At the World Mobile World Congress (MWC) held in Barcelona, Spain, Yang Chaobin, President of Huawei 5G Product Line, unveiled a full range of end-to-end (E2E) 3GPP-compliant 5G product solutions. This release covers the core network, the bearer network, base station, and terminals. Huawei's 5G product solutions are entirely based on 3GPP standards, with full range, full scenario, and all-cloud being the defining characteristics. The featured products are also the only available options within the industry to provide 5G E2E capabilities.5G Base Station: Various forms to suit the deployment requirements in all scenarios and offer ubiquitous xGbps user experience The first wave of 5G deployment will take place in buildings and densely populated urban areas. Diverse site forms are therefore required to accommodate the needs of complex deployment scenarios, offering continuous coverage and fulfill capacity requirements of indoor and outdoor hotspots. Huawei's newly released full range of 5G product solutions support millimeter wave (mmWave), C-band, and all Sub-3 GHz frequency bands. These products also cover all site forms including tower sites, pole sites, and small cells.To read this article in full, please click here
Huawei has launched AUTIN, an Operations Consulting and Software as a Service (SaaS) solution for Digitized Operations Services to help operators manage complex hybrid ICT environments. AUTIN delivers AUTomation and INtelligence to modernize and reshape operations for the digital era.Building on its award-winning Operation Web Services (OWS), Huawei new AUTIN brand is introducing new functionality and machine learning for intelligent operations. AUTIN leverages big data and AI to help operators move from a reactive to more proactive and predictive operations. The solution is vendor and technology agnostic and can manage multiple technologies and services in a constantly changing environment.To read this article in full, please click here
At Mobile World Congress (MWC2018), Huawei today launches the OceanStor Dorado18000 V3, a high-end, intelligent all-flash array (AFA), which helps customers manage storage resources for mission-critical enterprise services. The OceanStor Dorado18000 V3 is designed to ensure a consistent service experience on- and off-premises. Huawei supplied Huawei launches high-end, intelligent AFA OceanStor Dorado18000 V3 "IoT, cloud, AI and other newly-developed technologies have brought us opportunities and challenges," said Joy Huang, Vice President of Huawei’s IT Product Line. "Carriers want to provide better service experience and that’s why data management is increasingly seen to be of critical importance. The new high-end intelligent AFA OceanStor Dorado18000 V3 is tailored for mission-critical services at carriers, providing lightning-fast and rock-solid data experience. By continuously going beyond boundaries, Huawei Storage is committed to lead in the era of All-Flash, All-Cloud, and All-Intelligence data storage.''To read this article in full, please click here
During the Mobile World Congress (MWC) in Barcelona, Telefónica and Huawei jointly demonstrated the industry's first VR service using 5G end-to-end (E2E) network slicing technology. The demonstration offered visitors the opportunity to enjoy the ultimate immersive 5G interaction experience. Interactive VR will be introduced to gaming, education, entertainment, e-Health, industry design etc., which will bring new business opportunities to operators.This demonstration used 5G E2E networks, including the access network, core network, transport network, and terminals. This test provided evidence of how 5G network slicing can enable on-demand diversified services and ensure large bandwidth and low latency, thus helping operators to achieve 5G business success. This demonstration represented the latest achievement in 5G key technology verification and use case research, marking another significant milestone of the two parties' continued joint innovation and strategic cooperation.To read this article in full, please click here
Huawei and Bouygues Telecom announced today a joint innovation program to experiment 5G in France. Bouygues Telecom is part of the first operators worldwide to experiment 5G 3GPP in field with Huawei. Bordeaux will be the first city for a 5G network trial, from single site to multi-site coverage.With the release of industry's first 3GPP-based E2E 5G network system solutions developed by Huawei, the deployment of 5G networks is about to begin. Bouygues Telecom intends to provide ultra-high capacities for data services, greatly improving user experience and continuously maintaining a leading position in telecom network.Today agreement underlines Bouygues Telecom and Huawei collaboration since 2012 to launch 4G network. In 2014, building-on this partnership, Bouygues Telecom and Huawei jointly tested the first 4G commercial network reaching 1.1Gbps in Western Europe using 4 Carrier Aggregation Technology.To read this article in full, please click here
Huawei and Bell Canada, the country’s largest communications company, today announced Bell’s successful Wireless to the Home (WTTH) trials in the 3.5 GHz and 28 GHz spectrum bands utilizing Huawei’s 5G-oriented Massive MIMO and 8T8R technology.The trials were conducted in the small Ontario communities of Orangeville, Feversham and Bethany to test and refine the capabilities of WTTH services for rural areas. As one of its next major steps in deploying high-speed home broadband in Canadian communities large and small, Bell plans deployment of WTTH to rural locations beginning in the second quarter of 2018.“We are proud to work with Bell utilizing the WTTH solution to achieve the company’s high-speed broadband goals,” said Mao Dun, Vice President of Huawei’s Wireless Network Marketing & Solutions Sales. “TD-LTE technology is rapidly maturing. Other 5G-oriented technologies, including carrier aggregation, 8T8R and Massive MIMO, can deliver fibre-like access speeds while supporting Bell’s multiple services such as Fibe TV. We believe these advanced technologies will benefit all Canadians.”To read this article in full, please click here
