There is a lot of murkiness around cloud solutions and data centres because the distinctions aren’t always made clear – Paessler has provided it here in black & white.
The main difference between a data centre and the cloud is that in-house IT departments are usually responsible for the hardware and networking when running a data centre; with the cloud, you pay another company to do that for you. That doesn’t mean the responsibility of those cloud services is outsourced though. The in-house IT team still has to monitor system availability and meet their SLAs.
Data centres are generally more attractive to companies with sensitive information. Such companies may even have a company policy that prohibits third party access to their data. Cloud services, on the other hand, offer flexibility and scalability: You only pay for what you use.
“Going Cloud” is not simply moving Virtual Machines to AWS, Azure or Google, or getting rid of the servers. It’s the chance to rethink processes, to upgrade, and to streamline.
Before moving such services to the cloud, you can, as with every network disaster plan, ask yourself “what can I do to mitigate some of the possible risks, and at what price?” Since there’s a direct correlation between investment and availability, you can use this formula to help assess the risk:
(costs < (loss in revenue X probability of occurrence))
It doesn’t have to be one or the other. Companies might choose to host less sensitive data in the cloud and critical information in a data centre, or implement a Hybrid Cloud approach combining on-premise, private cloud and third-party services, with orchestration between the platforms. Allowing workloads to move between private and public clouds, as computing needs and costs change, gives businesses more data deployment options and greater flexibility.
Supporting the transition
Paessler’s vision is to ensure computers and networks (the foundation of modern society) work reliably at all times. Paessler understands that cloud-based computing opens new paradigms for development, usage, management and IT professionals. Our mission is to support IT professionals during this shift, helping them to maintain network uptime. Nothing should impact the network, regardless of where it sits: data centre or cloud.
PRTG Network Monitor is a unified network monitoring solution which can monitor your data centre, and your cloud services. The IT administrator gets a global view of their IT estate so they can intervene and take control where necessary. Even if IT infrastructure and services are hosted elsewhere, it doesn’t mean the responsibility is.
5G has been talked about for a number of years but the quest is really starting to heat up with actual implementations on the near horizon – which means a lot more data.
This week at Barcelona’s Mobile World Congress Ericsson declared 5G ‘open for business’ while several other companies have been keen to express their handiwork too.
One of these is Huawei, with the company announcing an agreement with BT Group to extend their strategic partnership with a clear focus on ensuring 5G leadership for BT Group and its mobile network, EE.
The partnership involves development and live trials of 5G New Radio (NR), core network technology, and 5G customer premises equipment (CPEs). The aim is to test real-life 5G performance in a range of environments in preparation for commercial launch.
“Our 5G research has been hugely promising, and this partnership with Huawei will turn that research into reality,” says BT Group CTIO Howard Watson.
“Huawei has helped us drive the evolution of the EE 4G network, and they are the ideal partner to help us push the barriers of 5G.”
BT and Huawei started joint work on 5G research and development in 2016 and have a wide ranging research collaboration agreement. In November 2017, they announced the completion of the UK’s first 5G end-to-end lab testing, delivering consistent 2.8Gbps downlink throughput and sub-5ms latency.
Huawei 5G product line president Yang Chaobin says BT is one of Huawei’s most important global customers.
“Signing this new agreement is recognition of our leading position in the 5G field. We are confident that this further deepening of our partnership will show that our end-to-end 5G solution – from network to device – leads the industry,” says Chaobin.
“This partnership demonstrates our ability to deliver and support the successful deployment of a 5G commercial network to our customers.”
Meanwhile, Ericsson and MTS have announced an agreement to establish a 5G research centre in Innopolis, a new Russian high-tech city located in the Republic of Tatarstan.
The two companies will leverage their expertise, latest technologies, and partner ecosystem to build prototypes and explore new business opportunities with 5G and Internet of Things for Smart Cities, with possible extension to other areas.
Their activities will begin in the second quarter of this year and in addition to joint research and development projects, Ericsson and MTS plan to organise hackathons and collaborate with local partners, startups, and residents. The idea is to develop solutions that can be deployed and evaluated locally before being scaled for the global market.
“We are conducting research both in-house and in partnership with key suppliers, continuously testing new solutions. Today, we reached a new stage of our technological cooperation with Ericsson,” says MTS procurement and administration vice president Valery Shorzhin.
