New Zealand’s cloud landscape is looking to change drastically with the arrival of its first hyperscale data centre platform in Invercargill, a city in the southern tip of New Zealand’s South Island. The focus on digitalisation (in both the private and public sectors), growing data localisation mandates, the need for big data storage, and the demand for scalable apps and innovations are driving the demand for hyperscale data centres and more undersea cables in the region.
In December 2020, Meridian Energy, New Zealand’s fourth-largest electricity retailer, and Datagrid New Zealand, run by Hawaiki Cable announced the launch of the project to develop a 60MW, 25,000 sqm facility near the town of Makarewa at a cost of nearly USD 500 million. The project is due for a commercial launch in 2023, and a major part of the investment will involve the laying of two new submarine cables. The first subsea cable will connect Invercargill to Sydney and Melbourne in Australia and the second will connect with Hawaiki Cable’s landing point at Mangawhai Heads, north of Auckland which will further extend to Auckland, Wellington, and Christchurch.
The country clearly recognises the need for a robust infrastructure to accelerate innovation – Microsoft has also received approval from the New Zealand government in September last year to open a data centre region. To support the future of cloud services and to fulfil New Zealand progressive data centre demands, CDC Data Centres have also planned to develop two new hyperscale data centres in Auckland, New Zealand.
Ecosystm Comments
“The introduction of the Datagrid New Zealand data centre in Invercargill will be a welcome asset to the Southland region of New Zealand. With primary industries being farming, fishing and forestry, the region has done well throughout the COVID-19 pandemic. This initiative will further benefit the local economy by delivering opportunities for economic prosperity for local businesses.
With long-term growth at the data centre expected to consume up to 100MW of renewable energy, Meridian Energy is well equipped to provide renewable energy generated at the Manapouri hydroelectric power station, capable of generating 850MW. The potential closure of the 550MW Tiwai Point Aluminium Smelter is expected to put the country in a position of oversupply.
The data centre will be a critical piece of New Zealand’s infrastructure, supporting the roll-out of 5G networks by telecom providers and the need for low-latency cloud compute and data storage. Datagrid will provide a competitive alternative to the likes of Microsoft’s new data centre.
While the construction and opening of the data centre will possibly add more stress to New Zealand’s under-resourced construction sector, it will also create tech jobs in the Southland region, in the long term. Unique to the region is the Southern Institute of Technology that has a Zero Fees Scheme that has been confirmed until the end of 2022. The data centre will help to keep skilled tech workers in the region.“
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Hitachi announced their plans to acquire US based software development company GlobalLogic for an estimated USD 9.6 billion, including debt repayment. The transaction is expected to close by end of July, after which GlobalLogic will function under Hitachi’s Global Digital Holdings.
GlobalLogic was founded in 2000, and the Canada Pension Plan Investment Board and Swiss investment firm Partners Group have 45% of ownership; with the remainder owned by the company’s management.
Hitachi’s Business Portfolio Expansion
The acquisition of GlobalLogic is a part of Hitachi’s move to focus and extend the range of Hitachi’s digital services business. As Hitachi aims to expand from electronics hardware to concentrate on digital services, they are looking to benefit from GlobalLogic’s range of expertise – from chips to cloud services. Silicon Valley-based GlobalLogic has a presence in 14 countries with more than 20,000 employees and 400 active clients in industries including telecommunications, healthcare, technology, finance and automotive. This will also expand Hitachi’s network outside Japan by providing them access to a global customer base and will boost their software and solutions platforms, including Hitachi IoT portfolio and data analytics.
The GlobalLogic deal follows another big acquisition of ABB’s power grid business by Hitachi in July 2020 to focus on clean energy and distributed energy frontiers. This makes Hitachi one of the largest global grid equipment and service providers in all regions.
Hitachi is also planning to divest parts of their portfolio such as Hitachi Metals, their chemical unit and their medical equipment business.
Ecosystm Comments
“Hitachi’s move to acquire GlobalLogic is very interesting and is in line with the growing trend of global Operation Technology (OT) vendors riding the wave of Industry 4.0 and ‘Product as a Service’ models – essentially, to move up the margin ladder with more digital services added on to their already established equipment business. Siemens, Schneider Electric, Panasonic, ABB, Hitachi and Johnson Controls are some of the prominent vendors who have taken pole positions in their respective industry domains, in this race to digitally transform their businesses and business models. Last year, Panasonic made a very similar move, taking a 20% equity stake in Blue Yonder, a leading supply chain software provider.
