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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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面向智能产品的系统工程

当今的产品正变得越来越智能和互联,因此大多产品都冠上了“智能”前缀,如智能汽车、智能建筑、智能家电等。软件控制的机电系统通常用于实现高级功能,提高安全性和降低功耗。因此旨在用于硬件主导系统的软件研发流程已不再足够。除了所有相互作用的硬件组件外,还必须特别关注用于控制这些系统的电子和嵌入式软件。在设计的各个阶段中管理产品复杂性、降低软件研发成本和优化系统性能,是众多公司都在面临的严峻挑战。本文将介绍三种可实施用于应对这些挑战的最佳实践:基于模型的系统工程、虚拟系统原型构建和基于模型的软件研发。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect
Product Category: Embedded Software
Industry: Automotive
Sub Industry: A and D Electronics, Car and Light Truck OEMs


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采用仿真技术实现快速跟踪高级驾驶员辅助系统(ADAS)与自动驾驶车辆的研发

高级驾驶员辅助系统(ADAS)与自动驾驶汽车的研发不仅极富挑战,且无先例可循。不仅需要研发人工智能等全新的工程专业领域,而且为了应对激烈的竞争,还应加速产品上市进程。据估计,要确保ADAS和自动驾驶汽车的安全性和可靠性,需要数10亿英里的道路测试。这项看似不可能的任务只有借助工程仿真才能实现。运用仿真技术,工程师能够以极低的成本准确快速地对数以千计的驾驶情境和设计参数进行虚拟测试。本文将介绍仿真在研发自动驾驶汽车和高级驾驶员辅助系统过程中发挥重要作用的六个具体方面。此外,本文还将举例说明仿真的众多优势,同时介绍ADAS和自动驾驶汽车仿真所需的工具。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect
Product Category: Embedded Software
Industry: Automotive
Sub Industry: A and D Electronics, Car and Light Truck OEMs


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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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Electrification: Achieving Next-Level Performance - White Paper

Electrification: Achieving Next-Level PerformanceAs worldwide demand for electricity grows, engineers are faced with the challenge of increasing the efficiency of every product and process along the energy value chain, from generation to consumption. Because engineered electrical system initiatives are breaking new ground, simulation enables companies to explore extremely innovative product concepts in a risk-free, low-cost virtual design space. This white paper details how simulation is accelerating innovation while minimizing investments for new product development, product improvement, manufacturing and operations.

Author: ANSYS, Inc Type: White Paper Date:
Product Category: Electronics, Embedded Software, Fluids, Structures
Industry: Automotive, Aerospace and Defense, Energy


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Digitalization: Best Practices for Designing Smart, Connected Products and Driving Business Outcomes - White Paper

Digitalization: Best Practices

Smart Products Demand Smart Engineering Strategies

Read this white paper and learn how engineering simulation can help product development teams deliver the optimized designs they need to succeed in the crowded and competitive marketplace of smart, connected products.

Digitalization has impacted every industry, and traditional products are being reimagined with new smart capabilities. Learn how simulation helps engineers to better understand and intelligently manage trade-offs among product weight, energy efficiency, power and other key performance aspects.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Structures, Electronics, Embedded Software
Industry: Automotive, Healthcare - BioMed, High Tech
Sub Industry: Semiconductors


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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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Driving Speed and Reliability in Automotive Systems Engineering: The Need for a Model-Based Solution - White Paper

Few industries are as focused on safety as the global automotive business. As vehicles become smarter and more autonomous, engineers are challenged to maintain the integrity and security of hundreds of connected systems and components. The software that controls these electronics is absolutely mission-critical. A flaw in the control code can lead to relatively minor issues such as erroneous tire pressure readings or the loss of a GPS signal — but it could result in high-risk events such as braking failures or uncontrolled acceleration.

To help ensure that all systems and components will operate reliably, automotive systems engineers require an advanced, automated tool for generating and verifying software code. In today’s fast-paced, high-stakes design environment, engineering teams can no longer rely on outdated tools and processes for ensuring system integrity. Instead, they require a customized modeling solution offered by an industry leader.

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


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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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