Sentences with phrase «scale systems because»
Not exact matches
He did so because he developed a system that allowed him to scale his business and get his invention into the hands of everyone in the U.S..
https://www.entrepreneur.com/
First, build a relatively flexible hiring system that can scale because it can be taught and repeated.
One of the biggest hurdles for this or any other payment system is the need for scale: Using paper bills or coins or even credit cards works, because they are accepted virtually everywhere, and they are a known quantity and have well - established companies (and government regulations) behind them.
However, this Keynesian effect of economic stimulation only works on a large scale; within smaller economic units, economic stimulation may not work because money can more easily flow out of the system.
Because if we can't find an economic force in normal times that drives our system to get larger, and it actually would have to outgrow, it has to grow, you know, faster, faster than the Internet, it has to have some other reason for being or else we'll continue to shrink relative to the incumbent, and so how will we ever have enough scale?
Batygin says it does so here because the way he sets up the problem of self - gravitating disks creates a quantity that sets a particular «scale» in the problem, much as h does in quantum systems.
What is more, «we are investigating Semantic Web technologies because traditional approaches for data integration, knowledge management and decision support will not scale to what is needed for personalized medicine,» says John Glaser, chief information officer at Partners HealthCare System in Boston.
Because only a system allows ordinary people to do extraordinary things, and if we don't enable ordinary people to do extraordinary things by way of energy efficiency or clean power and conservation, you'll never ever achieve the scale of change we need, to address the problems of climate change, biodiversity loss, petro - dictatorship etc.,
Brain size is scaled to body size because a larger body requires a larger nervous system to service it.
Nuclear generating plants are generally the largest on our system because of the necessary economies of scale.
Scarborough says the formula accurately rates healthfulness, largely because its sliding - scale nature is more sophisticated and sensitive than previous systems.
Being able to study quantum systems with a large number of components — or «qubits,» as they are often called — also has important implications for future quantum technologies, as Carleo points out: «If we want to test quantum computers with more than a handful of qubits, that won't be possible with conventional means because of the exponential scaling.
However, «when we are dealing with a large system of entangled particles, this measurement is extremely complex or rather impossible because the resources required scale exponentially with the system size.»
«The influence of rising oceans is even greater than the overall amount of sea level rise because of storm surge, erosion and inundation,» said Carlson, who studies the interaction of ice sheets, oceans and the climate system on centennial time scales.
She says diamond - based systems could be easier to scale up because they use similar types of qubits to silicon systems, but don't need to be so cold.
But urine recycling may never become a part of large - scale farming in industrialized countries, because implementing it would mean drastically remodeling sewage systems in order to collect and transport liquid waste.
Solar - thermal systems, which turn sunlight into heat and then into electricity, are more efficient than photovoltaics — because they can use the entire solar spectrum, they can reach efficiencies of 30 percent — but they are impossible to scale down to rooftop size.
Unfortunately, many of these cloud properties must be estimated through parameterization, a technique used to represent complex small - scale systems, because climate model resolution is too coarse to resolve small - scale cloud features.
Because the performance of a fluorescent protein strongly depends on both the biological system as well as the imaging method, we recommend basing your selection on a small - scale head - to - head comparative study under conditions that best mimic the intended application.
This points to a new kind of growth mechanism in mineralization, and because the theory is independent of absolute scale, it may be adapted to other geometrically constrained growth phenomena in physical and biological systems.»
This is a study that simply could not have been conducted five years ago because no system existed to enable collaboration on this scale.»
Large - scale and effective studies of biological molecules with a different structural basis such as proteins, nucleic acids, carbohydrates, lipids and numerous metabolites (including e.g. fatty acids, amino acids, purines, pyrimidines or steroids) is currently highly attractive because of the availability of modern instruments and tools for both separation and analysis (2 - D chromatographs, capillary electrophoresis systems, microfluidics, mass spectrometers, powerful NMR spectrometers, DNA / RNA arrays and others).
Because M - dwarfs are so small, with around a tenth of the mass of the Sun, their planetary systems are also on a much smaller scale than our Solar System.
You can achieve your ideal body when you follow the nutritional principles taught in this System - because how your body LOOKS and FEELS is much more important than the number on the scale!
According to advocates of the glycemic index system, foods that are high on the GI scale such as rice cakes, carrots, potatoes, watermelon or grape juice are «unfavorable» and should be avoided because high GI foods are absorbed quickly, raise blood sugar rapidly and are therefore more likely to convert to fat or cause health problems.
