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Considered one of the seven "Supermajor" oil companies in the world.\r\nENI focuses on three core businesses: Exploration & Production (E&P); Gas & Power (G&","og:image":"https://old.roi4cio.com/uploads/roi/company/eni.png"},"eventUrl":"/www.eni.com"},"supplier":{"id":8760,"title":"Hidden supplier","logoURL":"https://old.roi4cio.com/uploads/roi/company/znachok_postavshchik.jpg","alias":"skrytyi-postavshchik","address":"","roles":[],"description":" Supplier Information is confidential ","companyTypes":[],"products":{},"vendoredProductsCount":0,"suppliedProductsCount":0,"supplierImplementations":[],"vendorImplementations":[],"userImplementations":[],"userImplementationsCount":0,"supplierImplementationsCount":76,"vendorImplementationsCount":0,"vendorPartnersCount":0,"supplierPartnersCount":0,"b4r":0,"categories":{},"companyUrl":"","countryCodes":[],"certifications":[],"isSeller":false,"isSupplier":false,"isVendor":false,"presenterCodeLng":"","seo":{"title":"Hidden supplier","keywords":"","description":" Supplier Information is confidential ","og:title":"Hidden supplier","og:description":" Supplier Information is confidential ","og:image":"https://old.roi4cio.com/uploads/roi/company/znachok_postavshchik.jpg"},"eventUrl":""},"vendors":[{"id":2774,"title":"Dassault Systèmes","logoURL":"https://old.roi4cio.com/uploads/roi/company/Dassault.png","alias":"dassault-systemes","address":"","roles":[],"description":"The Dassault Systemes is a group of companies is the global leader in product lifecycle management (PLM) solutions, serving more than 65,000 customers in 80 countries. Dassault Systemes is a pioneer in the 3D design market and has been in the field since 1981. It includes the delivery to the market of application software and services for PLM, which includes three-dimensional processes in the product cycle, starting with the concept of end-of-life decommissioning. Offerings include integrated PLM product development solutions (CATIA, DELMIA, ENOVIA, SMARTEAM, 3DVIA), general 3D solutions (SolidWorks®) and 3D components (SPATIAL®) from Spatial Corp. ","companyTypes":[],"products":{},"vendoredProductsCount":7,"suppliedProductsCount":7,"supplierImplementations":[],"vendorImplementations":[],"userImplementations":[],"userImplementationsCount":0,"supplierImplementationsCount":0,"vendorImplementationsCount":5,"vendorPartnersCount":0,"supplierPartnersCount":0,"b4r":0,"categories":{},"companyUrl":"http://www.3ds.com/","countryCodes":[],"certifications":[],"isSeller":false,"isSupplier":false,"isVendor":false,"presenterCodeLng":"","seo":{"title":"Dassault Systèmes","keywords":"Dassault, Systèmes, software, digital, design, mock-up, product, management","description":"The Dassault Systemes is a group of companies is the global leader in product lifecycle management (PLM) solutions, serving more than 65,000 customers in 80 countries. Dassault Systemes is a pioneer in the 3D design market and has been in the field since 1981.","og:title":"Dassault Systèmes","og:description":"The Dassault Systemes is a group of companies is the global leader in product lifecycle management (PLM) solutions, serving more than 65,000 customers in 80 countries. Dassault Systemes is a pioneer in the 3D design market and has been in the field since 1981.","og:image":"https://old.roi4cio.com/uploads/roi/company/Dassault.png"},"eventUrl":""}],"products":[{"id":6616,"logo":false,"scheme":false,"title":"SIMULIA Powered by the 3DEXPERIENCE® platform","vendorVerified":0,"rating":"0.00","implementationsCount":2,"suppliersCount":0,"alias":"simulia","companyTypes":[],"description":"<span style=\"font-weight: bold; \">Powered by the 3DEXPERIENCE® platform, SIMULIA delivers realistic simulation applications that enable users to reveal the world we live in.</span>\r\n<span style=\"font-weight: bold; \">Application Engineering</span><br /><span style=\"font-style: italic; \">Simulation value for product engineers and designers who need application-focused solutions</span>\r\nApplication Engineering provides roles for users by industry application and for designers and engineers to utilize simulation throughout their daily product design activities. Simulation technology covers structures, fluids, plastic injection molding, acoustics, and structural applications. The right capability is delivered in an application context with guided access for occasional users to allow simulation to drive design and power innovation within product teams.\r\n<p class=\"align-center\"><span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Key Benefits</span></span></p>\r\n<ul><li>Access the value of simulation On Premise or On Cloud in a user experience that provides just what you need and speaks your language</li><li>Simulate using the design geometry itself within a designer environment fully integrated with PLM and CAD</li><li>As simulation tasks and attributes are linked to the design, simulation updates are easy to execute when the underlying design changes</li><li>Enjoy immediate access to computation with embedded licenses in Roles for Designers and Engineers</li><li>Complete plastic injection molding solution integrated with CATIA</li></ul>\r\n<span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Multiphysics Simulation</span><br /><span style=\"font-style: italic; \">Complete state-of-the-art physics simulation technology integrated & managed on the 3DEXPERIENCE platform</span></span>\r\nDelivers powerful simulation of structures, fluids, multibody, and electromagnetics scenarios including complex assemblies directly linked with the product data. Modeling, simulation, and visualization technology are fully integrated on the 3DEXPERIENCE Platform, including process capture, publication, and re-use. The value of the customer’s existing investment in simulation horsepower is maximized by allowing simulation data, results, and IP to connect to the platform and become true corporate assets that powers innovation for all users. \r\n<p class=\"align-center\"><span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Key Benefits</span></span></p>\r\n<ul><li>State-of-the-art Multiphysics simulation capability delivering structures, fluids, acoustics, electromagnetics, and multibody simulation within a fully integrated environment supporting end-to-end industry processes, including optimization.</li><li>Assemble complex models collaboratively with colleagues around the world.</li><li>Best-in-class high-performance visualization powers interpretation and communication of results without download of large results files.</li><li>Rule-based batch modeling, meshing, and interconnections accelerates the efficiency of modeling and reduces re-work.</li></ul>\r\n<span style=\"font-weight: bold; \">Simulation Data Science</span><br /><span style=\"font-style: italic; \">Analytics, access to simulation value, and re-use of best-practices to support better decisions</span>\r\nAll platform users can benefit from the value of simulation by utilizing the capabilities in the Simulation Data Science discipline taking Simulation Process & Data Management (SPDM) to the next level. Powerful results analytics allows users to use simulation results to inform decision making. Democratization of simulation results and re-use of simulation methods is enabled through dashboard access to a company’s library of published methods and best-practices. With Simulation Analytics, simulation knowledge and its value becomes available for all platform users.\r\n<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Key Benefits</span></span></p>\r\n<ul><li>Capture and share methods with others and publish your best-practices to democratize and communicate your work.</li><li>Access your corporate library of simulation best-practices and standards.</li><li>Explore and understand the entire design space using modern simulation results analytics to process large data sets.</li><li>Base decision-making on realistic simulation.</li></ul>\r\n\r\n\r\n\r\n","shortDescription":"SIMULIA applications accelerate the process of evaluating the performance, reliability and safety of materials and products before committing to physical prototypes.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"SIMULIA Powered by the 3DEXPERIENCE® platform","keywords":"","description":"<span style=\"font-weight: bold; \">Powered by the 3DEXPERIENCE® platform, SIMULIA delivers realistic simulation applications that enable users to reveal the world we live in.</span>\r\n<span style=\"font-weight: bold; \">Application Engineering</span><br /><span st","og:title":"SIMULIA Powered by the 3DEXPERIENCE® platform","og:description":"<span style=\"font-weight: bold; \">Powered by the 3DEXPERIENCE® platform, SIMULIA delivers realistic simulation applications that enable users to reveal the world we live in.</span>\r\n<span style=\"font-weight: bold; \">Application Engineering</span><br /><span st"},"eventUrl":"","translationId":6617,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":57,"title":"Engineering Applications","alias":"engineering-applications","description":"Specific segmentations of <span style=\"font-weight: bold;\">Engineering Applications</span> include software packages, such as 2D CAD, 3D CAD, engineering analysis, project software and services, collaborative engineering software, and asset information management. These tools are used not only for asset creation but also to manage data and information throughout the lifecycle of physical assets in both infrastructure and industry. Application of optimization techniques in engineering provides as-built information to owners for operations and maintenance requirements, as well as a document for any modifications to the facility.<span style=\"font-weight: bold; \"></span>\r\n<span style=\"font-weight: bold; \">Computer-aided design (CAD)</span> is the use of computers (or workstations) to aid in the creation, modification, analysis, or optimization of a design. CAD software is used to increase the productivity of the designer, improve the quality of design, improve communications through documentation, and to create a database for manufacturing. Computer engineering and intelligent systems output is often in the form of electronic files for print, machining, or other manufacturing operations. \r\nIts use in designing electronic systems is known as electronic design automation (EDA). Application of CAD in mechanical engineering is known as mechanical design automation (MDA) or computer-aided drafting (CAD), which includes the process of creating a technical drawing with the use of computer software.\r\nCAD software for mechanical design uses either vector-based graphics to depict the objects of traditional drafting, or may also produce raster graphics showing the overall appearance of designed objects. However, it involves more than just shapes. As in the manual drafting of technical and engineering drawings, the output of CAD must convey information, such as materials, processes, dimensions, and tolerances, according to application-specific conventions.