With rapid advancements in computing and communications (5G), it is now possible to converge the IT (Information Technology supporting enterprise information flows), the OT (Operational Technology – machine level control of the physical equipment), and the ET (Engineering Technology in the Product Design and Development space such as CAD, CAM, PDM etc.) domains. Three worlds that were separate till now. The convergence of these three worlds enables high impact use cases in automation, product, process, and business model innovation in almost all sectors, such as autonomous vehicles, energy efficient buildings, asset tracking and monitoring, and predictive and prescriptive maintenance. For the OT vendors therefore, it becomes critical to acquire IT and ET capabilities to become successful in the new cyber physical world. Most OT vendors are choosing to acquire these capabilities through strategic partnerships (such as Siemens with Atos and SAP; Panasonic with Blue Yonder) or acquisitions (such as Hitachi and GlobalLogic) rather than develop such capabilities organically in completely new domains.“
The last year has really pushed the Education sector into transforming both its teaching and learning practices. The urgency of the situation accelerated the use of networking to extend the reach and range of educational opportunities for remote learning.
Education technology has rushed to embrace opportunities to facilitate a new normal for Education. This new normal must enable and support education access, experiences, and outcomes as well as aid in developing strong relationships within Education ecosystems.
Education technology, commonly known as EdTech, focuses on leveraging emerging technologies like cloud and AI to deliver interactive and multimedia coursework over online platforms. This also requires a state-of-the-art network to support. 5G provides instantaneous access to cloud services. Use of 5G – as well as network function virtualisation (NFV), network slicing, and multi-access edge computing (MEC) – has the capability of delivering significant performance benefits across these emerging educational applications and use cases.
At present, many educational institutions are aware of the possibilities, but are not active users of 5G network infrastructure (Figure 1).
Educational institutions plan to do some near-term investments but are not clear in what areas to apply the enhanced capabilities (Figure 2).
Role of the Network in Adaptive Learning
In their recent whitepaper, network provider Ciena talks about “the concept of an adaptive learning strategy – a technology-based teaching method that replaces the traditional one-size-fits-all teaching style with one that is more personalised to individual students. This approach leverages next-generation learning technologies to analyse a student’s performance and reactions to digital content in real-time, and modifies the lesson based on that data.”
To create an adaptive learning strategy that can be individualised, these learners need to be enabled by technology to be immersed in a learning experience, complete with multimedia and access to a knowledge base for information. And this is where a solid 5G network implementation can create access and bandwidth to the resources required.
Example of 5G and Immersive Learning
An example of adaptive learning where the technology not only supports but challenges the learner can be found in a BT-led new immersive classroom developed within the Muirfield Centre in Cumbernauld, North Lanarkshire, using innovative technology to transform a classroom into an engaging and digital learning environment.
Pupils at Carbrain Primary School, Cumbernauld, were the first to dive into the new experience with an underwater lesson about the ocean. The 360-degree room creates a digital projection that uses all four classroom walls and the ceiling to bring the real-world into an immersive experience for students. The concept aims to push beyond traditional methods of teaching to create an inclusive digital experience that helps explain abstract and challenging concepts through a 3D model. It will also have the potential to support students with learning difficulties in developing imagination, creative and critical thinking, and problem-solving skills. BT has deployed its 5G Rapid Site solution to support 5G innovation and digital transformation of UK’s Education sector. The solution is made possible through the EE 5G network which brings ultrafast speeds and enhanced reliability to classrooms.
Conclusion
5G is expected to provide network improvement in the areas of latency, energy efficiency, the accuracy of terminal location, reliability, and availability – therefore creating the ability to better leverage cloud capacity.
With the greater bandwidth that 5G provides, learners and instructors, can connect virtually from any location with minimal disruption with more devices than on previous networks. This allows students to enjoy a rich learning experience and not be disadvantaged by their location for remote learning, or by the uncertainty of educational access. This also provides more possibilities of exploration and discovery beyond the physical confines of the classroom and puts those resources in the hands of eager learners.
As educational institutions reopen, institutions are looking at ways to redesign the education experience. Connected devices are helping schools and universities expand the boundaries of education. Explore what the IoT-enabled future of education would look like
Last week AT&T announced a partnership with Fortinet to expand their managed security services portfolio. This partnership provides global managed Secure Access Service Edge (SASE) solutions at scale. The solution uses Fortinet’s SASE stack which unifies software-defined wide-area network (SD-WAN) and network security capabilities into AT&T managed cybersecurity framework. Additionally, AT&T SASE and Fortinet will integrate with AT&T Alien Labs Threat Intelligence platform, a threat intelligence unit to enhance detection and response. AT&T has plans to update its managed SASE service during the year and will continue to bring more options.
Talking about the AT&T-Fortinet partnership, Ecosystm Principal Advisor, Ashok Kumar says, “This move continues the trend of the convergence of networking and security solutions. AT&T is positioning themselves well with their integrated offer of network and security services to address the needs of global enterprises.”
Convergence of Network & Security
AT&T’s improved global managed security service includes features such as secure web gateway, firewall-as-a service, cloud access security broker (CASB) and zero-trust access, which provides security teams and analysts with unified capabilities across the cloud, networks and endpoints. The solution aims to enable enterprises to create a more resilient network bringing the core capabilities of the two companies that will reduce operational costs and deliver a unified offering.
