Category Archives: Cloud Computing
Designing Chips With The Cloud And Edge In Mind – The Next Platform
Renee James knows about processors and she knows about the cloud. In a career at Intel that spanned more than 28 years and saw her rise to become president of the chip giant, she also ran a range of divisions within the company, including HPC, software and the cloud.
She left Intel to found Ampere Computing in 2017, one of a number of chip makers that are building processors optimized for a rapidly changing IT environment that is stretching out from central datacenters to the cloud and out to the edge and putting an increasing emphasis on factors beyond chip performance, including latency, power efficiency and platform scalability.
The company acquired the assets of Applied Micro, one of the pioneers in developing processors based on the low-power Arm architecture with its X-Gene chips and has since run out its 80-core Altra chip and, last year, its 128-core Altra Max, both chips based on Arms Neoverse design. Now the company this year is planning to unveil a 5 nanometer chip that will be based on its own in-house Arm-compliant cores.
For decades, James was a vocal proponent of the Intel architecture and the companys driving of improvements to chips driven by Moores Law. However, the compute environment is changing. Not only is it increasingly distributed and cloud-based, but the development tools and software enterprise are using also are changing. Developers are using tools like microservices, containers, and Kubernetes controllers. Processor designs and architectures need to change as well to keep up with evolving demands of organizations as they adopt the cloud and the edge.
How do we know were in a new phase of compute? James, now chief executive officer at Ampere Computing, asked during a talk at the recent virtual ISSCC 2022 event. We know because the underlying software approaches changed, the tools have changed, the way we build software, the way software is distributed and how its consumed through the cloud is fundamentally different than in the era of server computing. One of the hallmarks of a new phase of compute is you use the technology thats available to you to build a new operating environment. Thats exactly what weve been doing in the cloud today. The industry is taking the X86 architecture and the approach pioneered over 40 years ago for the building of the PC architecture and applied it to cloud computing and the modern datacenter.
Thats not going to cut it anymore, she said. Using the same architecture in this case, those used by Intel and AMD will create further problems around power consumption and datacenter space. The semiconductor sector needs to come up with sustainable products that will reduce the carbon footprint. James noted that the expected growth in the cloud datacenter market. Synergy Research Group said that global enterprise spending on cloud infrastructure services in 2021 reached $178 billion, a 37 percent year-over-year increase.
If the datacenter providers continue to deploy legacy solutions, it will consume two times the power and 60 percent more real estate than whats being consumed today, she said. On the other hand, if they use cloud-native solutions like the ones designed by Ampere, they can deliver similar performance if not even better performance at a fraction of the power and real estate footprint.
Ampere Computing is one of a number of vendors looking to leverage the Arm architecture for hyperscale, HPC and cloud-based datacenters and as we have reported, such companies have been the target of Ampere Computing since its founding. Some companies, like Amazon Web Services are rolling out their own chips in Amazons case, the Graviton line and Nvidia also is looking to expand its portfolio, especially in the wake of the demise of its ill-fated $40 billion bid for Arm. But no one is the clubhouse leader yet in the effort to bring Arm into the datacenter. Its still a mashup of vendors.
There also the expanding world of accelerators, from GPUs to FPGAs, and workload-optimized silicon like data processing units (DPUs). At the same time, Intel is looking to re-establish itself as the top chip maker after several years of stumbles, and those chips include GPUs starting with Ponte Vecchio and other silicon.
So its going to be an active and highly competitive semiconductor market. At ISSCC, James and several other Ampere Computing officials spoke about the need for processor architecture to change along with enterprise demands, which has put pressure for the way chips are designed to change.
Ampere Computing chief product officer Jeff Wittich said organizations are moving to the cloud because services can be seamlessly deployed across vast hardware infrastructures. Developers are using microservices to more quickly build more innovation applications and to more easily scale individual components, which is important for companies in such sectors as ride hailing, where thousands of microservices can be scaled to provide everything from matching riders and drivers to mapping the rides to billing.
Artificial intelligence and machine learning further improve such services and much of the inferencing is being done at the edge to drive down latency. High performance and low latency will continue to be important as such technologies as autonomous vehicles come into play.
As cloud infrastructure becomes more distributed and less centralized to meet critical, low-latency requirements, having a power-efficient processor that can fit in the more constrained power and thermal envelopes at the edge while still delivering high compute performance is a top requirement, Wittich said. It is critical that the underlying hardware enables the desired elasticity, resiliency, automation and portability required by cloud service providers and cloud-native developers. For this, you need the right type of CPU, one that delivers predictable high performance.
This enables the cloud to deliver the necessary performance at all times without degraded service platform scalability and to scale out to the edge, where space is even more constrained.
That comes with some key architectural requirements that are different from what has typically been needed during the decades that led up to the cloud, according to Ampere Computing chief technology officer Atiq Bajwa. The focus traditionally has been on peak performance for workloads that tended to be composed of large, monolithic software applications and density was a key consideration.