\r\nCAD is an important industrial art extensively used in many engineering applications, including automotive, shipbuilding, and aerospace industries, industrial and architectural design, electrical engineering app, prosthetics, environmental engineering applications, and many more. \r\nEngineering apps and software are: 2D layout and CAD software, 3D design and visualization systems, Pre-engineering and FEED applications, Engineering information management systems, Asset lifecycle information management systems, Asset performance management systems, P&ID and piping layout design, 3D laser scanning and point cloud modeling, 3D augmented reality simulation systems, 3D virtual reality simulation based on other technologies (photometry, etc.), 3D virtual simulation for operator training, Electrical Engineering applications and HVAC design, Engineering analysis tools, Civil engineering design packages, Fabrication and construction management systems, Software implementation services, Software maintenance & support services, Software as a service including deployment (Cloud, subscription, etc.), Collaborative software for engineering workflows, Associated databases and interfaces.","materialsDescription":"<h1 class=\"align-center\">2D and 3D CAD software</h1>\r\n<p class=\"align-left\">General-purpose CAD software includes a wide range of 2D and 3D software. Before delving into the more specific types of CAD software, it’s important to understand the difference between 2D and 3D CAD and the various industries that leverage them.</p>\r\n<p class=\"align-left\">2D CAD software offers a platform to design in two dimensions. Since 2D CAD does not allow for the creation of perspectives or scale, it is often used for drawing, sketching and drafting conceptual designs. 2D CAD is often used for floor plan development, building permit drawing and building inspection planning. Since it is mainly used as a tool for conceptual design, it is also a great starting point for most 3D designs. This gives users a basic overview of dimension and scale before they move on to 3D design. 2D CAD typically runs at a significantly lower price since it does not provide the same scale of tools and breadth of features.</p>\r\n<p class=\"align-left\">3D CAD provides a platform for designing 3D objects. The main feature of this type of CAD software is 3D solid modeling. This lets designers create objects with length, width and height, allowing more accurate scaling and visualization. With this feature, users can push and pull surfaces and manipulate designs to adjust measurements. Once the 3D design is to your liking, you can transfer it to a 3D rendering software and place the designs in fully realized 3D landscapes.</p>\r\n<h1 class=\"align-center\">BIM software</h1>\r\n<p class=\"align-left\">One of the more specific types of 3D CAD software is building information modeling software, also known as BIM software. BIM software is intended to aid in the design and construction of buildings specifically. BIM software provides users with the ability to break down building parts and see how they fit into a single finalized structure. Users can isolate walls, columns, windows, doors, etc., and alter the design. Engineers, architect, and manufacturers are just some of the professionals that use BIM software on a regular basis.</p>\r\n<h1 class=\"align-center\">Civil engineering design software</h1>\r\n<p class=\"align-left\">Civil engineering design software allows users to design 3D models of municipal buildings and structures. This includes tools for railway modeling, highway design and city infrastructure planning. Similar to BIM, civil engineering design software helps in every stage of the design process by breaking it down to drafting, designing and visualizing the final product. Best app for civil engineering also helps designers determine building costs. Civil engineering design software is perfect for engineers working in public and civil departments including transportation, structural and geotech.</p>\r\n<h1 class=\"align-center\">3D printing software</h1>\r\n<p class=\"align-left\">3D printing software facilitates the printing of real-life 3D objects. When users design an object, it can bу translated into a 3D printing software. The software then relays instructions on how to print that design to an actual 3D printer. The 3D printing software sends instructions to just print out certain parts of an object, or it can print out the entirety of an object. Some CAD software doubles as 3D printing software so you can seamlessly produce actual 3D objects all from one platform. 3D printing software can be used by manufacturers and architects to build machine or building parts. This greatly reduces production costs, as manufacturers no longer need offsite locations for manufacturing. It also gives companies a rapid test drive to see how a product would look if it were mass produced.</p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Engineering_Applications.png"},{"id":58,"title":"CAD for mechanical engineering - Computer-Aided Design","alias":"cad-for-mechanical-engineering-computer-aided-design","description":"The term "CAD in engineering" usually refers to packages that perform the functions of CAD/CAM/CAE/PDM, that is, computer-aided design, preproduction and design, and engineering data management.\r\nThe first CAD-systems appeared at the stage of computing technology - in the 60s. It was at General Motors that an interactive graphic production preparation system was created, and its creator, Dr. Patrick Henretti (the founder of CAD), was a manufacturing and consulting company (MCS), which had a huge impact on the development of this industry. industry. According to analysts, MCS ideas are based on almost 70% of modern CAD systems. In the early 80s, when the computing power of computers grew significantly, the first CAM packages appeared on the scene, which partially automate the production process using CNC programs and CAE products designed to analyze complex structures. Thus, by the mid-80s, the CAD system in mechanical engineering has a form that still exists. This year there were new players of the "middle weight category". Increased competition has stimulated product development: thanks to a convenient graphical user interface, their use has increased significantly, new solid state modeling mechanisms ACIS and Parasolid have appeared, which are currently used in many modern CAD systems, and the functionality has been significantly expanded.\r\nAccording to the analytical company Daratech, in 1999 the sales of CAD/CAM systems increased by 11.1% over the year, in 2000 by 4.7%, in 2001 by 3.5%, and in 2002 - by 1.3% (preliminary estimate). We can say that the transition to the new century has become a turning point for the CAD market. In this situation, two main trends emerged in the foreground. A striking example of the first trend is the purchase of EDS in 2001 by two well-known developers representing CAD systems - Unigraphics and SDRC, the second is the actively promoted PLM (Product Lifecycle Management) concept, which provides access to information throughout its life cycle.\r\nTraditionally, CAD products in mechanical engineering are divided into four classes: the heavy, medium, light and mature market. Such a classification has developed historically, and although there has long been talk that the boundaries between classes are about to be erased, they remain, since the systems still differ in price and functionality. As a result, now in this area there are several powerful systems, a kind of "oligarchs" of the CAD world, stably developing products of the middle class and inexpensive, easy-to-use programs that are widely distributed. There is also the so-called "non-class stratum of society", the role of which is performed by various specialized solutions.","materialsDescription":" <span style=\"font-weight: bold;\">Why implement CAD?</span>\r\nAt present, computer-aided design (CAD) systems of various types are commonly used at machine-building enterprises. Over the long history of use, they have proven their effectiveness and economic feasibility. However, most system manufacturers cannot give a clear and unambiguous answer, what economic effect will the purchase of their software bring?\r\nWhen choosing one or another system, it is difficult to unambiguously understand which solution will be the most suitable for an organization and why the introduction of CAD is generally necessary? To answer these questions, it is necessary, first of all, to determine the factors by which the economic efficiency of the implementation and use of the system is achieved, as well as refer to the world experience of using CAD systems.\r\nOne of the leaders conducting research in this area is the international research agency Aberdeen Group, which, together with Autodesk, since 2007, has issued a number of reports on this topic:\r\n<ul><li>Additional strategies for building digital and physical prototypes: how to avoid a crisis situation when developing products?</li><li>System design: Development of new products for mechatronics.</li><li>Technical Change Management 2.0: Intelligent Change Management to optimize business solutions.</li><li>Design without borders. Revenue growth through the use of 3D technology.</li></ul>\r\nThe organizations participating in the research were divided into three groups according to how they fulfill their calendar and budget: 20% are best-in-class companies (leading companies), 50% are companies with industry averages and 30% are companies with results below average. Then a comparative analysis was conducted to understand which processes, ways of organizing work and technology were more often used by the best-in-class companies.\r\nAccording to the results of research, the main economic factors affecting the economic efficiency of using CAD are time and money spent on developing prototypes of products of machine-building organizations, as well as time and costs of making changes to prototypes and manufactured products.\r\nThe participating companies were also interviewed about the main factors that, in their opinion, are the most significant prerequisites for the use of computer-aided design tools.\r\n<ul><li>91% of respondents put in the first place a reduction in product design time,</li><li>in second place with 38% - reducing the cost of design,</li><li>further follow: increase in manufacturability of designed products (30%), acceleration of product modifications in accordance with the requirements of Customers (product customization) - 15%.</li></ul>\r\nAn interesting feature is that, despite the great opportunities to reduce costs, as in previous studies, the key factor is the possibility of reducing the design time.\r\n<span style=\"font-weight: bold;\">Why use CAD the best engineering companies?</span>\r\nThe functionality of CAD, which is used by machine-building enterprises to achieve the above effects, can be divided into the following main areas:\r\n<ul><li>Development of the project concept in digital format.</li><li>Creation, optimization and approval of projects.</li><li>Design of electrical and mechanical parts.</li><li>Product data management.</li><li>Visualization of product solutions, reviews, sales and marketing.</li></ul>\r\nIt should be noted that the product data management functionality relates more to PDM / PLM solutions, however, computer-aided design systems are an integral part of them.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/CAD_for_mechanical_engineering_-_Computer-Aided_Design.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]},{"id":6638,"logo":false,"scheme":false,"title":"BIOVIA POWERED BY THE 3DEXPERIENCE® PLATFORM","vendorVerified":0,"rating":"0.00","implementationsCount":1,"suppliersCount":0,"alias":"biovia-na-baze-platformy-3dexperience","companyTypes":[],"description":"BIOVIA provides a scientific collaborative environment for advanced biological, chemical and materials experiences. They allow science-driven companies access, organize, analyze and share data in unprecedented ways throughout the product lifecycle. BIOVIA’s sophisticated enterprise portfolio helps drive innovation, increase productivity, improve quality and compliance, reduce costs and accelerate time to market.