How to use EaseUS Data Recovery Wizard?

What happened when you have lost your precious files from PC, laptop, or any removable device? Obviously, you will be disappointed, and you will be looking for some data recovery software's to recover the data from your device. But, are all the data recovery software's reliable? To find out an answer, you have to read several reviews from reliable sources and try out data recovery software. Since data recovery software's can re-instate the data for you, but if it doesn’t work properly, then they might destroy your data permanently. So, we have a got trustworthy source of free data recovery software named as EaseUS Data Recovery Wizard Free.

EaseUS Data Recovery Wizard features multiple wizards

•  PC data recovery wizard: You can recover the files easily from hard drives, SSDs, or external hard drives from your PCs, laptops, and servers. This wizard can also help you to recover the formatted or lost partition. 
•  Memory card recovery wizard: You can recover the data quickly from the corrupted or damaged memory card which includes SD card, memory stick, Micro Card, and CF card. 
•  USB Drive Recovery Wizard: You can recover the files from the flash drive, USB drive, pen drive and other removable storage devices, where the files were lost due to formatting, accidental deletion, or virus attack. 
•  Other digital device recovery wizard: You can recover the lost data easily from the digital devices like mobile phones, digital camera, music and video player, and iPod where the files were lost due to formatting, hardware crash, deleting and other reasons. 

Now save your data from different crisis

EaseUS Data Recovery Software allows you to restore data from many situations like hard drive corruption, formatting, deletion, and virus attack especially because of malware/ransomware attacks like WannaCry and Petya.

EaseUS Data Recovery Wizard can recover the files from below situations: 

•  Formatted drives 
•  Hard Drive failure 
•  Accidental Deletion 
•  System Crash 
•  Virus Attack 
•  RAW partition 
• Partition Loss 
•  And many more reasons 

Advantages of EaseUS Data Recovery Wizard

•  You don't need to be experienced to use this wizard; you can easily recover the data just following step by step to recover everything back. So, this wizard is easy and safe wizard to retrieve the files from PCs, laptops, and servers. 
•  After, you scan the data which needs to be recovered it gives you the clear preview picture about the data which are going to be retrieved, and it will get you the lost files back fast and in good quality. 

How to use the EaseUS Data Recovery Wizard? 

EaseUS Data Recovery Wizard is the great file recovery software, where you can recover the files quickly and securely. You need to follow the below steps:

•  You need to install this software and then select the location from where you want your files to be recovered. 
•  Then, click on Scan, and it will show you the set of files which were lost. 
•  Also, it has the option of deep scan where you can look for more lost files. 
•  Once the scan is completed, you can preview the results of the scan. 
•  Then, click on Recover the retrieve the lost files.

The Secret to a Perfect Selfie

Trailblazing Self-Portrait – Over £6 Million

Though selfies are said to be a basic of our technology-fanatical generation they do not always seem to be creative. Andy Warhol had takes what could have been some of the most well-known selfies in the world portraying that the artist seems to be much ahead of his time.

 Tom van Laer, a Senior Lecturer in Marketing at City University of London and Stefania Farace, a PhD Candidate in Marketing at Maastricht University in an article for The Conversation, had studied Warhol’s popular photo revealing the three simple rules to the perfect selfie for social media. Andy Warhol, in 1963 had walked in a New York photobooth and had taken what could have been the most famous selfies in the world.

One of the trailblazing self-portrait had been sold for just over £6 million. These selfies seemed to suit effortlessly Warhol’s vision of the pop art era of the late 1950s and 1960s and are typically all-American, mechanical and democratic. Although photobooth images did not go viral like social media images tend to do now, the use of a photobooth in making art was in 1963 fiercely innovative as well as added to the aura of technical invention which surrounded Warhol like it surrounds selfie together with social media presently.

Selfies – Holy Grail of Social Media

Selfies are said to be the holy grail of social media a kind of self-portraying images which tend to be posted on social networking site with details to involve large number of audience. According to latest study it had been revealed that three things could assist the user in taking images which are worth, if not millions of pounds but at least a thousand words and without the need of one risking their life for them.

 Three online experiments had been conducted by their team with workers from Amazon Mechanical Turk that had crowdsource expertise in a range of fields, one with students on computers in the university laboratory and one corpus analysis. It involved a method of looking at a body of evidence jointly with self-governing coders. To define precisely what people involve with, when they view images online, the participants various images were portrayed.