However, the drive for atom-scale architectures has slowed the cadence and generation-to-generation improvements in performance, density and power, Bajwa said, adding that process design rules are more complex.
Meeting the performance and functionality needs of todays cloud datacenters increasingly requires that we assemble multiple pieces of silicon together in a package, he said. Performance and consistent performance under load with multiple independent and potentially interfering workloads all running on a single server. Power efficiency is a first article, not just because of its impact on performance and total cost of ownership, but also because of its implications on sustainability. Finally, the software landscape is also quite different, with workloads increasingly composed of collections of software packages and an array of microservices deployed in [virtual machines] or containers with multi-tenancy the norm. With all that has changed, what does it mean to build cloud-native products?
For Ampere Computing, it has meant taking a clean-slate approach in both what they built and how they built it. The architecture needs to provide dedicated hardware for performance, consistency and security isolation, the frequency must be consistent, performance and consistency means a cache hierarchy and memory subsystem with high and consistent bandwidth to feed the CPU cores at scale and under high loads.
The new chips are demanding high large-scale integration, high-volume manufacturing and higher bandwidth.
With the increasing complexity, validation and emulation become critical pieces to ensure high quality of the design, said Mitrajit Chatterjee, senior vice president of silicon engineering. All these designs must converge faster and seamlessly to meet a regular and rapid cadence of cloud software designs.
Yesh Kolla, vice president of engineering at Ampere Computing, noted that to keep pace with compute density needs, the company uses smaller disaggregated dies integrated at the package level.
By disaggregating into chiplets, we can continue increasing the overall chip-level transistor count by increasing the number of die chiplets while the individual die areas can be optimized for yield and manufacturability, Kolla said. Disaggregation does push the integration challenges to other areas. Advanced packaging techniques must adapt to efficiently integrating multiple dies. Die-to-die link latency and bandwidth must continue improving, while also increasing signal density and reducing power. Manufacturing, testing, validation, and firmware has evolved to manage multiple dyes in a package.
Ampere Computing also improves the performance by choosing designs the minimize communication and routing, finding logical hierarchies efficiently, working through design partitioning, and using selective and highly customized circuits to speed up critical paths, among other techniques, he said. There also is work done in conjunction with the vendors foundry partner, Taiwan Semiconductor Manufacturing Co, to help reduce the power consumption and footprint of the chips as well as developing advanced power management capabilities and innovative I/O designs.
The company also wants to keep a steady cadence of new chips every year, Chatterjee said.
Design convergence and product design cycle is where everything comes together, he said. Keeping up with the server demands, the cloud server semiconductor is executing at a rapid pace. At Ampere, our infrastructure is now built to support multiple design stage overlaps, sharpening cycle times by planning for silicon success and developing all system collaterals. For post-silicon success, key is IP validation, emulation, firmware and platform readiness play key roles.
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Designing Chips With The Cloud And Edge In Mind - The Next Platform
2 Unstoppable Long-Term Trends to Invest In – The Motley Fool
Cloud computing and cannabis are two high-growth sectors that all investors may want to have some exposure to in the long haul. They possess some of the most promising opportunities out there today.
A great way to add exposure to these industries is by holding a couple of exchange-traded funds (ETFs) that can give you a broad mix of stocks in each sector. Two funds that should be on your radar today include the AdvisorShares Pure US Cannabis ETF( MSOS -1.97% ) and First Trust Cloud Computing ETF( SKYY -2.47% ).
Image source: Getty Images.
The U.S. pot market isn't legal just yet. But at this point, it's only a matter of time before it is. Support for legalization is at record levels, and even if it doesn't happen under President Biden's watch, it may under the next administration; given the popularity of marijuana, it may even become part of an election campaign -- that's what helped lead to legalization in Canada.
Legalization would lift many barriers for the industry. Currently, multi-state marijuana operators can't have their products cross state lines, even if both states have legalized cannabis. Cannabis companies also have difficulty with obtaining banking services that legal industries take for granted. While more red tape and taxes will likely offset some of those gains once the government legalizes pot, the net result should be an overwhelming positive for the industry.
Adding the AdvisorShares Pure US Cannabis ETF to your portfolio could be an optimal way to stake out an early position in this sector. The fund focuses on marijuana businesses in the U.S. market (which is a better alternative to holding shares of struggling Canadian pot stocks), including big names such asTrulieve Cannabis,Green Thumb Industries, andCuraleaf Holdings.
The fund is actively managed, which is a good feature as it ensures that as the industry changes over time, the ETF will help give investors the best mix of U.S. cannabis stocks.
In the past year, the ETF hasn't done well, falling 56% while the S&P 500 has risen by 14%. With legalization not looking to be imminent, the sector hasn't been a popular place to invest in these days. But that can and likely will change in the future. Investing into the cannabis sector now, while valuations are low, can lead to superior gains over the long haul.