Last year AT&T also partnered with Cisco to expand its SD-WAN solution and to support AT&T Managed Services using Cisco’s vManage controller through a single management interface. Over the past years multiple vendors including Fortinet have developed comprehensive SASE solution capabilities through partnerships or acquisitions to provide a unified offering. Last year Fortinet acquired Opaq, a SASE cloud provider to bolster their security capabilities through OPAQ’s patented Zero Trust Network Access (ZTNA) cloud solution and to strengthen SD-WAN, security and edge package.
The Push Towards Flexible Networking
Kumar says, “The pandemic has created a higher demand and value for secure networking services. Enterprises experienced greater number of phishing and malware attacks last year with the sudden increase in work-from-home users. The big question enterprises need to ask themselves is whether legacy networks can support their evolving business priorities.”
“As global economies look to recover, securing remote users working from anywhere, with full mobility, will be a high priority for all enterprises. Enterprises need to evaluate mobile SASE services that provide frictionless identity management with seamless user experiences, and be compatible with the growing adoption of 5G services in 2021 and beyond.”
The Top 5 Telecommunications & Mobility Trends that will dominate the telecom industry to watch out for in 2021. Signup for Free to download the report.
In 2009 one of the foremost Financial Services industry experts was giving my team a deep dive into the Global Financial Crisis (GFS) and its ramifications. According to him, one of the key reasons why it happened was that most people in key positions in both industry and government had probably never seen a full downturn in their careers. There was a bit of a hiccup during the dot com bust but nothing that seriously interrupted the long boom that began somewhere in 1988. They had never experienced anything quite like 2008; so they never imagined that such a crisis could actually happen.
Similarly, 2020 was an unprecedented year – in our lives and certainly for the tech industry. The GFC (as the name suggests) was a financial crisis. A lot of people lost their jobs, but after the bailouts things went largely back to normal. COVID-19 is something different altogether – the impact will be felt for years and we don’t yet know the full implications of the crisis.
While we would like to start 2021 with a clean slate and never talk about the pandemic again, the reality is that COVID-19 will shape what we will see this year. In the first place it looks like the disease will still be around for a substantial part of the year. Secondly, all the changes it has brought in 2020 with entire workforces suddenly moving to operating from home will have profound implications for technology and customer experience this year.
As we ease into 2021, I look at some of the organisational and technology trends that are likely to impact customer experience (CX) in 2021.
#1 All Business is Now eBusiness
COVID-19 has ensured that the few businesses which did not have an online presence became acutely aware that they needed one. It created a need for many businesses to quickly initiate eCommerce. Forbes reported a 77% increase in eCommerce infrastructure spending YoY. This represents about 4 years of growth squeezed into the first 6 months of 2020!
From a CX point of view there is going to be far more interaction with brands and products through online channels. This is not just about eCommerce and buying from a portal. It is also about using tools like Instagram, Facebook and other social media platforms more widely. It is about learning to interact with the customer in multiple ways and touching their journeys at multiple points, all virtually using the web – mostly the mobile web.
Ecosystm research shows that almost three out of four companies have decided on accelerating or modifying the digitalisation they were undergoing (Figure 1). It is fair to expect that this gives a further boost to moving to the cloud. For the customer it will mean being able to access information in many new ways and connect with products, services, brands at multiple points on the web.
Since interacting with the customer at multiple points is new for most services, I foresee a lot of missed opportunities as companies learn to navigate a completely different landscape. Customers pampered by digitally native organisations often react harshly to even a small mistake. It will become critical for companies to not just become a bigger presence online but also to manage their customers well.
New solutions such as Customer Data Platforms (CDP), as opposed to CRM will become common. Players who are into Customer Experience management are likely to see huge business growth and new players will rapidly enter this space. They will promise to affordably manage CX across the globe, leveraging the cloud.
#2 Virtual Merges with Real
Virtual and Augmented Reality are not new. They have been around for a while. This will now cross the early adoption stage and is likely to proliferate in terms of use cases and importance.
AR/VR has so far been seen mainly in games where one wears an unwieldy – though ever-improving – headset to transport oneself into a 3D virtual world. Or in certain industrial applications e.g., using a mobile device to look at some machinery; the device captures what the eye can see while providing graphical overlays with information. In 2021 I expect to see almost all industrial applications adopting some form of this technology. This will have an impact on how products are serviced and repaired.
For the mainstream, 2020 was the year of videoconferencing – as iconic as the shift to virtual meetings has been, there is much more to come. Meetings, conferences, events, classrooms have all gone virtual. Video interaction with multiple people and sharing information via shared applications is commonplace. Virtual backgrounds which hide where you are actually speaking from are also widely used and getting more creative by the day.
Imagine then a future where you get on one of these calls wearing a headset and are transported into a room where your colleagues who are joining the call also are. You see them as full 3D people, you see the furniture, and the room decor. You speak and everyone sees your 3D avatar speak, gesture (as you gesture from the comfort of your home office) and move around. It will seem like you are really in the conference room together! If this feels futuristic or unreal try this or look at how the virtual office can look in the very near future.
