Computing Inc.) Others Click Here to Access a Free Sample Report of the Global Quantum Computing in Energy and Utility Market @ Spectacular Deals Comprehensive coverage Maximum number of market tables and figures The subscription-based option is offered. Best price guarantee Free 35% or 60 hours of customization. Free post-sale service assistance. 25% discount on your next purchase. Service guarantees are available. Personalized market brief by author. Browse More Related Reports: Europe Green Steel Market: Europe Green Steel Market Size, Trends and Insights By Product Type (Flat Steel Products, Long Steel Products, Others), By Application (Automotive, Construction, Energy, Appliances, Others), and By Region - Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025–2034 US Wire and Cable Market: US Wire and Cable Market Size, Trends and Insights By Cable Type (Copper Cables, Fiber Optic Cables, Others), By Application (Telecom, Industrial, Building & Construction, Power Utilities, Military, Commercial, Space), and By Region - Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025–2034 Singapore Bunker Fuel Market: Singapore Bunker Fuel Market Size, Trends and Insights By Type (High sulfur fuel oil (HSFO), Low sulfur fuel oil (LSFO), Marine gasoil (MGO), Others), By Application (Container, Bulk Carrier, Oil Tanker, General Cargo, Chemical Tanker, Fishing Vessels, Gas Tanker, Others), and By Region - Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025 – 2034 Slickline Services Market: Slickline Services Market Size, Trends and Insights By Slickline Tools (Pulling Tools, Gauge Cutter, Downhole Bailer, Bridge Plug, Others), By Application (Onshore, Offshore), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025 – 2034 Transformer Core Market: Transformer Core Market Size, Trends and Insights By Product (Distribution Transformer, Power Transformer, Instrument Transformer), By Winding (Two Winding, Auto-transformer), By Cooling (Dry Type, Self-Cooled), By Insulation (Gas, Oil, Solid, Air), By Application (Residential & Commercial, Utility, Industrial), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025 – 2034 Pipeline Safety Market: Pipeline Safety Market Size, Trends and Insights By Component (Solutions, Services), By Solution (Perimeter Intrusion Detection, Secure Communication, SCADA for Pipelines, Pipeline Monitoring System, Industrial Control System (ICS) Security), By Vertical (Natural Gas, Crude Oil, Refined Products, Others), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025 – 2034 Pipeline Monitoring System Market: Pipeline Monitoring System Market Size, Trends and Insights By Type (Metallic, Non-Metallic), By End User (Crude & Refined Petroleum, Water & Wastewater, Fiber Optic Technology), By Technology (Pig's, Smart Ball, Ultrasonic, Magnetic Flux Leakage Technology, Fiber Optic Technology, Others), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025 – 2034 Green Gas Market: Green Gas Market Size, Trends and Insights By Type (Biomethane, Biopropane, Hydrogen), By End User (Transportation, Power, Buildings), By Source (Industrial Waste, Agricultural Waste, Sewage Sludge, Energy Crops, Others), and By Region - Global Industry Overview, Statistical Data, Competitive Analysis, Share, Outlook, and Forecast 2025 – 2034 The Quantum Computing in Energy and Utility Market is segmented as follows: By Technology Quantum Hardware Quantum Software Quantum Services By Application Grid Optimization Energy Storage Systems Renewable Energy Forecasting Predictive Maintenance Supply Chain Optimization Click Here to Get a Free Sample Report of the Global Quantum Computing in Energy and Utility Market @ Regional Coverage: North America U.S. Canada Mexico Rest of North America Europe Germany France U.K. Russia Italy Spain Netherlands Rest of Europe Asia Pacific China Japan India New Zealand Australia South Korea Taiwan Rest of Asia Pacific The Middle East & Africa Saudi Arabia UAE Egypt Kuwait South Africa Rest of the Middle East & Africa Latin America Brazil Argentina Rest of Latin America This Quantum Computing in Energy and Utility Market Research/Analysis Report Contains Answers to the following Questions. Which Trends Are Causing These Developments? Who Are the Global Key Players in This Quantum Computing in Energy and Utility Market? What are Their Company Profile, Product Information, and Contact Information? What Was the Global Market Status of the Quantum Computing in Energy and Utility Market? What Was the Capacity, Production Value, Cost and PROFIT of the Quantum Computing in Energy and Utility Market? What Is the Current Market Status of Quantum Computing in the Energy and Utility Industry? What's Market Competition in This Industry, Both Company and Country Wise? What's Market Analysis of Quantum Computing in the Energy and Utility Market by Considering Applications and Types? What Are Projections of the Global Quantum Computing in the Energy and Utility Industry Considering Capacity, Production, and Production Value? What Will Be the Estimation of Cost and Profit? What Will Be Market Share, Supply, and Consumption? What about imports and exports? What Is Quantum Computing in Energy and Utility Market Chain Analysis by Upstream Raw Materials and Downstream Industry? What Is the Economic Impact of Quantum Computing in the Energy and Utility Industry? What are Global Macroeconomic Environment Analysis Results? What Are Global Macroeconomic Environment Development Trends? What Are the Market Dynamics of Quantum Computing in the Energy and Utility Market? What Are Challenges and Opportunities? What Should Be Entry Strategies, Countermeasures to Economic Impact, and Marketing Channels for Quantum Computing in Energy and Utility Industry? Click Here to Access a Free Sample Report of the Global Quantum Computing in Energy and Utility Market @ Reasons to Purchase Quantum Computing in Energy and Utility Market Report Quantum Computing in Energy and Utility Market Report provides qualitative