Hi, im a casual person who loves to do things to have fun i like video gaming drawing story writing
building computers making quotes poetry and most of all the japanese culture i want to learn japanese someday and meet that special person
Not exact matches
By
making little machines that are often updated, Mr. Gillmore said, «we're
building satellites with
computers that are six months old.
But by simply using the iPhone's camera and its
built - in sensors, programmers without extensive experience in
computer vision or other complicated difficult technologies can
make augmented - reality tape - measuring apps.
Then, when Vogt was an undergrad studying electrical engineering and
computer science at MIT, a friend found an abandoned safe in the basement of a campus
building, and Vogt persuaded that friend to collaborate with him in
making a one - armed bot programmed to turn the dial repeatedly, to crack its combination.
He liked
building operating systems for
computers and co-founded Confinity,
making operating systems for the handheld Palm Pilots.
This, in turn,
makes it easier to
build machine - learning and artificial - intelligence apps, which require
computers to chomp through large amounts of data very fast in order to
make decisions.
The company that has
built and lost fortunes
making paper,
computer monitors and, more famously, mobile phones and networks, is buying connected - devices maker Withings for $ 192 million) to aid its push into digital health technology.
Without acknowledging its existence, Cook also shed possibly contradictory light on Apple's widely rumored efforts to
build an iCar: He suggested that Apple ultimately may decide not to
make a car at all, yet he implied that if it did, it could utilize contract manufacturers to do so, just as it does with
computers and phones.
Now, Negroponte has a new mission: to
build a $ 75 tablet
computer that is waterproof, flexible, thinner than an iPhone and
made entirely of plastic.
She has spent 20 years
building software for devices that aren't
computers and has a lot of insights on how the internet of things is changing the role of such engineers and the tradeoffs one
makes when
building a connected product.
Building on the success of this portable media player, Apple then effectively created the touchscreen smartphone industry before then moving on to
make the tablet
computer concept a real product and an actual success.
All you need is a phone,
computer, and Internet connection, and you'll be able to quickly
build a pipeline of clients and start
making sales.
It has been the
computer, perhaps more than any other single factor, which has
made possible the development of the power base on which the independent evangelical broadcast organizations are
built, namely, audience support.
While traditional heavy industry is declining, the service sector (
made up of office workers and
computer operators, fast food and restaurant workers, health care workers, bookkeepers, optical workers, and
building custodians, among others) is rapidly expanding.
- Do you understand that the
computer you're using is man -
made and many Atheists (heretic's in your small world) had a hand in
building it??
Btw: Do you understand that the
computer you're using is man -
made and many Atheists (heretic's in your small world) had a hand in
building it??
Can you throw down some parts on the ground and hope the come together to
make a
computer, car or
building?
Custom
built computer shelf
made by Algis from old barn wood.
Centralized management allows you to
make changes to your recipes and
builds from any
computer via a user - friendly web interface.
Again, another way to show how a game is just some
computer code and you can influence it by passing different parameters as you «
build» it
makes the kano learning journey fun and relevant to our young explorers.
So I said look, let every school have its science resource centres, each of the new schools we are
building has a Chemistry Lab, Biology Lab, they have a Physics Lab, they have a General Science Lab, they have an ICT /
Computer Lab, they have their own Library, they have their own Guidance and Counselling Centre, everything that you need in a top secondary school is
made available.
You have models in the case of road transport where the algorithms may be proprietary and not available, but they are being
made to determine government policy nevertheless, because it is convenient for politicians to say, «The reasons we are
building these roads is because the
computer said so», rather than — «I decided that we would have more roads because I want to see more roads.»
The enormous range of scales (stars, the
building blocks of galaxies, are each about one trillion times smaller in mass than the galaxy they
make up), as well as the complex physics involved, presents a formidable challenge for any
computer model.
Researchers at Georgia Institute of Technology have developed a new
computer - aided approach that streamlines the design process for origami - based structures,
making it easier for engineers and scientists to conceptualize new ideas graphically while simultaneously generating the underlying mathematical data needed to
build the structure in the real world.
The excellent,
built - in SkyAlign
computer control
makes it easy to find and track objects in the sky.