These images were rated on various photographic elements, point of view, content, artsiness and the like. Moreover they also specified how likely they were to comment on the images if they viewed them on social media. With these studies it became possible to segregate the things which seemed to affect people in stopping from caring about an online image and to locate images which would involve them.
Enthusiastic Selfie-Portrait Artist - Awareness –

Besides that they also helped to determine the type of images on which people possibly tend to comment. There are three things which enthusiastic selfie-portrait artist should be aware of:

1. People favour you before the camera

Point of view – POV, in photography is said to be a question of who it is people `see’ taking the image. The unassuming difference is that of `person’ of which there seems to be two principle types namely third person – Warhol taking an image of Marilyn Monroe for instance and first person – Warhol’s selfie.

In the case of Warhol’s time, several of the photographs had been taken from a third person point of view. However this has changed and research does not find much interest for third person images in social media age. From the point of view, it tends to add elaborately to how individuals feel and think as they view the images and just as the point of view could be from one within or outside the image, people then to pick up various feelings and thoughts.

Warhol has contributed immensely in the pictured story of his selfie than in his famous image of Marilyn Monroe and just he is more involved in the story he is conveying with his selfie, so also others are statically likely to get involved with the content of selfies.

2. People get bored of just you

Since the portrait had first been invented, painters and photographers seemed to set priority of importance to person or action. Several of the selfies are said to be about themselves, though our research recommend that this is a poor strategy for drawing attention since people are 15-14% likely in commenting on selfies of individuals doing that which is meaningful than on only selfies. Selfie-takers tend to have agency beyond only being the subject of their own images and tend to do things like eating of drinking of waving their free hand. Warhol had done something else; he had appeared as adjusting his tie.

3. Realistic images put people off 

The selfie of Warhol had been designed not for portraying or depict the truth but to accept the artifice and deception in-built to any kind of illustration. If the creative flexibility in reality and image had been wide in the photograph of Warhol, it would be vast since photography arrived in social media and this is essentially the case. Photographers, who tend to complain that selfies seem to be poor illustration of reality, overlook the fact that taking selfies is not illustration of anything but the unattached sense.

Research has shown that not changing images could wind up in failure and a variation could be silly or serious, unprofessional or professional and so on. Modern photographers need to organize the full power of procedure like emoji, lenses, filters as well as tools since selfie sticks to turn the original into something artful. These selfies tend to be superior with regards to engagement and it was observed that people tend to be 11.86% more likely in commenting on adapted selfies.

As users tend to become more sophisticated in their choice of images, it tends to pay to being more people-centric and to think harder regarding the value an image tends to provide the audience instead of just yourself. The outcome seems to be a renovated selfie of one doing something, an image which is worth a thousand words. In 1968, Warhol had written that `in future everyone would be world well-known for 15 minutes and that future is now.

Imagination Technologies Accuses Apple of Unethical Behaviour in Chip Dispute

Dispute Between Apple & Imagination Technology

Apple has been accused by Imagination Technology for breaking its own ethics as the clash between the British microchip company and its biggest customers have turned very bitter. The Hertfordshire founded group that had been abandoned in April by Apple after the Silicon Valley giant had stated that it would be taking the graphics technology in-house, informed that talks on determining the standstill between the two had stalled and recommended legal action would be the next step.

Apple had depended on the designs of Imagination for the graphics chip which tends to power the iPhone as well as the iPad for years and Apple accounts for almost half of the sales of Imagination. The dispute of Imagination is that Apple would be capable of designing its own chips without paying for access to the intellectual property of the British company and has put itself for sale with analyst stating that the company may combat to survive without further payments.

 Recently the chief executive of Imagination, Andrew Heath had informed that Apple’s claims that the maker of iPhone would no longer need to pay royalties that were `unsubstantiated’ and has labelled the actions of Apple as unacceptable.

Contract Dispute

He further commented that they do not believe that this is an acceptable business practice nor in line with the ethics statements of Apple considering suppliers. He also mentioned that there had been `no progress’ with regards to the contract dispute that Imagination had opened and that it is revising its options, signifying legal action as a prospect. The full-year results of the British company had been published recently indicating that there could be life after Apple.

It also exposed a pre-tax profit of £2.4m against a £29.4m loss the previous year and adjusted operating profits, which shred out the effects of recent rearrangement, increased to £29.2m. The revenues increased 19% to £145.2 due to a series of new contracts approved last year together with the weaker pound. The shares of Imagination had increased by 6.5% and had dropped in April when the company had confirmed that Apple intended to terminate its relationship in the next two years.

