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Computing Revenue Soars, But ‘WCLD’ Is Already in the Clouds – ETF Trends

January 31, 2021 | Author: admin

The WisdomTree Cloud Computing ETF (WCLD) was the star of cloud computing exchange traded funds last year. It has more to give in 2021.

The WisdomTree Cloud Computing Fund seeks to track the price and yield performance, before fees and expenses, of the BVP Nasdaq Emerging Cloud Index, an equally weighted index designed to measure the performance of emerging public companies focused on delivering cloud-based software to customers.

Public cloud revenue is one of the many catalysts that can spark more upside for WCLD this year.

According to data presented by Finaria, public cloud revenues jumped by 25% year-over-year amid the COVID-19 crisis and hit $271.9bn in 2020. The increasing trend is set to continue this year, with revenues growing by another 25% YoY to $338b, notes Finaria.

The cloud computing industry refers to companies that (i) license and deliver software over the internet on a subscription basis (SaaS), (ii) provide a platform for creating software applications which are delivered over the internet (PaaS), (iii) provide virtualized computing infrastructure over the internet (IaaS), (iv) own and manage facilities customers use to store data and servers, including data center Real Estate Investment Trusts (REITs), and/or (v) manufacture or distribute infrastructure and/or hardware components used in cloud and edge computing activities.

As more business models look to technology amid social distancing, cloud computing will only grow to greater heights. Prior to the pandemic, businesses were already transitioning to the cloud to streamline their processes.

Today, billions of people use cloud storage to manage and store private data. However, its ability to provide access to computing power that would otherwise be extremely expensive has seen cloud computing technology spread widely in the business sector, also, notes Finaria. Examples of cloud computing use can be found practically everywhere, from messaging apps, social networking, and streaming services to business processes, office tools, lending platforms, or chatbots.

Cloud computing has been a boon for companies that have been able to capitalize on the increased work-from-home labor force.

The COVID-19 and the shift to remote work and video conferencing accelerated moves to the cloud in 2020, with annual revenues rising by more than $55bn. Statista data indicate the global public cloud market is expected to hit a $500 billion benchmark in the next two years and continue rising to $679.5bn value by 2025, concludes Finaria.

For more on innovative portfolio ideas, visit our Nasdaq Portfolio Solutions Channel.

The opinions and forecasts expressed herein are solely those of Tom Lydon, and may not actually come to pass. Information on this site should not be used or construed as an offer to sell, a solicitation of an offer to buy, or a recommendation for any product.

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Global Cloud Computing in Education Sector Market : Industry Analysis and Forecast (2019-2026) by Type, Application, and Region – The Courier

January 31, 2021 | Author: admin

Wide-ranging Cloud Computing in Education Sector Market Research Report by Syndicate Market Research

The Cloud Computing in Education Sector research report is a specialized and detailed analysis of the presentsituation of the global Cloud Computing in Education Sector marketwith an emphasis on the regional market. The decisive data on the status of the Cloud Computing in Education Sector market is covered in this report and also serves as a valuable resource of direction and guidance for individuals and companies interested in the industry.

Overview of Cloud Computing in Education Sector report in the global market:

The report offers a basic summary of the Cloud Computing in Education Sector market entailing its definition, classifications, and applications as well as looks at the regional and international key players Rackspace, IBM, Baidu Yun, Verizon Cloud, NetApp, Tencent Cloud, Adobe Systems, Salesforce, Oracle, Aliyun, Amazon Web Services, SAP, Microsoft Azure, Dell EMC, Blackboard, Google Cloud Platform within the Cloud Computing in Education Sector market comprehensively. Here, the report represents the company profile, capacity, product specifications, market shares, and production value for every company.

Click HereTo Get Free Sample Cloud Computing in Education Sector Market Report Now!

Obtain summarized research report with Table of Content including in it

Diversified Classification:

The main regions North America(U.S., Canada, Rest of North America), Europe(UK, Germany, France, Italy, Spain, Rest of Europe), Asia Pacific(China, Japan, India, Southeast Asia, Rest of Asia Pacific), Latin America(Brazil, Argentina, Rest of Latin America), Middle East and Africa(GCC Countries, South Africa, Rest of Middle East & Africa) in Cloud Computing in Education Sector the market that have a scope of growth & a number of avenues and the key patterns impacting the growth of the global Cloud Computing in Education Sector market have been discussed within this report.

Key Points of Cloud Computing in Education Sector Market:

What does the research study actually contain? And why you should buy the Report?

This analysis entails the wide-ranging use of primary as well as secondary data resources. The study process encompasses the analysis of a number of factors impacting the Cloud Computing in Education Sector market, entailing the market environment, government policy, historical data, competitive landscape, existing market trends, upcoming technologies, technological innovation, the technical progress in associated industry, and opportunities, market risks, market obstacles, and challenges.

Read complete report with TOC and, get a sample ofCloud Computing in Education Sector Report @https://www.syndicatemarketresearch.com/market-analysis/cloud-computing-in-education-sector-market.html

Segments Classification:

The aim of the report is to define Cloud Computing in Education Sector market sizes of diverse segments [Product Types:Infrastructure as a Service (IaaS), Platform as a Service (PaaS), Software as a Service (SaaS); Manipulation as per user demand: K-12 Schools, Higher Education ] and countries in the past years and also to estimate the values for the forecast period. The Cloud Computing in Education Sector report is intended to include both quantitative and qualitativefacets of the Cloud Computing in Education Sector marketpertaining to every country and region involved in the analysis.

Whats more in the report?

In addition, the report also provides thorough data relating to the vital aspects like restraining and drivers factors that will delineate the future growth of the Cloud Computing in Education Sector market. Lastly, it will also include the opportunities offered in micro-markets for shareholders to invest, a comprehensive study of product offerings, and the competitive landscape of prominent players.