Huawei and Bell Canada, the country’s largest communications company, today announced Bell’s successful Wireless to the Home (WTTH) trials in the 3.5 GHz and 28 GHz spectrum bands utilizing Huawei’s 5G-oriented Massive MIMO and 8T8R technology.The trials were conducted in the small Ontario communities of Orangeville, Feversham and Bethany to test and refine the capabilities of WTTH services for rural areas. As one of its next major steps in deploying high-speed home broadband in Canadian communities large and small, Bell plans deployment of WTTH to rural locations beginning in the second quarter of 2018.“We are proud to work with Bell utilizing the WTTH solution to achieve the company’s high-speed broadband goals,” said Mao Dun, Vice President of Huawei’s Wireless Network Marketing & Solutions Sales. “TD-LTE technology is rapidly maturing. Other 5G-oriented technologies, including carrier aggregation, 8T8R and Massive MIMO, can deliver fibre-like access speeds while supporting Bell’s multiple services such as Fibe TV. We believe these advanced technologies will benefit all Canadians.”To read this article in full, please click here
Adopting IoT technology is a significant, company-wide undertaking. It requires a large dedication of resources and budget across multiple departments. Rightfully, the C-level has expectations for their investments. But before you can get to the payoff, there is an inordinate amount of decisions to be made and changes to endure. Not the least of which will be to learn new technology, establish new processes and define new job descriptions.But, because the result is so valuable to an organization’s bottom line – for example, greater yields of manufactured goods, extended life of decade’s old equipment, and more – tech leaders often compare the adoption of IoT technology to the early days of computers in business. To read this article in full, please click here
A flaw in the implementation of the UDP protocol for Memcached servers can allow anyone to launch a massive Distributed Denial of Service (DDoS) attack with little effort.The problem was first discovered by security researchers at content delivery network (CDN) specialist Cloudflare. Since then, CDN specialist Akamai and security provider Arbor Networks have also published their findings.Also read: Getting the most out of your next-generation firewall Memcached is a Web-based massive memory cache for database-drive sites, such as websites, that caches the most frequently retrieved data and keeps it in memory rather than getting it from the hard disk over and over again. It is a combination of open-source software and standard server hardware that consists of memory, memory, and more memory.To read this article in full, please click here
The Internet of Things (IoT) continues to expand its reach into homes, businesses, social settings, and other environments, as more and more devices are connected with the purpose of gathering and sharing data.Clearly, there are several potential benefits of IoT from a consumer standpoint. Apart from the convenience aspect, smart connected products can lead to increased energy efficiency, improved safety and security, higher product quality, etc.But unfortunately, the current consumer IoT device landscape is still immature. For consumer IoT devices to thrive, device management capabilities need to evolve in a few ways.IoT device management is the process of authenticating, provisioning, configuring, monitoring and maintaining the device firmware and software that provides its functional capabilities. Effective device management is critical to establishing and maintaining the health, connectivity, and security of IoT devices. IoT application vendors typically provide comprehensive device management with their solutions. But all bets are off if that application vendor goes out of business and you would like to use your devices with a similar application from a different vendor. Consumers are increasingly faced with unexpected device obsolescence and landfills are starting to fill up with expensive IoT bricks. What consumer IoT needs is a truly Continue reading
Each new Wi-Fi standard has brought significant improvements in performance, with the most recent, 802.11ac, offering an impressive theoretical maximum rate of 1.3Gbps. Unfortunately, these gains have not been enough to keep pace with demand, leading to that exasperated cry heard across airports, malls, hotels, stadiums, homes and offices: “Why is the wireless so slow?”The IEEE is taking another crack at boosting Wi-Fi performance with a new standard called 802.11ax or High-Efficiency Wireless, which promises a fourfold increase in average throughput per user.RELATED: Can MU-MIMO really boost wireless capacity? 802.11: Wi-Fi standards and speeds explained Wi-Fi 2018: What does the future look like? 802.11ax is designed specifically for high-density public environments, like trains, stadiums and airports. But it also will be beneficial in Internet of Things (IoT) deployments, in heavy-usage homes, in apartment buildings and in offices that use bandwidth-hogging applications like videoconferencing.To read this article in full, please click here
Virtually every small and medium-sized business is now driven by digital technologies. From our phones and PCs to the critical business applications that form the basis of business operations, our workday has become dependent on devices and the systems they are connected to. In addition to supporting employees, our customers and partners are constantly interacting with our systems. Outages are unacceptable. If our systems go down, business stops. This impacts employees, partners, and customers. And it’s not just an inconvenience; it costs the business money.Unfortunately, many businesses with 100-1,000 employees are using legacy server rooms or data centers that were built in the days before “always-on” became the requirement. A decade ago, downtime was hidden from customers and partners, and employees could work around a problem, staying somewhat productive. That’s no longer the case. Downtime is a disaster. And in many cases, downtime can result in lost data and corrupt systems, making the cost of recovery even greater. In some industries, data lost during an outage also creates a “compliance event,” which is never “career enhancing” for an IT professional.To read this article in full, please click here