Cloud computing is a safer place to invest in, since, unlike marijuana, it doesn't involve an illicit industry. And it is also a sector that should offer significant growth opportunities in the future. The pandemic has pushed businesses to be more versatile, leading to greater digitization. According to estimates from Grand View Research, the global cloud computing market may be worth more than $1.2 trillion by 2028, growing at a compounded annual growth rate of more than 19% until then.
You can invest in cloud computing by going with the big tech giants, but given their lofty valuations, the gains may not be as strong as if you went with a more diverse portfolio that also includes smaller stocks. And that's where First Trust Cloud Computing ETF may provide an attractive alternative. It holds more than 65 stocks in its portfolio. Its top three holdings include tech companies VMware,Arista Networks, andAlphabet, with each one of those stocks accounting for more than 4% of the fund's total weight.
In 12 months, the fund has dipped 14% in value, doing better than the cannabis ETF but still worse than the S&P 500. However, its performance would have been much better if not for the recent sell-off in growth stocks. Over the long term, that pattern isn't likely to persist, and that could make now an ideal time to invest in the fund.
Holding the cloud computing and cannabis ETFs together could be a way for investors to diversify their holdings while also positioning themselves to benefit from the attractive growth opportunities in both sectors.
This article represents the opinion of the writer, who may disagree with the official recommendation position of a Motley Fool premium advisory service. Were motley! Questioning an investing thesis even one of our own helps us all think critically about investing and make decisions that help us become smarter, happier, and richer.
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2 Unstoppable Long-Term Trends to Invest In - The Motley Fool
Cloud Company UCloud to Tap Computing Hub in Shanghai in June to Process Data – EqualOcean
The firms several data hubs are a microcosm of the countrys effort to boost digital economy through reallocation of data and computing power.
Chinese cloud computing company UCloud (688158) (Chinese: ) announced recently that it will put its computing center in suburban Shanghai into operation in June this year, as the firm seeks to benefit from the countrys gigantic data transmission project.
The Shanghai-based provider of cloud computing services told media that the center, one of the companys two self-built data hubs, is located in Shanghais Qingpu District. The other is in Ulanqab of northern Chinas Inner Mongolia autonomous region and was already operational in July 2021, after construction on the first phase of the project drew to a close.
The two centers aim to make full use of Chinas new strategy of Eastern data, Western Computing, whereby data gathered in the countrys eastern regions will be sent to less prosperous but resource-rich western China for storage and processing.
A remarkable number of clients who transferred computing power servers to western China normally cut their cost by more than 30%, said Ji Xinhua, the CEO of UCloud.
The two new centers are among the eight computing hubs UCloud has deployed nationwide as part of the data transmission project.
The one in Qingpu, covering an area of 27,987 square meters, will accommodate 3,000 computer cabinets in its first phase of the project. The other hub in Ulanqab, a city on the steppe of Inner Mongolia, spans 140,000 square meters, hosting a total of 6,000 cabinets.
UCloud plans a division of labor between the two centers scattered across a distance of about 1,600 kilometers. The Qingpu hub will be used to process orders for corporate clients that require fast responses, such as those from industrial Internet, securities, video call and telemedicine.
As a comparison, the center in Ulanqab, with its cheap electricity and low temperature which helps to cool the equipment, is more suitable for cost-minded users who place an emphasis on data computing and data storage.
To strike a balance between cost and flexibility and expand its global layout, UCloud said it will combine self-constructed centers with the traditional mode of renting Internet Data Center, which is more expensive but faster to deploy.
However, market watchers argue that the company still has much catch-up to do before it can grow into one of the front-runners in cloud computing worldwide. A shortage of talent in western China and limited data transmission capacity may restrain its development, media reported.
Alibaba Cloud and Huawei Cloud also have started constructing computing centers in western China. Stocks of companies related to the east-to-west data relay project have rallied on Chinas A-share market, such as Shanghai Yanhua Smartech (002178) (Chinese: ), a supplier of AI architecture and digital communities, and Shanghai AtHub (603881) (Chinese: ), a data center service provider.
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Cloud Company UCloud to Tap Computing Hub in Shanghai in June to Process Data - EqualOcean
Cloud Computing in Government Market to Witness Astonishing Growth by 2029 | Ellucian, Alphabet corporate ethos – corporate ethos
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The top companies in this report include:All Pro Aluminum Cylinder Heads, Inc., All-heads Services, ThyssenKrupp, DART MACHINERY, Edelbrock, Nemak, Brodix, PAECO IMPORTS, Air Flow Research, Sandvik Coromant.
Various factors are responsible for the markets growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Cylinder Heads market. This report is a consolidation of primary and secondary research, which provides market size, share, dynamics, and forecast for various segments and sub-segments considering the macro and micro environmental factors. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market.