However it had recovered after Imagination had put it up for sale in June. The company had informed that it is in initial discussions with probable bidders and analysts vender such as Intel, Qualcomm and ARM Holdings as the potential owners.

Imagination – Big GPU Designers

Oliver Knott, an analyst at N+1 Singer had commented that `without Apple it was difficult to see how it survived as a viable business. He informed that failing to resolve the dispute would make it difficult for Imagination in signing up more customers in the near future.

Apple had refrained from commenting. Imagination had been one of the big GPU designers in the smartphone industry together with another British group – ARM Holdings, and America’s Qualcomm. Smartphones usually tend to have two processors, the brains which are at the core of the functions of the device, the central processing unit – CPU and graphics processing unit – GPU.

 Though the CPU is devoted to the number munching which runs the application, the GPU is said to be responsible in creating images and videos. In the case of smartphones, more commanding GPUs tend to be very important in the midst of the rise of sharper as well as superior screens together with higher-definition video.

Apple is said to be equally exclusive among smartphone manufacturers in which it builds the microchip utilised in its iPhone though it does not make them from scratch. It warrants the powerVR GPU technology from Imagination in its processors.

3D-Sensing Camera – Augmented Reality Technology

Apple has been paying Imagination a royalty for this on every iPhone, iPad, iPod, Apple Watch as well as AppleTV it tends to sell. Considering that Apple is said to be the biggest smartphone, tablet and smartwatch maker by volumes and profits in the world, the same has been an extremely profitable relationship for Imagination.

The revenue for Imagination from Apple had been £60.7m just over half of its total sales and it had been expected to be £65m this year. Moreover Apple also had an 8% stake in Imagination and had reflected on purchasing the company outright at one point of time. Imagination had been informed by Apple that it intended in developing its own GPU technology, putting an end to the use of the technology of Imagination.

 It plans to do so in 15 months to two years’ time, in line with the anticipated time scale for the next one iPhone probably to be released in September 2018. GPUs are significant in the working of the camera and its function and reports propose that Apple has been working on a 3D-sensing camera for augmented reality technology, something which will need an increase in graphics processing power.

Moreover GPUs tend to also be critical to machine learning technology like speech and image recognition. Apple which tends to do more data processing on the device than its rivals, requires a high-powered processor for this purpose, for privacy reasons.

Hot Electrons Move Faster Than Expected

Ultrafast Motion of Electrons

A new research has given rise to solid-state devices which tend to utilise excited electrons. Engineers and scientists at Caltech have for the first time, been in a position of observing directly the ultrafast motion of electrons instantly after they have been excited by a laser. It was observed that these electrons tend to diffuse in their surroundings quickly and beyond than earlier anticipated.

This performance called as `super-diffusion has been hypothesized though not seen before. A team headed by Marco Bernardi of Caltech and the late Ahmed Zewail had documented the motion of electrons by utilising microscope which had captured the images with a shutter speed of a trillionth of a second at a nanometer-scale spatial resolution and their discoveries had appeared in a study published on May 11 in Nature Communications.

 The excited electrons had displayed a diffusion rate of 1,000 times higher than earlier excitation. Though the phenomenon had lasted only for a few hundred trillionths of a second, it had provided the possibility for operation of hot electrons in this fast system in transporting energy and charge in novel devices.

Assistant professor of applied physics and materials science in Caltech’s Division of Engineering and Applied Science, Bernardi had informed that their work portrayed the presence of fast transient which tends to last for a few hundred picoseconds at the time when electrons move quicker than their speed of room temperature, indicating that they can cover longer distance in a given period of time when operated with the help of lasers.

Ultrafast Imaging Technology

He further added that this non-equilibrium behaviour could be employed in novel electronic, optoelectronic as well as renewable energy devices together with uncovering new fundamental physics. Nobel Laureate Ahmed Zewail, the Linus Pauling Professor of Chemistry, professor of physics as well as the director of the Physical Biology Centre for Ultrafast Science and Technology at Caltech, colleague of Bernardi had passed away on 2nd August 2016.

The research had been possible by scanning ultrafast electron microscopy, which is an ultrafast imaging technology initiated by Zewail, with the potential of creating images with picosecond time with nanometer spatial resolutions. The theory and computer models had been developed by Bernardi which clarified the tentative results as an indicator of super-diffusion.

Bernandi has plans of continuing the research by trying to answer the fundamental questions regarding the excited electrons, like how they equilibrate among themselves as well as with atomic vibrations in material, together with applied ones like how hot electrons could increase the efficiency of energy conversion devices such as solar cells and LEDs.