\r\n<h1>Data Science</h1>\r\n<h1>DRIVE KNOWLEDGE-BASED DECISIONS</h1>\r\n<p class=\"align-left\">Organizations therefore need a scalable framework to create, validate, and consume data science workflows. From accessing and aggregating data to sophisticated analytics, modeling and reporting, automating these processes allows novice users to get the most of their data while freeing up expert users to focus on more value-added tasks. Utilizing a common framework also ensures best practices are captured and shared enterprise-wide. Democratizing data science helps teams do more with less and unlock the innovations that today’s businesses need to survive and thrive.</p>\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">Benefits</span></p>\r\n<ul><li>33% decrease in time and cost to develop models</li><li> 50% reduction in time for aggregating data</li><li> 38% reduction in development time</li></ul>\r\n<h1>Laboratory Informatics</h1>\r\n<h1 class=\"align-left\">OPTIMIZE LAB PRODUCTIVITY AND COMPLIANCE</h1>\r\n<p class=\"align-left\">Science-based organizations need to optimize operations by improving efficiency while maximizing quality and adhering to regulations, while driving innovation. These challenges also apply to the lab environment, which needs to remove inefficiencies and compliance risks from lab processes and to provide a collaborative environment for innovation.</p>\r\n<p class=\"align-left\">The solution is to remove disconnected and paper-based processes that are error-prone and hamper access of relevant data throughout the research, development and manufacturing lifecycle. It is imperative to make decisions as early as possible in the lifecycle, in order to drive innovation and to optimize processes and products. Digital Laboratory Informatics capabilities allow for streamlined and more efficient lab workflows, harmonization and standardization and a fully integrated and automated easy-to-deploy process.<span style=\"font-weight: bold; \"></span></p>\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">Benefits</span> </p>\r\n<ul><li>30% reduction in errors</li><li>50% reduction in documentation time</li><li> 40% increase in lab productivity</li></ul>\r\n<h1 class=\"align-left\"> Quality & Compliance</h1>\r\n<h1 class=\"align-left\">DRIVE DATA-CENTRIC QUALITY EXCELLENCE IN BIOPHARMA</h1>\r\n<p class=\"align-left\">The integrated capabilities include Quality Document and Content Management with automated tasks, electronic signatures, standardized controlled processes and audit trails, Quality Process Management (like CAPA investigations or root-cause analysis) with immediate access to data and documents through a single user interface. Quality Intelligence provides trends and insights for data-driven decisions.<span style=\"font-weight: bold; \"></span></p>\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">Benefits</span><span style=\"font-weight: normal;\"></span><span style=\"font-weight: normal;\"></span></p>\r\n<h1 class=\"align-center\"></h1>\r\n<h1></h1>\r\n<ul><li>60% increase in right first time submisssions</li><li>80% reduction approval times</li><li>85% improvement in regulatory compliance </li></ul>\r\n<h1>Manufacturing Analytics</h1>\r\n<h1>EMPOWER OPERATIONS IN PROCESS INDUSTRIES </h1>\r\nOrganizations need to maximize efficiency, reduce costs and control product quality, variability and yield. BIOVIA provides process development, quality, and manufacturing users with self-service, on-demand access to process and quality data from disparate databases and paper records. It automatically aggregates and contextualizes the data and enables ad-hoc statistical investigations. Teams across different departments, organizations and geographies can collaborate and gain actionable insights.\r\nThe discipline supports three major areas that empower production operations, shorten time to market, and maximize profitability. It helps improve process design by understanding the critical process parameters, increase process performance by monitoring variability enabling preemptive action and drive process improvement by understanding and control process and product variability.<span style=\"font-weight: bold; \"></span>\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">Benefits </span></p>\r\n<ul><li>95% reduction in time for data aggregation</li><li>90% reduction in time for APR generation</li><li>10% - 15% improvement in manufacturing productivity</li></ul>\r\n<ul> </ul>","shortDescription":"BIOVIA PROVIDES GLOBAL, COLLABORATIVE PRODUCT LIFECYCLE EXPERIENCES TO TRANSFORM SCIENTIFIC INNOVATION\r\n\r\n","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"BIOVIA POWERED BY THE 3DEXPERIENCE® PLATFORM","keywords":"","description":"BIOVIA provides a scientific collaborative environment for advanced biological, chemical and materials experiences. They allow science-driven companies access, organize, analyze and share data in unprecedented ways throughout the product lifecycle. BIOVIA’s so","og:title":"BIOVIA POWERED BY THE 3DEXPERIENCE® PLATFORM","og:description":"BIOVIA provides a scientific collaborative environment for advanced biological, chemical and materials experiences. They allow science-driven companies access, organize, analyze and share data in unprecedented ways throughout the product lifecycle. BIOVIA’s so"},"eventUrl":"","translationId":6639,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":57,"title":"Engineering Applications","alias":"engineering-applications","description":"Specific segmentations of <span style=\"font-weight: bold;\">Engineering Applications</span> include software packages, such as 2D CAD, 3D CAD, engineering analysis, project software and services, collaborative engineering software, and asset information management. These tools are used not only for asset creation but also to manage data and information throughout the lifecycle of physical assets in both infrastructure and industry. Application of optimization techniques in engineering provides as-built information to owners for operations and maintenance requirements, as well as a document for any modifications to the facility.<span style=\"font-weight: bold; \"></span>\r\n<span style=\"font-weight: bold; \">Computer-aided design (CAD)</span> is the use of computers (or workstations) to aid in the creation, modification, analysis, or optimization of a design. CAD software is used to increase the productivity of the designer, improve the quality of design, improve communications through documentation, and to create a database for manufacturing. Computer engineering and intelligent systems output is often in the form of electronic files for print, machining, or other manufacturing operations. \r\nIts use in designing electronic systems is known as electronic design automation (EDA). Application of CAD in mechanical engineering is known as mechanical design automation (MDA) or computer-aided drafting (CAD), which includes the process of creating a technical drawing with the use of computer software.\r\nCAD software for mechanical design uses either vector-based graphics to depict the objects of traditional drafting, or may also produce raster graphics showing the overall appearance of designed objects. However, it involves more than just shapes. As in the manual drafting of technical and engineering drawings, the output of CAD must convey information, such as materials, processes, dimensions, and tolerances, according to application-specific conventions.\r\nCAD is an important industrial art extensively used in many engineering applications, including automotive, shipbuilding, and aerospace industries, industrial and architectural design, electrical engineering app, prosthetics, environmental engineering applications, and many more. \r\nEngineering apps and software are: 2D layout and CAD software, 3D design and visualization systems, Pre-engineering and FEED applications, Engineering information management systems, Asset lifecycle information management systems, Asset performance management systems, P&ID and piping layout design, 3D laser scanning and point cloud modeling, 3D augmented reality simulation systems, 3D virtual reality simulation based on other technologies (photometry, etc.), 3D virtual simulation for operator training, Electrical Engineering applications and HVAC design, Engineering analysis tools, Civil engineering design packages, Fabrication and construction management systems, Software implementation services, Software maintenance & support services, Software as a service including deployment (Cloud, subscription, etc.), Collaborative software for engineering workflows, Associated databases and interfaces.","materialsDescription":"<h1 class=\"align-center\">2D and 3D CAD software</h1>\r\n<p class=\"align-left\">General-purpose CAD software includes a wide range of 2D and 3D software. Before delving into the more specific types of CAD software, it’s important to understand the difference between 2D and 3D CAD and the various industries that leverage them.</p>\r\n<p class=\"align-left\">2D CAD software offers a platform to design in two dimensions. Since 2D CAD does not allow for the creation of perspectives or scale, it is often used for drawing, sketching and drafting conceptual designs. 2D CAD is often used for floor plan development, building permit drawing and building inspection planning. Since it is mainly used as a tool for conceptual design, it is also a great starting point for most 3D designs. This gives users a basic overview of dimension and scale before they move on to 3D design. 2D CAD typically runs at a significantly lower price since it does not provide the same scale of tools and breadth of features.</p>\r\n<p class=\"align-left\">3D CAD provides a platform for designing 3D objects. The main feature of this type of CAD software is 3D solid modeling. This lets designers create objects with length, width and height, allowing more accurate scaling and visualization. With this feature, users can push and pull surfaces and manipulate designs to adjust measurements. Once the 3D design is to your liking, you can transfer it to a 3D rendering software and place the designs in fully realized 3D landscapes.</p>\r\n<h1 class=\"align-center\">BIM software</h1>\r\n<p class=\"align-left\">One of the more specific types of 3D CAD software is building information modeling software, also known as BIM software. BIM software is intended to aid in the design and construction of buildings specifically. BIM software provides users with the ability to break down building parts and see how they fit into a single finalized structure. Users can isolate walls, columns, windows, doors, etc., and alter the design. Engineers, architect, and manufacturers are just some of the professionals that use BIM software on a regular basis.</p>\r\n<h1 class=\"align-center\">Civil engineering design software</h1>\r\n<p class=\"align-left\">Civil engineering design software allows users to design 3D models of municipal buildings and structures. This includes tools for railway modeling, highway design and city infrastructure planning. Similar to BIM, civil engineering design software helps in every stage of the design process by breaking it down to drafting, designing and visualizing the final product. Best app for civil engineering also helps designers determine building costs. Civil engineering design software is perfect for engineers working in public and civil departments including transportation, structural and geotech.</p>\r\n<h1 class=\"align-center\">3D printing software</h1>\r\n<p class=\"align-left\">3D printing software facilitates the printing of real-life 3D objects. When users design an object, it can bу translated into a 3D printing software. The software then relays instructions on how to print that design to an actual 3D printer. The 3D printing software sends instructions to just print out certain parts of an object, or it can print out the entirety of an object. Some CAD software doubles as 3D printing software so you can seamlessly produce actual 3D objects all from one platform. 