The influence of the latest government guidelines is also analysed in detail in the report. It studies the Cylinder Heads markets trajectory between forecast periods. The cost analysis of the Global Cylinder Heads Market has been performed while keeping in view manufacturing expenses, labour cost, and raw materials and their market concentration rate, suppliers, and price trend.
Global Cylinder Heads Market Segmentation:
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Passenger Vehicle, Commercial Vehicle
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Regions Covered in the Global Cylinder Heads Market Report 2022:The Middle East and Africa(GCC Countries and Egypt)North America(the United States, Mexico, and Canada)South America(Brazil etc.)Europe(Turkey, Germany, Russia UK, Italy, France, etc.)Asia-Pacific(Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)
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Table of Contents
Global Cylinder Heads Market Research Report 2022 2029
Chapter 1 Cylinder Heads Market Overview
Chapter 2 Global Economic Impact on Industry
Chapter 3 Global Market Competition by Manufacturers
Chapter 4 Global Production, Revenue (Value) by Region
Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions
Chapter 6 Global Production, Revenue (Value), Price Trend by Type
Chapter 7 Global Market Analysis by Application
Chapter 8 Manufacturing Cost Analysis
Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers
Chapter 10 Marketing Strategy Analysis, Distributors/Traders
Chapter 11 Market Effect Factors Analysis
Chapter 12 Global Cylinder Heads Market Forecast
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Cloud Computing in Government Market to Witness Astonishing Growth by 2029 | Ellucian, Alphabet corporate ethos - corporate ethos
Assistant Professor, College of Information Technology job with UNITED ARAB EMIRATES UNIVERSITY | 284781 – Times Higher Education
Job Description
Description
The College of Information Technology (CIT) has engaged in an ambitious reorganization effort aiming to harness the prevalence of computing and the rise of artificial intelligence to advance science and technology innovation, for the benefit of society. Under its new structure, the College will serve as the nexus of computing and informatics at the United Arab Emirates University (UAEU). CIT will build on the strength of its current research programs to create new multidisciplinary research initiatives and partnerships, critical to its long-term stability and growth, across and beyond the university campus. CIT will also expand its education portfolio with the creation of new multidisciplinary degree programs, including a BSc. in Artificial Intelligence, a BSc. in a Data Science, a BSc. in Computational Linguistics, jointly with the College of Humanities and Social Sciences, a MSc. in IoT, and a Ph.D. in Informatics and Computing. Also planned is a suite of online Microcredentials in emerging fields of study, including Applied AI, IoT, Cybercrime Law and Digital Forensics, Blockchains, and Cloud Computing. About the Position We seek faculty candidates with strong research record in the areas of cloud computing, distributed computing and fault tolerance, microservices, high-performance computing, with an emphasis on theory/systems aspects in a wide range of fields such as software defined network, virtualization of the network services, and microservices. The successful candidates are expected to complement and enhance the current strength of the College in the areas of emerging computing paradigms and systems architecture including cloud and edge computing, microservice architectures, and to contribute to the teaching and research in these areas. Candidate Qualifications Candidates must hold a Ph.D. degree in computer science, information science or closely related areas from a recognized university.
Preferred qualifications include:
The successful candidates rank will be determined based on current academic position and experience. The positions will remain open until filled. The UAEU and CIT are committed to fostering a diverse, inclusive, and equitable environment and culture for students, staff, and faculty. Application Instructions Applications must be submitted online at https://jobs.uaeu.ac.ae/search.jsp (postings under CIT). The instructions to complete an application are available on the website. A completed application must include: A cover letter reflecting on your interest and alignment with CITs mission; An up-to-date curriculum vitae; A research statement, describing current and future research; A teaching statement, describing teaching philosophy; and The names and contact information for at least three recommenders. About the UAEU The United Arab Emirates University (UAEU) is the first academic institution in the United Arab Emirates. Founded by the late Sheikh Zayed bin Sultan Al Nahyan in 1976, UAEU is committed to innovation and excellence in research and education. As the countrys flagship university, UAEU aims to create and disseminate fundamental knowledge through cutting-edge research in areas of strategic significance to the nation and the region, promote the spirit of discovery and entrepreneurship, and educate indigenous leaders of the highest caliber.
Minimum Qualification
Candidates must hold a Ph.D. degree in computer science, information science or closely related areas from a recognized university. Preferred qualifications include: Established record of high quality research publications in internationally recognized journals and conferences. Demonstrated experience in securing research grants and contracts. Evidence of excellence in teaching and student supervision at the undergraduate and graduate levels. Ability to work collaboratively with faculty across multiple departments and programs. The successful candidates rank will be determined based on current academic position and experience. The positions will remain open until filled.
