Write a paragraph on evolution of technology
Answers
To understand how we left the dark ages (which really wasn’t all that long ago) to where we are today, it is important to understand how technology evolves and why it matters.
PURPOSE DRIVES TECHNOLOGY FORWARD
All technologies are born out of purpose. For example, search engines were created to sort through the massive amounts of data online. With each new upgrade technology compounds existing technologies to create something better than what was previously used before. And on and on it goes.
With the lightning speed of technological evolution, it is no wonder many people have struggled to keep up. To be fair, the scope of technology’s expanse is so great, wrapping everything up into a single blog post is practically impossible.
Here is just a brief glimpse into how rapidly the Internet and technology as a whole have evolved in recent years.
THE TECHNOLOGICAL EVOLUTION : WHAT'S NEXT ?
Technology runs our lives these days. Smartphones, tablets and computers – we really can’t seem to function without them. In a very short amount of time, technology has exploded in the market and now, many people cannot imagine a life without it. To understand how we left the dark ages (which really wasn’t all that long ago) to where we are today, it is important to understand how technology evolves and why it matters.All technologies are born out of purpose. For example, search engines were created to sort through the massive amounts of data online. With each new upgrade technology compounds existing technologies to create something better than what was previously used before. And on and on it goes. With the lightning speed of technological evolution, it is no wonder many people have struggled to keep up. To be fair, the scope of technology’s expanse is so great, wrapping everything up into a single blog post is practically impossible.
Digital experience, the cloud, analytics, block chain, cognitive technologies, digital reality, core modernization, and cyber security may be old news, but that doesn’t mean that they are no longer a vital part of business transformation. Deloitte suggests that “through their collision and the innovation unleashed, these forces will likely dominate enterprise IT, internal operations, and markets to an even greater extent than they have as individual technologies.” Autonomous artificial intelligence (AI) is fueling a new era of people and machines working together with data-driven insights and highly strategic and outcome-focused processes. To fully realize the promise of the AI-fueled organization, Deloitte highlights three system models currently in play: cloud-native, package-adjunct, and open-algorithm. By embracing AI, machine learning (ML), and other cognitive tools across the IT ecosystem, the entire company can spend less time on redundant and mundane activities that waste the value of every employee and spend more time on informed decision-making. With the growing reliance on cloud providers, IT organizations are now seeking to create a “NoOps” (no operations) landscape that is so automated and abstracted that only a small team is needed to manage the underlying infrastructure. For CIOs, this new reality opens up a transformative opportunity to rethink technology culture, roles and responsibilities, enablement tools, and processes – all while ensuring limitless scalability and high availability.
For years, networking advancements have been in the shadows of high-profile innovations. But they may finally have their moment in 2019 as new building blocks and techniques for intelligent enterprises. For example:
5G brings higher speed and lower latency, which can be a considerable advantage when connecting massive numbers of sensors and smart devices. Edge computing processes data in a “mini-cloud” close to the originating device – or better yet, as an embedded capability within the device or endpoint itself. Software-defined networking (SDN) extends a traditional software layer from the data center to wide area networking (WAN) to connect data centers or other multi-location applications. Network function virtualization provides dedicated physical network appliances with scalable virtualized software while replacing the need for routing, switching, encryption, firewalling, WAN acceleration, and load balancing.