“The launch of a joint R&D Center will significantly accelerate the introduction of innovative products to the market. We hope that the research work of both companies will allow us to bring new developments not only to the Russian but also to the global market.”
The infrastructure to be used at the research center includes the Ericsson IoT Accelerator Platform and Massive IoT solutions supporting NB-IoT.
“Ericsson will provide its latest 5G and IoT technologies, global expertise and access to a worldwide ecosystem of partners and universities as well as support of key Business Labs,” says Ericsson Russia president Sebastian Tolstoy.
“The R&D Center in Innopolis will become an important part of Ericsson’s global R&D program for development and launch of IoT innovations to drive the large-scale uptake of IoT in Russia and beyond.”
Two Universities have become the first UK academic organisations to deploy IBM’s POWER9 system.
Queen Mary University of London (QMUL) and Newcastle University are now benefiting from the system for modern high-performance computing (HPC), analytics and artificial intelligence (AI) workloads.
The Universities recently received delivery of the systems and they will be integrated by OCF into existing HPC infrastructures.
According to QMUL professor Sean Gong, QMUL needs the latest technology in order to enable its researchers to excel in areas where they are using deep learning to solve some of today’s toughest scientific challenges.
The University became one of the first organisations to purchase two IBM Accelerated Compute Servers (AC922) powered by POWER9 CPUs, Volta GPUs and NVLink 2.0 interconnects.
“QMUL is a world-leader in deep learning research in post-event video forensics and analysis. Deep learning by large-scale convolutional neural networks – a category of neural networks that has been proven effective in areas such as image recognition and classification – has radically changed research into computer vision in recent years,” says Gong.
“Given our previous test trials on IBM Minsky POWER8 servers, we expect to see significant benefit from the new POWER9 servers for deep learning on big video data.”
Newcastle University co-director of the joint quantum centre Carlo Barenghi says researchers within the mathematics, statistics and physics departments were looking to use GPU-accelerated platform for computational projects.
“The major difficulty we face is that our calculations are non-linear, time-dependent and three-dimensional, so solving them is out of reach with pencil and paper, and the numerical computation requires large memory and fast speed – we are humbled from the start,” says Barenghi.
“We did some investigations and the IBM POWER9 system was the best technology for our work – in trial runs we got a ‘speed up factor’ in the order of 10x magnitude, so the decision was easily made.”
In terms of the technical aspects, the AC922 makes use of IBM’s new POWER9 processor with a multitude of modern connectivity capabilities, which improves data movement by up to 5.6 times over the PCIe Gen 3 ‘buses’ found in x86 servers.
OCF managing director Julian Fielden says IBM Power Systems are unlocking new potential for accelerated computing given they deliver the only architecture enabling NVLink between CPUs and GPUs.
“Modern AI, HPC and Analytics workloads are driving an ever-growing set of data intensive challenges,” says Fielden.
“These challenges can only be met with accelerated infrastructure, such as IBM’s POWER9. In such a highly competitive field as academic research, providing superior HPC services to compute large quantities of data quickly, can help to attract world-class researchers, as well as grants and funding.”
The cloud computing arm of Alibaba Group has launched eight products for the European market at the Mobile World Congress taking place in Barcelona.
For the first time Alibaba Cloud’s advanced big data and AI capabilities enabled by super computing power will be made available in Europe.
Alibaba Cloud asserts these new products will meet the surging demand for powerful and reliable cloud computing services as well as advanced AI solutions among European enterprises to support them to capture opportunities in the digital transformation era.
The new products targeted at European enterprises fall into a number of inter-related categories.
Alibaba is launching three products in relation to data technology and AI, including Image Search solutions that allow users to search for information online and offline using images, Intelligent Services Robot, which is a chatbot for business, and Dataphin, a data engine designed to cope with cross industry big data ddevelopement, management and application needs.
And with infrastructure and security crucial as the foundation for enterprises undertaking cloud migration, Alibaba Cloud is launching ECS Baremetal Instance, a new high performance computing solution of ECS that combines the strengths of virtualised systems and bare metal servers. Alibaba Cloud asserts that when connected as a supercomputer, ECS Baremetal becomes a Super Computing Cluster that will reduce network latency to the level of micro-seconds while offering elasticity and supercomputing capabilities.
The company is also introducing its next generation Cloud Enterprise Network (CEN) and Vulnerability Discovery Service, a high-performance security solution.