Preferred Qualification
Strong research record in the areas of cloud computing, distributed computing and fault tolerance, microservices, high-performance computing, with an emphasis on theory/systems aspects in a wide range of fields such as software defined network, virtualization of the network services, and microservices. The successful candidates are expected to complement and enhance the current strength of the College in the areas of emerging computing paradigms and systems architecture including cloud and edge computing, microservice architectures, and to contribute to the teaching and research in these areas.
Expected Skills/Rank/Experience
The successful candidates rank will be determined based on current academic position and experience. The positions will remain open until filled.
Division College of Information Tech. -(CIT)Department Computer &Network Engineering-(CIT)Job Close Date open until filledJob Category Academic - Faculty
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Assistant Professor, College of Information Technology job with UNITED ARAB EMIRATES UNIVERSITY | 284781 - Times Higher Education
My Top 2 Buffett Stocks to Buy and Hold in 2022 (and Beyond) – The Motley Fool
Warren Buffett is one the most successful investors in history. In 1965, he took over Berkshire Hathaway, a holding company that operates across a range of industries, including insurance, railroads, and energy. While it wholly owns several diverse companies, most of Berkshire's GAAP profitscome from its equity portfolio. To that end, Buffett's knack for picking stocks has helped Berkshire's share price grow at an annualized rate of 20.1% since 1965. That's nearly double the 10.5%annualized return generated by the S&P 500.
While any business that Buffett likes is worth consideration, there are two, in particular, that stand out from the crowd: Amazon (NASDAQ:AMZN) and Snowflake (NYSE:SNOW). Both businesses play into major secular trends, but due to recent market volatility, shares of Amazon and Snowflake have fallen 20% and 44%, respectively, from their highs. That creates a buying opportunity for long-term investors.
Here's what you should know about these two top Buffett stocks.
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Enterprises consist of many different departments (e.g. marketing, finance, human resources). And all of those departments rely on different software, which means data is regularly created and stored across multiple systems. That complexity is problematic, as it leads to data silos with limited cross-department accessibility. That's where Snowflake can help.
Its platform -- the Data Cloud -- breaks those barriers, allowing enterprises to integrate and analyze siloed data sets. Clients can harness that power to make informed business decisions, build data-driven applications, and securely share data with partners, all without worrying about the underlying infrastructure. Better yet, Snowflake is cloud-agnostic, meaning it runs across all three major public clouds: Amazon Web Services, Microsoft Azure, and Alphabet's Google Cloud.
If you're not convinced of Snowflake's competitive strength, just take a look at its financial performance. In fiscal 2022 (ended Jan. 31, 2022), its customer base grew 44% to 5,944, and the average customer spent 78%, evidencing the value of the Data Cloud. As a result, revenue skyrocketed 106% to $1.2 billion, and free cash flow came in at $81.2 million, marking the first time Snowflake has generated positive free cash flow on a full-year basis.
In the past year, Snowflake continued to roll out new features and products. For instance, "Powered by Snowflake" is a programthat helps developers build, market, and run applications in the Data Cloud. Early partners include Adobe and Instacart. Similarly, Snowflake continued to grow its industry-specific solutions with the launch of the Media Data Cloud in October, a platform that helps clients like Rokuand The Trade Deskshare data and insights with advertisers.
Looking ahead, the bull case for Snowflake is straightforward: Enterprises generate lots of data, and the ones that can convert that data into actionable insights and powerful applications will thrive. Snowflake makes that possible. To that end, management puts its market opportunity at $90 billion. And while the stock certainly isn't cheap at 64 times sales, it is cheaper than it's ever been before. That's why now looks like a good time to start building a position in this disruptive tech company.
In 2021, Amazon powered 41% of U.S. e-commerce sales, and the secret to that success harkens back to its earliest days. Rather than worrying about the competition, then-CEO Jeff Bezos chose to focus on customer satisfaction. That guiding principle helped him grow the company from an online bookstore (that operated out of his garage) into the world's most visited online marketplace, supported by a logistics network that now delivers more packages than FedEx each year.
Amazon has also shown a flair for innovation. In 2006, the launch of Amazon Web Services (AWS) positioned the company as a first-mover in the nascent cloud computing industry. Microsoft Azure wasn't generally available until 2010. And Amazon has parlayed that edge into a substantial competitive advantage. Research company Gartner recently recognized AWS as the leading provider of cloud infrastructure and platform services, citing a better ability to execute and a stronger growth strategy. Better yet, AWS captured a 33%market share in 2021, up from 32%in 2020.
Despite supply chain headwinds, Amazon still managed to deliver an impressive financial performance over the past year. Revenue rose 22% to $469.8 billion, powered by accelerating sales growth from AWS, and GAAP earnings jumped 55% to $64.78 per diluted share. More importantly, Amazon is well-positioned to maintain that momentum.
