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用于系统和嵌入式软件仿真的开放解决方案

本白皮书介绍了使用SCADE®对控制器软件进行建模与仿真以及和其它物理模型进行联合仿真的方案,此方案构成了一个完整的系统和嵌入式软件V&V的流程。

本文还将介绍Scade语言和包含用于生成控制器软件的(经过认证的)代码生成器的SCADE Suite®工具集。随后本文将介绍如何将SCADE连接到包括MathWorks Simulink®、 ANSYS® Simplorer®、Modelica®和LMS AMESim®在内的各种工具进行和物理模型的联合仿真。

本文的最后部分将介绍一款基于SysML的新工具SCADE System®,描述了系统包括所有交互组件在内的功能和架构视图,从而为完整的系统工程工具链提供新途径。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect, ANSYS SCADE Suite
Product Category: Systems
Industry: Aerospace and Defense


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技术数据手册 Simplorer® R17

ANSYS Simplorer®是一款功能强大的虚拟系统原型建模、仿真与分析平台。Simplorer使产品开发团队能够验证和优化其软件控制的多域系统设计的性能。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS Simplorer
Product Category: Systems


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How the Energy Industry is Powering Global Prosperity with Pervasive Engineering Simulation - White Paper

How the Energy Industry is Powering Global ProsperityBest-in-class energy companies are using simulation more than ever to meet the challenges of increasing product complexity, reducing lifecycle costs and getting new products to market quickly. This e-book describes how pervasive engineering simulation is helping them to overcome these challenges.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Electronics, Embedded Software, Fluids, Structures, Systems
Industry: Energy
Sub Industry: Renewable Energy, Other Energy


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面向复杂产品开发的完整系统建模和仿真

随着市场上的产品变得日益复杂,产品设计流程必须紧跟步伐,才能确保安全、高效、可靠地集成复杂系统、子系统和组件。今天很少有产品设计仅涉及一种物理场;大多数产品均覆盖多学科行为和相互作用(带后续影响,有时是无法预测的因果关系)。虽然仿真工具的功能强大,但计算约束限制了在设计流程中的每一步使用高保真度模型。添加嵌入式软件以控制产品行为,进一步提高了开发过程的复杂性。因此工程团队需要能无缝协作的特定模型、仿真工具和标准,从而实现稳健可靠和高成本效益的产品开发。最佳实践流程有助于减少物理测试,确保结果可在全球团队中共享并高效率地应用到未来的产品开发。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS Simplorer
Product Category: Systems
Industry: Automotive, Aerospace and Defense, Construction, Consumer Products, Energy, Healthcare - BioMed, High Tech, Industrial Equipment, Materials and Chemical Processing
Sub Industry: Car and Light Truck OEMs, Aircraft


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Leveraging Engineering Simulation to Fast-Track Personalized Healthcare - White Paper

The current “one size fits all” approach to healthcare fails to recognize the significant differences between the bodies and behaviors of different patients. This creates inefficiencies and cost overruns — but it also affects the quality of care provided. By personalizing the specific treatment to each patient, healthcare will become more affordable for patients and more profitable for providers due to increased efficiency. Implanted medical devices and wearables are becoming more commonplace, saving millions of lives each year. Yet personalized healthcare still requires a significant paradigm shift, as well as a new technology toolkit for collecting data via devices and wearables that is used to customize treatment. Engineering simulation provides a cost-effective, rapid and straightforward solution for modeling patients’ bodies and designing devices that interact optimally with the body. This allows healthcare providers to devise truly personalized treatment plans, as well as predict health problems before they occur, enabling early intervention. While this “medical digital twin” concept might seem like science fiction, advanced technology is poised to improve quality of life for people around the world.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Electronics, Electronics - High Frequency Electromagnetics, Embedded Software, Fluids, High Performance Computing, Multiphysics, Platform, Structures, Systems
Industry: Healthcare - BioMed
Sub Industry: Biomedical Devices


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Analysis and Development of Safety-Critical Embedded Systems: The Need for an Integrated Toolkit - White Paper

Today’s automobiles and airplanes feature more electronic components than ever. Hundreds of connected systems enable safety-critical functions like braking, acceleration, steering, navigation and communication. Underlying all these functional systems are millions of lines of embedded software code that ensure their reliable operation under a broad range of conditions.