The team
made a logic gate, one of the essential
building blocks of a
computer, from stacked arrays of nanomagnets.
A trio of electrons, the
building blocks of classical
computers, were entangled in a semiconductor in 2003, and the first quantum calculation was
made with a single calcium ion in 2002.
Ultra-fast
computers running on light could be
built after all, thanks to the new field of nanoplasmonics — and the tiniest lasers ever
made
In March, the company announced it would
build a 50 - qubit
computer in the next few years and
make it available to businesses eager to be among the first adopters of the burgeoning technology.
Using the new methods of micromachining, which borrow technology for
making computer chips to carve out and
build up microscopic structures on silicon wafers, Peter Gammel and his colleagues at Bell Labs / Lucent Technologies reduced three of the critical devices of a cell phone to Lilliputian size that will allow all the components of a phone to be constructed on a single chip.
Building a vast digital simulation of the brain could transform neuroscience and medicine and reveal new ways of
making more powerful
computers
Modha is confident that his chips can be used to
build a cognitive computing system on the scale of a human brain for only 100 times more power,
making it 10 million times more energy efficient than the
computers of today.
Its proponents seek to
make biology more quantitative by relying on mathematics, engineering, and
computer science to
build a more rigid framework for linking disparate findings.
Credit growing concerns about climate and
computer advances that
make it easier to fashion custom - shaped panels, says Sam Zelinka, head of
building and fire sciences research at the Forest Products Laboratory, an arm of the U.S. Department of Agriculture, in Madison.
Islam, U-M professor of electrical and
computer engineering and biomedical engineering, and his team
built their device with off - the - shelf fiber optics and telecommunications components, save one custom -
made optical fiber.
To
make a more accurate, responsive model of human injury, nearly two dozen automakers and research institutes have set out together to
build a digital complement: an elaborate, 3 - D
computer model depicting bone, tissue and internal organs from head to toe.
At present, attempts are being
made to
build quantum
computers using, among others, trapped ions, electron spins in diamond, quantum dots, superconducting electric circuits, and atomic clouds.
The industry giants racing to
build such a machine quietly started recruiting app designers, which suggests the long quest to
make good on the hype about quantum
computers might have entered a new stage.
These structures use the same principles as man -
made detectors
built to sense circularly polarized light — a specialized kind of light used to reduce the glare off
computer monitors and take clearer photographs.
Last August, physicists in Switzerland successfully teleported information 6 millimeters between two corners of a superconducting chip
made from niobium, sapphire and aluminum; the superconducting chip is the basic
building block for a quantum
computer.
Powerful advances are also being
made in using
computer networks to model neuron biology and to
build complex neuronal networks, which should produce interesting emergent properties.
A team of Stanford engineers has
built a basic
computer using carbon nanotubes, a semiconductor material that has the potential to launch a new generation of electronic devices that run faster, while using less energy, than those
made from silicon chips
«An analogy from conventional computing hardware would be that we have finally worked out how to
build a transistor with good enough performance to
make logic circuits, but the technology for wiring thousands of those transistors together to
build an electronic
computer is still in its infancy.»
Instead of using transistors as switches the way digital
computers do, Boahen
builds a capacitor that gets the same voltage a neuron
makes.
The team ran numerous
computer simulations and
made a surprising discovery: it was the shape and repetitive organization of the
building blocks within the metamaterial — their periodicity — that affected the refraction.
Hopes for
building a working quantum
computer hinge on physicists» ability to intertwine electrons into pairs such that changes
made to one instantly affect its partner — a process called entanglement.
Google is
making quantum chips from superconductors, and claims it will have
built the first quantum
computer capable of surpassing some abilities of ordinary
computers later this year.
Computer scientist Yi - Kai Liu has devised a way to
make a security device that has proved notoriously difficult to
build — a «one - shot» memory unit, whose contents can be read only a single time.
Jim Gray, the missing Microsoft
computer scientist, helped craft technologies that
make the
building of gargantuan databases practical
Harvard
computer scientist Radhika Nagpal and her colleagues in the TERMES Project are
making artificial termites that can, like their natural counterparts,
build structures much bigger than themselves.