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The Real Power of Computing Power: Job Opportunities Created by RPA

There’s no denying that modern technology is rapidly and steadily enhancing – from computing power to data processing to device materializations. And in this modern era, any technological enhancement seems to be a two-edged sword with its fair share of benefits and disadvantages. 

Supercomputers and RPAs, for instance, have unfortunately phased out quite a few jobs, replacing manual labor with automated and streamlined processes. Nevertheless, these have opened other doors and more promising opportunities. Check out how computing power impacts robotic process automation (RPA), and how RPA impacts both the cyber and the corporate world.


What Makes Supercomputers Super? What’s the Real Power of Computing Power?

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Computers – supercomputers – are merely one of the many visible manifestations of computing power technology. Let’s take a closer look at how it all began and what future it holds.

Computing Power in a Nutshell

To put it simply, computing power is a technology that’s capable of reading and processing or converting tons of data within a short time. Combining various smart technologies such as 5G, AI, Big Data, Blockchain, and Quantum Computing, this powerful innovation interprets commands and executes those efficiently. It serves as the bridge that connects physical and virtual dimensions. 

The computing power infrastructure is a relatively new technology but in just a couple of years, it has positively impacted several processes, transactions, and industries – significantly enhancing productivity across all fields. After all, the ultimate goal of computer power is to streamline certain operations – the faster a machine or a device can execute a task, the better. 

Hence, more than just a technical innovation, computing power is regarded as an economic innovation.

The Law of Computing


The idea and architecture of computing power originated from Gordon Moore’s observation that microchip transistors double up every two years – or more popularly known as Moore’s Law. 

This insight by Gordon E. Moore, co-founder of Intel (INTC), technically means that we can expect enhanced speed and capacities of computers over time since the growth of microprocessors is exponential. 

Eventually, transistors in integrated circuits, indeed, become more efficient. And through the breakthrough of computing power, machines and devices tend to become faster, more compact, and more affordable

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The Future of Computers


If we are to dissect a computer, these are basically run by a microchip – also called a computer chip or Integrated Circuit (IC). And in each chip is a set of electronic circuits in which transistors act as miniature switches, controlling the flow of current. 

There are now basic versions of supercomputers and quantum computers. However, the more advanced versions might still take a few years. Some scientists and engineers think that by 2030, microprocessor transistors will then be measured on an atomic scale, meaning, data processing will be way faster and more efficient.

Computing Power Significance and Manifestations

Though still quite young, the computing power tech innovation has already manifested in various other further innovations. And as early as now, we can already feel the significance of its potential power.

Artificial Intelligence (AI)

AI systems have already been adopted in a wide array of industries – from mobile phones to business tools to home accessories to establishment securities. And through computing power, AIs get to recognize voices and execute commands.

Cryptocurrency Mining

In more than a decade, virtual currencies have significantly grown, and more businesses – if not governments – have acknowledged and adopted this technology. And the biggest aspect of its circulation is mining – a decentralized process in which transactions are validated by solving cryptographic puzzles or so-called “hash”. And yes, to execute such a process, computing power is utilized.

Robotic Process Automation (RPA)

In a nutshell, RPA is a process-based software that automates tasks and actions. It’s one of the greatest innovations in several industries as it’s capable of carrying out tons of human tasks at high volume and speed with minimum to no error. And, of course, to make such automation possible, RPA uses computing power.

A Closer Look Into One of the Most Essential Branches of Computing Power, RPA

Robotic Process Automation or RPA is the software bot that runs virtual or physical machines. Using computing power and various other tech-advanced algorithms, it’s capable of processing a series of instructions. Hence, it can mimic or better execute tasks that are usually accomplished through human labor.

RPAs are often mistakenly referred to as robots, robot software, or artificial intelligence. To distinguish an RPA, first take note of the task involved – it should have sufficient volume. Plus, the processes must:

  • be rule-based.
  • be repeated at regular intervals
  • have pre-defined triggers.
  • have defined inputs and outputs.

Basically, RPA is all about computing and automation. And as this technology innovates, more human processes and tasks are replaced by RPA. But in return, with proper (RPA) Robotic Process Automation training, this innovation opens high-paying roles and various opportunities, especially in the IT industry.

AI Architect

These are professionals responsible for designing and curating AIs. From planning to implementation, they choose and evaluate the relevant and appropriate technologies for optimum results.

AI Engineer

These are experts responsible for executing and materializing Engineering combines a series of principles, including human-centered designs, computer science, software engineering, and systems engineering.

Data Scientists

These are professionals responsible for collecting and interpreting large amounts of data. While RPAs can analyze and automate processes, human experts would still be needed to efficiently interpret data.

Robotics Researcher

These are experts responsible for designing and testing robots. They collate valuable information and look into the newest technologies to come up with efficient construction and programming of robots.

Robotics Designer

These are professionals responsible for executing and realizing robotic plans, architecture, and designs. They basically put together ideas and data to come up with a fully-functional robot (virtual or physical).


There’s no stopping various technological innovations. And as part of this modern era, we have no other choice than to embrace these with precautions. Significant changes are unavoidable but at the end of the day, not all changes are bad. Let’s be more open and positive as we gear towards ultimate technological modernizations.

Frequently Asked Questions

What is a microchip?

Also called a computer chip or Integrated Circuit (IC), a microchip is a circuit chip with computing power that’s capable of running a whole device or machine.

How much computing power to mine one Bitcoin?

As estimated by the Digiconomist’s Bitcoin Energy Consumption Index, it takes 1,449 kWh or an equivalent of approximately 50 days of power is needed to mine one bitcoin hash.

What is robotic process automation (RPA)?

It’s a rule-based software technology that’s capable of automating and executing a sufficient volume of tasks.

What are the benefits of RPA?

RPA offers cost-efficiency so businesses that adopt this technology get to save more resources and enjoy higher productivity. It also offers improved scalability and better security.