Sentences with phrase «efficient modeling tools»

Find your next deal faster in public and private markets with the most efficient modeling tools in the industry.

Yet as online tools and social media make it easier to sell to friends, J. Hilburn and Pangea are among a growing number of young companies embracing the model as a more efficient way to build revenue, reduce overhead and inventory costs, and tap into loyal customers» networks of friends.

The Excess project has taken major steps towards providing a set of tools and models to software developers and system designers to allow them to program in an energy efficient way.

«When we started this research program there was a clear lack of tools and mathematical models to help the software engineers to program in an energy efficient way, and also to reason abstractly about the power and energy behavior of her software» says Philippas Tsigas, professor in Computer Engineering at Chalmers University of Technology, and project leader of Excess.

Using the tools of theoretical computer science, the researchers prove that, within the context of their model, a certain configuration of inhibitory neurons provides the most efficient means of enacting a winner - take - all operation.

«We held weekly meetings with ACT model facilitators from IU Health focusing on developing tools, processes and strategies for rapid, efficient and sustainable implementation of evidence - based practices to help develop and implement reproducible approaches that could meet the challenge of dissemination and scalability across various types of health care systems,» Adams said.

The efficient genome editing shown here demonstrates that these pigs can serve as a powerful tool for dissecting in vivo gene functions and biological processes in a temporal manner and for streamlining the production of genome - edited pigs for disease modeling.

Computational thinking: A problem - solving process that includes, but is not limited to, the following characteristics: formulating problems in a way that enables us to use a computer and other tools to solve them; logically organizing and analyzing data; representing data through abstractions such as models and simulations; automating solutions through algorithmic thinking (a series of ordered steps); identifying, analyzing and implementing possible solutions with the goal of achieving the most efficient and effective combination of steps and resources; and generalizing and transferring this problem - solving process to a wide variety of problems.

As the consumption - based model of technology integration transitions to a participatory approach and technology transitions from a tool for accessing information to a tool to (a) support student authoring and creativity, (b) facilitate collaboration, communication, and social learning, (c) allow for more efficient organization and accumulation of resources, (d) provide venues for student voices through publication and sharing, and (e) support student immersion in learning environments, educators also transition from «extending learning beyond what could be done without technology» (Mason et al., 2000) to «use technologies to promote effective student learning» (Hicks et al., 2014) In the revisioning of the first principle, the authors did a commendable job of affording increased value to range of tools, methods, content, abilities, and varied contexts of social studies classrooms.

@LatinNCAP demonstrated that testing models and publishing their results are the most powerful and efficient tools to improve Latin America's market vehicle safety even earlier and at a higher level than any regional government.

The tools also allow you to run Monte Carlo simulations, find historical efficient frontiers, and test quantitative and factor based investing models.

Twitter is constantly iterating and investing in these tools particularly in video mobile app install combined with efficient bidding models for game developers to distribute their games at scale and drive UA.

The ability of dynamic models to capture various interactions of complex systems, their potential to adapt and evolve as the real system changes and / or the level of the modelers» understanding of the real system improves, their ability to model coupled processes of different temporal and spatial resolutions and scales, and their flexibility to incorporate and / or couple to models based on other approaches (such as agent - based modeling, stochastic modeling, etc.) render them as a versatile and efficient tool to model coupled Earth — Human Systems [190,191,192,193].

• Exceptional mechanical aptitude aimed at controlling and operating complex machinery • Deep technical knowledge of CAD / CAM technology and how it is used for machine operations • Great physical stamina and dexterity to perform repetitive work activities and movements • Well - versed in reading and interpreting blueprints with a view to understand machine schematics and models • Demonstrated ability to learn new machine operations and adjust machine parts to meet specific instructions • Capable of working in a high noise environment • Able to monitor and assess performance of machinery and make needed adjustments • Proven ability to perform quality control analysis by conducting tests and inspections • Exceptional time management skills aimed at ensuring that machine operations are carried out in a time efficient manner • Excellent judgment and decision making skills; ability to consider costs and benefits of optimal machine operations • Critical thinking abilities aimed at identifying alternative solutions to machine operation problems • Complex problem solving skills targeted at evaluating possible machine operational issues • Able to plan, organize and schedule machine operations in sync with production agendas • Track record of prioritizing work activities in accordance to scheduled operating precedence • Skilled at dismantling, repairing and maintaining equipment • Knowledge of operating hand and power tools used in the production trade

• Managed talent acquisition programs for multi-billion dollar companies across the United States • Clients included Yahoo!, Microsoft, Tumbleweed Communications, BEA, & Aderactive • Responsible for designing and implementing comprehensive recruitment and training programs • Trained and led staffing team consisting of recruiters, sourcers, coordinators, and schedulers • Offered guidance in recruitment, interview, negotiation, and training best practices • Developed execution plans offering metrics, hiring goals, and improvement strategies • Evaluated company staffing model, identified needs, and recommended remedial measures • Interacted with company CEO's, Presidents, and other members of senior leadership • Partnered with HR, Development, and other company departments to best meet company goals • Significantly cut personnel costs and turnover rate through recruitment of career employees • Recruited, interviewed, screened, and filled positions from entry level to senior leadership • Negotiated and finalized compensation packages and job descriptions • Managed complex personnel issues during company acquisitions and mergers • Responsible for ensuring that recruitment procedures empowered underrepresented groups • Authored reports detailing cost per hire, turnover ratios, and retention statistics • Utilized online and in - person recruitment tools and methods to attract best possible candidates • Developed working knowledge of varied professional fields to best fill positions • Built strong, long - term relationships with industry leaders across multiple professions • Cultivated sourcing pool for technology, sales, marketing, and other professional skill sets • Maintain strong ties to leading colleges and universities for recruitment purposes • Performed all duties in professional, efficient, and effective manner