Interoperability and Portability for Cloud Computing: A Guide

| December 7, 2017

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Cloud computing is important for many organizations, with use of a wide range of cloud services and the transition of both data and applications to cloud computing environments. The topics of interoperability and portability are significant considerations in relation to the use of cloud services, but there is also confusion and misunderstanding of exactly what this entails. The aim of this Guide is to provide a clear definition of interoperability and of portability and how these relate to various aspects of cloud computing and to cloud services.

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Ormuco

Ormuco began as a licensed telecommunications service provider. Today, as a HP Helion Network charter member, Ormuco offers a cloud services platform for ISVs, service providers and businesses around the globe. Ormuco currently has bases in Canada, U.S., EMEA and soon LATAM and Japan. Ormuco are rapidly building a global network of cloud services to facilitate both local data requirements as well as global, multinational companies.

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How to Master Multi-Cloud Data Complexities

Article | May 20, 2020

The current patterns of cloud migration include simple “lift and shift,” which moves data with as little work as possible, typically by refactoring or redoing the applications and data so they work more efficiently on a cloud-based platform. More and more migrations include multi-cloud, which contributes to the appearance of new data complexity issues. When leveraging multi-cloud architectures, it’s important for IT leaders and cloud professionals to rethink how to deal with data complexity. If businesses are tasked with this massive and growing data management problem, it seems to me they ought to get their IT house in order. That means across a vast heterogeneity of systems, deployments, and data types. That should happen in order to master the data equation for your lines of business applications and services. Table of Contents What is multi-cloud? Why use multiple clouds? How to manage multi-cloud data complexities? What is multi-cloud? Multi-cloud is the use of two or more cloud computing services, including any combination of public, private, and hybrid. The end result is the capacity to orchestrate resources across multiple private or public cloud platforms that contain multiple cloud vendors, accounts, availability zones, or regions or premises. Why use multiple clouds? The three most important benefits of utilizing multiple clouds are: High availability – The multi-cloud provides protection for an organization’s data storage against threats. If a cloud is unavailable, other clouds remain online to run applications. Flexibility – Multi-cloud gives businesses the option to select the “best” of each cloud to suit their particular needs based on economics, location, and timing. Avoid Vendor Lock-In – This allows the application, workload, and data to be run in any cloud based on business or technical requirements at any given time. Cost effectiveness – Multi-cloud enables businesses to control their costs by optimizing the public cloud and choosing infrastructure vendors based on price. Public cloud services deliver functionality without having to hire personnel. Multi-cloud allows you to choose the right platform for your application and customers while using the best features from each cloud service provider. This gives companies the flexibility they need to select the “best” of each cloud to suit their particular needs based on economics, location, and timing. Multi-cloud also provides protection against the failure of a single cloud platform. Large enterprises may also be able to maximize the benefits of different infrastructure vendors that are competing on price for their business (smaller companies won’t have this luxury). Cloud is very different from your internal IT stuff — the way you program it, the way you develop applications. It has a wonderful cost proposition, at least initially. But now, of course, these companies have to deal with all of this complexity. - Martin Hingley, President and Market Analyst, IT Candor Limited Read more: How To Derive Data Insights In Hybrid Cloud Model And Drive Innovation How to manage multi-cloud data complexities? The reasons for the rising data complexity issues are fairly well known and include the following: The rising use of unstructured data that doesn’t have native schemas. Schemas are typically defined at access. The rising use of streaming data that many businesses employ to gather information as it happens and then process it in flight. The rise of IoT devices that spin off massive amounts of data. The changing nature of transactional databases, moving to NoSQL and other non-relational models. The continued practice of binding single-purpose databases to applications. Finally, and most importantly, the rise of as-a-service cloud-based and cloud-only databases, such as those now offered by all major cloud providers that are emerging as the preferred databases for applications built both inside and outside of the public clouds. Moreover, the use of heterogeneous distributed databases within multi-cloud architectures are preferred. Challenge of multi-cloud For the most part, those who build today’s data systems just try to keep up rather than get ahead of data complexity issues. The migration of data to net-new systems in multi-clouds is more about tossing money and database technology at the problem than solving it. Missing is core thinking about how data complexity should be managed, along with data governance and data security. We’re clearly missing the use of new approaches and helpful enabling technology within multi-cloud deployments that will remove the core drawbacks of data complexity. The challenge is that you need a single version of the truth. Lots of IT organizations don’t have that. Data governance is hugely important; it’s not nice to have, it’s essential to have. - Martin Hingley, President and Market Analyst, IT Candor Limited The core issue is to move toward application architectures that decouple the database from the applications, or even move toward collections of services, so you can deal with the data at another layer of abstraction. The use of abstraction is not new, but we haven’t had the required capabilities until the last few years. These capabilities include master data management (MDM), data service enablement, and the ability to deal with the physical databases using a configuration mechanism that can place volatility and complexity into a single domain. Virtual databases are a feature of database middleware services that technology suppliers provide. They serve to drive a configurable structure and management layer over existing physical databases, if that layer is in the requirements. This means that you can alter the way the databases are accessed. You can create common access mechanisms that are changeable within the middleware and do not require risky and expensive changes to the underlying physical database. Moving up the stack, we have data orchestration and data management. These layers provide enterprise data management with the ability to provide services such as MDM, recovery, access management, performance management, etc., as core services that exist on top of the physical or virtual databases, in the cloud or local. Moving up to the next layer, we have the externalization and management of core data services or microservices. These are managed, governed, and secured under common governance and security layers that can track, provision, control, and provide access to any number of requesting applications or users. ACT NOW Most enterprises are ignoring the rapid increase of data, as well as that of data complexity. Many hope that something magical will happen that will solve the problem for them, such as standards. The rapid rise in the use of multi-cloud means that your data complexity issues will be multiplied by the number of public cloud providers that end up being part of your multi-cloud. So, we’ll see complexity evolve from a core concern into a major hindrance to making multi-cloud deployment work effectively for the business. What’s needed now is to understand that a problem exists, and then think through potential solutions and approaches. Once you do that, the technology to employ is rather easy to figure out. Don’t make the mistake of tossing tools at the problem. Tools alone won’t be able to deal with the core issues of complexity. Considering the discussion above, you can accomplish this in two steps. First, define a logical data access layer that can leverage any type of back-end database storage system. Second, define metadata management with the system use of both security and governance. The solution occurs at the conceptual level, not with the introduction of another complex array of technology on top of already complex arrays of technology. It’s time to realize that we’re already in a hole. Stop digging. Read more:Flexible building blocks for the new cloud and data-driven world