and quantitative analysis of the market based on segmentation involving economic and non-economic factors. Quantum Computing in Energy and Utility Market report outlines market value (USD) data for each segment and sub-segment. This report indicates the region and segment expected to witness the fastest growth and dominate the market. Quantum Computing in Energy and Utility Market Analysis by geography highlights the consumption of the product/service in the region and indicates the factors affecting the market within each region. The competitive landscape incorporates the market ranking of the major players, along with new service/product launches, partnerships, business expansions, and acquisitions in the past five years of companies profiled. Extensive company profiles comprising company overview, company insights, product benchmarking, and SWOT analysis for the major market players. The Industry's current and future market outlook concerning recent developments (which involve growth opportunities and drivers as well as challenges and restraints of both emerging and developed regions. Quantum Computing in Energy and Utility Market Includes in-depth market analysis from various perspectives through Porter's five forces analysis and provides insight into the market through Value Chain. Reasons for the Research Report The study provides a thorough overview of the global Quantum Computing in Energy and Utility market. Compare your performance to that of the market as a whole. Aim to maintain competitiveness while innovations from established key players fuel market growth. Buy this Premium Quantum Computing in Energy and Utility Research Report | Fast Delivery Available - [220+ Pages] @ What does the report include? Drivers, restrictions, and opportunities are among the qualitative elements covered in the worldwide Quantum Computing in Energy and Utility market analysis. The competitive environment of current and potential participants in the Quantum Computing in Energy and Utility market is covered in the report, as well as those companies' strategic product development ambitions. According to the component, application, and industry vertical, this study analyzes the market qualitatively and quantitatively. Additionally, the report offers comparable data for the important regions. We have provided actual market sizes and forecasts for each of the aforementioned segments. Who should buy this report? Participants and stakeholders in the worldwide Quantum Computing in Energy and Utility market should find this report useful. The research will be useful to all market participants in quantum computing in the energy and utility industries. Managers in the Quantum Computing in Energy and Utility sector are interested in publishing up-to-date and projected data about the worldwide Quantum Computing in Energy and Utility market. Governmental agencies, regulatory bodies, decision-makers, and organizations want to invest in Quantum Computing's energy and utility products' market trends. Market insights are sought for by analysts, researchers, educators, strategy managers, and government organizations to develop plans. Request a Customized Copy of the Quantum Computing in Energy and Utility Market Report @ About Custom Market Insights: Custom Market Insights is a market research and advisory company delivering business insights and market research reports to large, small, and medium-scale enterprises. We assist clients with strategies and business policies and regularly work toward achieving sustainable growth in their respective domains. CMI offers a comprehensive solution, from data collection to investment advice. Our company's expert analysis digs out essential factors that help us understand the significance and impact of market dynamics. The professional experts apply clients inside on the aspects such as strategies for future estimation fall, forecasting or opportunity to grow, and consumer survey. Follow Us: LinkedIn | Twitter | Facebook | YouTube Contact Us: Joel John CMI Consulting LLC 1333, 701 Tillery Street Unit 12, Austin, TX, Travis, US, 78702 USA: +1 737-734-2707 India: +91 20 46022736 Email: support@ Web: Blog: Blog: Blog: Blog: Buy this Premium Quantum Computing in Energy and Utility Research Report | Fast Delivery Available - [220+ Pages] @ in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
8 hours ago
- Business
- Yahoo
Deutsche Telekom selects IBM Concert to accelerate IT processes with AI-powered automation
The AI-powered solution IBM Concert enables intelligent automation in patch management and the orchestration of security-related activities BÖBLINGEN, Germany, July 2, 2025 /PRNewswire/ -- Today, IBM is announcing that Deutsche Telekom, one of the world's leading providers of telecommunications and IT services, serving millions of residential and business customers, will implement the AI-powered solution IBM Concert, enabling intelligent automation in patch management and the orchestration of security-related activities. Patches are a necessary part of software lifecycle management. They help systems stay secured, functional, and relevant in a fast-changing IT landscape. Without patches, software would quickly become vulnerable, unstable, and obsolete. But handling patches is a challenge as well. IBM can help companies accelerate vulnerability protection in their IT systems while boosting operational efficiency. IBM Concert helps companies to reduce operational costs and the effort required for patching vulnerabilities, increasing the speed of response and the efficiency for improving the security of all systems. One billion apps by 2028 According to an IDC study, there will be one billion additional applications by 2028 – an increase that will be driven by AI innovations. Even for minor changes and updates, complex coordination between app owners, development, security, and operations teams is necessary to ensure smooth operation for millions of customers and users. The large number