Thursday, 10 August 2017

iPhone 7S

Leaked images of the iPhone 7S Plus

iPhone 7S screen

Hottest leaks:
  • A sharper, OLED display
  • A new size
  • Improved 3D Touch
There are a number of iPhone 7S screen rumors, but one we keep hearing is that it could have an OLED display, rather than an LCD one.
In fact, the president of Sharp has even said the iPhone 7S will have an OLED screen, and as Sharp makes some iPhone screens he should know, though we’re a long way out from launch, so plans could change.
OLED displays are used by Samsung and on the Apple Watch, and tend to sport superior contrast to LCD. They’re also better suited to being curved, which we’ve also heard the iPhone 7S might be, though that seems less likely.
Another change we might see is the resolution, as Apple is lagging behind rivals there and sharper screens are apparently being prototyped, including one that’s more than 1440 x 2560, though that sounds like too much of a jump.
Finally, the size might change, or an extra size option might be added, with both 5-inch and 5.8-inch sizes rumored. 5 inches would slot between the existing 4.7-inch and 5.5-inch sizes, while 5.8 inches would dwarf them, but even larger phones have been launched by other companies.
And beyond the visual differences, there's a chance Apple will also improve 3D Touch, making it more sensitive and accurate than it is currently, according to one source.
The iPhone 7S might also feature True Tone technology, allowing the screen to adjust its colors based on the ambient light around you. The iPad Pro 9.7 already has this feature, so it's a very believable addition.

iPhone 7S camera and battery

Hottest leaks:
  • A single-lens camera
  • Wireless charging
  • 3D cameras
We’re not expecting a huge change to the camera on the iPhone 7S, with just a single-lens rumored
 for the 7S, and a dual-lens for the iPhone 7S Plus and iPhone 8.
In all cases there are sure to be some improvements though. The iPhone 7S Plus for example is said to have optical image stabilization for both lenses, rather than just one as is the case on the iPhone 7 Plus. 
That’s according to a research note from respected analyst Ming-Chi Kuo, obtained by MacRumors.
Everything else is speculation, but a change in megapixel count is possible, at least on the rear cameras (which currently sit at 12MP). It’s less likely that the front-facing camera’s count will change, as Apple only recently upped it to 7MP.
There's also the possibility of 3D cameras, which could add augmented reality functions to the phone. Though these likely would require a dual-lens snapper, and might be reserved for a more premium model. You can see rough sketchessupposedly showing a 3D camera below.
As for the battery, there’s evidence that Apple might finally include wireless charging. 
That stems from a rumor that Foxconn (which is involved in manufacturing iPhones) is experimenting with the tech, and from a research note obtained by 9to5Mac, which states that all iPhone 7S models will have wireless charging.

That rumor has been repeated since, more than once, and bolstered by the fact that Apple has now joined the Wireless Power Consortium (an industry group focused on the adoption of a wireless charging standard).

There's even evidence for it in the iOS 11 beta, with a hidden sound file possibly designed to play when you charge your phone wirelessly. It also showed up in leaked X-rays of the device, and with the phone likely to have a glass back it will be in a better position for wireless charging than if it had a metal one.
However, you might not be able to charge your iPhone 7S wirelessly at launch, as it's also rumored that while the hardware will be ready, the software won't, so it might be enabled as an update after launch.

