针对成本、重量和带宽等目标优化电气电子系统架构至为重要。由于架构性决策会对产品产生深远的长期影响,因此,如果能在开发流程中尽早、快速地完成设计、迭代和优化,则会在复杂产品上市的后续阶段取得显著优势。
- 通过对架构概念进行快速迭代和优化,缩短整体设计时间
- 利用直观的解决方案提高工程生产力
- 通过支持嵌入式软件、网络、电气和电子元件的多领域系统架构和功能定义,推动复杂的平台设计
优化电气电子系统架构
E/E 系统定义和优化
E/E 系统定义和优化
针对成本、重量和带宽等目标优化电气电子系统架构至为重要。由于架构性决策会对产品产生深远的长期影响,因此,如果能在开发流程中尽早、快速地完成设计、迭代和优化,则会在复杂产品上市的后续阶段取得显著优势。
- 通过对架构概念进行快速迭代和优化,缩短整体设计时间
- 利用直观的解决方案提高工程生产力
- 通过支持嵌入式软件、网络、电气和电子元件的多领域系统架构和功能定义,推动复杂的平台设计
针对成本、重量和带宽等目标优化电气电子系统架构
E/E Architecture Optimization & Verification
It is vital to be able to automatically or manually allocate functions and signals to resources and carriers using rules-driven logic, incorporating constraints. This has been coupled with the ability to optimize function allocations to balance resource utilization, cost, and mass across the entire platform and have the ability to perform fast 'trade studies' to analyze allocations and rapidly re-assess the resource balance resulting from each change. All of this platform content can be verified using customizable design rule checks.
E/E Function Definition & Consolidation
Engineers need to capture and consolidate function characteristics and connectivity, so they can develop optimized implementations within platforms. Software, hardware, networks, and electrical functions can be managed together in a lightweight environment that allows these disciplines to collaborate easily.
Electrical, Electronics & Software Specification
It is important to be able to generate implementation details to feed downstream processes designing electrical hardware, software, networks, and Electrical Distribution System (EDS). Engineers also need to extract logical and physical content, which is synthesized as correct-by-construction from the platform designs, controlled by corporate defined rules and constraints.
