iPad mini news and features

iPad mini maxi price tag!

UPDATED All you need to know about Apple’s iPad mini

By John McCann  13 hrs ago


PAGE 1 OF 2iPad mini release date, news and features
iPad mini release date, news and features
iPad mini has arrived

UPDATE: Check out our Hands on: iPad mini review

The rumours were plentiful, the hype was typical and the world stopped to watch as Apple live streamed its first event since 2010, the iPad mini was surely finally upon us.

In true Apple fashion the invite gave us a cheeky tease, stating: “we’ve got a little more to show you.”

Just as the iPad mini launch was getting ready to start, a last-minute rumour came in to say that Apple already hadiPad mini Smart Covers ready and waiting.

Apparently set to be named iPad mini Smart Cover, that pretty much ended other rumours that the shrunken iPad might be called the iPad Nano.

At the launch…

To kick off proceedings, Tim Cook talked up the iPhone 5, iPod touch and iPod nano, revealing that 200 million devices are already upgraded to iOS 6 before throwing out some App Store stats.

What’s more, Cook revealed that the iPad has been a big seller for Apple. Since the tablet’s introduction nearly three years ago, 100 million iPads have been sold. And, iPads account for 91 percent of web traffic on tablets.

Moving on, the 13-inch MacBook Pro broke cover. The lightest MacBook Pro ever, the new Macbook features a 2560 x 1600 resolution display, IPS panel, and 29% better contrast ratio.

Then we got something mini, but not the iPad mini yet – a new Mac Mini. Four USB ports, SD card reader, HDMI, up to 16GB of RAM, and up to 1TB HDD or 256GB SSD.

And then Apple introduced a new iMac – the eighth generation model. Edge to edge display, 5mm thin at the edges, available in 27-inch and 21.5-inch models.

iPad 4 / 4th gen iPad

Apple then surprised us by announcing the 4th gen iPad, rocking a new A6X processor, doubled the CPU and graphic performance, still with 10 hours battery life.

Get the full lowdown in Apple breaks out 4th generation iPad.

And after the 4th gen iPad…

Deep breath…

iPad mini

Yes, the iPad mini was finally shown. Sporting a new design, the iPad mini is just 7.2mm thick and weighs just 308g, and the big news is that it packs a 7.9-inch, 1,024 x 768 screen – the same resolution as the iPad 2.

Apple has dubbed the iPad mini “every inch an iPad”, highlighting the fact that the 275,000 iPad specific apps will run seamlessly on the smaller slate, so users won’t have to worry about any unsightly black spaces as seen on the iPhone 5.

Get the full details on Apple’s tiny tablet in our in-depth article iPad mini: 10 things you need to know.


iPad mini
Like the iPad, but mini


Hands on: iPad Mini review

TechRadar got ahold of the new iPad Mini and we were surprised at how well it fits in the palm of our hands.

What’s more, it’s very light which will help cut down on wrist fatigue when you’re watching a movie and holding the device.

Read the rest of our Hands on: iPad mini review.

The end for keyboards and mice?

By Paul Rubens


Tap and go
Touchscreen technology, popularised by Apple’s iPhone and a host of other devices, has begun to erode the dominance of traditional keyboards. (Copyright: Getty Images)

Apple’s iPhone and its rivals may have introduced touchscreens to the masses, but now a raft of technologies promise to change the way we interact with computers forever.

You’re in fast moving traffic on a busy motorway approaching a complicated junction with just seconds to get into the right lane. Your phone, sensing that now is not the moment to disturb you, diverts an incoming call straight to voicemail. Later, when you are in a more relaxed state, it plays the message back and offers to ring the caller back.

Even if you are packing an iPhone 5 or the latest Samsung, it is fair to say that your phone is still a long way from doing this. Despite the impressive array of features offered by today’s handsets – including voice commands – most people still interact with their phones by pressing buttons, prodding a screen or the occasional swipe or pinch.

It is a similar story with computers. Take Microsoft’s new Windows 8 operating system, due to be launched later this week. Its colourful, tile-laden start screen may look startlingly different to older versions of Windows, but beneath the eye candy it’s still heavily reliant on the keyboard and mouse.

In fact, with one or two notable exceptions, it is striking just how little the way we interact with computers has changed in the last few decades.

“The keyboard and mouse are certainly a hard act to follow,” says George Fitzmaurice, head of user interface research for US software maker Autodesk. But, despite an apparent lack of apparent novelty in the majority of interfaces of today’s mass market devices, there are plenty of ideas in the pipeline.

Take, for instance, technology that can monitor your stress levels. One technique being developed is functional near-infrared spectroscopy(fNIRS) that monitors oxygen levels in the blood, and therefore activity, in the front of the brain. “It measures short term memory workload, which is a rough estimate of how ‘busy’ you are,” says Robert Jacob, professor of computer science at Tufts University, near Boston, Massachusetts.

The technology is currently used in medical settings, but could one day be used to help filter phone calls, for example. Today fNIRS works via a sensor placed on your forehead, but it could also be built into baseball caps or headbands, allowing the wearer to accept only important calls. Perhaps more immediately, it could also help organisations assign workloads efficiently. “You could tell your phone only to accept calls from your wife if you get busy beyond a certain gradation of brain activity,” adds Jacob. “If a machine can tell how busy you are it can tell if you can take on an additional workload, or it could take away some of your work and assign it to someone else if you are over-stretched.”

Other forms of “brain-computer interface” are already being used and developed for a growing number of applications. Electroencephalography (EEG) picks up electrical signals generated by brain cell interactions. It has long been used to diagnose comas, epilepsy and brain death in hospitals and in neuroscience research. The variation of frequencies of signals generated can be used to determine different emotions and other brain states. Recent years have seen the launch of simplified EEG headsets that sell for as little as $100.

For example, a British company called Myndplay makes interactive short films, games and sports training software which users interact with via these brain wave measuring headsets. Those who can successfully focus their minds or mentally relax sufficiently when required can influence film plots and progress to higher levels in games.

Similar technologies are increasingly being used to help the disabled. Two years ago an Austrian company called Guger Technologies released a system designed to help paralysed patients type by highlighting letters on a grid one by one until the desired letter is selected and the associated EEG signal is detected. Spanish researchers have developed EEG-controlled wheelchairs and are working on using the same method to control prosthetic arms.