A 2010 study on a pilot system in Chicago found, for instance, that when using the high end of the scale, principals often inflated their ratings compared to other observers, in part because of cultural expectations.
One can not, of course, prove that one system of governance produces better outcomes than another, because it is not possible to vary governance systems at a national or state scale while holding all other variables constant, nor is it possible to randomly assign governance models to countries or states.
We are literally about to screw up our assessment system on a grand scale just because NG is too stiff - necked to engage with school leaders and teachers.
Additionally, the state does not include the 11th graders in this system presumably because there are not enough scale scores to spread around!
This is truly an education experiment on a grand scale, and because New Orleans» system is unique, the nation is watching.
With the push for development of longitudinal data systems during the pit of the Great Recession, many issues surrounding the Common Core State Standards Initiative and its «next generation» tests were not fully vetted in the arena of public opinion partially because it became a «best practice» to «not engage in large scale, open forums.»
Because our designs are sensitive to the relationship between classroom practice, policy, and targeted learning outcomes, we can successfully scale up our learning model - based research to create innovative assessment, learning, and evaluation systems for every age and type of program.
This year was markedly less radical, in part, because the system is preparing for a slew of closures under a large - scale plan to shutter its underused and dilapidated school buildings.
The scale in one of BookBub's offers aimed at some of these markets will be smaller, Donelan says, because these are relatively newly added territories to the system.
The Pronunciation Lexicon (PLS) and Speech Synthesis Markup Language [SSML] lack widespread adoption, probably because of the lack of tools useful for large - scale publishing production as well as the lack of reading system support.
I don't personally use this feature in my own trading, because the Top Dog Trading system uses indicators to scale out — on the techniques where that is an option.
Because of the poor progression system and all the pay - to - win mechanics (which were temporarily scaled back in November), Battlefront II suffered in sales over the holiday season.
Quote: Retired senior NASA atmospheric scientist, Dr. John S. Theon, 15th Jan 2009,» My own belief concerning anthropogenic climate change is that the models do not realistically simulate the climate system because there are many very important sub-grid scale processes that the models either replicate poorly or completely omit.
«My own belief concerning anthropogenic climate change is that the models do not realistically simulate the climate system because there are many very important sub-grid scale processes that the models either replicate poorly or completely omit,» Theon explained.
To a large extent, clear answers will only come in hindsight, largely because much of what is being attempted has never been tried before, at least on the scale of the global energy system and climate.
C is not constant for the dT» / dt equation to apply because heat penetrates through different parts of the climate system (different depths of the ocean in particular) over different time scales (also, if T» is supposed to be at some reference location or the global average at some vertical level, T» at other locations will vary; C will have to be an effective C value, the heat per unit change in the T» at the location (s) where T» occurs)
part of the utility is that Charney sensitivity, using only relatively rapid feedbacks, describes the climate response to an externally imposed forcing change on a particular timescale related to the heat capacity of the system (if the feedbacks were sufficiniently rapid and the heat capacity independent of time scale (it's not largely because of oceanic circulation), an imbalance would exponentially decay on the time scale of heat capacity * Charney equilibrium climate sensitivity.
That is, changes to the system are more clearly discerned in the global mean temperature than at a regional level, mainly because the noisy «weather» component increases as you go to smaller scales.
Unfortunately, I don't share Cohen's optimism about prospects for the deployment of such systems at a scale the climate would notice, mainly because there's no incentive for China to pay the additional cost, no sign (unless you can identify one?)
In 2015, former First Solar CEO Jim Hughes said, «The large arrays that are built today are essentially a scaled - up rooftop system — because it's what the code authorities in ancient years [understood].
But small - scale processes such as cloud - formation can not be ignored, because they do affect the system as a whole (just as the bacteria you can't see can still make you ill).
The calculation of carbon fluxes due to forest and grassland conversion is in many ways the most complex of the emissions inventories components, because responses of biological systems vary over different time - scales.
This is one of the more challenging aspects of modeling of the climate system because precipitation involves not only large - scale processes that are well - resolved by models but also small - scale process, such as convection, that must be parameterized in the current generation of global and regional climate models.
The new system is expected to reduce costs, because companies will compete to provide utility - scale generation.
Arthur Smith argues that the spatial correlation of ENSO is evidence against chaos, because chaotic systems can not (in Arthur's eyes) produce structures which correlate across large scales.