Thursday, 27 July 2017

One Plus 5 Review



The OnePlus 5 is simply stellar.
It delivers a grade-A experience and nearly all the specs you demand in a flagship phone for hundreds of dollars less than the Samsung Galaxy S8, Google Pixel and Apple iPhone 7.
This is the fourth major phone from Chinese phone maker OnePlus, which has earned a reputation for creating cheap, quality Android phones that undercut the competition. While OnePlus doesn't have the volume or pure brand clout as Samsung, Apple and even Huawei, it has garnered a loyal following through flash sales and word-of-mouth recommendations.
The OnePlus 5 excels at serving high-performing hardware, like the latest Snapdragon chipset and an enduring, fast-charging battery. It's also on trend with a dual-lens rear camera that takes artsy portraits and can hold its own against the iPhone 7 Plus.
But it doesn't have super-slim bezels or the water-resistant body that so many top-tier phones do. And its price, while still hundreds less than its top-tier competitors, inches closer to them than years past due to its more expensive features. As a result, the phone isn't quite the deal it once was. But, rest assured, the trade-off is more than fair.
The OnePlus 5 hopped aboard the dual-camera trend and has two rear shooters. Unlike other phones that have two cameras for wide-angle or monochrome purposes, the phone has a standard 16-megapixel shooter and a secondary 20-megapixel telephoto lens. This enables it to take "bokeh" images that have a shallow depth of field and blurred backgrounds (as if you took the photo with an DSLR camera).
The effect turns my run-of-the-mill photos of my friends into something more artsy and dramatic, and it works the same way the 7 Plus' cameras do. You need to stand 1-6 feet away from your subject to use the effect, and there were times when the camera didn't recognize or "catch" the subject initially. But when it worked, my pictures looked great. Due to its longer focal length, the telephoto lens has a fixed optical 1.6x zoom (it then adds digital "multi-frame technology" to bring it up to 2X), so you can toggle between the standard lens or zoom in on distant objects clearly and steadily with the telephoto.
The effect doesn't always work perfectly every time on both the OnePlus and the iPhone. It can be patchy around objects with tricky outlines (like with stray hairs and such). But the iPhone did a slightly better job at reading these situations and determining where best the blurring should start and end. The iPhone's bokeh effect also looked softer and more natural at times. In some of the OnePlus' portraits, the foreground looked too harshly contrasted with the blurred background, and the effect looked too digitally rendered.
Overall though, not much has changed from the 3T. The OnePlus 5 carries over the fingerprint sensor that sits below the screen, as well as the headphone jack and the toggle button on the edge that changes vibration and silence levels. The display, which is now fortified with Gorilla Glass 5 to make it tougher, is vibrant and sharp, but it's the same 1,080p resolution.
The phone also isn't water resistant. This isn't a huge knock, and a few years ago it would be a nonissue. But it's one of the key features if you want to stay competitive against other flagships today. And while water resistance in phones isn't completely ubiquitous yet, it's soon evolving from a nice-to-have feature to a must-have among the higher-tiered devices.
There have been comments on how much it resembles the iPhone, but I'm not bothered by any of this. Sure, I'll be ready to praise any (successful) attempt of making a phone look different, but the majority of phones look similar anyway. What matters is that the device feels good and solid. In the case of the OnePlus 5, it does on both accounts.
After the OnePlus 5 launched, XDA Developers reported that the phone was deliberately skewing benchmarks and configuring its core processors to maximize its results.
In response, OnePlus claimed that, "We have allowed benchmark apps to run in a state similar to daily usage, including the running of resource intensive apps and games. Additionally, when launching apps the OnePlus 5 runs at a similar state in order to increase the speed in which apps open. We are not overclocking the device, rather we are displaying the performance potential of the OnePlus 5." Co-founder Carl Pei also addressed the issue on Reddit.
Optimizing for benchmarks is nothing new, but it can be misleading. As such, we forewent posting two of our three usual benchmark tests (AnTutu and Geekbench 4.0 -- which the OnePlus configured for). In its place is our remaining benchmark (3DMark) and two browser-based tests, Octane and Jetstream.

Saturday, 10 September 2016

iPhone 7

The iPhone 7 is the successor to the highly acclaimed iPhone 6s. As such, it brings a multitude of enhancements in key areas, including design, performance, and user experience. While the overall shape and size of the phone have been left intact, there are now glossy and matte black options available. Also, the handset is now IP67-certified, making it water-resistant. On its back, the refined 12MP camera features optical image stabilization, wider aperture of F1.8, and a quad LED TrueTone flash for better low-light performance. Battery life has been given a welcome boost that could provide users around 2 hours of additional use time. The new A10 Fusion chip is up to 40% more powerful than last-year's A9, yet promises great power efficiency. And while the iPhone 7 lacks an audio jack, the box includes Lightning connector EarPods, as well as a Lightning to 3.5mm adapter.finally iphone have killed 32gb iphone now it is available only in 32gb,128gb,256gb version.

Iphone 7 plus

The iPhone 7 Plus is here - big, capable, and long-lasting as its predecessor. While its overall size and shape have been left intact, the latest models comes in two new shades - matter black and shiny Jet Black. Also, the phone is now resistant to water and dust ingress, bearing IP67 certification. One of the highlights of the iPhone 7 Plus is on its back. The phone's dual-camera setup allows it to take better low-light shots, just like the iPhone 7. However, the secondary camera also gives it 2x optical zoom capabilities, as well as the option to add beautiful background blur effect to images. Battery life has been given a welcome boost that could provide users around 1 hour of additional use time. The new A10 Fusion chip is up to 40% more powerful than last-year's A9, yet promises great power efficiency. And while the iPhone 7 lacks an audio jack, the box includes Lightning connector EarPods, as well as a Lightning to 3.5mm adapter.finally iphone have killed 32gb iphone now it is available only in 32gb,128gb,256gb version.