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Healthcare Cloud Computing Market Booming Demand Leading To Exponential CAGR Growth By 2027 KSU | The Sentinel Newspaper – KSU | The Sentinel…

January 31, 2021 | Author: admin

Databridgemarketresearch.com Present Healthcare Cloud Computing Market Industry Trends and Forecast to 2027 new report to its research database. The research report released by Data Bridge Market research provides the market segmentation based on type, market size, Product launches and applications. It identifies the global adoption of the products as one of the growth factors, driven by the availability of the product. The global research report gives the brief summary of the leading players operating in the market, their product offering, key developments, investments feasibility and returns. This Healthcare Cloud Computing Market report which is outcome of the ultimate dedication of industry experts, has an abundance of data that can profit anybody, regardless of their business or academic interest.

The Healthcare Cloud Computing Market report provides an in depth analysis of the market in terms of revenue and emerging market trends. This market research report also includes up to date analysis and forecast for various market segments and all geographic regions including North America, South America, Asia and Pacific Region, Middle east and Africa and Europe. The report also features the revenue; industry size, share, production volume, and consumption in order to gain insights about the politics and tussle of gaining control of a huge chunk of the market share.

Global healthcare cloud computing market is expected to gain market growth in the forecast period of 2020 to 2027. Data Bridge Market Research analyses the market to account to USD 83.66 billion by 2027 growing at a CAGR of 17.25% in the above-mentioned forecast period. The growing expenditure inhealthcare IT sectoris driving the growth of the healthcare cloud computing market.

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Growing popularity for SAAS model, advantages derived from using cloud computing in healthcare IT, speeding up the data or document processing in healthcare facilities will likely to accelerate the growth of the healthcare cloud computing market in the forecast period of 2020-2027. On the other hand, use of block chain technology in the health cloud, formation of accountable care organizations and emergence of thetelecloudwill further boost various opportunities that will lead to the growth of the healthcare cloud computing market in the above mentioned forecast period.

Concerns over the security of patient information relating to privacy and data along with issues related to interoperability & standardization of cloud migration towards legacy systems are going to impede the growth of the healthcare cloud computing market in the above-mentioned forecast period.

This healthcare cloud computing market report provides details of new recent developments, trade regulations, import export analysis, production analysis, value chain optimization, market share, impact of domestic and localised market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographical expansions, technological innovations in the market. To gain more info on healthcare cloud computing market contactData Bridge Market Researchfor anAnalyst Brief,our team will help you take an informed market decision to achieve market growth.

This credible Global Healthcare Cloud Computing Market research report provides productive ideas with which product can be made more effective and striking in the competitive market. The report highlights the change in the market which is taking place due to the moves of key players and brands such as product launches, joint ventures, mergers and acquisitions that in turn changes the view of the global face of industry. Global Healthcare Cloud Computing Market research study analyzes the market status, growth rate, future trends, market drivers, opportunities and challenges, risks and entry barriers, sales channels, and distributors.

Global Healthcare Cloud Computing Market, By Component (Hardware, Services), Application (Clinical Information Systems, Non-clinical Information Systems), Service Model (Software-As-A-Service, Infrastructure-As-A-Service, Platform-As-A-Service), Deployment (Private Cloud, Public Cloud, Hybrid Cloud), Pricing Model (Pay-As-You-Go, Spot Pricing Model), End User (Healthcare Providers, Healthcare Payers), Country (U.S., Canada, Mexico, Germany, Italy, U.K., France, Spain, Netherland, Belgium, Switzerland, Turkey, Russia, Rest of Europe, Japan, China, India, South Korea, Australia, Singapore, Malaysia, Thailand, Indonesia, Philippines, Rest of Asia- Pacific, Brazil, Argentina, Rest of South America, South Africa, Saudi Arabia, UAE, Egypt, Israel, Rest of Middle East & Africa) Industry Trends and Forecast to 2027

Major Market Drivers and Restraints:

Competitive Landscape and Healthcare Cloud Computing Market Share Analysis

Healthcare cloud computing market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, global presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies focus related to healthcare cloud computing market.

The major players covered in the healthcare cloud computing market report are CareCloud Corporation, Carestream Health, ClearDATA, Dell, NetDepot.com LLC, IBM Corporation, Iron Mountain Incorporated, IBM Watson Health, Cisco Systems Inc., HP Development Company, L.P., Microsoft, VMware, Inc., Salesforce.com, inc., ClearDATA, SYNOPTEK, LLC., Cisco, Oracle, GE healthcare, CitiusTech Inc., Napier Healthcare Solutions Pte. Ltd., HealthAsyst, Optum, Inc., McKesson Corporation, 3M, Omnicell, Inc., Ciox Health, Wipro, Nuance Communications, Inc., Infosys Limited, Cognizant, among other domestic and global players. Market share data is available for Global, North America, Europe, Asia-Pacific (APAC), Middle East and Africa (MEA) and South America separately. DBMR analysts understand competitive strengths and provide competitive analysis for each competitor separately.