In addition to its strength in e-commerce and cloud computing, the company is rapidly gaining ground in the digital advertising market, thanks to the popularity of its online marketplace, as well other content platforms like Amazon Fire TV and Twitch. Last year, the company took 11.6% of U.S. digital ad spend, but eMarketer believes that figure will reach 14.6% by 2023. In short, Amazon is a titan in several high-growth industries, and the company is still expanding into new markets. That's why this stock belongs in your portfolio.
This article represents the opinion of the writer, who may disagree with the official recommendation position of a Motley Fool premium advisory service. Were motley! Questioning an investing thesis -- even one of our own -- helps us all think critically about investing and make decisions that help us become smarter, happier, and richer.
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My Top 2 Buffett Stocks to Buy and Hold in 2022 (and Beyond) - The Motley Fool
Cloud computing market to hit $1.95 trillion by 2032 – IT PRO
The global cloud computing market is projected to reach a valuation of $1.95 trillion by 2032, according to a new report from market intelligence firm Fact.MR.
A compound annual growth rate (CAGR) of 15% is anticipated for the market between 2022 and 2032, owing to the rapid digitization of workplaces and the increasing demand for software as a service (SaaS) applications.
Commenting on the 12% CAGR of cloud-based services from 2015 to 2021, Fact.MR said the COVID-19 pandemic spurred the adoption of cloud computing, as enterprises enforced widespreadwork from home policies.
With the proliferation of infrastructure as a service (IaaS), platform as a service (PaaS), and SaaS-based solutions, the market for cloud computing has grown significantly. Adobe, Alibaba Group, and Amazon are among the top market players.
Accordingly, cloud computing solutions in North America are expected to account for 40% of the global revenue in 2022. The region is dominated by global technology giants like Microsoft, Oracle, and Amazon, who have been early adopters of cloud technology, including big data analytics, Internet of Things (IoT), additive manufacturing, artificial intelligence (AI), virtual reality (VR), augmented reality (AR), and machine learning, all of which have vastly impacted the market.
With a CAGR of 18%, the APAC market is forecast to grow the fastest during the forecast period. Emerging economies such as India and China are likely to contribute to the growth in the region.
For instance, Alibaba Group's fast-paced expansion and Make in India initiatives have been notable factors facilitating market size growth in the APAC region. A number of cloud computing service providers, including Amazon, Microsoft, and Google LLP, have also initiated plans to strengthen their presence in Thai and Indonesian markets.
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Cloud computing market to hit $1.95 trillion by 2032 - IT PRO
This Cloud Computing Bear ETF Is up Over 40% – ETF Trends
Cloud computing was one of the darlings during the height of the pandemic in 2020. The air may finally be coming out of that balloon, highlighted by the weakness in this tech sub-sector as of late.
The ISE CTA Cloud Computing Index is down 17% in 2022 after rising 10% in 2021. The index started to falter around mid-November and subsequently fell 11% through the end of the year.
Bearish traders who were able to profit from that move were rewarded nicely. CLDS rose over 30% following the sectors weakness.
As mentioned, cloud computing saw its strength multiply amid the start of the pandemic. Social distancing measures forced a heavier reliance on the internet, allowing companies to make the move to more online services.
As such, cloud computing saw its subsequent rise, as evident in the same ISE CTA Cloud Computing Index. The index rose 26% between April 1, 2020, through the middle of November 2021.
Its difficult to fathom that this trend, or any trend, will persist. Cloud computing is still a prime growth option that many companies have still yet to capitalize on with respect to their core business operations.
In a world where adapt or die is even more relevant than ever with respect to technology, cloud computing should also prosper. However, until it starts showing signs of a comeback, bearish traders can play into the weakness.
^ISECTACC data by YCharts
As bearishness permeates in the cloud computing space, one way to capture the downtrend and profit is the Daily Cloud Computing Bull and Bear 2X Shares ETFs (CLDS). The bearish sentiment in the industry is readily apparent, given that the fund is up about 45% on the year.
The fund seeks to achieve 200%, or 200% of the inverse, of the daily performance of the IndxxUSACloud Computing Index. The index includes domestic companies that deliver cloud computing infrastructure.
CLDS data by YCharts
For more news, information, and strategy, visit theLeveraged & Inverse ETF Channel.
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This Cloud Computing Bear ETF Is up Over 40% - ETF Trends
The future of VDI and cloud computing in 2022 – ITProPortal
Remote work has dug its heels into the labour force and is likely here to stay. Businesses now recognise that offering flexible work styles is key; and yet, its not just about allowing employees to work remotely.
Its also about empowering them to do their best work from wherever they are.
Companies that thrive in the remote work landscape will be those that make critical investments in helping their employees maximise efficiency while away from the office. Cloud services in particular are a crucial enabler of remote work that can facilitate employee productivity and happiness.
While cloud services might be the backbone of remote work, there are additional technologies that can be leveraged to upgrade a companys remote work capabilities.