For about as long as there has been personal computers, there has been an aftermarket of system optimization software. Even MS-DOS, which was about as basic as an operating system gets, had QEMM to get the most out of your 640K of memory. These days, there is a healthy market of Windows optimization utilities to speed up your PC.For servers, though, it gets a little more complicated. Actually, it gets very complicated. Not only does each server have to operate at peak efficiency on its own, but it then has to interact with the network, with other servers, and potentially with a public cloud service provider.Also on Network World: What will AI mean to the traditional data center? And usage models change over time. There might be peak use times when certain processes are not run, such as backups, and slow times of day when other tasks can be run. So an optimal configuration at one point in the day is not optimal at a different time of the day.To read this article in full, please click here
We’ve started to hear a lot about SD-Branch as a natural successor to SD-WAN, which makes sense as the centrally-orchestrated model is attractive to many enterprises. However, just as we saw with SD-WAN, the term “SD-Branch” is being adopted by many different vendors and service providers to mean what they want, in the absence of any “official” definition.What is SD-Branch anyway? Based on most definitions, SD-Branch means delivering more IT infrastructure to branches under a programmable, centrally orchestrated model. Think of it as “SD-WAN plus” – just as you can create templates or profiles in an SD-WAN network, an entire branch template could be generated that defines how the LAN is configured, what wireless LANs are used, how they integrate with the WAN, and what additional compute-based services need to be deployed at the branch.To read this article in full, please click here
Are you getting the most out of your next generation firewall? Probably not if you take to heart recent research from SafeBreach.SafeBreach, a relative newcomer to the security arena -- it was founded in 2014 -- sells premise and service packages that continually run network breach simulations that help customers locate and remediate security problems.RELATED: What is microsegmentation? How getting granular improves network security Illumio extends its segmentation to the network and cloud Specifically the company deploys software probes distributed throughout customers’ networks, and attempts to establish connections among devices and network segments just as a hacker would do in attacking your data. These breach attempts are defined by SafeBreach’s Hacker’s Playbook, a library of known attack methods that uncover network security weaknesses and how these vulnerabilities might be exploited.To read this article in full, please click here
Cisco is one of the biggest proponents — and potential beneficiaries — of the Internet of Things (IoT). The networking giant is pushing IoT solutions in a number of areas, not least of which is the transporation sector.To learn more about how the company sees the future of IoT playing out in the world of connected transporation, I spoke (via email) with Kyle Connor, Cisco’s transportation industry principal.Connor covered a lot of ground, but here are what I consider his seven most important points, along with my reactions to them:To read this article in full, please click here
The Shannon-Hartley theorem expresses “the maximum rate at which information can be transmitted over a communications channel of a specified bandwidth in the presence of noise.”Translation: wireless data can only travel so fast. But if data rates are finite, how can we support the rollout of Gigabit LTE, and one billion new 5G connections by 2025?Over the next few years, wireless connections will become ubiquitous – not only in our phones, tablets and PCs – but in our home, car and cities, thanks to an unglamorous and often-forgotten RF enabler: the antenna. Far from the laughably chunky antennas of early mobile phones, today’s nearly-invisible antenna systems make high-speed networking possible. They’re evolving as new wireless technologies emerge to satisfy our demand for content on the move.To read this article in full, please click here
The numbers don’t look good My favorite source of numbers for the tape industry used to be the Santa Clara Consulting Group. They’d been tracking the use of tape in the backup and recovery industry since 2008 and had been a great go-to for such data. They showed a steady decline in number of units shipped, both in terms of drives and media. Unfortunately, it looks like they stopped doing these services in 2014.Gartner’s most recent report on what media types people are using to do their backups is a pretty solid source of data, though. They’ve got data going back to 2009 that shows the percentage of people that are backing up directly to tape (D2T), backing up to disk then copying to tape (D2D2T), backing up to disk with no tape component (D2D/D2D2D), or backing up to the cloud (D2C/D2D2C). While tape is used in most datacenters in one way or another, the percentage of companies using tape in any way is steadily declining. Companies are clearly moving to D2D or D2C techniques. What are the reasons behind this trend?To read this article in full, please click here
A steady churn of stunningly useless consumer devices has turned IoT into a running joke in the tech community. Worse yet, some applications have gone beyond the silly and into the realm of scary – like internet-connected teddy bears that record your kids (and skimp on security). But there’s a whole other side to IoT. Far removed from the world of consumer gadgetry, IoT is being used behind the scenes to solve real problems and create real value across a wide variety of applications and industries.To read this article in full, please click here
A storage area network (SAN) is a dedicated, high-speed network that provides access to block-level storage. SANs were adopted to improve application availability and performance by segregating storage traffic from the rest of the LAN. SANs enable enterprises to more easily allocate and manage storage resources, achieving better efficiency. “Instead of having isolated storage capacities across different servers, you can share a pool of capacity across a bunch of different workloads and carve it up as you need. It’s easier to protect, it’s easier to manage,” says Scott Sinclair, senior analyst with Enterprise Strategy Group.To read this article in full, please click here