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Table of Contents-Snapshot Executive SummaryChapter 1 Industry OverviewChapter 2 Industry Competition by ManufacturersChapter 3 Industry Production Market Share by RegionsChapter 4 Industry Consumption by RegionsChapter 5 Industry Production, Revenue, Price Trend by TypeChapter 6 Industry Analysis by ApplicationsChapter 7 Company Profiles and Key Figures in Industry BusinessChapter 8 Industry Manufacturing Cost AnalysisChapter 9 Marketing Channel, Distributors and CustomersChapter 10 Market DynamicsChapter 11 Industry ForecastChapter 12 Research Findings and ConclusionChapter 13 Methodology and Data Source

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Market Definition:Global Healthcare Cloud Computing Market

This market report defines the market trends and forecast the upcoming opportunities and threats of the healthcare cloud computing market in the next 8 years. Cloud computing is used for the delivery of hosted services over the internet. The healthcare industry market has changed significantly with the growing impact of consumerism, digitalization, preventative healthcare and regulations. A shift in cloud computing which is playing a prominent role in healthcare IT is expected to accelerate the global healthcare industry in the future. Cloud and big data services can be used to track various diseases map them geospatially and inform the population where risk exists. Few tools that exist in the healthcare marketplace today include Centers for Disease Control and Prevention (CDC), IBM Explorys, McKesson, eClinicalWorks, Cerner, IBM Phytel Population Health Management among others. Cloud computing in healthcare is used for population health management, care management support, image handling services, diagnostic support, medical practitioner assistance, patient connectivity, data distribution services laboratory services, clinical research and many more. Numerous standards are applied to different aspects of healthcare solutions which are required for customers to understand the available standards and to understand whether cloud services are attached to relevant standards for the capabilities provided. For instance, in the U.S., every healthcare entity such as hospital, university research facility, physicians office, that deals with (Protected Health Information) PHI must adhere to the guidelines stipulated by Health Insurance Portability and Accountability Act (HIPAA).

Healthcare Cloud Computing Market Country Level Analysis

Healthcare cloud computing market is analysed and market size insights and trends are provided by country, component, application, service model, deployment, pricing model and end user as referenced above.

The countries covered in the healthcare cloud computing market report are U.S., Canada and Mexico in North America, Germany, France, U.K., Netherlands, Switzerland, Belgium, Russia, Italy, Spain, Turkey, Rest of Europe in Europe, China, Japan, India, South Korea, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), Brazil, Argentina and Rest of South America as part of South America.

North America dominates the healthcare cloud computing market due to growing adoption of electronic health records (EHRs) among medical professionals, the incentive-driven approach of government health IT programs and active participation by private sector players in the industrial development of this region, while Europe is expected to grow at the highest growth rate in the forecast period of 2020 to 2027 due to increasing awareness regarding the availability of superior quality healthcare cloud computing solutions and growing geriatric population susceptible to several diseases increases the number of hospital admissions that are going to boost the demand.

The country section of the healthcare cloud computing market report also provides individual market impacting factors and changes in regulation in the market domestically that impacts the current and future trends of the market. Data points such as consumption volumes, production sites and volumes, import export analysis, price trend analysis, cost of raw materials, down-stream and upstream value chain analysis are some of the major pointers used to forecast the market scenario for individual countries. Also, presence and availability of global brands and their challenges faced due to large or scarce competition from local and domestic brands, impact of domestic tariffs and trade routes are considered while providing forecast analysis of the country data.

Healthcare Infrastructure growth Installed base and New Technology Penetration

Healthcare cloud computing market also provides you with detailed market analysis for every country growth in healthcare expenditure for capital equipments, installed base of different kind of products for healthcare cloud computing market, impact of technology using life line curves and changes in healthcare regulatory scenarios and their impact on the healthcare cloud computing market. The data is available for historic period 2010 to 2018.

Thanks for reading this article, you can also get individual chapter wise section or region wise report version like North America, Europe or Asia.

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An absolute way to forecast what future holds is to comprehend the trend today!Data Bridge set forth itself as an unconventional and neoteric Market research and consulting firm with unparalleled level of resilience and integrated approaches. We are determined to unearth the best market opportunities and foster efficient information for your business to thrive in the market. Data Bridge endeavors to provide appropriate solutions to the complex business challenges and initiates an effortless decision-making process.

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Paycom Named One of the Nation’s Top Workplaces – Web Hosting | Cloud Computing | Datacenter | Domain News – Daily Host News

January 31, 2021 | Author: admin

OKLAHOMA CITY(BUSINESS WIRE)Paycom Software, Inc. (NYSE:PAYC), a leading provider of comprehensive, cloud-based human capital management software, ranked third on the inaugural 2021 Top Workplaces USA list of organizations with over 2,500 employees.

This award is a testament to our innovative coworkers, who even in challenging times continue to elevate our technology, service and culture, said Paycoms founder and CEO, Chad Richison. I am incredibly proud of all weve achieved this year and know together we have a very bright future ahead of us.

Paycom also earned the No. 1 spot in Oklahomas Top Workplaces list released in December. It marked the eighth consecutive year Paycom made the list of the Sooner States top employers.

The annual Top Workplaces rankings are based solely on employee feedback gathered through a third-party survey. The anonymous survey uniquely measures 15 drivers of engaged cultures that are critical to the success of any organization, including alignment, execution and connection.

This is the inaugural year for Top Workplaces USA, built on the programs 14-year history surveying more than 20 million employees across 54 markets for the regional Top Workplaces awards.

About Paycom

As a leader in payroll and HR technology, Oklahoma City-based Paycom redefines the human capital management industry by allowing companies to effectively navigate a rapidly changing business environment. Its cloud-based software solution is based on a core system of record maintained in a single database for all human capital management functions, providing the functionality that businesses need to manage the complete employment life cycle, from recruitment to retirement. Paycom has the ability to serve businesses of all sizes and in every industry. As one of the leading human capital management providers, Paycom serves clients in all 50 states from offices across the country.

Contacts

Jason Bodin

1-800-580-4505

media@paycom.com

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Critical: Pre and Post COVID-19 impact on the Cognitive Cloud Computing Market KSU | The Sentinel Newspaper – KSU | The Sentinel Newspaper

January 31, 2021 | Author: admin

According to globalcognitive cloud computing marketanalysis by Research Dive, the global market is anticipated to reach $108,788.7 million till 2027 at a 31.3% CAGR, rising from $11,530.0 million by 2019.