VDI, or Virtual Desktop Infrastructure, allows employees within the same company to access their network quickly and securely, eliminating the stress of getting everyone on the same page when they work from home. With almost half (45%) of all employees now working remotely as a result of COVID-19, VDI has seen a big uptick in adoption.
As remote work becomes more widespread and facilitated, technologies that enable working from home like VDI will be more important for a company to index into.
In a survey conducted by Parallels to understand the state of virtual desktop infrastructure (VDI) and cloud computing 31.3% of respondents cited the ability to enable remote work as the most important reason for choosing VDI workloads, 24.1% of respondents cited security as the most important reason, and the third most important reason, at 18.8%, was as an enabler of flexible working, such as working from any device.
Employees often dont have the same level of cybersecurity at home as they do in the office, so whatever company data they access using personal devices becomes more vulnerable to malicious cyberattacks. It doesnt help that 30% of remote workers under the age of 24 say that they circumvent or ignore certain corporate security policies when those policies get in the way of getting work done.
Cybercrime has seen a massive uptick since the start of the pandemic and is expected to continue to wreak havoc on businesses throughout 2022 and beyond. For context, Forbes predicts that ransomware costs will exceed $265 billion by 2031. Cybersecurity is a massive business, and minimising the risk of breaches is a significant reason why a business might adopt a VDI solution for their employees.
In a VDI environment, data is stored in a central location rather than spread across users personal devices. That central location (e.g., a data center or a public cloud environment) is easier to secure than hundreds or thousands of personalendpoints, so data is easier to protect. Since applications and desktops are hosted in that same central location, theyre also easier for IT teams to harden, patch, and defend.
A VDI-solution enables end-users to securely access virtual applications and desktops from any location or device: desktop or laptop PCs, tablets, and even mobile phones.
That way employees can easily access all their files, data and applications as if they were running locally, and work from anywhere. The ability to smoothly swap collaborative documents between team members across a wide range of different devices, even old ones, is a vital aspect of efficient and productive remote work.
There is also no need to acquire new or upgrade existing hardware regularly. Users who practice BYOD, or Bring Your Own Device, can access the VDI at any time.
Despite myriad benefits, adopting a VDI solution to improve work from home efficacy isnt always plain sailing. There are common problems that may hinder VDI adoption. Parallels finds that the most common source of VDI issues occurs with applications and their updates.Coming in second is the network (14.2%), followed by the operating system (11.3%), and finally the endpoint device itself (10.4%).
Naturally, the more complex a VDI solution is, the more likely it is that users will encounter a problem somewhere along the line. For a technology that is meant to improve a workers ability to work from homereliably, this presents a crucial consideration when choosing a VDI provider. In short, businesses should look for VDIs with a simple architecture to minimise potential problems.
Problems are unavoidable in almost any technology, so rather than looking for an ideal solution, it becomes more important to look for the least problematic.A survey conducted of customers who already use VDI shows thatthe highest percentage of respondents (42.5%) spend less than one day per month troubleshooting VDI performance issues, while 38.6% spend one to three days. These companies may be using VDI solutions with a simpler architecture that dont add much extra time to their IT teams workload.
Another obstacle to overcome in the adoption of VDI is that it requires a certain level of skill to equip and maintain. Professionals with a sufficiently high level of IT capability to manage a VDI system are in high demand, and it can take up to 50 staff to maintain a VDI system.
That said, 50 is the highest end of the spectrum, and most companies only require five or fewer staff to cover the maintenance of their VDI. Some businesses have chosen to outsource this task. Depending on the current level of a companys IT staff, it can be difficult to assess whether or not maintaining a VDI solution is feasible, or whether the company will also have to invest in training their employees.
Again, this problem highlights the importance of choosing a simple, intuitive, and user-friendly VDI solution that doesnt require complicated servicing.
VDI represents a scalable solution that enables working from home, and as remote work becomes more common, choosing the right VDI solution will become more important.
There are many factors to consider when deliberating: How secure is it? Is it simple enough that my current IT staff can manage and maintain it? Will I need to invest in training, and how much time will be spent fixing problems that arise from this technology?
Christa Quarles is CEO at Corel.
Read more:
The future of VDI and cloud computing in 2022 - ITProPortal
Cloud Computing in Automotive Market Revenues to Soar to $XX Billion by 2028 NA ZNews Africa – ZNews Africa
Introduction and Scope
Cloud Computing in Automotive Market research is an intelligence report with meticulous efforts undertaken to study the right and valuable information. The data which has been looked upon is done considering both, the existing top players and the upcoming competitors. The Cloud Computing in Automotive market research analysis covers ideas, classifications, implementations, industry chain structure, and a basic review of the area. The exact investigation of Cloud Computing in Automotive implementations utilized in market analysis. The report emphasizes significant segment characteristics such as increasing US dollar demand by end-user segments and business size, as well as adjustments in the target market. It also gives data on the volume and significance of several Cloud Computing in Automotive sub-segments of the corporate field. Cost and implementation methods, as well as growth objectives and recommendations, are frequently discussed in the research.