3D printing software can be used by manufacturers and architects to build machine or building parts. This greatly reduces production costs, as manufacturers no longer need offsite locations for manufacturing. It also gives companies a rapid test drive to see how a product would look if it were mass produced.</p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Engineering_Applications.png"},{"id":333,"title":"Collaborative Product Data Management","alias":"collaborative-product-data-management","description":" Collaborative Product Data Management (cPDM) is software that is used to manage and integrate product data into a centralized system for better tracking and enhanced collaboration among business units. cPDM software solutions help enterprises streamline manufacturing and production processes by applying a consistent set of business solutions that collaboratively provide efficient methods to manage the functions of product lifecycle management (PLM). These solutions also help organizations to boost efficient business operations and launch innovative and profitable products in the evolving e-business web-enabled environment. The cPDM software packages also help in sharing data among supply chain partners, thereby enhancing the capability, efficiency, and effectiveness of an enterprise.\r\nPLM is a strategic business approach that applies a consistent set of business solutions to help the collaborative creation, management, and dissemination across the extended enterprise from the concept to end of life. CPDM also allows the organization to maintain system architecture, deployment of security mechanism, and prototype development and enables them in forming a collaborative architecture, shared resources and shared team spaces to work together as virtual teams.\r\nCPDM help in effective product data management, collaborative product commerce, collaborative product visualization, effective integration of CPDM with enterprise applications and supplier relationship management. Its solutions assist in manufacturing and production processes for efficient business operations. Ultimately, it helps in bringing innovative and profitable products that enables in evolving the e business web based environment.\r\nThese software solutions are adopted by industries such as electronics, automotive, industrial machinery, aerospace, defense, petrochemical, and process packaged goods. Automotive manufactures face product recalls across wide ranging categories due to which PLM software such as CPDM, CAD, CAE and CAM help them in reducing defects which eventually help them in catering maximum demand.","materialsDescription":" <span style=\"font-weight: bold; \">What are the technologies and methods used?</span>\r\nClearly, general collaborative software such as email and chat (instant messaging) is used within the CPD process. One important technology is application and desktop sharing, allowing one person to view what another person is doing on a remote machine. For CAD and product visualization applications an ‘appshare’ product that supports OpenGL graphics is required. Another common application is Data sharing via Web-based portals.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Specific to product data</span></span>\r\nWith product data, an important addition is the handling of high volumes of geometry and metadata. Exactly what techniques and technology are required depends on the level of collaboration being carried out and the commonality (or lack thereof) of the partner sites’ systems.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Specific to PLM and CAx collaboration</span></span>\r\nCollaboration using PLM and CAx tools requires technology to support the needs of:\r\n<ol><li><span style=\"font-weight: bold; \">People:</span> Personnel of different disciplines and skill levels;</li><li><span style=\"font-weight: bold; \">Organizations:</span> Organizations throughout an enterprise or extended enterprise with different rules, processes and objectives;</li><li><span style=\"font-weight: bold; \">Data:</span> Data from different sources in different formats.</li></ol>\r\nAppropriate technologies are required to support collaboration across these boundaries.\r\n<span style=\"font-style: italic; \">People</span>\r\nEffective PLM collaboration will typically require the participation of people who do not have high-level CAD skills. This requires improved user interfaces including tailorable user interfaces that can be tailored to the skill level and specialty of the user.\r\nImproved visualization capabilities, especially those that provide a meaningful view of complex information such as the results of a fluid flow analysis will leverage the value of all participants in the collaboration process. Effective collaboration requires that a participant is freed from the burden of knowing the intent history typically embedded within and constricting the use of parametric models.\r\n<span style=\"font-style: italic; \">Organizations</span>\r\nCommunity collaboration requires that companies, suppliers, and customers share information in a secure environment, ensure compliance with enterprise and regulatory rules and enforce the process management rules of the community as well as the individual organizations.\r\n<span style=\"font-style: italic; \">Data</span>\r\nThe most basic collaboration data need is the ability to operate in a MultiCAD environment. That is, however, only the beginning. Models from multiple CAD sources must be assembled into an active digital mockup allowing change and/or design in context.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Real-time collaborative product design</span></span>\r\nProduct design is typically a highly iterative and interactive activity involving a group of designers who are geographically dispersed. A neutral modeling command (NMC) based method is proposed to construct a real-time collaborative product design platform within heterogeneous CAD systems.[1] Different from the visualization-based approaches, models can be constructed and modified synchronously from various sites in the proposed collaborative design environment. Based on a translation mechanism between system modeling operations (SMO) and neutral modeling commands (NMC), every operation given by a user on one site will be translated into an NMC and be sent to all the other sites through the network. When the other sites receive this command, it is converted into the corresponding SMOs on the local system. In this way, the real-time collaborative product design with heterogeneous CAD systems is achieved.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Different levels of collaboration</span></span>\r\nIf the collaborating parties have the same PDM and CAD systems the task usually involves the direct access and transfer of data between sites. The PDM system will have data storage at more than one site for the large graphics files, a file may be copied between sites, how they are synchronized being controlled by the server(s). For the management server and metadata, there are a number of options. There could be a single server that is accessed from all locations or multiple PDM servers that communicate with one another. In both cases, the PDM software controls access for groups defining what data they can see and edit.\r\nWith different CAD systems, the approach varies slightly depending on whether the ownership and therefore authorship, of components changes or not. If geometry only has to be viewed then a Product visualization neutral file format (e.g.JT) can be used for tasks such as viewing, markup (redlining) or multi-cad digital mock-up (DMU). It may be that authorship does not change but components from one group need to be placed in the assembly of another group so that they can construct their parts, so-called work in context. This requires the transfer of geometry from one format to another by means of a visualization format or full data translation. Between some systems, there is the possibility of ‘data interoperability’ where geometry from one format can be associatively copied to another. If the ownership of a particular file is being transferred, then full data translation is required using some form of CAD data exchange technology. For the translation process Product Data Quality (PDQ) checkers are often employed to reduce problems in transferring the work. If different PDM/EDM systems are in use, then either data structures or metadata can be transferred using STEP or communication between databases can be achieved with tools based around XML data transfer.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Collaborative_Product_Data_Management.png"},{"id":63,"title":"PDM - Product Data Management","alias":"pdm-product-data-management","description":"<span style=\"font-weight: bold; \">Product data management (PDM)</span> is a system for managing design data and engineering processes in one central location. Engineering teams use PDM software to organize product-related information, track revisions, collaborate, manage change orders, generate Bills of Materials (BOMs), and more. With a single source for project data, engineers save time and avoid mistakes.\r\nThe product means, as a rule, some kind of high-tech products (automobiles, ships, airplanes, etc.) in the design, production, operation and utilization of which it is necessary to process and control large volumes of engineering and technical data.\r\n<span style=\"font-weight: bold; \">PDM system uses several technologies:</span>\r\n<ul><li>EDM (engineering data management).</li><li>PIM (product information management).</li><li>TDM (technical data management).</li><li>TIM (technical information management).</li><li>Managing images and documents, manipulating information related to the product.</li></ul>\r\nPDM systems provide the data necessary for the correct operation of MRP (material requirements planning) and CRP systems (capacity requirements planning). Unlike traditional databases, product data management system can accumulate data of any format and type: text documents, geometric models, the data needed for automatic production lines, CNC machines, etc. There can be so much data that it can be used as a "digital layout" of the product.\r\nThe PDM integration with existing CAD systems at the enterprise can significantly increase the efficiency of their use. This happens due to the fact that after integration, it becomes possible to organize work on the project in multi-user mode, to exchange information between developers (possibly in different places) in real time. At the same time, in order to avoid unauthorized modification of documents, different access modes are provided to different users.\r\nEnterprise PDM software can help you create better designs, reduce errors, and build a more efficient development cycle with <span style=\"font-weight: bold;\">features </span>including:\r\n<ul><li><span style=\"font-weight: bold;\">CAD file management.</span> Take control of your valuable design files with PDM. Direct CAD-integration keeps your data in sync in real time.</li><li><span style=\"font-weight: bold;\">Revision control.</span> Automatically capture the revision history on documents as you work. Never lose track of changes.</li><li><span style=\"font-weight: bold;\">Business system integration.</span> Integrate design data with systems like MRPs and ERPs.</li><li><span style=\"font-weight: bold;\">Access control.</span> Strengthen data security by controlling access with permissions for version control and retrieval.</li><li><span style=\"font-weight: bold;\">Engineering change orders.</span> Easily manage engineering change orders (ECOs) with a workflows that help automate the process.</li><li><span style=\"font-weight: bold;\">External collaboration.