Cognitive Cloud Computing Market, COVID-19 Effect:

The COVID-19 emergency is expected to have positive effect on the global cognitive cloud computing market growth in 2020. The COVID-19 outbreak is perhaps the utmost healthcare challenge of the past century globally. In such situations, natural language processing (NLP), deep learning and big data techniques have played a significant role in the drug discovery as well as detection and monitoring of virus effected patients. NLP technique enables the researchers and scientists to access information from various sources such as scientific publications, previous clinical trial records, internal sources, and others to find most effective way for treating the virus-affected patients. Also, NLP technique with cognitive computing has a potential role in finding the risk factors involved in the COVID-19 spread and hotspots based on infection rate. These aspects are projected to have a positive impact on the global market growth in the emergency period.

Cognitive Cloud Computing Market, Overview:

Rising demand for cognitive cloud computing technologies from various businesses such as financial institutions, healthcare and retail to modernize their organization activities through most innovative technologies such as machine learning, natural language processing and others is estimated to boost the growth of the market in the forecast timeframe. Also, cognitive computing models playing a major role in the investigation of large volumes of organization data in real time and suggest advanced solutions for business growth is further estimated to boost the growth of the market in the prediction time. In addition, rapid growth in the implementation of cognitive cloud computing tools in news industry because of applications such as image & speech recognition, in-depth text understanding, detection of expression and emotion and many other abilities is further anticipated to surge the market growth in the review time. In addition, rising incorporation of AI in cognitive cloud computing technologies to provide enhanced solutions for business growth is anticipated to generate huge prospects for the growth of the market in the near future. However, huge installation and maintenance cost for the cognitive cloud computing models is expected to be a major restraint for the growth of the market.

Cognitive Cloud Computing Market, Segmentation Analysis:

The machine learning (ML) technology is predicted to witness a significant growth and is estimated to rise at a healthy CAGR of 30.3% during the analysis period. Increasing demand for ML with cognitive computing technologies in computer program development is predicted to bolster the market growth in the forecast period. This growth is mainly owing to ML with cognitive cloud computing tools offering computers with the capability to continuing learning to build innovative models to meet customer demands by analyzing the correlations between the consumer demand and requirements. This aspect is predicted to grow demand for ML technologies and propel the growth of the market in the forecast years.

Large enterprises sub-category was the highest revenue contributor of the global cognitive cloud computing market in the past decades and is expected to continue its rise at a healthy rate of 30.7% CAGR during the estimated time. Wide utilization of cognitive cloud computing technologies in the large enterprises to improve customer experience by implementing innovative cloud computing abilities to their business activities is estimated to impel market growth during the estimated timeframe. Moreover, SMEs sub-segment is estimated to grow at a rapid pace with a 32.4% CAGR and is estimated to generate a revenue of $35,077.7 million till 2027. Government initiatives to support SMEs to adopt innovative technologies like chatbots to ensure improved user services for gaining customers interest is estimated impel the market growth in the forecast time.

In the past decades, healthcare industry accounted for majority of the cognitive cloud computing market share, which was about 19.1% and is anticipated to rise at a highest rate of 32.5% CAGR during the forecast time. Cognitive computing platforms offering better treatment to patients are playing a significant role in better diagnosis for quicker recovery of patients, which is predicted to accelerate the growth of the market in the analysis time. Retail industry vertical is expected to witness a notable growth and is anticipated to grow at a CAGR of 32.1% in the analysis time. Rising adoption of cognitive cloud computing technologies by retail companies to revolutionize their organizational operations is estimated to accelerate the market growth in the analysis period.

North America was a significant revenue contributor of the global cognitive cloud computing market in 2019 and is estimated to retain its growth at a CAGR of 30.0% during the forecast years. This dominance is owing to early adoption of cognitive cloud computing technologies by the industry verticals because of technological advancements like IoT and 5G services that have encouraged many companies to adopt cognitive cloud computing in the North America. Furthermore, Asia-Pacific cognitive cloud computing market will experience a remarkable growth during the forecast period and is estimated to account for $31,548.7 million by 2027, at a CAGR of 32.5%. Government initiative to support modernization of infrastructure towards adoption of cognitive computing technologies especially in developing economies such as India and China to provide enhanced solutions for the business growth is predicted to propel the market growth in the Asia-Pacific.

Cognitive Cloud Computing Market, Significant Market Players:

These players are continuously concentrating on product advancements and new technology introduction by investing into R&D activities to reach major position in the global market.

Porters Five Forces Analysis for Cognitive Cloud Computing Market:

About Us:Research Dive is a market research firm based in Pune, India. Maintaining the integrity and authenticity of the services, the firm provides the services that are solely based on its exclusive data model, compelled by the 360-degree research methodology, which guarantees comprehensive and accurate analysis. With unprecedented access to several paid data resources, team of expert researchers, and strict work ethic, the firm offers insights that are extremely precise and reliable. Scrutinizing relevant news releases, government publications, decades of trade data, and technical & white papers, Research dive deliver the required services to its clients well within the required timeframe. Its expertise is focused on examining niche markets, targeting its major driving factors, and spotting threatening hindrances. Complementarily, it also has a seamless collaboration with the major industry aficionado that further offers its research an edge.

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Tercera Looks to Accelerate Technology Professional Services Businesses Specializing in the Third Wave of Cloud Computing – PRNewswire

January 31, 2021 | Author: admin

The company, which is led by a team of seasoned investors and advisors who are deeply ingrained in professional services, is on a mission toempower the people and businesses who make technology work. Spanish for Third, Tercera provides those leading the cloud's Third Wave with the capital, counsel and connections they need to scale faster, do more and achieve outsized outcomes in today's digital age.