The influence of the latest government guidelines is also analysed in detail in the report. It studies the Cloud Computing in Automotive markets trajectory between forecast periods. The cost analysis of the Global Cloud Computing in Automotive Market has been performed while keeping in view manufacturing expenses, labour cost, and raw materials and their market concentration rate, suppliers, and price trend.
Development policies and plans are discussed, and manufacturing processes and industry chain structures are analyzed. This report also gives the import/export, supply, and consumption figures, as well as manufacturing costs and global revenues, and gross margin by region. Numerical data is backed up with statistical tools such as SWOT analysis, BCG matrix, SCOT analysis, and PESTLE analysis. Statistics are presented in graphical form to provide a clear understanding of the facts and figures.
Global Cloud Computing in Automotive market competition by TOP MANUFACTURERS, with production, price, revenue (value) and each manufacturer including: NA
Results of the recent scientific undertakings towards the development of new Cloud Computing in Automotive products have been studied. Nevertheless, the factors affecting the leading industry players to adopt synthetic sourcing of the market products have also been studied in this statistical surveying report. The conclusions provided in this report are of great value for the leading industry players. Every organization partaking in the global production of the Cloud Computing in Automotive market products have been mentioned in this report, in order to study the insights on cost-effective manufacturing methods, competitive landscape, and new avenues for applications.
This report contains a thorough analysis of the pre and post pandemic market scenarios. This report covers all the recent development and changes recorded during the COVID-19 outbreak.
Market Trends
The growing population of sports enthusiasts, coupled with the rising number of regional and international sports leagues, have fueled the demand for Cloud Computing in Automotive. Additionally, the market is also catalyzed by rapid urbanization, along with the growing popularity of the online retail sector. The emergence of e-commerce has boosted the sales of a wide variety of legitimate premium-quality merchandise along with providing a seamless shopping experience to consumers at competitive prices. Moreover, the increasing penetration of breathable, lightweight, and waterproof sports apparel and accessories has led to their rising adoption as casual and gym wear. Additionally, the elevating consumer living standards supported by their increasing disposable income levels have further propelled the demand for premium sports products. Besides this, the rising investments in sports licensing across the globe are anticipated to impel the market growth in the coming years.
Global Cloud Computing in Automotive market is segmented based by type, application and region.
Based on Type, the market has been segmented into: Amazon Web Services, Microsoft Azure, and Google Cloud Platform
Based on application, the market has been segmented into:
Regional Analysis For Cloud Computing in Automotive Market
North America (the United States, Canada, and Mexico)
Europe (Germany, France, UK, Russia, and Italy)
Asia-Pacific (China, Japan, Korea, India, and Southeast Asia)
South America (Brazil, Argentina, Colombia, etc.)
The Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)
The objectives of the report are:
To analyze and forecast the market size of Cloud Computing in Automotive Industry in the global market.
To study the global key players, SWOT analysis, value and global market share for leading players.
To determine, explain and forecast the market by type, end use, and region.
To analyze the market potential and advantage, opportunity and challenge, restraints and risks of global key regions.
To find out significant trends and factors driving or restraining the market growth.
To analyze the opportunities in the market for stakeholders by identifying the high growth segments.
To critically analyze each submarket in terms of individual growth trend and their contribution to the market.
To understand competitive developments such as agreements, expansions, new product launches, and possessions in the market.
To strategically outline the key players and comprehensively analyze their growth strategies.
Key questions answered in the report:
1. What is the growth potential of the Cloud Computing in Automotive market?
2. Which product segment will take the lions share?
3. Which regional market will emerge as a pioneer in the years to come?
4. Which application segment will experience strong growth?
5. What growth opportunities might arise in the Cloud Computing in Automotive industry in the years to come?
6. What are the most significant challenges that the Cloud Computing in Automotive market could face in the future?
7. Who are the leading companies on the Cloud Computing in Automotive market?
8. What are the main trends that are positively impacting the growth of the market?
9. What growth strategies are the players considering to stay in the Cloud Computing in Automotive market?
About Us
Adroit Market Research is an India-based business analytics and consulting company incorporated in 2018. Our target audience is a wide range of corporations, manufacturing companies, product/technology development institutions and industry associations that require understanding of a markets size, key trends, participants and future outlook of an industry. We intend to become our clients knowledge partner and provide them with valuable market insights to help create opportunities that increase their revenues. We follow a code Explore, Learn and Transform. At our core, we are curious people who love to identify and understand industry patterns, create an insightful study around our findings and churn out money-making roadmaps.
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Cloud Computing in Automotive Market Revenues to Soar to $XX Billion by 2028 NA ZNews Africa - ZNews Africa