I was looking for a small customizable desktop computer, and didn't exactly found what i was looking for, then i found the Intel NUC form factor which allows you to get a very
powerful computer in a tiny tiny case.
A supercomputer based on the Cell processor that is found in Sony's PlayStation 3 console has rocketed into the latest Top 500 supercomputing ranking at number one to become the most
powerful computer in the world.
It is also a task that has historically been impossible because even the most
powerful computers in the world can only simulate one percent of the nerve cells due to memory constraints.
Not exact matches
The authors believe that with the continuing decline
in hardware costs, combined with more
powerful computers, companies will build far more advanced robots than the ones we currently have.
In September, GMO announced it would invest $ 3 million in mining bitcoin — the process of obtaining the coin through powerful computers — starting in the first half of 201
In September, GMO announced it would invest $ 3 million
in mining bitcoin — the process of obtaining the coin through powerful computers — starting in the first half of 201
in mining bitcoin — the process of obtaining the coin through
powerful computers — starting
in the first half of 201
in the first half of 2018.
t's enough of a
computer that I've adopted it as my main machine
in many ways, and when paired with an Apple pencil it becomes even more
powerful.
This means if anyone with a
powerful enough
computer running the appropriate code can participate
in the system, making it decentralized and scalable.
In a time before smartphones, AIM was powerful and intoxicating, a way for a generation that once had called people on the phone to communicate in quick bursts from their computer
In a time before smartphones, AIM was
powerful and intoxicating, a way for a generation that once had called people on the phone to communicate
in quick bursts from their computer
in quick bursts from their
computers.
In the study «Dominant CEO, Deviant Strategy and Extreme Performance: The Moderating Role of a Powerful Board,» to be published next year in the Journal of Management Studies, Tang and co-authors Mary Crossan and Glenn Rowe of the Ivey School of Business examined the experience from 1997 to 2003 of 51 publicly traded computer firm
In the study «Dominant CEO, Deviant Strategy and Extreme Performance: The Moderating Role of a
Powerful Board,» to be published next year
in the Journal of Management Studies, Tang and co-authors Mary Crossan and Glenn Rowe of the Ivey School of Business examined the experience from 1997 to 2003 of 51 publicly traded computer firm
in the Journal of Management Studies, Tang and co-authors Mary Crossan and Glenn Rowe of the Ivey School of Business examined the experience from 1997 to 2003 of 51 publicly traded
computer firms.
The smartphone you carry
in your pocket is more
powerful than the
computer Vogt and his team at MIT used to make their F - 150 self - drive 10 years ago.
You and I both have
computers more
powerful than that
in our pockets.
Intel's accomplishments run deeper than having developed a
powerful monopoly position
in the microprocessors that drove the growth of personal
computers.
He cofounded a security - software business, he has developed innovative products, and he has driven
computer - security changes at some of the most
powerful companies
in the country.
Oracle is banking more on what techies call a «scale - up» model
in which fewer, but very
powerful computers —
in Exadata's case each with its own integrated networking and storage — take on big workloads.
Once a
powerful technology trade publisher, Ziff Davis went through bankruptcy of its own
in 2008 and now produces consumer technology websites, including AskMen,
Computer Shopper and Geek.com.
In theory, this makes for more
powerful computers that can work faster than what's generally used today.
Tablet
computers are
in high demand — from Apple's popular iPad and much - rumored iPad mini, to Google's smaller but
powerful Nexus 7 and Microsoft's forthcoming Surface.
You need to place yourself
in that day and age, its 1949 and
computers are not that
powerful, there's no internet, the only way to get information about a company is by writing to them (phones were not available everywhere) or by reading newspapers.
The miners need
powerful hardware attached to their
computer in order to mine this cryptocurrency.
With the advent of
powerful computers, databases, and stock screeners it has become increasingly easy for investors to implement Graham's quantitative strategies, while the qualitative study of companies remains nearly as time consuming and research intensive as it was
in 1934.
the proof of Gods presence
in us is not limited to the material or biological evolutionary development only, but most important scientific proof is the effect of His will
in historical development of the world.A
computer program now used and tested a
powerful machine by inputing all recorded events
in history during the last hundreds years and found out that it has a purpose and not random.Meaning that an intelligent being could have influence it.It is now presumed by the religious observers that it could be His will.The process now is under improvement, because the
computers is not powerl enough the deluge of information and data since the beginning of history, some analyst believes that
in them near future if the Quantum
computers which is much
powerful than the present coventional will be used, then dramatic results and confirmation will be at hand.
If we realize that recursive structures are extremely
powerful contemporary techniques for solving problems
in science and mathematics, and further realize that personal societies solve problems of their own — namely, their own enduring existence — then Prolog programs as prehensive structures can be an effective tool
in analyzing and clarifying the relationship between a Whiteheadian ontology and current
computer science.
If we suppose that God is all knowing n all
powerful then as
in the field of
computers he is a programmer.