CEO Chris Barbin founded Tercera based on his experiences as the co-founder and CEO of Appirio and his recent work as a Venture Partner at GGV Capital. Appirio, a pioneer in cloud services, was among the first enterprise services partners of Salesforce, Google, Workday and AWS. Barbin led Appirio to be one of the largest cloud consultancies before it was acquired in 2016 for $500 million. The Tercera team is seeking to help other services companies achieve similar success in a market segment that has been historically neglected by other investment firms.

"We believe the professional services space has been underserved by investors for too long, especially as it becomes clear just how important these partners are to customer adoption and market growth," said Chris Barbin, founder and CEO of Tercera. "Cloud professional services is already a massive market opportunity, growing more than 20 percent year over year. With the pandemic driving more digital connections with customers, partners and employees, and enterprise cloud adoption happening faster than expected, we believe this market is poised for significant growth over the next few years."

"Businesses rely on cloud computing like never before and it underpins so much of the innovation happening in technology, so it's not surprising cloud professional services are booming on G2," said Godard Abel, founder & CEO of G2, the world's largest B2B tech marketplace. "Businesses are in dire need of systems integrators and managed service providers who can help them manage their increasingly large and complex cloud deployments, and yet the capital flowing into this space has significantly lagged investment in the technologies themselves. Tercera fills a gaping hole in this area, and we'll be closely watching the firm's portfolio in the coming years."

Trilantic North America, a private equity firm that manages aggregate capital commitments of $9.7 billion, partnered with Chris to form Tercera, joined by a network of individual investors aligned with Tercera's people-first vision. Tercera looks to partner with services firms that arefounder-led, growth-focused and cloud-driven.

Tercera typically takes a minority stake in companies, investing between $5 million to $20 million of capital, selectively partnering with other firms and strategic investors as businesses scale.However, the company will provide more than just growth capital. It is also building out a services-oriented Advisor Network that will provide practical and diverse guidance and support to founders.

"Capital is only one component to growth," continued Barbin. "Experienced guidance and a support network play an equal role in helping founders and teams scale faster and more gracefully than they could on their own. The Tercera Advisors are services professionals who have built, bought and sold services organizations, or run critical functions in services businesses. They bring the pattern recognition, diversity and playbooks that growth companies need."

Useful ResourcesDefinition and players in the cloud's Third WaveRead Tercera's people-first manifesto Connect with Tercera on LinkedInFollow Tercera on Twitter at @TerceraCapitalFollow Tercera's blog for news, trends and advice in cloud services

About TerceraTercera is an investment and advisory firm founded to accelerate the growth of people-centric businesses. Specializing in the $460 billion cloud professional services market, the Tercera team is composed of invested operators who know first-hand what it takes to build and scale a successful cloud services business. Tercera (Spanish for 'third') is on a mission to identify the people and partners who will lead the next wave of cloud computing - the Third Wave - and provide them with the capital, counsel and connections they need to scale faster and take an outsized share of the market. For more information, visit: https://www.tercera.io/.

SOURCE Tercera

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Healthcare Cloud Computing Market Benefits, Forthcoming Developments, Business Opportunities & Future Investments to 2028 KSU | The Sentinel…

January 31, 2021 | Author: admin

COVID-19 can affect the global economy in three main ways: by directly affecting production and demand, by creating supply chain and market disruption, and by its financial impact on firms and financial markets. Global Healthcare Cloud Computing Market size has covered and analysed the potential of Worldwide market Industry and provides statistics and information on market dynamics, market analysis, growth factors, key challenges, major drivers & restraints, opportunities and forecast. This report presents a comprehensive overview, market shares, and growth opportunities of market 2021 by product type, application, key manufacturers and key regions and countries.

Reports published inMarket Research Incfor the Healthcare Cloud Computing market are spread out over several pages and provide the latest industry data, market future trends, enabling products and end users to drive revenue growth and profitability. Industry reports list and study key competitors and provide strategic industry analysis of key factors affecting market dynamics. This report begins with an overview of the Healthcare Cloud Computing market and is available throughout development. It provides a comprehensive analysis of all regional and major player segments that provide insight into current market conditions and future market opportunities along with drivers, trend segments, consumer behavior, price factors and market performance and estimates over the forecast period.

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Key Strategic Manufacturers:Allscripts Healthcare Solutions Inc., Amazon Web Services Inc. ,athenahealth Inc., Carestream Health Inc. ,General Electric Co., IBM Corp., Microsoft Corp.

The report gives a complete insight of this industry consisting the qualitative and quantitative analysis provided for this market industry along with prime development trends, competitive analysis, and vital factors that are predominant in the Healthcare Cloud Computing Market.

The report also targets local markets and key players who have adopted important strategies for business development. The data in the report is presented in statistical form to help you understand the mechanics. The Healthcare Cloud Computing market report gathers thorough information from proven research methodologies and dedicated sources in many industries.

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Key Objectives of Healthcare Cloud Computing Market Report: Study of the annual revenues and market developments of the major players that supply Healthcare Cloud Computing Analysis of the demand for Healthcare Cloud Computing by component Assessment of future trends and growth of architecture in the Healthcare Cloud Computing market Assessment of the Healthcare Cloud Computing market with respect to the type of application Study of the market trends in various regions and countries, by component, of the Healthcare Cloud Computing market Study of contracts and developments related to the Healthcare Cloud Computing market by key players across different regions Finalization of overall market sizes by triangulating the supply-side data, which includes product developments, supply chain, and annual revenues of companies supplying Healthcare Cloud Computing across the globe.