While the solutions may not look very sophisticated, they will rapidly improve. AR/VR will start to really make its presence felt in the lives of consumers. From being able to virtually “try” on clothes from a boutique to product launches going virtual, these technologies will deeply impact customer experience in 2021 and beyond
In the immortal words of Captain Kirk, we will be going where no man has gone before – enabled by AR / VR.
#3 Digital CX will involve Multiple Technologies
AI, IoT and 5G will continue to support wider CX initiatives.
The advances that I have mentioned will gain impetus from 5G networking, which will enable unprecedented bandwidth availability. To deliver an AR experience over the cloud, riding on a 5G network, will literally be a game changer compared to the capabilities of older networks.
Similarly, IoT will lead to massive changes in terms of product availability, customisation and so on. 5G-enabled IoT will allow a lot more data to be carried a lot faster; and more processing at the edge. IoT will have some initial use cases in Retail, Services and other non-manufacturing sectors – but perhaps not as strongly as some commentators seem to indicate.
AI continues to drive change. While AI may not transform CX in 2021, this is a technology which will be a component of most other CX offerings, and so will impact customer experience in the next few years. In fact, thinking of businesses in 2025 I cannot believe that there will be a single business to customer (B2C) interaction which will not feature some form of AI technology.
I’d be interested to hear your thoughts on the technologies which will impact CX in 2021 – Connect with me on the Ecosystm platform.
In this blog, our guest authors Randeep Sudan and Yamin Oo talk about the pervasiveness of the Digital Economy, and the key trends that will determine its future trajectory. “That the world in 2030 will be very different from today is obvious. We may, however, be surprised by the extent and sweep of the change ahead of us.”
The Digital Economy – a term first coined by Don Tapscott in 1994 – is not easy to define or measure. At one end, it is limited to the production and consumption of digital goods and services. On the other end, according to the European Parliament, “The digital economy is increasingly interwoven with the physical or offline economy making it more and more difficult to clearly delineate the digital economy“. We are, however, witnessing the Digital Economy transitioning to an economy that is digital.
Given the pervasiveness of the Digital Economy, its future will be determined by the complex interplay of several trends. Some of the trends that illustrate the future trajectory of the Digital Economy are:
Technology
We will see AI becoming ubiquitous as it is leveraged in every sector and sphere of activity. According to one estimate, AI is estimated to contribute USD 15.7 trillion to the global economy by 2030, which is more than the current GDP of China and India combined! We are also likely to see rapid progress in technologies related to Extended Reality (XR) in the coming years. COVID-19 is accelerating this trend, as we can see from the offerings of companies like Spatial and MeetinVR that facilitate virtual business meetings. The analog world’s rendering into its digital twin will see us moving towards a metaverse – a virtual shared space imagined in Neal Stephenson’s novel Snowcrash. Some of the biggest names in the tech industry – Apple (Apple glass), Facebook (Oculus), Sony (Playstation) – are assiduously working towards this direction.
Given the importance of telecom infrastructure to the Digital Economy, 5G networks are being rolled out in countries worldwide (Figure 1). However, even as 5G is being deployed, the buzz around 6G is getting louder. 6G may transmit data 100 times faster than 5G and may see deployment by 2030 given the decadal cycles for telecom: 1G in the 80s, 2G in the 90s, 3G in the decade following 2000, 4G in the decade starting 2010, and 5G beginning in the 2020s.
The availability of high bandwidth, low latency networks could lead to newer applications and further breakthroughs in innovative technologies.
The Future of Work
With the rapid growth in automation and AI, we are likely to see significant labour market disruptions. Moreover, COVID-19 has been a watershed for the global economy – its impacts will continue to be felt for many years to come. According to the International Labor Organization, 495 million full-time jobs were lost in the first two quarters of 2020 due to COVID-19. Lower and middle-income countries have suffered the most, with an estimated 23.3% drop in working hours – equivalent to 240 million jobs.
A recent report from the World Economic Forum estimates that by 2025, 85 million jobs may be displaced due to automation and AI, while 97 million new roles may emerge. We will see significant changes and turbulence in labour markets across multiple industries and geographies in the years ahead. If we look at how the top ten skills required by the top 10 US companies have been changing over time, we get an indication of the Future of Work. Companies are more focused on “soft” skills, that are not easily addressed by AI & Automation.
We are also likely to see a shift from humans adapting to technology to technologies adapting to humans. For example, the acceleration in digital twins combined with advancements in XR could allow unskilled workers to do skilled jobs. AR could guide a worker to repair a piece of mechanical equipment without long years of previous training. Similarly, the emergence of ‘Low Code No Code’ (LCNC) applications will allow ordinary individuals to do tasks that previously required specialised training.