Thursday, 11 August 2016

Mi Notebook Air: Xiaomi's first laptop

Xiaomi in the present day is the fifth largest smartphone maker and is known for making high end flagship smartphones for comparatively low price, and now the company has decided to widen it's market by introducing it's first laptop.

Behold: The Mi Notebook Air

pvm_xiaomi-mi-notebook-air-125-silver-01_14457_1469630599
Xiaomi is known for notoriously ripping off apple's products and this laptop is no different. Very similar to apple's macbook models,  the mi notebook is sleek and thin (thinner than the macbook) and the specifications look great on paper. The mi notebook comes in two variants : the 12.5 inch version and the 13.3 inch version.


The 12.5" version is 12.9 mm thick and weighs 1.07 kg. It comes with a full HD 1080p display with 176 ppi. The chip running it is the Intel core m3 clocked maximum at 2.2Ghz integrated with Intel HD graphics 515. It has 4 GB of RAM and 128 GB of SSD storage. The 600 Wh battery is claimed to give a 11.5 hrs battery backup. It has 1 USB C port, 1 USB 3.0 port, 1 HDMI port and a 3.5 mm jack.
xiaomi-mi-notebook-air-125-gold-024

While the 12.5 inch version certainly catches the eye, it lacks somewhat in the hardware section. The 13.3 inch variant corrects this although it doesn't present ground shattering specs:
  • Slim all-metal body
  • Full HD screen
  • Ultra-narrow borders
  • Long battery life — 9.5 hours
  • 6-generation Intel Core i5 processor
  • NVIDIA 940MX graphics card
  • 1GB GDDR5
  • 8 GB DDR4 RAM
  • 256GB SSD PCIe
( Specs as informed by Xiaomi )
This version is a little heavier (1.28 kg) but presents some impressive specs. Again, visually it looks like a mac but it's what inside that matters. By including a separate graphics card, it should be able to provide for a decent gaming performance, a part that the macbook fails to provide. Also, HDMI port is also a big plus, dolby surround sound and multitouch also present a nice addition. With USB C, interfacing devices also becomes quite easy and instant unlock using the mi wristband is also a handy function.
xiaomi-mi-notebook-air-125-gold-009
Some have even dubbed the mi notebook air as the macbook killer which does seem to be a little overstated. However, there are some areas where the mi notebook beats the macbook and overall, the mi notebook is a really good laptop. Running on windows 10, it promises to give a smooth experience with it's on paper specifications. However may it compare to the macbook , the most prominent factor is the price. It gives great bang for buck as the 12.5 inch variant costs $520 and the 13.3 inch variant costs about $750.
So, Xiaomi's first laptop presents itself as a very good lapt....... ah, what the hell...you know what?  It's arguably a macbook with decent gaming capabilities. End of story.

Thursday, 4 August 2016

Samsung Galaxy Note 7: Initial Impressions

Samsung announced the launch of the brand new Galaxy Note 7. Samsung has decided to stick with the same design of the galaxy S7 that has worked so well for them in the past. The Galaxy Note 7 is an absolute treat for the eyes with the gorgeous 5.7" quad hd super amoled display and the curved edges giving it super thin bezels. All this is covered with the Gorilla Glass 5  which gives the phone a premium vibe.
 The Note 7 comes with a snapdragon 820 chip, 4 GB of ram, 64 GB of internal storage and MicroSD expansion. There is a 5 MP front facing camera. The back camera is a 12 MP camera with f 1.7 aperture, Optical Image Stabilization, 4K video recording. When it comes to Samsung, the cameras are going to be great, that's a given. Also, the Note 7 is IP 68 water resistant. The Note 7 comes with Android Marshmallow and a  3500 mAh battery. The phone has a USB type-c charging port with fast charging.
Now let's get to the new features. The Note 7 has an iris scanner. What that does is it unlocks the phone WITH YOUR EYES. YES, so if you feel too lazy to draw a pattern or put your finger on a finger print reader, now all you have to do is just look at your phone. But seriously, this is a wonderful feature which you can use to unlock your phone but also to secure the contents in a private area of the phone. The finger print sensor is also obviously present.

Samsung has also made improvements to the s-pen. The tip of the s-pen has got a finer point and the phone now has over 4000 levels of pressure sensitivity resulting in a finer writing experience. Also, a really exciting new function of the s-pen is the ability to create gifs right away. So you can make a gif of any video you are watching then and there.

The Samsung Galaxy Note 7 is packing loads of other new features. This new method of gradually improving the Galaxy S Series and the Note series is really exciting although I was hoping to see some slight tweaks in the design. You just can't go wrong with the Galaxy Note 7.