With human lives at stake, two engineering teams work to ensure that these mission-critical systems perform flawlessly in the field. One team works to integrate the dozens of components that are brought together in a connected system, ensuring that signals and controls are seamlessly combined in a way that optimizes not only each component — but the entire electronics architecture. A second engineering team performs an equally important task: ensuring the functional safety of these components, as well as the overall system. These safety engineers look at the risks, sources and consequences of system failure, in an effort to eliminate risks and maximize resilience to the greatest extent possible.

Author: ANSYS, Inc. Type: White Paper Date:
Product Name: ANSYS SCADE Suite
Product Category: Embedded Software, Systems
Industry: Automotive


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Digital System Prototyping for Medical Devices - White Paper

ANSYS has developed a multidomain, digital system prototyping platform that enables multispecialty teams with diverse engineering backgrounds to work in unison to achieve a deep understanding of integrated product behavior. This white paper summarizes the application of this platform to develop a digital system prototype of a wearable insulin pump.

Author: ANSYS, Inc. Type: White Paper Date:
Product Name: ANSYS Workbench
Product Category: Embedded Software, Systems, Fluids, Electronics - High Frequency Electromagnetics
Industry: Healthcare - BioMed


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Shape Optimization for Aerodynamic Efficiency using Adjoint Methods - White Paper

Adjoint solvers take a Computational Fluid Dynamics (CFD) flow solution and calculate the sensitivity of performance indicators (e.g. drag, heat transfer) to all of the design variables. Once an adjoint solution is obtained, the designer has key information on how to alter the shape of the design in order to improve the quantity of interest. Mesh morphing is an easy and powerful tool that allows the geometry to be altered at the mesh level and within the parallel solver in order to evaluate effects of the design alterations. The user may then iterate on this process to achieve an optimum design without the need to return to the original CAD geometry. For complex geometries, the aerodynamic interactions become complex and the insight gained by such an optimization method can take the design in directions which would not be intuitive to follow and difficult to represent using parametric geometry.

Author: Type: White Paper Date:
Product Name: ANSYS Fluent, ANSYS CFD
Product Category: Fluids, Electronics, Systems
Industry: Automotive, Aerospace and Defense


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Why Engineering Simulation is Critical for Breakthrough Energy Innovation - White Paper

Breakthrough Energy Innovation requires ambition and urgency. Developments will come in the areas of renewable energy production and improving energy efficiency in the industrial and transportation sectors. However, many products in these sectors are already highly tuned for their function. Consequently, higher fidelity understanding of product behavior is required to identify additional incremental improvements. For more disruptive innovation, a very wide design trade space becomes necessary as products are often more complex, do not have a history of operational experience, and function in different environments that include design variables outside of the traditional product’s boundaries. To address these challenges, companies are turning to simulation. It’s a solution that allows designers to get deeper insight into product performance and consider hundreds, if not thousands, of design iterations.

Author: Type: White Paper Date:
Product Name: ANSYS Mechanical
Product Category: Fluids, Electronics, Structures, Systems
Industry: Automotive, Aerospace and Defense, Industrial Equipment, Energy


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Dedication of Commercial Grade Design and Analysis Software - White Paper

"Until recently, quality processes known as software verification and validation were typically used as qualification of commercial grade software in many software quality assurance programs. Many believed that commercial grade dedication was not an option for complex items such as computer programs. Although discussed in terms of plant structures, systems, and components in 10CFR21, the Nuclear Regulatory Commission (NRC) concluded that design and analysis software could meet the definition of a commercial grade item in the U.S. NRC Safety Evaluation Report (SER) of Topical Report.

In this report, the NRC noted that existing software quality assurance practices that rely on verification and validation alone may not be sufficient to accept commercial grade computer programs for use in safety-related applications. The NRC emphasized that commercially produced computer programs used for safety-related design and analysis are considered to be safety-related, and safety-related items must be either designed and manufactured in accordance with a quality assurance program that meets the requirements of Appendix B to 10CFR50, or dedicated for use in a safety-related"

Author: Type: White Paper Date:
Product Category: Embedded Software, Fluids, Multiphysics, Platform, Electronics, Electronics - High Frequency Electromagnetics, Electronics - Signal Integrity, Structures, Electronics - Integrated Circuits, Other Products, Academic, Semiconductors, Systems, High Performance Computing, Electronics - Cooling, Cloud and IT Solutions, Electronics - Electromechanical
Industry: Automotive, Consumer Products, High Tech, Healthcare - BioMed, Construction, Aerospace and Defense, Industrial Equipment, Energy, Materials and Chemical Processing


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