Climate Change
Scientists have long focused our attention to limit the carbon dioxide in the atmosphere to 450 parts per million to avoid catastrophic climate change. In 2016, the World Meteorological Organization reported this concentration had crossed 400 parts per million, leaving us with a shorter runway to prevent calamitous climate change. We are, therefore, likely to see increased efforts to tackle climate change in the decade ahead.
Digital technologies can impact the global climate agenda in multiple ways: smart grids, smart buildings, smart appliances, intelligent transport systems, shared mobility, and 3D printing, to name a few. Digital technologies will also allow new sources of renewable energy to be tapped. For example, the molten core of the earth is over 6,000°C. “Just 0.1% of the heat content of Earth could supply humanity’s total energy needs for 2 million years,” according to AltaRock Energy. Advances in the use of digital technologies that allow for precise directional drilling will allow for advanced geothermal systems to be established as reliable power sources.
Splinternet
Tech bloggers like Doc Searls and Stephen Lewis had begun to theorise about a Splinternet as early as 2008. There was a danger of governments carving the world into geopolitical blocks and creating technology barriers. China’s Great Firewall and the US’s recent responses under the Trump administration are likely to hurtle us in the direction of a fractured internet. We may end up with the US dominating the western internet and China dominating a competing block of countries. The Digital Economy’s evolution would fracture into different camps, making it very different from what it is today.
Tech Regulation
The most valuable companies in the world today are in tech. Seven of the top ten companies in the world by market cap in 2020 are tech companies.
The recent investigation into competition in digital markets undertaken by the US House Judiciary Committee observed: “Over the past decade, the digital economy has become highly concentrated and prone to monopolisation. Several markets investigated by the Subcommittee – such as social networking, general online search, and online advertising – are dominated by just one or two firms. The companies investigated by the Subcommittee – Amazon, Apple, Facebook, and Google – have captured control over key channels of distribution and have come to function as gatekeepers. Just a decade into the future, 30% of the world’s gross economic output may lie with these firms, and just a handful of others.“
We have also witnessed the rapid diversification of data monopolies into other sectors. See, for example, the diversification of VC investments by Alibaba’s Ant Group over time. In 2015 they were investing in 5 areas, which has doubled in the last 5 years.
The call for the regulation of big tech will gain momentum in the coming years. The European Union is likely to lead here, just the way just it did in the case of its General Data Protection Regulation.
Governments will also require data monopolies to share data. China mandates its automakers to share data generated by electric vehicles with a government research institute. This data is essential for public safety and planning battery-recharging stations. The Australian Government promotes the concept of sharing “designated datasets” that could include data held by the private sector that has significant community benefits. Similarly, France’s Law for a Digital Republic requires the sharing data by certain categories of the private sector. Such blurring of boundaries between public and private data will become more important.
We will also see the growing importance of data trusts. These are structures where data is placed in the custody of a “Board of Trustees” who have a fiduciary responsibility to look after the interests of data owners. Such data trusts might give individuals better control over their data.
Every aspect of the economy is being digitalised today. In the next decade we are likely to witness foundational shifts in how the Digital or Data Economy is structured. It will also see increasing risks as cyber threats grow exponentially from cybercriminals and state actors. That the world in 2030 will be very different from today is obvious. We may, however, be surprised by the extent and sweep of the change ahead of us.
Singapore FinTech Festival 2020: Economic Summit
For more insights, attend the Singapore FinTech Festival 2020: Economic Summit which will cover topics tied to the state of the economy, path to recovery and re-framing the new financial services landscape
2020 saw a shutdown in both supply and demand which has effectively put the brakes on many economic activities and forced a complete rethink on how to continue doing business and maintain social interactions. The COVID-19 pandemic has accelerated digitalisation of consumers and enterprises, and the telecommunications industry has been the pillar which has kept the world ticking over. The rise in data use coupled with the fervent growth of the digital economy augurs well for the telecom sector in 2021.
Ecosystm Advisors Claus Mortensen, Rahul Gupta, and Shamir Amanullah present the top 5 Ecosystm predictions for Telecommunications & Mobility trends for 2021. This is a summary of the predictions – the full report (including the implications) is available to download for free on the Ecosystm platform.
The Top 5 Telecommunications & Mobility Trends for 2021
- The 5G Divide – Reality for Some and Hype for Others
Despite the economic challenges in 2020, GSMA reports that the global 5G subscriptions doubled QoQ in Q2 2020 to hit at least 137.7 million subscribers. This accounts for 1.5% of total subscribers – and is expected to rise to 30% by 2025.
The value of 5G will become increasingly mainstream in the next few years. 5G offers a tailored user-centric approach to network services, low latency and significantly higher number of connections which will power a new era of mobile Internet of Everything (IoE).
However, there are many operators who are still sceptical about 5G. In the US, many operators failed to get any tangible positives from 5G. In the near term, many operators will continue to evolve their 5G capabilities – a full grown standalone 5G technology implementation in some verticals might take longer.