Super Diffusion of Excited Carriers in Semiconductors

The paper has been entitled `Super Diffusion of Excited Carriers in Semiconductors’. Co-authors comprise of former postdoc Ebrahim Najafi of Caltech, who is said to be the main author of the paper and a former graduate student, Vsevolod Ivanov. The research has been supported by the National Science foundation, together with the Air Force Office of Scientific Research, the Gordon and Betty Moor Foundation as well as the Caltech-Gwangju Institute of Science and Technology – GIST, program.

Laying the Groundwork for Longer Battery Life

Batteries with Long Life – Interact with Technology

Some of the common complaints regarding cell phone or the laptop are regarding the battery life which tends to turn off when needed the most. We are inclined to rely on technology which is an integral part of our life and find it difficult to do anything without it.

 We would find it extremely difficult to cope up with our life even for a short period of time without our cell phone which tends to connect us with the external world. The faculty from Drexel’s Department of Materials Science and Engineering have discovered this topic in a latest invited article in Nature Energy – `Perspective’. Batteries having long life and tend to charge instantly could change how we interact with our technology.

Anne Steven Assistant Professor Ekaterina Pomerantseva together with Distinguished University and Charles T. as well as Ruth M. Bach Chair Professor Yury Gogotsi suggested that the next generation batteries have been developed by combining different two-dimensional 2D materials in heterostructured electrodes and would immensely enhance battery life and charge storage potentials, thus changing the technology setting. The term `2D’ materials is utilised in describing materials which tend to be developed in single layer, like a sheet of paper which is only one or many atoms thick.

2D Heterostuctured Electrodes

These exceptional materials have started portraying amazing potentials for different properties which could be applied to a wide selection of applications. The most frequently known 2D materials are said to be graphene together with various graphene modification, transition metal dischalcogenides – TMDCs, transition metal oxides –TMOs together with transition metal carbide/nitrides – MXenes.

Individually, these material families tend to display definite benefits for energy storage applications though simultaneously tend to have some shortcomings. Pomerantseva had commented that they suggest that in order to eradicate the shortcomings while maintaining most of the benefits of these opposing 2D materials is in creating what is known as 2D heterostructed electrodes composed of interchanging layers of various 2D materials which tend to portray various functionalities.

The single layer structure of 2D materials is for the most part valuable for the purpose of energy storage properties since these thin materials tend to have a great surface range that enables quick diffusion of ions from an electrolyte, which is a liquid utilised in transporting ions between two electrodes. This quick movement of ions on the surface permits a battery to charge immediately. Besides this the 2D material also makes provision for a denser packing of ions between the layers that leads to the battery stocking the charge for a longer period.

Contrary Chemical Reaction

Though there is an opportunity that the solvent utilised in the electrolyte tends to have the possibility of causing a contrary chemical reaction with the electrode in the battery resulting in reduced battery performance, the ability of 2D materials for enhanced battery performance tends to outweigh the potential challenges.

In order to build these 2D heterostructures a parallel orientation or interface of layers of various 2D materials is essential. Gogotsi has informed that the interface of materials in this way tends to optimize their unique properties. For instance, on combining various layers of TTMO together with graphene, a high capacity of oxide as well as high electronic conductivity of carbon could be attained in the resulting 2D heterostructure which could lead to a battery having high energy together with high power.

There is a possibility of modifying the 2D heterostructures still further by integrating different types of inorganic ions, organic molecules and also polymers, which are known as species between the layers. This integration of these interlayer species could lead to various developments in electrochemical properties. The interlayer species could extend the interlayer spacing enabling additional electrochemically cycling ions in being incorporated between the layers which could lead to a higher capacity which in turn could lead to energy density of the batteries.

Insertion/Extraction

Moreover due to the interactions between the layers as well as the interlayer species, the structural stability of the electrodes through multiple cycles of ions is said to go through insertions and extraction which can be enhanced. Should the interlayer species be charged, their presence between the layers could disturb the diffusion of electrochemically cycled ion inclusive of the acceleration of the diffusion that tends to lead to batteries with better power.

Utilising 2D heterostructured electrodes with suitably selected interlayer species seem to have abundant promise in developing a battery which would not only charge quickly but also hold an individual charge for a longer period and will also tend to last longer over several charge and discharge cycles.

 Pomerantseva had informed that if such a battery is utilised in powering a car, it would be capable of greater driving range before the need of a re-charge, and the re-charge process would take a short duration of time. Moreover the owner of the car would possibly desire to buy a new car well before the light indicating that the battery required to be replaced is illuminated.