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Google Cloud launches Game Servers, a managed cloud backend for games

Article | March 24, 2020

Google Cloud today announced the beta launch of Game Servers, a managed service that provides game developers with the usual backend services for running their games, including multi-player games, in the company's cloud. It's worth stressing that these are not game streaming servers but solely meant to make it easier for game developers to build, scale and manage the backend services for their games.

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How 5G and edge computing can enhance virtual reality

Article | April 8, 2020

The telecom industry has always evolved to take advantage of newer, better technologies as they become available starting with 1G and evolving into 4G, and now 5G. In fact, the pace of technology adoption will accelerate with 5G. Technologies such as virtualization, cloud native, cloud computing, edge computing, artificial intelligence, machine learning, network slicing, automation, management and orchestration are all key components in enabling the use cases and business models that are expected to come with 5G. These technologies will contribute to the high-performance, high-capacity, high-reliability and low-latency associated with 5G, all delivered at a low total cost of ownership (TCO). This combination of high performance and low TCO is essential, both in addressing the exponential growth in data traffic and in handling the increasing number of IoT devices.

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Marketing Planning in Uncertain Times: How to Plan When Everything is in Flux

Article | March 31, 2020

In the recent weeks and months of the COVID-19 pandemic, marketers around the globe have had to come to terms with the fact that their carefully laid marketing plans can’t stand up to the new normal of social distancing, remote working and the near-complete shutdown of entire cities, regions and countries. Maybe it was a marketing plan that relied heavily upon generating leads at in-person tradeshows, which are all cancelled for the foreseeable future. Or perhaps it was a plan that called for a clever direct mailing to members of a B2B audience, who are now working from their homes instead of offices.

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Spotlight

Ormuco

Ormuco began as a licensed telecommunications service provider. Today, as a HP Helion Network charter member, Ormuco offers a cloud services platform for ISVs, service providers and businesses around the globe. Ormuco currently has bases in Canada, U.S., EMEA and soon LATAM and Japan. Ormuco are rapidly building a global network of cloud services to facilitate both local data requirements as well as global, multinational companies.

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