The unsuccessful launch of 5G by the US operators does not mean that 5G is a failure, however. It also implies that we need to look at other geographies to lead us into 5G – and Asia Pacific may well emerge as a leader in this space. China, for example, leads the drive in 5G adoption; and 5G smartphones account for more than half of global sales in recent months.
- Telecom Operators Will Accelerate Digital Transformation
Telecom operators are facing increasing demands for cutting-edge services and top-notch customer experience (CX). The global pandemic has caused revenue loss, due to struggling economies and many operators will aim to reduce OpEX to circumvent these financial pressures, raise the quality of CX and retain existing customers. To realise this, there will be much focus on improvement in efficiencies, better operations management as well as improving the IT stack. These digital transformation efforts will enable rapid and flexible services provisioning, which will be better prepared for the tailored services customers now demand.
Many operators are increasingly incorporating cloudification alongside the 5G network deployment. Operators are moving towards transforming their operations and business support systems to a more virtualised and software-defined infrastructure. 5G will operate across a range of frequencies and bands – with significantly more devices and connections becoming software-defined with computing power at the Edge. Operators will also harness the power of AI to analyse massive volumes of data from the networks accessed by millions of devices in order to improve CX, ramp up operational efficiencies as well as introduce new services tailored to customer needs to increase revenue.
- Remote Working Will Transform Telecommunications Networks
The changing patterns in peak network traffic and the substantial movement of traffic from central business districts to residential areas require a fundamental rethink in network traffic management. In addition, many businesses continue to ramp up digital transformation efforts to conduct business online as physical channels will remain limited. Consumer onboarding will also be fervent, as organisations look at business recovery – resulting in increase in bandwidth requirements.
The increasing remote working trend is amplifying the need for greater cybersecurity. Cybersecurity has catapulted in importance as the pandemic has seen a worrying increase in attacks on banks, cloud servers and mobile devices, among others. Cyber-attack incidents specifically due to remote working, has seen a rise. A telecom operator’s compromised security can have country-wide, and even global consequences.
- SASE Will Grow – and Sprawl
Although it was perhaps originally seen as an Over-The-Top (OTT) provisioned competitive service to operators’ MPLS services, many telecom service providers have been embracing SD-WAN over the years as part of their managed services portfolio. “Traditional” SD-WAN offers some of the flexibility needed to address the change towards a more distributed access and the workload requirements that the pandemic has accelerated – the technology does not address all of the issues related to this transformed workspace.
Employees are now working from a variety of locations and workloads are becoming increasingly distributed. To address this change, organisations are challenged to move workloads and applications between platforms, potentially compromising security. Despite all the challenges that the pandemic brought with it – both human and technical – it has also provided organisations with an opportunity to rethink their IT and WAN architectures and to adopt an approach that has security at its core.
We believe that secure access service edge (SASE), which is a model for combining SD-WAN and security in a cloud-based environment, will see a drastic rise in adoption in 2021 and beyond.
- OTT Players Will Continue their Expansion in the Telecommunications Space
Facebook, Google, Amazon are no longer considered as web companies as they moved from standalone ‘web’ companies to become OTT providers and are now significant players in telecom space. With the Facebook-Jio deal in India earlier this year, and with Google and Amazon actively eyeing the telecom space, these players will continue to explore this space especially in the emerging markets of Asia and Africa. There are telecom providers in these countries which will be prime targets for partnerships. These operators could be those that have a large customer base, are struggling with their bottom lines or are already looking at exit routes. OTT players were already offering services like voice, messaging, video calling and so on which have been the domain expertise of mobile operators for a long time. The market will see instances where telecom providers will sell small stakes to OTT players at a premium and get access to the vast array of services that these OTT providers offer.
As organisations stride towards digitalisation, re-evaluating their business continuity plans and defining how the Future of Work will look for them, cloud adoption is expected to surge. Almost all technologies being evaluated by organisations today have cloud as their pillar. Cloud will the key enabler for ease of doing business, real-time data access for productivity increase, and process automation.
Ecosystm Advisors Claus Mortensen, Darian Bird and Tim Sheedy present the top 5 Ecosystm predictions for Cloud Trends in 2021. This is a summary of our cloud predictions – the full report (including the implications) is available to download for free on the Ecosystm platform here.
The Top 5 Cloud Trends for 2021
- 2021 Will be All About SaaS
2020 was a breakout year for SaaS providers – and a tough one for a lot of on-premises software vendors. SaaS (or mainly SaaS) providers like Salesforce, Zoom, Microsoft had record growth and some of the best quarters in their history, while other mainly on-premises software providers have had poor quarters. SAP is even accelerating the transition to a 100% cloud-based business as their revenue suffers. The race to deploy SaaS tools and platforms is well and truly happening. Many of the usual ROI models and business cases have been abandoned as the need for agility – to drive business change at pace trumps most other business needs. Ecosystm data validates this
This trend will continue in 2021 – in fact, we expect it to accelerate. Most SaaS solutions (such as CRM, ERP, SCM, HRM etc.) are implemented by less than 30% of businesses today – which means the upside for the SaaS providers is huge.