of manual process steps to prepare, execute, and document the end-to-end patching process increases the risk of errors. Deutsche Telekom turned to IBM for an approach that could scale faster and dramatically improve overall efficiency. The IBM Software Development Organization had developed a solution specifically for this purpose, IBM Concert, which IBM had initially tested on itself as "Client Zero," after facing a similar complexity challenge. Ten times faster patching IBM Concert provides Deutsche Telekom with intelligent resilience for complex IT operations, with a single source of truth for vulnerability management, patching, and reporting. The solution brings together all relevant data and specializations, creating contextual information that enables end-to-end AI-powered automation. The fully automated patching process for operating systems has been designed to reduce patching time from 90 minutes to a maximum of 20 minutes per instance. This dramatic time savings gives IT teams new freedom for strategic tasks, innovations, and optimizations. During the successful pilot implementation of IBM Concert, Deutsche Telekom was able to achieve a 10x reduction in a key metric "Median Time To Patch," going from 80 hours per critical vulnerabilities to eight hours. This acceleration of the rollout of patches increases IT security and also improves business risk and compliance, enabling Deutsche Telekom to manage risks for its IT operations much more effectively. "Secure operating systems form the foundation for all applications, databases, and services that we offer our customers. When it comes to patching, the time factor has taken on a critical role in the AI era. Those who use available updates immediately and automatically can reduce security risks. We face this challenge together with our partner," explains Dr. Peter Leukert, Group CIO of Deutsche Telekom. "We were looking for a standalone solution on the market that combines all the complex aspects of patch management and reliably automates everything." Steve Canepa, Global Managing Director at IBM, says: "Security and trust are the cornerstones of success for all telecommunications companies. IBM Concert incorporates modern AI and automation technologies so that Deutsche Telekom can stay ahead of the dramatically escalating number and complexity of critical vulnerabilities across their Hybrid Cloud platform." Dinesh Nirmal, Senior Vice President IBM Software, adds: "By intelligently orchestrating and automating security-critical processes, clients like Deutsche Telekom can not only respond faster to new threats, but also use resources more efficiently using IBM Concert. In doing so, they are creating a solid foundation for a future-proof, scalable and highly secure IT operating model with the help of AI." Notes to Editors About IBM ConcertIBM Concert is a comprehensive AI-powered automation solution using IBM watsonx that provides AI-driven recommendations and workflows to automate and optimize IT operations, including the patching process. IBM Concert: Integrates, aggregates, and analyzes existing data sources such as security scans, application and infrastructure information, and publicly available CVE databases Uses a generative AI approach to develop an optimized and prioritized patching plan based on extensive information about system topology, dependencies, maintenance windows, and business requirements Generates ServiceNow change requests and process documentation in the IT service management system (ITSM), ready for approval by experts Upon approval, orchestrates fully automated installation of operating system patches for Microsoft Windows Server, Red Hat Enterprise Linux, and other Linux distributions within maintenance windows, integrating, for example, Ansible Playbooks in the AWS Cloud Documents the results in the ITSM system, providing a quick overview, facilitating traceability of changes, and improving compliance for the entire hybrid cloud environment About Deutsche TelekomDeutsche Telekom is one of the world's leading integrated telecommunications companies, with more than 261 million mobile customers, 25 million fixed-network lines, and 22 million broadband customers. Deutsche Telekom provides fixed-network/broadband, mobile communications, Internet, and IPTV products and services for consumers, and information and communication technology (ICT) solutions for business and corporate customers. For more information, see About Deutsche Telekom IT GmbHDeutsche Telekom IT GmbH (DTIT) is the IT company of choice of Deutsche Telekom Group. DTIT is responsible for the design, development and operation of all its own and transferred IT systems to support Deutsche Telekom's business processes. DTIT creates the basis for an integrated, cross-channel customer experience with Deutsche Telekom Group. About IBMIBM is a leading provider of global hybrid cloud and AI, and consulting expertise. We help clients in more than 175 countries capitalize on insights from their data, streamline business processes, reduce costs and gain the competitive edge in their industries. Thousands of governments and corporate entities in critical infrastructure areas such as financial services, telecommunications and healthcare rely on IBM's hybrid cloud platform and Red Hat OpenShift to affect their digital transformations quickly, efficiently and securely. IBM's breakthrough innovations in AI, quantum computing, industry-specific cloud solutions and consulting deliver open and flexible options to our clients. All of this is backed by IBM's long-standing commitment to trust, transparency, responsibility, inclusivity and service. For more information, see Pictures: • Corporate headquarters in Bonn. (Deutsche Telekom, picture: Norbert Ittermann) Media Contact:Sabine BuettnerIBM Unternehmenskommunikation DACHMail: sabine_buettner@ Deutsche Telekom: media@ View original content to download multimedia: SOURCE IBM Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