</span> Share 2D or 3D views of your work with others and get comments and feedback directly inside your product.</li></ul>\r\n<br /><br />","materialsDescription":"<h1 class=\"align-center\">What is PDM or PLM software?</h1>\r\n<span style=\"font-weight: bold; \">PLM </span>stands for <span style=\"font-weight: bold; \">Product Lifecycle Management.</span> It’s a tool that guides products through the product development lifecycle. And as products and supply chains get more complex, a way to manage the development process becomes more and more important. PLMs usually give organizations:\r\n<ul><li>Workflows</li><li>Milestones or stage gates</li><li>CAD/BOM syncing</li><li>Change management processes.</li></ul>\r\n<span style=\"font-weight: bold; \">PDM </span>stands for <span style=\"font-weight: bold; \">Product Data Management.</span> Product data management tools manage data as it moves through the product lifecycle. Specifically, product data management solutions keep CAD files organized and version controlled. This is usually achieved with a check-in/check-out file structure and a centralized storage solution, either in an on-premise server, a privately managed network or, increasingly, a cloud server.\r\nIn a nutshell, PLM is responsible for the process and the system that product development happens in. PDM is responsible for managing the actual digital product files that move through that PLM process.\r\nData management system software is focused on capturing and maintaining information on products and/or services through its development and useful life. Typical information managed in the PDM module include:\r\n<ul><li>Brand name;</li><li>Part number;</li><li>Part description;</li><li>Supplier/vendor;</li><li>Vendor part number and description;</li><li>Unit of measure;</li><li>Cost/price;</li><li>Schematic or CAD drawing;</li><li>Material data-sheets.</li></ul>\r\n<h1 class=\"align-center\">Why you need a PDM</h1>\r\nThe problem is that engineering data is clunky and complex. Engineering teams manage enormous assemblies that can only be manipulated by specific programs. Maintaining consistency across versions, especially for companies with global design offices, is difficult. PDM data management software makes this easier by:\r\n<ul><li>Ensuring there’s a single version of every file</li><li>Tracking each change as new versions come in</li><li>Creating unique part numbers for every individual part/file that make up the overall assembly</li><li>Check-in/check-out file formats.</li></ul>\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/PDM_-_Product_Data_Management1.png"},{"id":64,"title":"PLM - Product Lifecycle Management","alias":"plm-product-lifecycle-management","description":"<span style=\"font-weight: bold; \">Product lifecycle management,</span> sometimes "product life cycle management", PLM, represents an all-encompassing vision for managing all data relating to the design, production, support and ultimate disposal of manufactured goods. Product life management concepts were first introduced where safety and control have been extremely important, notably the aerospace, medical device, military and nuclear industries. These industries originated the discipline of configuration management (CM), which evolved into electronic data management systems (EDMS), which then further evolved to product data management (PDM).\r\nOver the last ten years, manufacturers of instrumentation, industrial machinery, consumer electronics, packaged goods and other complex engineered products have discovered the benefits of PLM management and are adopting efficient PLM software in increasing numbers.\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">The PLM Stages</span></p>\r\n<span style=\"font-weight: bold; \">Beginning of Life (BOL):</span> The beginning of life phase includes all of the design and manufacturing, which consists of the initial conceptualization and development, and any prototypes built. Initial development has multiple sub-actions that identify all the requirements, concepts, and necessary testing. \r\n<span style=\"font-weight: bold; \">Middle of Life (MOL):</span> The middle of life phase is post-manufacturing, when your product is distributed, used, and serviced. At this point, your product is in the hands of the end user. You can collect data on any failures, maintenance rates, and user experience to get information for immediate fixes and future development.\r\n<span style=\"font-weight: bold; \">End of Life (EOL):</span> The end of life phase is the retiring, recycling, or disposing of your product. At this point, the reverse logistics happen for the company. EOL starts when users no longer have a need for the product. At this stage, companies collect information about what parts and materials are still valuable.\r\n<span style=\"font-weight: bold;\">Product lifecycle management software</span> is used to deliver all kinds of products to market, which means there are a lot of different providers out there. Its purpose today is to help organizations: \r\n<ol><li>Develop new products using CAD software</li><li>Produce and manufacture new products</li><li>Bring those products to market</li></ol>\r\nAnd increasingly, product life management software has to process the feedback from the market back to the design and production processes. To achieve these goals, product lifecycle management solutions have to do four things:\r\n<ul><li>Link together CAD metadata with a bill of materials</li><li>Manage workflows for organizations needed to bring products to market</li><li>Manage product data as they move through the product development lifecycle stages</li><li> Hook in auxiliary suppliers and business stakeholders to a shared version of truth or single source of truth.</li></ul>\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Top PLM System Software Requirements</h1>\r\n<span style=\"font-weight: bold; \">Bill of Materials.</span> Having a common source of information across your company is incredibly important during product development. That’s why a bill of materials (BOM) is key to include in your list of product lifecycle management requirements. At the very least, your system should provide a single definition of a particular product and its components. More advanced options include features specifically designed for different team members such as designers, engineers and other professionals who frequently collaborate.\r\n<span style=\"font-weight: bold; \">Computer-Aided Design Management.</span> Managing your CAD activities and documents is more than useful when it comes to PLM. Your solution should be able to manage changes to product configurations while maintaining the functional and physical attributes of a product throughout its lifecycle. Production engineering changes should proliferate throughout your processes, with the changes evident in the subsequent BOMs and plans.\r\n<span style=\"font-weight: bold; \">Manufacturing Product Management.</span> During a product’s lifecycle, you want to keep an eye on your portfolio. With portfolio management, users can determine the proper investment balance to maximize their research and development investment returns. Some systems provide strategy tools to spotlight priorities and support planning. Top PLM software can even determine the best possible investment scenario. Users can also track project progress to completion, which is automatically documented in the product record. This allows greater insight into your processes, facilitating better resource management and allocation.\r\n<span style=\"font-weight: bold; \">Product Regulation and Governance.</span> Failing to follow regulation and compliance standards is one of the quickest ways to earn your business a bad reputation. But having the right tools built into your product life management system can make staying compliant much easier than it would be otherwise. Your solution should be able to centralize relevant information and documentation, making it easier for enterprise organizations to achieve and maintain compliance. You also may choose a system that can comply with medical, environmental, safety, FSA and ISO standards depending on your industry.\r\n<span style=\"font-weight: bold; \">Project and Component Maintenance.</span> Project management tools are vital for providing users visibility into daily processes and progress. These features include tracking and scheduling capabilities, which enable you to manage product development along with resource allocation in real time. Users can also see upcoming milestones and constraints for further planning.\r\n<span style=\"font-weight: bold; \">Quote Process Management.</span> Data from many different sources is often needed during the quote process. PLM’s inherent coordination capabilities gather and organize data pertaining to product design to support your engineering teams. This includes teams developing engineer-to-order and configure-to-order products. The system only shares the necessary data, meaning your team members can spend more time focusing on their work and less on hunting down information. \r\n<span style=\"font-weight: bold; \">Risk Management. </span>This feature brings risks to users’ attention, allowing them to manage, report and mitigate those instabilities. Reducing risks early on prevents issues from growing as they move through product development unseen, reducing the overall cost of development. Some systems do this by “detecting” or “highlighting” risks, whereas some systems simply offer full visibility through PM tools.\r\n<span style=\"font-weight: bold;\">Workflow and Change Management.</span> Plainly said, this suite of PLM software tools gives users insight into product activities. Users can determine phases for a project, as well as assign milestones to keep projects on track. Some systems allow users to see all pending and implemented changes, as well as all items that endure the subsequent effects. This visibility extends to portfolio and resource management, also.\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/PLM_-_Product_Lifecycle_Management.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]}],"countries":[],"startDate":"0000-00-00","endDate":"0000-00-00","dealDate":"0000-00-00","price":0,"status":"finished","statusLabel":"Finished","isImplementation":true,"isAgreement":false,"confirmed":1,"implementationDetails":{"businessProcesses":{"id":11,"title":"Business process","translationKey":"businessProcesses","options":[{"id":180,"title":"Inability to forecast execution timelines"},{"id":370,"title":"No automated business processes"},{"id":376,"title":"Unstructured data"},{"id":392,"title":"Lengthy production timelines"},{"id":394,"title":"Shortage of information for decision making"},{"id":400,"title":"High costs"}]},"businessObjectives":{"id":14,"title":"Business objectives","translationKey":"businessObjectives","options":[{"id":512,"title":"Social Responsibility"},{"id":502,"title":"Increase Profitability"},{"id":306,"title":"Manage Risks"},{"id":9,"title":"Support Decision Making"},{"id":8,"title":"Reduce Production Timelines"},{"id":6,"title":"Ensure Security and Business Continuity"},{"id":4,"title":"Reduce Costs"}]}},"categories":[{"id":57,"title":"Engineering Applications","alias":"engineering-applications","description":"Specific segmentations of <span style=\"font-weight: bold;\">Engineering Applications</span> include software packages, such as 2D CAD, 3D CAD, engineering analysis, project software and services, collaborative engineering software, and asset information management. These tools are used not only for asset creation but also to manage data and information throughout the lifecycle of physical assets in both infrastructure and industry. Application of optimization techniques in engineering provides as-built information to owners for operations and maintenance requirements, as well as a document for any modifications to the facility.