- Hybrid Cloud Will Finally Become Mainstream
The sudden move to remote working in 2020 forced most organisations to increase their use and reliance on cloud-based applications. Employees have relied on collaborative tools such as Zoom, Microsoft Teams and WebEx to conduct virtual meetings, call centre workers had to respond to calls from home – most if not all relying on cloud-based apps and platforms. This trend is set to continue going forward. Ecosystm research finds that 44% of organisations will spend more on cloud-based collaboration tools in the next 6-12 months.
But the forced adoption of these tools has also prompted many – especially larger organisations – to worry about losing control of their IT resources, including worries related to security and compliance, cost, and reliability. As for the latter, both Microsoft Azure and Zoom experienced outages after the pandemic hit and this has made many organisations wary of relying too much on a single public cloud platform. Ecosystm therefore expects a sharp increase in focus on hybrid cloud platforms in 2021 as IT Teams seek to regain control of the apps and services their employees rely the most upon.
- Carrier Investment in 5G Will Give Edge Computing a Boost
The gap between the hype around edge computing and the actual capabilities it offers will narrow in 2021 as 5G networks are built out. One of the most promising methods of deploying edge computing involves carriers embedding cloud capacity in their own data centres connected to their 5G networks. This ensures data does not unnecessarily leave the network, reducing latency and preserving bandwidth. This combination of 5G and the Edge will be of particular benefit to applications that until now have faced a trade-off between mobility and connectivity. Over the last twelve months, the major hyperscalers announced their 5G edge computing offerings, and some of the major global telecom providers have served as test cases by partnering with at least one hyperscaler and will likely add more over the next year. Expect this ecosystem to expand greatly in 2021.
Cloud environments can benefit from pushing computing-heavy workloads to the Edge in much the same way as IoT and provides a great platform for managing the edge computing endpoints. The flipside of pushing containers to the Edge will be the increased complexity and the fact that the number of attack surfaces will increase. Containerisation must therefore be deployed with security at its core.
- Stateful Applications Will Move to the Cloud with Containers and Orchestration
As organisations seek to migrate workloads and applications between platforms in an increasingly hybrid cloud environment, the need for “lifting and shifting”, refactoring and partitioning applications will increase. These approaches all have their shortcomings, however. Lifting and shifting an application may limit its functionality now or in the future; refactoring may take too long or be too costly; and partitioning is often not feasible or possible. A better approach to this task is to modernise the applications to make use of application containers like Docker, Windows Server Containers, Linux VServer and so on, to enable a faster and more seamless way to migrate applications between platforms. We also see container orchestration environments like Kubernetes and containerised development and deployment platforms like IBM’s Cloud Paks.
How these technologies are used to deploy stateful applications in multicloud environments will evolve. A raft of container management platforms, based on Kubernetes, are being released to simplify what was once a complex DIY process. New entrants will look to challenge the cloud hyperscalers, virtualisation giants, and Kubernetes specialists. The emerging features that previously required cobbling together third-party tools, like service mesh, data fabric, and machine learning, will speed up containerisation of stateful core applications. The deployment of containers on bare metal rather than in virtualised environments will also gather pace. The most challenging task will be delivering containerised applications at the Edge, forcing developers and platform providers to create inventive solutions.
- Serverless will take us a step closer to NoOps
As the application lifecycle speeds up and the distinction between development and operations shrinks, the motivation to adopt serverless computing will grow in 2021. While NoOps, the concept that operations could become so automated that it fades into the background, is still a distant goal, serverless computing will make a stride in that direction by abstracting the application from the infrastructure. Having seen the agility benefits of a microservices architecture, many DevOps teams will experiment with breaking services down further into functions. Moreover, the pay-as-you-go model of serverless will appeal to OpEx driven organisations. Expect stories of bill shock, however, as were seen in the early days of cloud adoption. While AWS Lambda is currently considered the serverless industry standard, it is likely that in 2021, Microsoft, Google, and IBM will ramp up efforts in this space. Each of these providers will build out their offering in terms of languages supported, event triggers, consumption plans, machine learning/AI options, observability, and user experience.
In the recently published the Top 5 Cybersecurity & Compliance Trends for 2021 report Ecosystm predicts that 2021 is when M&As will ramp up in earnest to consolidate the fragmented cybersecurity market. The pandemic has slowed down M&A activities in 2020. Early signs of what we can expect from the market when we emerge from COVID-19 can be seen in the recent acquisition of Asavie by Akamai Technologies. The market is realising the full implication of the shift to remote working and the potential of increased cyber threats – and this acquisition is a sign that larger vendors will continue to strengthen their cybersecurity capabilities by acquiring vendors, with complementary capabilities.