After a successful three year track record in China, Alibaba Cloud is launching the international version of Apsara Stack for European enterprises, a scalable and hybrid cloud services platform.
“Alibaba Cloud wants to be an enabler for technology innovation in Europe helping enterprises do business,” says Alibaba Cloud Europe general manager Yeming Wang.
“The Mobile World Congress in Barcelona is a great opportunity for us to refresh our European strategy and consider how we can make an increasing contribution to the digital transformation of enterprises in this market from different sectors with our offerings and expertise.”
According to Alibaba Cloud, the data intelligence solutions have many successful stories both in China and around the world. Image Search is widely applied in a number of scenarios in China including New Retail, a concept that seamlessly converges online and offline retail.
The intelligent service robot served more than 40 million customers in a single day during last year’s 11.11 Global Shopping Festival.
Dataphin, the system for intelligent data creation and management, is now managing 95 percent of the entire Alibaba Group’s data and driving all types of data intelligence innovations within the group’s business ecosystem from retail to finance, logistics, transport and health.
“The decision making around how a business is to operate in the digital age is increasingly a strategic one. To meet their changing needs, we are able to leverage our practical experience of digital transformation and successes accumulated in China to the benefit of European enterprises,” Wang says,
“These advanced solutions will enable organisations in a wide range of sectors and will bring them true connectivity, both locally and globally. For Alibaba Cloud, this is the true meaning of inclusive technology.”
Alibaba Cloud has affirmed it is committed to investing in cloud computing services and digital infrastructure in Europe.
The company launched its first availability zone in Frankfurt, Germany in late 2016 and recently commenced operation of the second availability zone in the same region.
Alibaba Cloud has already established a number of partners in Europe, including Vodafone in Germany, the Met Office which is the national meteorological service for the UK, and Station F, an innovation hub in France.
Comes after the Cupertino giant’s $1bn investment on a different facility in Guizhou is now known to be opening in 2020.
Apple is reportedly planning to build a second data centre infrastructure in China due to become operational by 2020, government sources have revealed.
According to a report from news agency Xinhua, citing the said sources, the data centre is to be located at Ulanqab City in the Inner Mongolia Autonomous Region.
The company was not immediately available to share more details or issue an official confirmation of the investment. More details about the project are currently unknown.
Apple is underway with its first Chinese data centre set to also open in 2020 and expected to hit $1bn in CAPEX.
Based in the southern province of Guizhou, the data centre is projected to be powered using 100% renewable energy sources, something that Apple could also be planning for the Ulanqab City site.
In eight days, the American internet giant has announced the construction of nine facilities with many more potentially on the cards.
Google has announced the construction of three data centres in Osaka, Japan, brining the total number of facilities announced since February 1, 2018, to nine.
The fierce expansion comes as the company’s cloud services continue to experience strong demand across the world, forcing the addition of the sites in Osaka as well as in Belgium and in the US, where five buildings will be erected.
Additionally, reports out this month suggested Google’s parent company Alphabet to be in close conversations with Saudi Arabian oil company Aramco to aid in the construction of several data centres in the kingdom.
And in Sweden, work has begun to clear 40 acres of the 190-acre piece of land Google acquired in October 2017 in Avesta.
In a statement, the local municipality explained: “As part of preparing the Horndal Industrial Zone for development there will be several noticeable activities occurring on or around the zone over the next 6-18 months, this includes logging and felling of trees on a portion of the site, as well as infrastructure works for the connection of utilities.
“This does not mean that a decision to begin development of the site has been taken, but the works are the next step in enabling that decision to be made.”
Google was not immediately available for comment.
Back in Japan, the new Osaka infrastructures will become Google’s second cloud region in the country and the seventh in APAC, with Hong Kong set to open soon as its sixth region.
The Osaka investment is expected to be finalised and operation in 2019 “and it will make it easier for Japanese companies to build highly available, performant applications,” said Shinichi Abe, Managing Director, Google Cloud Japan, in a blog post.
He continued: “Osaka is a large port city and a leading commercial centre, and will be our seventh region in Asia Pacific, joining our future region in Hong Kong, and existing regions in Mumbai, Sydney, Singapore, Taiwan and Tokyo. Overall, the Osaka region brings the total number of existing and announced GCP regions around the world to 19—with more to come!
“[With the Osaka region] customers will benefit from lower latency for their cloud-based workloads and data. The region is also designed for high availability, launching with three zones to protect against service disruptions.”