<span style=\"font-weight: bold; \"></span>\r\n<span style=\"font-weight: bold; \">Computer-aided design (CAD)</span> is the use of computers (or workstations) to aid in the creation, modification, analysis, or optimization of a design. CAD software is used to increase the productivity of the designer, improve the quality of design, improve communications through documentation, and to create a database for manufacturing. Computer engineering and intelligent systems output is often in the form of electronic files for print, machining, or other manufacturing operations. \r\nIts use in designing electronic systems is known as electronic design automation (EDA). Application of CAD in mechanical engineering is known as mechanical design automation (MDA) or computer-aided drafting (CAD), which includes the process of creating a technical drawing with the use of computer software.\r\nCAD software for mechanical design uses either vector-based graphics to depict the objects of traditional drafting, or may also produce raster graphics showing the overall appearance of designed objects. However, it involves more than just shapes. As in the manual drafting of technical and engineering drawings, the output of CAD must convey information, such as materials, processes, dimensions, and tolerances, according to application-specific conventions.\r\nCAD is an important industrial art extensively used in many engineering applications, including automotive, shipbuilding, and aerospace industries, industrial and architectural design, electrical engineering app, prosthetics, environmental engineering applications, and many more. \r\nEngineering apps and software are: 2D layout and CAD software, 3D design and visualization systems, Pre-engineering and FEED applications, Engineering information management systems, Asset lifecycle information management systems, Asset performance management systems, P&ID and piping layout design, 3D laser scanning and point cloud modeling, 3D augmented reality simulation systems, 3D virtual reality simulation based on other technologies (photometry, etc.), 3D virtual simulation for operator training, Electrical Engineering applications and HVAC design, Engineering analysis tools, Civil engineering design packages, Fabrication and construction management systems, Software implementation services, Software maintenance & support services, Software as a service including deployment (Cloud, subscription, etc.), Collaborative software for engineering workflows, Associated databases and interfaces.","materialsDescription":"<h1 class=\"align-center\">2D and 3D CAD software</h1>\r\n<p class=\"align-left\">General-purpose CAD software includes a wide range of 2D and 3D software. Before delving into the more specific types of CAD software, it’s important to understand the difference between 2D and 3D CAD and the various industries that leverage them.</p>\r\n<p class=\"align-left\">2D CAD software offers a platform to design in two dimensions. Since 2D CAD does not allow for the creation of perspectives or scale, it is often used for drawing, sketching and drafting conceptual designs. 2D CAD is often used for floor plan development, building permit drawing and building inspection planning. Since it is mainly used as a tool for conceptual design, it is also a great starting point for most 3D designs. This gives users a basic overview of dimension and scale before they move on to 3D design. 2D CAD typically runs at a significantly lower price since it does not provide the same scale of tools and breadth of features.</p>\r\n<p class=\"align-left\">3D CAD provides a platform for designing 3D objects. The main feature of this type of CAD software is 3D solid modeling. This lets designers create objects with length, width and height, allowing more accurate scaling and visualization. With this feature, users can push and pull surfaces and manipulate designs to adjust measurements. Once the 3D design is to your liking, you can transfer it to a 3D rendering software and place the designs in fully realized 3D landscapes.</p>\r\n<h1 class=\"align-center\">BIM software</h1>\r\n<p class=\"align-left\">One of the more specific types of 3D CAD software is building information modeling software, also known as BIM software. BIM software is intended to aid in the design and construction of buildings specifically. BIM software provides users with the ability to break down building parts and see how they fit into a single finalized structure. Users can isolate walls, columns, windows, doors, etc., and alter the design. Engineers, architect, and manufacturers are just some of the professionals that use BIM software on a regular basis.</p>\r\n<h1 class=\"align-center\">Civil engineering design software</h1>\r\n<p class=\"align-left\">Civil engineering design software allows users to design 3D models of municipal buildings and structures. This includes tools for railway modeling, highway design and city infrastructure planning. Similar to BIM, civil engineering design software helps in every stage of the design process by breaking it down to drafting, designing and visualizing the final product. Best app for civil engineering also helps designers determine building costs. Civil engineering design software is perfect for engineers working in public and civil departments including transportation, structural and geotech.</p>\r\n<h1 class=\"align-center\">3D printing software</h1>\r\n<p class=\"align-left\">3D printing software facilitates the printing of real-life 3D objects. When users design an object, it can bу translated into a 3D printing software. The software then relays instructions on how to print that design to an actual 3D printer. The 3D printing software sends instructions to just print out certain parts of an object, or it can print out the entirety of an object. Some CAD software doubles as 3D printing software so you can seamlessly produce actual 3D objects all from one platform. 3D printing software can be used by manufacturers and architects to build machine or building parts. This greatly reduces production costs, as manufacturers no longer need offsite locations for manufacturing. It also gives companies a rapid test drive to see how a product would look if it were mass produced.</p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Engineering_Applications.png"},{"id":58,"title":"CAD for mechanical engineering - Computer-Aided Design","alias":"cad-for-mechanical-engineering-computer-aided-design","description":"The term "CAD in engineering" usually refers to packages that perform the functions of CAD/CAM/CAE/PDM, that is, computer-aided design, preproduction and design, and engineering data management.\r\nThe first CAD-systems appeared at the stage of computing technology - in the 60s. It was at General Motors that an interactive graphic production preparation system was created, and its creator, Dr. Patrick Henretti (the founder of CAD), was a manufacturing and consulting company (MCS), which had a huge impact on the development of this industry. industry. According to analysts, MCS ideas are based on almost 70% of modern CAD systems. In the early 80s, when the computing power of computers grew significantly, the first CAM packages appeared on the scene, which partially automate the production process using CNC programs and CAE products designed to analyze complex structures. Thus, by the mid-80s, the CAD system in mechanical engineering has a form that still exists. This year there were new players of the "middle weight category". Increased competition has stimulated product development: thanks to a convenient graphical user interface, their use has increased significantly, new solid state modeling mechanisms ACIS and Parasolid have appeared, which are currently used in many modern CAD systems, and the functionality has been significantly expanded.\r\nAccording to the analytical company Daratech, in 1999 the sales of CAD/CAM systems increased by 11.1% over the year, in 2000 by 4.7%, in 2001 by 3.5%, and in 2002 - by 1.3% (preliminary estimate). We can say that the transition to the new century has become a turning point for the CAD market. In this situation, two main trends emerged in the foreground. A striking example of the first trend is the purchase of EDS in 2001 by two well-known developers representing CAD systems - Unigraphics and SDRC, the second is the actively promoted PLM (Product Lifecycle Management) concept, which provides access to information throughout its life cycle.\r\nTraditionally, CAD products in mechanical engineering are divided into four classes: the heavy, medium, light and mature market. Such a classification has developed historically, and although there has long been talk that the boundaries between classes are about to be erased, they remain, since the systems still differ in price and functionality. As a result, now in this area there are several powerful systems, a kind of "oligarchs" of the CAD world, stably developing products of the middle class and inexpensive, easy-to-use programs that are widely distributed. There is also the so-called "non-class stratum of society", the role of which is performed by various specialized solutions.","materialsDescription":" <span style=\"font-weight: bold;\">Why implement CAD?</span>\r\nAt present, computer-aided design (CAD) systems of various types are commonly used at machine-building enterprises. Over the long history of use, they have proven their effectiveness and economic feasibility. However, most system manufacturers cannot give a clear and unambiguous answer, what economic effect will the purchase of their software bring?\r\nWhen choosing one or another system, it is difficult to unambiguously understand which solution will be the most suitable for an organization and why the introduction of CAD is generally necessary? To answer these questions, it is necessary, first of all, to determine the factors by which the economic efficiency of the implementation and use of the system is achieved, as well as refer to the world experience of using CAD systems.\r\nOne of the leaders conducting research in this area is the international research agency Aberdeen Group, which, together with Autodesk, since 2007, has issued a number of reports on this topic:\r\n<ul><li>Additional strategies for building digital and physical prototypes: how to avoid a crisis situation when developing products?</li><li>System design: Development of new products for mechatronics.</li><li>Technical Change Management 2.0: Intelligent Change Management to optimize business solutions.</li><li>Design without borders. Revenue growth through the use of 3D technology.</li></ul>\r\nThe organizations participating in the research were divided into three groups according to how they fulfill their calendar and budget: 20% are best-in-class companies (leading companies), 50% are companies with industry averages and 30% are companies with results below average. Then a comparative analysis was conducted to understand which processes, ways of organizing work and technology were more often used by the best-in-class companies.\r\nAccording to the results of research, the main economic factors affecting the economic efficiency of using CAD are time and money spent on developing prototypes of products of machine-building organizations, as well as time and costs of making changes to prototypes and manufactured products.\r\nThe participating companies were also interviewed about the main factors that, in their opinion, are the most significant prerequisites for the use of computer-aided design tools.\r\n<ul><li>91% of respondents put in the first place a reduction in product design time,</li><li>in second place with 38% - reducing the cost of design,</li><li>further follow: increase in manufacturability of designed products (30%), acceleration of product modifications in accordance with the requirements of Customers (product customization) - 15%.