Furthermore, the years considered for the study are as follows:

Historical year 2016-2019

Base year 2020

Forecast period 2021to 2028

Table of Content:

Healthcare Cloud Computing Market Research ReportChapter 1: Industry OverviewChapter 2: Analysis of Revenue by ClassificationsChapter 3: Analysis of Revenue by Regions and ApplicationsChapter 6: Analysis of Market Revenue Market Status.Chapter 4: Analysis of Industry Key ManufacturersChapter 5: Marketing Trader or Distributor Analysis of Market.Chapter 6: Development Trend of Healthcare Cloud Computing market

Continue for TOC

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Healthcare Cloud Computing Market Benefits, Forthcoming Developments, Business Opportunities & Future Investments to 2028 KSU | The Sentinel...

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Quantum Computing 101 -What it is, how is it different and why it matters – The Jerusalem Post

January 31, 2021 | Author: admin

In our everyday classical computers, 0s and 1s are associated with switches and electronic circuits turning on and off as part of the computer using a binary number system to calculate possibilities and perform operations. For example, when a computer mouse moves, a sensor tells the computer that an electrical signal has been converted into a binary value or number. Further, this number represents a location that is then represented on the computer screen all of which is embodied by the byte that is the building block of current computers. The sensor message to the computer is also saved to memory. Some calculations have too many possibilities for even a traditional computer to calculate like simulating the weather or calculating scrambled combinations of prime numbers.Quantum is the state of things being unknown at the subatomic level until they can be observed and moves from the byte to the qubit. In a quantum computer, it is said that the values assigned to 0 and 1 can occur at the same time. The reason this impossibility is possible is because of quantums subatomic level where protons and electrons are acting in a wild way beyond the rules of nature as we tend to think of them. Picture The Avengers superhero Antman shrinking into the quantum zone where time did not even move in a linear fashion.In computer terms, once the values of 0 and 1 can happen at the same time, it allows the quantum computer to consider trillions of possibilities or more in the same instant, dwarfing the number of calculations that our traditional computers, stuck in binary counting, can do.This process is called superposition. Superposition ends once a specialized particle, or qubit, slows/is observable, thereby emerging from its quantum state. We stick the qubit in an artificial space vacuum so that it does not get observed or interfered with and remains dynamic. Pictures of quantum computers often show tubes the size of a household refrigerator. But most of the tubing is not the central computer processor as much as the process used to maintain the qubits at the absolute zero quantum state.Since around 1977, RSA has been among the most widely used systems for secure data transmission underlying the Internet, serving as the backbone of the NYSE, most large institutions and most individual online users. What is stopping an average person from hacking anyones elses website is that RSA is easy to build, and being based on two pseudo-random prime numbers, hard to burst for traditional computers limited binary system calculation capacity.

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Quantum Computing 101 -What it is, how is it different and why it matters - The Jerusalem Post

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A Quantum Leap Is Coming: Ones, Zeros And Everything In Between – Transmission & Distribution World

January 31, 2021 | Author: admin

Deploying the more sustainable and resilient electric grid of the future requiresa sophisticatedusage of data. This begins with sensorsand measurement infrastructurecollecting a wide range of grid-relevant data, butalsoincludes various forms of analytics to usethedata tosolvea wide range ofgrid problems.Many advanced analytics methodsalreadyarebeing used,includingartificial intelligence and machine learning.Now,forward-looking electric utilities are exploringthe next step in enhancing these analytics,by understandinghow emerging computing technologies can be leveraged to provide higher levels of service. Among the mostcompellingexamples of this is the potential use of quantum computing for grid purposes.

This rapid evolution is happening in part toaccommodate additional distributed energy resources (DERs)on the grid, including the solarphotovoltaic (PV)and energy storage that helptoreduce emissions bylimitingthe need for fossil-fuel power plants. High levels of DER penetration not only necessitate reform in traditional grid planning and operation, but also facilitate unprecedented grid modernization to accommodate new types of loads (for example,electric vehicles)andbidirectional power transfer.

Electric utilities like Commonwealth Edison(ComEd)are in a unique position to develop and deploy grid-optimizing technologies to meet the demands of evolving systems and build a scalable model for the grid of the future.Serving over 4 million customers in northern Illinois and Chicago,Illinois, U.S.,ComEd ispartnering with leading academic institutionsincluding the University of Denver and the University of Chicago andleveraging its position as one of the largest electric utilities in theU.S.to explorequantumcomputing applications forgrid purposes.

What Is Quantum Computing?

The major difference between classical and quantum computers is in the way they process information.Whereas classical computing bits are either 0 or 1, quantum bits (qubits) can be both 0 and 1 at the same timethrougha unique quantum property called superposition. For example, an electron can be used as a qubit because it can simultaneously occupy its ground state (0) and its excited state (1).

Moreover, this superposition phenomenon scales exponentially. For example, two qubitscanoccupy four statessimultaneously: 00, 01, 10 and 11. More generally, N qubits can represent an exponential number of states (2N) at once, enabling a quantum computer to process all these states rapidly.This exponential advantageis the salient feature of quantum computers, enabling faster calculations in specific applications,such as factoringlargenumbers and searching datasets.

ComEd cohosted a workshop that brought together a dozen leaders in quantum computing and power systems to help determine the future applications of quantum computing for the grid.

A superconducting quantum computer from Professor David Schuster's laboratory at UChicago that can help drive the field forward. Credit: Yongshan Ding.

The data from these advanced sensors can be leveraged from quantum computing to provide higher levels of grid resiliency and support DER integration.

QuantumComputingApplications

To identify potential applications forquantumcomputing in the grid of the future,ComEdcohosted a workshop on Feb.27, 2020,with researchers from the University of Chicago,the University of Denverand Argonne NationalLaboratory. The purpose of theworkshop was to explore the potential benefitsquantumcomputingcouldbring to power systemsand collaborate on developing technologies that couldbe demonstrated to provide this value.