Saturday, 16 July 2016

Graphene (Material that can change the world)

Graphene, the well-publicised and now famous two-dimensional carbon allotrope, is as versatile a material as any discovered on Earth. Its amazing properties as the lightest and strongest material, compared with its ability to conduct heat and electricity better than anything else, mean that it can be integrated into a huge number of applications. Initially this will mean that graphene is used to help improve the performance and efficiency of current materials and substances, but in the future it will also be developed in conjunction with other two-dimensional (2D) crystals to create some even more amazing compounds to suit an even wider range of applications. To understand the potential applications of graphene, you must first gain an understanding of the basic properties of the material.
The first time graphene was artificially produced; scientists literally took a piece of graphite and dissected it layer by layer until only 1 single layer remained.This process is known as mechanical exfoliation. This resulting monolayer of graphite (known as graphene) is only 1 atom thick and is therefore the thinnest material possible to be created without becoming unstable when being open to the elements (temperature, air, etc.). Because graphene is only 1 atom thick, it is possible to create other materials by interjecting the graphene layers with other compounds (for example, one layer of graphene, one layer of another compound, followed by another layer of graphene, and so on), effectively using graphene as atomic scaffolding from which other materials are engineered. These newly created compounds could also be superlative materials, just like graphene, but with potentially even more applications.
After the development of graphene and the discovery of its exceptional properties, not surprisingly interest in other two-dimensional crystals increased substantially. These other 2D crystals (such as Boron Nitride, Niobium Diselenide and Tantalum (IV) sulphide), can be used in combination with other 2D crystals for an almost limitless number of applications. So, as an example, if you take the compound Magnesium Diboride (MgB2), which is known as being a relatively efficient superconductor, then intersperse its alternating boron and magnesium atomic layers with individual layers of graphene, it improves its efficiency as a superconductor. Or, another example would be in the case of combining the mineral Molybdenite (MoS2), which can be used as a semiconductor, with graphene layers (graphene being a fantastic conductor of electricity) when creating NAND flash memory, to develop flash memory to be much smaller and more flexible than current technology, (as has been proven by a team of researchers at the École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland).
The only problem with graphene is that high-quality graphene is a great conductor that does not have a band gap (it can’t be switched off). Therefore to use graphene in the creation of future nano-electronic devices, a band gap will need to be engineered into it, which will, in turn, reduce its electron mobility to that of levels currently seen in strained silicon films. This essentially means that future research and development needs to be carried out in order for graphene to replace silicon in electrical systems in the future. However, recently a few research teams have shown that not only is this possible, it is probable, and we are looking at months, rather than years, until this is achieved at least at a basic level. Some say that these kinds of studies should be avoided, though, as it is akin to changing graphene to be something it is not.
In any case, these two examples are just the tip of the iceberg in only one field of research, whereas graphene is a material that can be utilized in numerous disciplines including, but not limited to: bioengineering, composite materials, energy technology and nanotechnology.
Biological Engineering
Bioengineering will certainly be a field in which graphene will become a vital part of in the future; though some obstacles need to be overcome before it can be used. Current estimations suggest that it will not be until 2030 when we will begin to see graphene widely used in biological applications as we still need to understand its biocompatibility (and it must undergo numerous safety, clinical and regulatory trials which, simply put, will take a very long time). However, the properties that it displays suggest that it could revolutionise this area in a number of ways. With graphene offering a large surface area, high electrical conductivity, thinness and strength, it would make a good candidate for the development of fast and efficient bioelectric sensory devices, with the ability to monitor such things as glucose levels, haemoglobin levels, cholesterol and even DNA sequencing. Eventually we may even see engineered ‘toxic’ graphene that is able to be used as an antibiotic or even anticancer treatment. Also, due to its molecular make-up and potential biocompatibility, it could be utilised in the process of tissue regeneration.
Optical Electronics
One particular area in which we will soon begin to see graphene used on a commercial scale is that in optoelectronics; specifically touchscreens, liquid crystal displays (LCD) and organic light emitting diodes (OLEDs). For a material to be able to be used in optoelectronic applications, it must be able to transmit more than 90% of light and also offer electrical conductive properties exceeding 1 x 106 Ω1m1 and therefore low electrical resistance. Graphene is an almost completely transparent material and is able to optically transmit up to 97.7% of light. It is also highly conductive, as we have previously mentioned and so it would work very well in optoelectronic applications such as LCD touchscreens for smartphones, tablet and desktop computers and televisions.