</li></ul>\r\nAn interesting feature is that, despite the great opportunities to reduce costs, as in previous studies, the key factor is the possibility of reducing the design time.\r\n<span style=\"font-weight: bold;\">Why use CAD the best engineering companies?</span>\r\nThe functionality of CAD, which is used by machine-building enterprises to achieve the above effects, can be divided into the following main areas:\r\n<ul><li>Development of the project concept in digital format.</li><li>Creation, optimization and approval of projects.</li><li>Design of electrical and mechanical parts.</li><li>Product data management.</li><li>Visualization of product solutions, reviews, sales and marketing.</li></ul>\r\nIt should be noted that the product data management functionality relates more to PDM / PLM solutions, however, computer-aided design systems are an integral part of them.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/CAD_for_mechanical_engineering_-_Computer-Aided_Design.png"},{"id":333,"title":"Collaborative Product Data Management","alias":"collaborative-product-data-management","description":" Collaborative Product Data Management (cPDM) is software that is used to manage and integrate product data into a centralized system for better tracking and enhanced collaboration among business units. cPDM software solutions help enterprises streamline manufacturing and production processes by applying a consistent set of business solutions that collaboratively provide efficient methods to manage the functions of product lifecycle management (PLM). These solutions also help organizations to boost efficient business operations and launch innovative and profitable products in the evolving e-business web-enabled environment. The cPDM software packages also help in sharing data among supply chain partners, thereby enhancing the capability, efficiency, and effectiveness of an enterprise.\r\nPLM is a strategic business approach that applies a consistent set of business solutions to help the collaborative creation, management, and dissemination across the extended enterprise from the concept to end of life. CPDM also allows the organization to maintain system architecture, deployment of security mechanism, and prototype development and enables them in forming a collaborative architecture, shared resources and shared team spaces to work together as virtual teams.\r\nCPDM help in effective product data management, collaborative product commerce, collaborative product visualization, effective integration of CPDM with enterprise applications and supplier relationship management. Its solutions assist in manufacturing and production processes for efficient business operations. Ultimately, it helps in bringing innovative and profitable products that enables in evolving the e business web based environment.\r\nThese software solutions are adopted by industries such as electronics, automotive, industrial machinery, aerospace, defense, petrochemical, and process packaged goods. Automotive manufactures face product recalls across wide ranging categories due to which PLM software such as CPDM, CAD, CAE and CAM help them in reducing defects which eventually help them in catering maximum demand.","materialsDescription":" <span style=\"font-weight: bold; \">What are the technologies and methods used?</span>\r\nClearly, general collaborative software such as email and chat (instant messaging) is used within the CPD process. One important technology is application and desktop sharing, allowing one person to view what another person is doing on a remote machine. For CAD and product visualization applications an ‘appshare’ product that supports OpenGL graphics is required. Another common application is Data sharing via Web-based portals.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Specific to product data</span></span>\r\nWith product data, an important addition is the handling of high volumes of geometry and metadata. Exactly what techniques and technology are required depends on the level of collaboration being carried out and the commonality (or lack thereof) of the partner sites’ systems.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Specific to PLM and CAx collaboration</span></span>\r\nCollaboration using PLM and CAx tools requires technology to support the needs of:\r\n<ol><li><span style=\"font-weight: bold; \">People:</span> Personnel of different disciplines and skill levels;</li><li><span style=\"font-weight: bold; \">Organizations:</span> Organizations throughout an enterprise or extended enterprise with different rules, processes and objectives;</li><li><span style=\"font-weight: bold; \">Data:</span> Data from different sources in different formats.</li></ol>\r\nAppropriate technologies are required to support collaboration across these boundaries.\r\n<span style=\"font-style: italic; \">People</span>\r\nEffective PLM collaboration will typically require the participation of people who do not have high-level CAD skills. This requires improved user interfaces including tailorable user interfaces that can be tailored to the skill level and specialty of the user.\r\nImproved visualization capabilities, especially those that provide a meaningful view of complex information such as the results of a fluid flow analysis will leverage the value of all participants in the collaboration process. Effective collaboration requires that a participant is freed from the burden of knowing the intent history typically embedded within and constricting the use of parametric models.\r\n<span style=\"font-style: italic; \">Organizations</span>\r\nCommunity collaboration requires that companies, suppliers, and customers share information in a secure environment, ensure compliance with enterprise and regulatory rules and enforce the process management rules of the community as well as the individual organizations.\r\n<span style=\"font-style: italic; \">Data</span>\r\nThe most basic collaboration data need is the ability to operate in a MultiCAD environment. That is, however, only the beginning. Models from multiple CAD sources must be assembled into an active digital mockup allowing change and/or design in context.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Real-time collaborative product design</span></span>\r\nProduct design is typically a highly iterative and interactive activity involving a group of designers who are geographically dispersed. A neutral modeling command (NMC) based method is proposed to construct a real-time collaborative product design platform within heterogeneous CAD systems.[1] Different from the visualization-based approaches, models can be constructed and modified synchronously from various sites in the proposed collaborative design environment. Based on a translation mechanism between system modeling operations (SMO) and neutral modeling commands (NMC), every operation given by a user on one site will be translated into an NMC and be sent to all the other sites through the network. When the other sites receive this command, it is converted into the corresponding SMOs on the local system. In this way, the real-time collaborative product design with heterogeneous CAD systems is achieved.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Different levels of collaboration</span></span>\r\nIf the collaborating parties have the same PDM and CAD systems the task usually involves the direct access and transfer of data between sites. The PDM system will have data storage at more than one site for the large graphics files, a file may be copied between sites, how they are synchronized being controlled by the server(s). For the management server and metadata, there are a number of options. There could be a single server that is accessed from all locations or multiple PDM servers that communicate with one another. In both cases, the PDM software controls access for groups defining what data they can see and edit.\r\nWith different CAD systems, the approach varies slightly depending on whether the ownership and therefore authorship, of components changes or not. If geometry only has to be viewed then a Product visualization neutral file format (e.g.JT) can be used for tasks such as viewing, markup (redlining) or multi-cad digital mock-up (DMU). It may be that authorship does not change but components from one group need to be placed in the assembly of another group so that they can construct their parts, so-called work in context. This requires the transfer of geometry from one format to another by means of a visualization format or full data translation. Between some systems, there is the possibility of ‘data interoperability’ where geometry from one format can be associatively copied to another. If the ownership of a particular file is being transferred, then full data translation is required using some form of CAD data exchange technology. For the translation process Product Data Quality (PDQ) checkers are often employed to reduce problems in transferring the work. If different PDM/EDM systems are in use, then either data structures or metadata can be transferred using STEP or communication between databases can be achieved with tools based around XML data transfer.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Collaborative_Product_Data_Management.png"},{"id":63,"title":"PDM - Product Data Management","alias":"pdm-product-data-management","description":"<span style=\"font-weight: bold; \">Product data management (PDM)</span> is a system for managing design data and engineering processes in one central location. Engineering teams use PDM software to organize product-related information, track revisions, collaborate, manage change orders, generate Bills of Materials (BOMs), and more. With a single source for project data, engineers save time and avoid mistakes.\r\nThe product means, as a rule, some kind of high-tech products (automobiles, ships, airplanes, etc.) in the design, production, operation and utilization of which it is necessary to process and control large volumes of engineering and technical data.\r\n<span style=\"font-weight: bold; \">PDM system uses several technologies:</span>\r\n<ul><li>EDM (engineering data management).</li><li>PIM (product information management).</li><li>TDM (technical data management).</li><li>TIM (technical information management).</li><li>Managing images and documents, manipulating information related to the product.</li></ul>\r\nPDM systems provide the data necessary for the correct operation of MRP (material requirements planning) and CRP systems (capacity requirements planning). Unlike traditional databases, product data management system can accumulate data of any format and type: text documents, geometric models, the data needed for automatic production lines, CNC machines, etc. There can be so much data that it can be used as a "digital layout" of the product.\r\nThe PDM integration with existing CAD systems at the enterprise can significantly increase the efficiency of their use. This happens due to the fact that after integration, it becomes possible to organize work on the project in multi-user mode, to exchange information between developers (possibly in different places) in real time. At the same time, in order to avoid unauthorized modification of documents, different access modes are provided to different users.\r\nEnterprise PDM software can help you create better designs, reduce errors, and build a more efficient development cycle with <span style=\"font-weight: bold;\">features </span>including:\r\n<ul><li><span style=\"font-weight: bold;\">CAD file management.</span> Take control of your valuable design files with PDM. Direct CAD-integration keeps your data in sync in real time.