Advances in next-generation computational science and engineering (CSE) require the development of applications that can fully exploit emerging extreme-scale architectures for optimal performance and provide high-fidelity multiphysics and multiscale capabilities. To help address overwhelming complexity, the IDEAS family of projects focuses on improving scientific productivity by qualitatively improving developer productivity (positively impacting product quality, development time, and staffing resources) and software sustainability (reducing the cost of maintaining, sustaining, and evolving software capabilities in the future)—thereby enabling a fundamentally different attitude to creating and supporting CSE applications.
We are creating an extreme-scale scientific software development ecosystem composed of high-quality, reusable CSE software components and libraries; a collection of best practices, processes, and tools; and substantial outreach mechanisms for promoting and disseminating productivity improvements. We intend to improve CSE productivity by enabling better, faster andcheaper CSE application capabilities for extreme-scale computing.
IDEAS projects address productivity concerns that are emerging from important trends in extreme-scale computing for science and engineering. In particular, the projects:
- Address a confluence of trends in hardware and increasing demands for predictive multiscale and multiphysics simulations, analysis, and design.
- Respond to a trend of continuous refactoring with efficient, agile software engineering methodologies and improved software design.