Recognizing these two fields historicallyhavenot been in close contact, the workshop began with two tutorial sessions, one forpowersystems and another forquantumcomputing, to provide backgroundonthe stateoftheart of the respective fields as well as the emerging challengesof each. Following the tutorial sessions, a technical discussionincludedbrainstormingpotential applications of existingquantumcomputing algorithms on large-scale power system problems requiring heavy computational resources.Followingare severalpotential power systemsapplicationsofquantum computingin deployingthe grid of the future.

Unit Commitment

Optimal system schedulingin particular,unit commitment(UC)is one of the most computationally intensive problems in power systems. UCis a nonlinear, nonconvexoptimizationproblem with a multitude of binary and continuous variables. There have been extensive and continuous efforts to improve the solutiontothis problem, from both optimality and execution time points of view. Recent advances in power systems, such astheintegration of variable renewable energy resources andagrowing number of customer-ownedgeneration units, add another level of difficulty to this problem and make it even harder to solve.

Quantum optimization may solve the UC problem fasterthancurrent models used in classical computers. Thequantumapproximateoptimizationalgorithm(QAOA),analgorithm for quantum computers designed to solve complex combinatorial problems,may be wellsuited for the UC problem. While QAOA was designed for discrete combinatorial optimization, several interesting research directions could relaxthe algorithmto be compatible with mixed-integer programming tasksused inUC.

Contingency Analysis

Another potentialapplicationinvolvescontingency analysis. Traditional power system operators tend to assess system reliability byanalyzingN-1 contingency, to ensure thesystemcan maintainadequatepower flowduringone-at-a-time equipment outages. Systemoperators usually run this study after obtaining a state estimator solution todetermine whethersystem status is still within the acceptable operating condition.

Advanced computing capabilities like quantum computing can support the integration of clean energy generation like this deployment as part of the Bronzeville Community Microgrid.

The high-riskN-k contingencyhas beenintroduced toobtainbetter situational awareness. However, the combinatorial explosion in potential scenarios greatly challenges the existing computing power. Quantum computers could helptoaddress N-k scenarios by enabling access to an exponentially expanded state space.

State Estimation

Quantumcomputingalsohas the potential to enable large-scale distribution systemhybridstate estimation with phasor measurement units (PMUs)and advanced meteringinfrastructure (AMI).Utilitiesalreadyhave deployedthousandsofPMUsand millionsofsmart metersacross the grid that provide data toacentral management system. PMUsprovide time-synchronized three-phase voltage and current measurements at speeds up to 60 samples per second, which allow for linear state estimation at similar speeds.AMI provides voltage and energy measurementsat customer siteswith differenttimeresolutions.

As thesystem becomes more complex, the computationrequiredto usemany measurements estimating the states of apracticalnetwork increasesaccordingly. QAOA provides a promising path for state estimation withPMUsor hybrid state estimation with both PMUsand AMIata speed believed to be unachievable byclassicalcomputers. In addition, QAOA is within the computing capabilities of near-term quantum computers,called noisy intermediate-scale quantum(NISQ),now available.

AccurateForecasting

When it comes to system operation, forecasting is another issuequantumcomputing could address.The high volatility ofDERs, such assolar andwind, may disturb normal system operation and underminethesystems reliability. Accurate forecastingof variable generationwouldenablesystem operators to act proactively to avoid potential system frequency disturbances and stability concerns.

Quantumcomputing couldmake it possible to consider abroaderrange of data for forecasting (such as detailed weather projections and trends) and achieve a much more accurate forecast.The workshop identified Boltzmannas a potentially effective method to tackle this problem. In particular, thequantum Boltzmannmachine (QBM) is a model that has significantly greater representational power than traditional Boltzmannmachines. QBMsalreadyhavebeen experimentally realized on currently availablequantum computers.

AddressingUncertainties

An inherent part of modern power gridsistheuncertaintystemmingfrom various sources (such asvariable generation, component failures, customer behavior, extreme weatherandnatural disasters). Uncertainties cannot be controlled by grid operators, so the common practice is to define potential scenarios and plan for themaccordingly.However, these scenarioscanbe significantin some cases, making it extremely challenging to devise a viable plan for grid operation and asset management.

Quantum computers capabilityto solve numerous scenarios simultaneouslycould beuseful in addressing uncertainty in power systems. Quantum algorithms under development by financial firmsalsomaybe directly translatable to addressing uncertainties in power grids.

StudyingThese Applications

As part of thebroader collaboration,the University of Denver teamhas beenawarded a grant to study some of theapplicationsof quantum computing in power grids.Awarded by theColorado Office of Economic Development & International Trade,the grantaimstoexplorequantum computing-enhanced security and sustainability for next-generation smart grids. In particular, the team will investigate the quantum solution of the power flow problem as the most fundamentalcomputationalanalysis in power systems.

The workshop also identified that practical applications of quantum computing may soon be possible thanks to the development of quantum hardware.In 2019,Googleconducted aquantum supremacy experimentby running asimple program on a small quantum computer in secondsthatwould have taken days on the worlds largest supercomputer. IBM recently released a technology roadmapin whichmachineswilldoublein sizeoverthe next few years, with a target of over 1000 quantum bitsby2023whichlikelywould belarge enough for many of thepotentialpower gridapplications.

A Quantum Leap

The 2020 workshopthat ComEd,theUniversity of Chicago andtheUniversity of Denver engaged inhas only scratched the surface ofquantumcomputingas a new paradigm to solve complex energy system issues. However, this first step presents a path toward understanding the capabilities ofquantumcomputing and the role it can play in optimizing energy systems.That path toward understanding is best taken together, as academics and engineers,government and institutions,andutilitiescollaborate to share knowledge to build theelectricgrid of the future.