</li><li><span style=\"font-weight: bold;\">Revision control.</span> Automatically capture the revision history on documents as you work. Never lose track of changes.</li><li><span style=\"font-weight: bold;\">Business system integration.</span> Integrate design data with systems like MRPs and ERPs.</li><li><span style=\"font-weight: bold;\">Access control.</span> Strengthen data security by controlling access with permissions for version control and retrieval.</li><li><span style=\"font-weight: bold;\">Engineering change orders.</span> Easily manage engineering change orders (ECOs) with a workflows that help automate the process.</li><li><span style=\"font-weight: bold;\">External collaboration.</span> Share 2D or 3D views of your work with others and get comments and feedback directly inside your product.</li></ul>\r\n<br /><br />","materialsDescription":"<h1 class=\"align-center\">What is PDM or PLM software?</h1>\r\n<span style=\"font-weight: bold; \">PLM </span>stands for <span style=\"font-weight: bold; \">Product Lifecycle Management.</span> It’s a tool that guides products through the product development lifecycle. And as products and supply chains get more complex, a way to manage the development process becomes more and more important. PLMs usually give organizations:\r\n<ul><li>Workflows</li><li>Milestones or stage gates</li><li>CAD/BOM syncing</li><li>Change management processes.</li></ul>\r\n<span style=\"font-weight: bold; \">PDM </span>stands for <span style=\"font-weight: bold; \">Product Data Management.</span> Product data management tools manage data as it moves through the product lifecycle. Specifically, product data management solutions keep CAD files organized and version controlled. This is usually achieved with a check-in/check-out file structure and a centralized storage solution, either in an on-premise server, a privately managed network or, increasingly, a cloud server.\r\nIn a nutshell, PLM is responsible for the process and the system that product development happens in. PDM is responsible for managing the actual digital product files that move through that PLM process.\r\nData management system software is focused on capturing and maintaining information on products and/or services through its development and useful life. Typical information managed in the PDM module include:\r\n<ul><li>Brand name;</li><li>Part number;</li><li>Part description;</li><li>Supplier/vendor;</li><li>Vendor part number and description;</li><li>Unit of measure;</li><li>Cost/price;</li><li>Schematic or CAD drawing;</li><li>Material data-sheets.</li></ul>\r\n<h1 class=\"align-center\">Why you need a PDM</h1>\r\nThe problem is that engineering data is clunky and complex. Engineering teams manage enormous assemblies that can only be manipulated by specific programs. Maintaining consistency across versions, especially for companies with global design offices, is difficult. PDM data management software makes this easier by:\r\n<ul><li>Ensuring there’s a single version of every file</li><li>Tracking each change as new versions come in</li><li>Creating unique part numbers for every individual part/file that make up the overall assembly</li><li>Check-in/check-out file formats.</li></ul>\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/PDM_-_Product_Data_Management1.png"},{"id":64,"title":"PLM - Product Lifecycle Management","alias":"plm-product-lifecycle-management","description":"<span style=\"font-weight: bold; \">Product lifecycle management,</span> sometimes "product life cycle management", PLM, represents an all-encompassing vision for managing all data relating to the design, production, support and ultimate disposal of manufactured goods. Product life management concepts were first introduced where safety and control have been extremely important, notably the aerospace, medical device, military and nuclear industries. These industries originated the discipline of configuration management (CM), which evolved into electronic data management systems (EDMS), which then further evolved to product data management (PDM).\r\nOver the last ten years, manufacturers of instrumentation, industrial machinery, consumer electronics, packaged goods and other complex engineered products have discovered the benefits of PLM management and are adopting efficient PLM software in increasing numbers.\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">The PLM Stages</span></p>\r\n<span style=\"font-weight: bold; \">Beginning of Life (BOL):</span> The beginning of life phase includes all of the design and manufacturing, which consists of the initial conceptualization and development, and any prototypes built. Initial development has multiple sub-actions that identify all the requirements, concepts, and necessary testing. \r\n<span style=\"font-weight: bold; \">Middle of Life (MOL):</span> The middle of life phase is post-manufacturing, when your product is distributed, used, and serviced. At this point, your product is in the hands of the end user. You can collect data on any failures, maintenance rates, and user experience to get information for immediate fixes and future development.\r\n<span style=\"font-weight: bold; \">End of Life (EOL):</span> The end of life phase is the retiring, recycling, or disposing of your product. At this point, the reverse logistics happen for the company. EOL starts when users no longer have a need for the product. At this stage, companies collect information about what parts and materials are still valuable.\r\n<span style=\"font-weight: bold;\">Product lifecycle management software</span> is used to deliver all kinds of products to market, which means there are a lot of different providers out there. Its purpose today is to help organizations: \r\n<ol><li>Develop new products using CAD software</li><li>Produce and manufacture new products</li><li>Bring those products to market</li></ol>\r\nAnd increasingly, product life management software has to process the feedback from the market back to the design and production processes. To achieve these goals, product lifecycle management solutions have to do four things:\r\n<ul><li>Link together CAD metadata with a bill of materials</li><li>Manage workflows for organizations needed to bring products to market</li><li>Manage product data as they move through the product development lifecycle stages</li><li> Hook in auxiliary suppliers and business stakeholders to a shared version of truth or single source of truth.</li></ul>\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Top PLM System Software Requirements</h1>\r\n<span style=\"font-weight: bold; \">Bill of Materials.</span> Having a common source of information across your company is incredibly important during product development. That’s why a bill of materials (BOM) is key to include in your list of product lifecycle management requirements. At the very least, your system should provide a single definition of a particular product and its components. More advanced options include features specifically designed for different team members such as designers, engineers and other professionals who frequently collaborate.\r\n<span style=\"font-weight: bold; \">Computer-Aided Design Management.</span> Managing your CAD activities and documents is more than useful when it comes to PLM. Your solution should be able to manage changes to product configurations while maintaining the functional and physical attributes of a product throughout its lifecycle. Production engineering changes should proliferate throughout your processes, with the changes evident in the subsequent BOMs and plans.\r\n<span style=\"font-weight: bold; \">Manufacturing Product Management.</span> During a product’s lifecycle, you want to keep an eye on your portfolio. With portfolio management, users can determine the proper investment balance to maximize their research and development investment returns. Some systems provide strategy tools to spotlight priorities and support planning. Top PLM software can even determine the best possible investment scenario. Users can also track project progress to completion, which is automatically documented in the product record. This allows greater insight into your processes, facilitating better resource management and allocation.\r\n<span style=\"font-weight: bold; \">Product Regulation and Governance.</span> Failing to follow regulation and compliance standards is one of the quickest ways to earn your business a bad reputation. But having the right tools built into your product life management system can make staying compliant much easier than it would be otherwise. Your solution should be able to centralize relevant information and documentation, making it easier for enterprise organizations to achieve and maintain compliance. You also may choose a system that can comply with medical, environmental, safety, FSA and ISO standards depending on your industry.\r\n<span style=\"font-weight: bold; \">Project and Component Maintenance.</span> Project management tools are vital for providing users visibility into daily processes and progress. These features include tracking and scheduling capabilities, which enable you to manage product development along with resource allocation in real time. Users can also see upcoming milestones and constraints for further planning.\r\n<span style=\"font-weight: bold; \">Quote Process Management.</span> Data from many different sources is often needed during the quote process. PLM’s inherent coordination capabilities gather and organize data pertaining to product design to support your engineering teams. This includes teams developing engineer-to-order and configure-to-order products. The system only shares the necessary data, meaning your team members can spend more time focusing on their work and less on hunting down information. \r\n<span style=\"font-weight: bold; \">Risk Management. </span>This feature brings risks to users’ attention, allowing them to manage, report and mitigate those instabilities. Reducing risks early on prevents issues from growing as they move through product development unseen, reducing the overall cost of development. Some systems do this by “detecting” or “highlighting” risks, whereas some systems simply offer full visibility through PM tools.\r\n<span style=\"font-weight: bold;\">Workflow and Change Management.</span> Plainly said, this suite of PLM software tools gives users insight into product activities. Users can determine phases for a project, as well as assign milestones to keep projects on track. Some systems allow users to see all pending and implemented changes, as well as all items that endure the subsequent effects. This visibility extends to portfolio and resource management, also.\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/PLM_-_Product_Lifecycle_Management.png"}],"additionalInfo":{"budgetNotExceeded":"-1","functionallyTaskAssignment":"-1","projectWasPut":"-1","price":0,"source":{"url":"","title":"Media"}},"comments":[],"referencesCount":0}},"aliases":{"1":["dassault-simulia-and-biovia-for-the-oil-and-gas-industry"]},"links":{"first":"http://b4r_be/api/implementations?page=1","last":"http://b4r_be/api/implementations?page=1","prev":null,"next":null},"meta":{"current_page":1,"from":1,"last_page":1,"path":"http://b4r_be/api/implementations","per_page":20,"to":1,"total":1},"loading":false,"error":null},"agreements":{"agreementById":{},"ids":{},"links":{},"meta":{},"loading":false,"error":null},"comparison":{"loading":false,"error":false,"templatesById":{},"comparisonByTemplateId":{},"products":[],"selectedTemplateId":null},"presentation":{"type":null,"company":{},"products":[],"partners":[],"formData":{},"dataLoading":false,"dataError":false,"loading":false,"error":false},"catalogsGlobal":{"subMenuItemTitle":""}}