Asavie Enabling the Secure Office Anywhere
Asavie, headquartered in Ireland, offers a global platform that manages the security, performance, and access policies for mobile and internet-connected devices. Asavie delivers secure access to business resources for a mobile workforce – without requiring installation and management of client software. Increasing mobile workloads and Office Anywhere trends mean that the enterprise private network is no longer just PCs/laptops. All enterprise endpoints must be considered to be a part of the enterprise network – and security and authentication solutions must be able to handle this. Organisations will need to explore options where they can give seamless access to their employees without straining their IT and cybersecurity teams – a rapidly installable, scalable, and cloud-managed solution will become a necessity.
More than ever before, enterprises will have to treat all endpoints as branches of the organisation, and the Future of Work goes beyond enabling home offices. The Global CXO Study: The Future of the Secure Office Anywhere finds that 66% of IT and business leaders think of multiple locations, when they think of Office Anywhere. Employees will work wherever they get the best work experience and are most productive. Future work patterns will require that all endpoints are considered as extended branches of the organisation. This involves the ability to extend the enterprise WAN – with speed, flexibility, and security in mind – whether it is a temporary or a home office, an ad-hoc point of sales or an employee on the go. Every employee or device should be treated like a Branch of One.
Ecosystm Comments
“Akamai has been diversifying away from its well-known content delivery network (CDN) offering and has successfully built its security business offering in recent years. In 2019, the company nearly doubled its security revenue to USD 849 million from just USD 488 million in 2017. In their 3rd quarter financial results reported in end October 2020, the Cloud Security Solutions revenue was US$266 million, up 23% year-over-year.”
“The move into the mobile security segment has been timely for Akamai as enterprise application and content is moving from behind the firewall to the cloud; adding to the criticality of the cybersecurity threat management. The COVID-19 pandemic has further driven the onboarding of businesses and consumers alike, adding to significant addressable market opportunities.”
“The acquisition of Asavie is a strategic move. Asavie’s solution effectively extends the enterprise security management to incorporate mobile devices as a ‘Branch of One’ enabling CIOs and CISOs to manage security and policies the same way as traditional enterprise network resources. The growth of 5G will further drive IoT devices and a myriad of applications and use cases which will provide for a significant growth opportunity for Akamai – the acquisition of Asavie is a positive move to support this trend.”
Akamai Strengthens Intelligent Edge Capabilities
Asavie’s mobile, IoT and security solutions will integrate with Akamai’s Security and Personalisation Services (SPS) product line sold to carrier partners that embed the solution within the technology bundle sold to their subscribers. With the Asavie acquisition, Akamai intends to help their carrier partners address enterprise and mid-market customer demand for IoT and mobile device security and management services.
Ecosystm Comments
“The addition of Asavie to Akamai’s SPS product line provides synergy for the company to expand into new addressable markets for the remote workforce and internet-connected devices to deliver superior experience in a multi-cloud environment. The Global CXO Study conducted by Ecosystm found that three quarters of the organisations rate mobile security as an important or very important part of their digital transformation strategy. Secure mobile experiences will be a core element of the enterprise going forward in the post COVID-19 business environment – driven by employee needs for mobile services and corporate resources from remote locations, with superior identity and policy management, in a frictionless manner.”
“There is an opportunity for mobile service providers and mobile virtual network operators (MVNOs) to leverage the Asavie solution combined with Akamai’s strength at the edge with over 1,500 networks worldwide to offer cloud-based value-added cybersecurity services. The Global CXO Study also found that scaling of endpoint security was a major pain point for half the organisations with more than 100 branches. Service providers can become the enabler by offering services for small and medium enterprises (SMEs) to dynamically adapt their network and security services to fluctuating demand conditions.”
“Although Akamai does offer CDN services for the SME segment, the company heavily relies on service providers and carriers to address this segment in the CDN, cloud security and its burgeoning IoT Edge offerings. Asavie’s market approach is similar and its products and services portfolio appears to complement Akamai’s very well, making it a very good fit for the company. Not only will it enhance Akamai’s SME positioning on the secure connectivity space, but it will also boost its offerings for carriers in the IoT space.”
“Carriers have had a checkered history at best, in understanding and making the most of data services. Mobile Internet took off because of smartphone manufacturers (Apple) and Internet companies – not through carrier offerings. Although carriers appear to be more proactive and forward-looking with regards to IoT, they should not expect to have the foresight to see what services and business cases will make 5G and IoT truly profitable. Rather, their main focus should be on enabling the secure and flexible infrastructure that can ultimately enable others to develop the use cases. The next logical step would then be for carriers to develop IoT orchestration platforms that can manage much larger parts of the IoT value chain. If they succeed in this (and even if they don’t) it could result in a major boost for Akamai’s CDN business.”
“In other words, carriers need help with IoT and to that end, Akamai’s acquisition of Asavie may strengthen its ability to support carriers to reach that goal.”
The full findings and implications of The top 5 Cybersecurity & Compliance Trends For 2021 are available for download from the Ecosystm platform. Sign up for Free to download the report.