Currently the most widely used material is indium tin oxide (ITO), and the development of manufacture of ITO over the last few decades time has resulted in a material that is able to perform very well in this application. However, recent tests have shown that graphene is potentially able to match the properties of ITO, even in current (relatively under-developed) states. Also, it has recently been shown that the optical absorption of graphene can be changed by adjusting the Fermi level. While this does not sound like much of an improvement over ITO, graphene displays additional properties which can enable very clever technology to be developed in optoelectronics by replacing the ITO with graphene. The fact that high quality graphene has a very high tensile strength, and is flexible (with a bending radius of less than the required 5-10mm for rollable e-paper), makes it almost inevitable that it will soon become utilized in these aforementioned applications.
In terms of potential real-world electronic applications we can eventually expect to see such devices as graphene based e-paper with the ability to display interactive and updatable information and flexible electronic devices including portable computers and televisions.
Ultrafiltration
Another standout property of graphene is that while it allows water to pass through it, it is almost completely impervious to liquids and gases (even relatively small helium molecules). This means that graphene could be used as an ultrafiltration medium to act as a barrier between two substances. The benefit of using graphene is that it is only 1 single atom thick and can also be developed as a barrier that electronically measures strain and pressures between the 2 substances (amongst many other variables). A team of researchers at Columbia University have managed to create monolayer graphene filters with pore sizes as small as 5nm (currently, advanced nanoporous membranes have pore sizes of 30-40nm). While these pore sizes are extremely small, as graphene is so thin, pressure during ultrafiltration is reduced. Co-currently, graphene is much stronger and less brittle than aluminium oxide (currently used in sub-100nm filtration applications). What does this mean? Well, it could mean that graphene is developed to be used in water filtration systems, desalination systems and efficient and economically more viable biofuel creation.
Composite Materials
Graphene is strong, stiff and very light. Currently, aerospace engineers are incorporating carbon fibre into the production of aircraft as it is also very strong and light. However, graphene is much stronger whilst being also much lighter. Ultimately it is expected that graphene is utilized (probably integrated into plastics such as epoxy) to create a material that can replace steel in the structure of aircraft, improving fuel efficiency, range and reducing weight. Due to its electrical conductivity, it could even be used to coat aircraft surface material to prevent electrical damage resulting from lightning strikes. In this example, the same graphene coating could also be used to measure strain rate, notifying the pilot of any changes in the stress levels that the aircraft wings are under. These characteristics can also help in the development of high strength requirement applications such as body armour for military personnel and vehicles.
Photovoltaic Cells
Offering very low levels of light absorption (at around 2.7% of light) whilst also offering high electron mobility means that graphene can be used as an alternative to silicon or ITO in the manufacture of photovoltaic cells. Silicon is currently widely used in the production of photovoltaic cells, but while silicon cells are very expensive to produce, graphene based cells are potentially much less so. When materials such as silicon turn light into electricity it produces a photon for every electron produced, meaning that a lot of potential energy is lost as heat. Recently published research has proved that when graphene absorbs a photon, it actually generates multiple electrons. Also, while silicon is able to generate electricity from certain wavelength bands of light, graphene is able to work on all wavelengths, meaning that graphene has the potential to be as efficient as, if not more efficient than silicon, ITO or (also widely used) gallium arsenide. Being flexible and thin means that graphene based photovoltaic cells could be used in clothing; to help recharge your mobile phone, or even used as retro-fitted photovoltaic window screens or curtains to help power your home.
Energy Storage
One area of research that is being very highly studied is energy storage. While all areas of electronics have been advancing over a very fast rate over the last few decades (in reference to Moore’s law which states that the number of transistors used in electronic circuitry will double every 2 years), the problem has always been storing the energy in batteries and capacitors when it is not being used. These energy storage solutions have been developing at a much slower rate. The problem is this: a battery can potentially hold a lot of energy, but it can take a long time to charge, a capacitor, on the other hand, can be charged very quickly, but can’t hold that much energy (comparatively speaking). The solution is to develop energy storage components such as either a supercapacitor or a battery that is able to provide both of these positive characteristics without compromise.
Currently, scientists are working on enhancing the capabilities of lithium ion batteries (by incorporating graphene as an anode) to offer much higher storage capacities with much better longevity and charge rate. Also, graphene is being studied and developed to be used in the manufacture of supercapacitors which are able to be charged very quickly, yet also be able to store a large amount of electricity. Graphene based micro-supercapacitors will likely be developed for use in low energy applications such as smart phones and portable computing devices and could potentially be commercially available within the next 5-10 years. Graphene-enhanced lithium ion batteries could be used in much higher energy usage applications such as electrically powered vehicles, or they can be used as lithium ion batteries are now, in smartphones, laptops and tablet PCs but at significantly lower levels of size and weight.