In recent decades, theoretical developments and widespread availability of powerful computers have drastically changed the sorts of problems that scientists and technologists can tackle, greatly altered the methods they use, and brought about major upheaval in rather fundamental concepts used in scientific wor
In recent decades, theoretical developments and widespread availability of
powerful computers have drastically changed the sorts of problems that scientists and technologists can tackle, greatly altered the methods they use, and brought about major upheaval
in rather fundamental concepts used in scientific wor
in rather fundamental concepts used
in scientific wor
in scientific work.
The main advances
in forecasting come from more
powerful computers and faster software that can ingest more data coming from a greater number of sources.
Mausumi Dikpati and her colleagues at the National Center for Atmospheric Research
in Boulder, Colo., used new observations of the sun's interior and new
computer simulations to model the flow of plasma, or electrically charged gas, that carry the sunspots like a conveyor belt until they become
powerful enough to burst free and erupt on the sun's surface.
These days, medical X-rays come
in multiple formats: plain film used
in dental exams and doctors» offices; fluoroscopy, which bounces a continuous X-ray beam off contrast agents you've either injected or ingested, providing a moving real - time image of arteries and intestines; and the computed tomography (CT) scan, which couples a
powerful computer with a circular array of extremely sensitive detectors to turn X-rays into detailed cross sections of the body.
But that situation is understandable
in light of an analysis, summarized
in the next section, that concludes that today's
computers are only
powerful enough to function like insect nervous systems.
Since it first appeared last November, the malicious software known as the Conficker worm has established itself as one of the most
powerful threats the Internet has seen
in years, infecting an estimated 10 million
computers worldwide.
Personal
computers in 2008 are just about a match for the 0.1 - gram brain of a guppy, but a typical PC would have to be at least 10,000 times more
powerful to perform like a human brain.
The world's fourth most
powerful computer at the time of its construction
in 2004, MareNostrum (Latin for «our sea») now ranks 118th.
Few cancer centers have the resources to invest
in powerful enough
computers or robust enough networks to support the mammoth datasets.
In one
powerful example of the new capabilities around that time, Carnegie Mellon graduate student Dean Pomerleau used simulated images of road conditions to teach a neural network to interpret live road images picked up by cameras attached to a car's onboard
computer.
Originally developed
in Cambridge, UK, for use
in schools as a teaching aid, the Raspberry Pi is a credit - card sized
computer powerful enough to run spreadsheets and word - processing programs, play games, and even display high - definition video.
The study, known as Brain
Computer Interface (BCI) Controlled Prosthetic Arm Movement Is Possible
in the Absence of Visual Input with Proprioceptive Feedback, demonstrates that proprioception can have a
powerful impact on BCI - controlled prosthetic arm movements and should be an important target for sensory restoration.
NdFeB magnets are the most
powerful on earth, and used
in everything from
computer hard drives and head phones to clean energy technologies such as electric vehicles and wind turbines.
Plentiful online scientific databases offer terabytes of data for scientists to mine with their desktop
computers, while model genera like Drosophila (fruit flies) are available for experiments
in increasingly
powerful laboratory spaces.
He will continue to publish papers
in academic journals, but will not run the
powerful computers and other resources NASA provided for tracking and forecasting global warming and its effects.
After a number gets to be more than 10,000 digits long, even
powerful computers quickly become bogged down
in the task, forcing scientists to rely on less - than - perfect probability techniques.
Even such simplified models involve calculations that require several days of computation
in one of the Weizmann Institute's
powerful computer clusters.
Flick open the premier (October 1980) issue of Discover — now so rare it's kept
in a locked drawer
in our editorial offices — and one is offered «the first personal
computer for under $ 200,» the Sinclair ZX80, which billed itself as «a complete,
powerful, full - function
computer,» with one kilobyte of user memory.
Encoding information
in quantum particles such as photons, the quanta of light, could lead to
powerful new technologies, such as ultrafast quantum
computers and unbreakable quantum cryptography.
«We're installing a more
powerful computer at the observatory
in Hawaii to process the images seconds after they are acquired and provide the data on the internet within a minute or two of acquisition.»
In the past decade,
powerful new x-ray scans and three - dimensional
computer models have transformed the analysis of ancient bones, teeth, and shells.
It took almost 30 years before
computers became
powerful enough to run two - dimensional simulations,
in which stars are treated as circular disks.
Although these techniques must be refined before they can be put to commercial use,
in the future they may provide new approaches for developing more
powerful optical data storage systems such as CDs and even quantum
computers.
To achieve their 4500 - atom model, the researchers benefited from access to the world's third - most -
powerful computer — Piz Daint — which is located at the Swiss National Supercomputing Centre (CSCS)
in Lugano and can perform up to 20 million billion operations per second.
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.
Two - dimensional phosphane, a material known as phosphorene, has potential application as a material for semiconducting transistors
in ever faster and more
powerful computers.
Unlike a digital bit
in a classical
computer, which can take the form of either 0 or 1, a qubit can be both zero and one simultaneously, throwing open the door to vastly more
powerful computation.