More than ever, you need to respond to new business demands quickly, without compromising security, efficiency, control or choice. Virtualized Datacenter architecture helps enterprises achieve distinct IT outcomes for greater security, availability, faster service delivery and lower cost.
A new approach to designing, building, and managing networks that separates the network’s control (brains) and forwarding (muscle) planes to better optimize each. Offering a centralized, programmable network that can dynamically provision so as to address the changing needs of businesses.
Imagine living in a world of connected things that can intelligently and intuitively respond to what you need and want. Devices in your home and in the world around you could discover one another, connect and interact, while adding personal context to situations, so they work for you.
The web has proven to be the platform that stands the test of time. By mastering open web technologies, we will ship sooner, iterate more rapidly, you'll reach more people, and deliver superior user experiences than your competition. Don’t get locked into complex and proprietary development environments that are out of your control. We work with robust technologies and highly secure frameworks that drive the ever increasing demand for a streamlined end-user experience.
☵☲☵ Randomly we spin/explore/reverse-engineer/exploit a new service/tool/product/hack mastering out the latest cutting edge trends on the block in order to push the limits of software and network engineering featuring systems automation and orchestration ☵☲☵ Check the papers on the logbook ☵☲☵
The second article on the Docker series. Get your hands dirty with a 80% practical article on the Docker Engine basics and networking. Gentlemen start your lab VM engines. Even if you're clueless about it feel free to jump in as it excels on clarity & simplicity. ☵☲☵
unDock from your comfort zone and let’s learn about the technology surrounding Docker. What I wish somebody told me before picking up Docker bandwagon is what I’m going to share with you in a full hands-on series about what is happening behind the scenes. Let's get started with Linux Containers. ☵☲☵
If you have used React, but you’ve run into some confusing edges or are tired of the same meaningless tutorial examples, then you’re in the right place. This guide is a fast paced tutorial but the annotated source code covers all the basic concepts as well as some of the confusing gotchas. We'll code a complete BlackJack App in an easy to follow illustrated article. ☵☲☵
Out of the oven we have a cool crash course on ReactJs and a more complete under the hood series on Containers and Docker technology. The crash course will fuse with research on isomorphic app development and further deployment (automated) with Ansible and tools alike. Stay tuned and remember you can and should participate in the series via pull request. Fork our articles and share your magic with us. ☵☲☵
One of the building blocks for managing network complexity is software-defined networking. SDN aims to make network elements programmable in a unified way to simplify applications on top of the network.Another building block is autonomic networking, which reduces complexity by distributing certain functions among network elements. It also removes much of the manual work by allowing network devices to configure, manage, and heal themselves. Network simplification is a combination of these concepts—and others such as IP and optical, segment routing, and IPv6 deployments—in an architectural approach.
Today, we can access data anywhere, at any time, from any device. But the amount of data available is so huge that it has become overwhelming—and not always particularly useful. Predictive context-aware computing addresses this problem, it goes beyond anytime and anywhere data. Networks can anticipate what you need and then provide it. This completely transforms the user experience. In this new world, users receive the right data, at the right place, at the right time, and on the right device. Automatically.
Where cloud computing is extended to the edge of the network. This creates a highly virtualized platform that provides compute, storage, and networking services between end devices and traditional cloud computing data centers.These services are the building blocks of both the cloud and the fog. They are critical for supporting the emerging wave of Internet deployments, which require mobility support and geo-distribution, location awareness, real-time interactions, and low latency. Also important is the ability to support a very large number of nodes in highly heterogeneous environments.
More things are being connected to address a growing range of business needs. By 2020, more than 50 billion things will connect to the Internet—seven times our human population. Examples are wearable health and performance monitors, connected vehicles, smart grids, connected oil rigs, and connected manufacturing. Inadequate security will be a critical barrier to large-scale deployment of IoT systems and to broad customer adoption of IoT applications. Simply extending existing IT security architectures to IoT will not be sufficient. The IoT world requires new security approaches, creating fertile ground for innovative and disruptive thinking and solutions.