ComEdand the two universities have sustained a bimonthlycollaboration since the workshopto explorepower systems applications of quantum computing.Some preliminary results on quantum computing approaches to theUCproblem were presentedbytheUniversity of Chicago in the IEEE 2020 Quantum Week.As this collaboration develops, it becomes increasingly likely the next generation of grid technologies will engage the quantum possibilities of ones, zeros and everything in between.

Honghao Zheng(honghao.zheng@comed.com)isaprincipalquantitativeengineer insmart grid emerging technology atCommonwealthEdison(ComEd),where he supportsnew technology ideation, industrialresearch and development,and complex project execution. Prior to ComEd,heworkedasatechnical leadof Spectrum PowerOperator Training Simulator and TransmissionNetwork Applicationsmodulesfor Siemens DG SWS.ZhengreceivedhisPh.D. inelectricalengineering fromtheUniversity ofWisconsin-Madison in 2015.

Ryan Burg(ryan.s.burg@comed.com)is aprincipalbusinessanalyst insmartgridprograms at ComEd,where he supports academic partnerships. He previously taught sustainable management and business ethics at Bucknell, HSE and Georgetown Universities.Burgholds a joint Ph.D.in sociology and business ethics from the Wharton School of Businessof the University of Pennsylvania.

AleksiPaaso(esa.paaso@comed.com)is director ofdistributionplanning,smartgridandinnovation at ComEd, where he is responsible for distribution planning activities, distributed energy resource (DER) interconnection, andsmart grid strategy and project execution. He is a senior member ofthe IEEE and technical co-chair for the 2020 IEEE PES Transmission & Distribution Conference and Exposition. He holds a Ph.D.in electrical engineering from the University of Kentucky.

RozhinEskandarpour(Rozhin.Eskandarpour@du.edu)is aseniorresearchassociateintheelectrical andcomputerengineeringdepartment at the University of Denver. Her expertise spans the areas ofquantumcomputing andartificialintelligenceapplications in enhancingpowersystemresilience.Shealsois the CEO and founder of Resilient Entanglement LLC, a Colorado-based R&D company focusing on quantumgrid.She is a senior member of the IEEE society. Rozhin holds a Ph.D. degree inelectrical and computer engineering from the University of Denver.

AminKhodaei(Amin.Khodaei@du.edu)isa professor ofelectrical andcomputerengineering at the University of Denver andthe founder of PLUG LLC, an energy consulting firm. He holds a Ph.D.degree inelectricalengineering from the Illinois Institute of Technology. Dr.Khodaeihas authored more than 170 technical articles on various topics in power systems, including the design of the grid of the future in the era of distributed resources.

Pranav Gokhale(pranavgokhale@uchicago.edu)iscofounder and CEO ofSuper.tech, a quantum software start-up. He recently defended his Ph.D.in computer science fromtheUniversity ofChicago(UChicago), where he focused on bridging the gap from near-term quantum hardware to practical applications.Gokhales Ph.D.research led to over a dozen publications, three best paper awards and two patent applications. Prior toUChicago,hestudied computer science and physics at Princeton University.

Frederic T.Chong(chong@cs.uchicago.edu)is the Seymour Goodman Professor in thedepartment ofcomputerscience at the University of Chicago. Healsoisleadprincipalinvestigator for the Enabling Practical-scale Quantum Computing(EPiQC) project, a National Science Foundation (NSF)Expedition in Computing. Chong received his Ph.D. from MIT in 1996. He is a recipient of the NSF CAREER award, the Intel Outstanding Researcher Award andninebest paper awards.

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A Quantum Leap Is Coming: Ones, Zeros And Everything In Between - Transmission & Distribution World

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University of Glasgow partners with Oxford Instruments NanoScience on quantum computing – SelectScience

January 31, 2021 | Author: admin

The University of Glasgow, one of thepioneering institutions at the leading edge of quantum technology development and home of the Quantum Circuits Group, has announced its using Oxford Instruments next-generation Cryofree refrigerator, Proteox, as part of its research to accelerate the commercialization of quantum computing in the UK.

Were excited to be using Proteox, the latest in cryogen-free refrigeration technology, and to have the system up and running in our lab, comments Professor Martin Weides, Head of the Quantum Circuits Group. Oxford Instruments is a long-term strategic partner and todays announcement highlights the importance of our close collaboration to the future of quantum computing development. Proteox is designed with quantum scale-up in mind, and through the use of its Secondary Insert technology, were able to easily characterize and develop integrated chips and components for quantum computing applications.

The University of Glasgow, its subsidiary and commercialization partner, Kelvin Nanotechnology, and Oxford Instruments NanoScience are part of a larger consortium supported by funding from Innovate UK, the UKs innovation agency, granted in April 2020. The consortium partners will boost quantum technology development by the design, manufacture, and test of superconducting quantum devices.

Today'sannouncement demonstrates the major contribution Oxford Instruments is making towards pioneering quantum technology work in the UK, states Stuart Woods, Managing Director of Oxford Instruments NanoScience. With our 60 years of experience of in-house component production and global service support, we are accelerating the commercialization of quantum to discover whats next supporting our customers across the world.

Proteox is a next-generation Cryofree system that provides a step change in modularity and adaptability for ultra-low temperature experiments in condensed-matter physics and quantum computing industrialization. The Proteox platform has been developed to provide a single, interchangeable modular solution that can support multiple users and a variety of set-ups or experiments. It also includes remote management software which is integral to the system design, enabling, for example, the system to be managed from anywhere in the world.

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University of Glasgow partners with Oxford Instruments NanoScience on quantum computing - SelectScience

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