The ‘smartphone revolution’ is about to change the way people work

TECHNOLOGY news is the most important news of the day.

With it, RTE is celebrating a key moment in our 21st century history, the introduction of the ‘smart phone revolution’.

RTE’s technology editor, Dave Davies, has been following the smartphone revolution from its beginning to its conclusion.

It started with the introduction in 2006 of the iPhone, a product that changed how people work.

Now we’re seeing the impact of the Samsung Galaxy S4, the most powerful smartphone ever made.

And today we’re celebrating the arrival of the LG G3, a mobile device that has transformed how we interact with technology.

A key innovation has been the introduction and use of the Bluetooth 4.0 standard, which allows devices to talk to each other without having to connect wires.

It’s an exciting development, but it has a far wider impact.

This means that the more powerful the phone, the more opportunities it presents for users to use the phone in ways that would never have been possible before.

The next generation of phones is likely to be even more powerful.

We’re seeing a new kind of smart device, a ‘mobile phone’.

But that term is very technical.

It can refer to a mobile phone with a touchscreen that lets you swipe or tap on objects to see information about them.

But the ‘mobile’ part is a little different to the ‘device’.

A mobile phone is simply a device that you can use to access the internet or make calls.

The term ‘mobile telephone’ can also be used to refer to any device that enables you to make calls, but the most commonly used term is ‘mobile wireless broadband’.

The term mobile broadband refers to a type of internet service that enables users to make and receive calls and receive data in a way that is similar to what they do on their mobile phone.

Mobile wireless broadband is already available on many of the most popular smartphones today, from the iPhone 4S to the Samsung G3.

It provides data to the phone via an ‘upstream’ connection, which means that data is transferred from the phone’s processor to the internet at the end of the call.

This speeds up calls, allowing you to talk more efficiently.

A ‘downstream’ or ‘backbone’ connection enables data to be transferred back to the handset from a device such as the Google Nexus 6, which has an ‘down’ connection that takes the data from the Nexus 6’s upstream connection to a data-transfer device, such as a mobile hotspot.

The LG G4 and LG G5 have the technology to support up to two ‘backbones’ at a time, which can have up to 16 devices connected to them simultaneously.

And, unlike with the Nexus, the G4 doesn’t have to connect to the Internet in order to function.

The G3 uses a proprietary chipset called the Qualcomm Snapdragon S4 SoC.

This is a high-end, highly integrated chip that offers a high performance mobile phone processor and a large number of features.

The phone is made up of a quad-core processor, an octa-core CPU and a Mali-G71 GPU.

It has four different sizes, the highest of which is a ‘core’ which can run at up to 1,600MHz.

Each core is divided into two parts: a ‘cortex-A8’ chip that is the core responsible for the processor and the GPU.

These cores are the same architecture as in most smartphones, and are capable of running any software on the phone.

But instead of having to share cores, the processor can use other processors, such a GPUs.

These GPUs can perform calculations, process images, and process data.

Qualcomm has also developed a new chip called the ‘Gigafactory’ which allows a phone to work with a ‘super-efficient’ microchip which can be made in a factory.

This allows phones to run on a large factory-scale facility, with a lot of capacity and high speeds, allowing the phone to be used as an all-purpose computer.

As smartphones become more powerful, and their power consumption goes down, we’ll see more phones with chips that enable the same kind of functionality that we’ve seen in the smartphones.

As you’d expect, there are lots of phones that are more powerful than the iPhone.

And many of these phones are designed to be much more powerful: the iPhone 6 and iPhone 6 Plus, the Samsung A5 and Samsung Galaxy A3.

But as they become more popular, they will also become less powerful, because of the power consumption.

The best example of this is the LG Nexus 5.

The Nexus 5 is a phone with an incredible power-efficiency.

It takes a lot less power to run the operating system than most phones do.

In fact, if you look at the specs, the Nexus 5 has the highest number of cores and the most power-efficient GPU on the market.

The HTC One X, a phone that is