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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":[{"id":155,"title":"Design areas","required":0,"type":"multiselect","templateId":15,"value":"General, Mechanical engineering, Electrical","options":["General","Architecture","Mechanical engineering","Electrical"]},{"id":157,"title":"Basic functions","required":0,"type":"multiselect","templateId":15,"value":"Costs estimate, Parts/assemblies modeling, Analysis, Animation & Rendering, Documentation","options":["Costs estimate","Parts/assemblies modeling","Analysis","Animation & Rendering","Documentation"]},{"id":159,"title":"Industry","required":0,"type":"multiselect","templateId":15,"value":"Construction, Consumer goods, Energy industry, Electronics, Manufacturing, Medicine, Automotive industry","options":["Construction","Consumer goods","Energy industry","Electronics","Manufacturing","Medicine","Automotive industry","Aircraft 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XT","PDF","PLT","PNG","PROE","PRT","Rhino","SAT","SolidWorks","STEP","STL","STP","TIF/TIFF","TGA","WRL","DXF"]},{"id":171,"title":"Recommended OS","required":0,"type":"multiselect","templateId":15,"value":"Windows 7, Windows 8, Windows 10","options":["Mac","Windows Vista","Windows XP","Windows 7","Windows 8","Windows 10"]}],"concurentProducts":[{"id":6617,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/simulia.jpg","logo":true,"scheme":false,"title":"SIMULIA Powered by the 3DEXPERIENCE® platform","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"simulia","companyTitle":"Dassault Systèmes","companyTypes":["supplier","vendor"],"companyId":2774,"companyAlias":"dassault-systemes","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","og:image":"https://old.roi4cio.com/fileadmin/user_upload/simulia.jpg"},"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":6902,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/ZWCAD_logo.png","logo":true,"scheme":false,"title":"ZWCAD","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"zwcad","companyTitle":"ZWSOFT","companyTypes":["supplier","vendor"],"companyId":10494,"companyAlias":"zwsoft","description":"<span style=\"font-weight: bold; \">ZWCAD</span> is a CAD software developed by ZWSOFT. ZWCAD provides tools for 2D and 3D design, drafting, modeling, and other functions commonly used in various industries, including architecture, engineering, and manufacturing.\r\nZWCAD stands out as a swift and robust 2D CAD solution, providing exceptional compatibility with AutoCAD®. It enables architects, engineers, and designers working in the AEC and manufacturing sectors to easily translate their imaginative concepts into reality.\r\n<span style=\"font-weight: bold;\">Compatible and Comfortable: Get Started within One Hour</span>\r\n<ul><li><span style=\"font-weight: bold; font-style: italic;\">Compatible.</span> Highly compatible with DWG, DXF, DWT, and other common file formats.</li><li><span style=\"font-weight: bold; font-style: italic;\">Familiar Environment.</span> Familiar interface, commands and aliases. Choose from Classic or Ribbon, Dark or Light.</li><li><span style=\"font-weight: bold; font-style: italic;\">Customizable.</span> Develop or migrate third-party applications easily with APIs including LISP, VBA, ZRX, and .NET.</li><li><span style=\"font-weight: bold; font-style: italic;\">One-step Migration.</span> Easily migrate your printers, templates, fonts, command alias and hatch patterns.</li></ul>\r\nZWCAD offers you a seamless experience from start to finish by taking full advantage of multi-core CPUs. From opening files to selecting, moving, panning, and zooming, our common operations are executed with unparalleled speed.\r\nWe offer over 200 third-party applications for a wide range of industries. No matter what industry you're in, you can always find the right solution to help you work easier, faster, and more accurately.\r\nYou can start your <span style=\"font-weight: bold; font-style: italic;\">30-day free trial of ZWCAD</span> with full functionality at www.zwsoft.com/download","shortDescription":"ZWCAD is a fast and powerful 2D CAD solution that offers unparalleled compatibility with AutoCAD.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"ZWCAD","keywords":"","description":"<span style=\"font-weight: bold; \">ZWCAD</span> is a CAD software developed by ZWSOFT. ZWCAD provides tools for 2D and 3D design, drafting, modeling, and other functions commonly used in various industries, including architecture, engineering, and manufacturing","og:title":"ZWCAD","og:description":"<span style=\"font-weight: bold; \">ZWCAD</span> is a CAD software developed by ZWSOFT. ZWCAD provides tools for 2D and 3D design, drafting, modeling, and other functions commonly used in various industries, including architecture, engineering, and manufacturing","og:image":"https://old.roi4cio.com/fileadmin/user_upload/ZWCAD_logo.png"},"eventUrl":"","translationId":6902,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":780,"title":"CAD for architecture and construction - Computer-Aided Design","alias":"cad-for-architecture-and-construction-computer-aided-design","description":"Computer-aided design (CAD) 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. CAD output is often in the form of electronic files for print, machining or other manufacturing operations. The term CADD (for Computer Aided Design and Drafting) is also used.\r\nCAD may be used to design curves and figures in two-dimensional (2D) space or curves, surfaces and solids in three-dimensional (3D) space.\r\nCAD is an important industrial art extensively used in many applications, including architectural design, prosthetics and many more.\r\nSoftware for architecture - systems designed specifically for architects, whose tools allow you to build drawings and models from familiar objects (walls, columns, floors, etc.), to design buildings and facilities for industrial and civil construction. These programs have the tools to build three-dimensional models and obtain all the necessary working documentation and support modern technology of information modeling of buildings.<br /><br />","materialsDescription":"<h1 class=\"align-center\"> <span style=\"font-weight: normal;\">What is a CAD drafter or CAD Designer?</span></h1>\r\nEverything around us that is manufactured begins with an idea in a written plan. When these plans require illustrations or drawings to convey meaning, a CAD drafter is needed to prepare these ideas in graphic forms of communication. Drafters translate ideas and rough sketches of other professionals, such as architects and engineers, into scaled detail (or working) drawings. A CAD designer often prepares the plans and rough sketches for an architect or engineer. The designer has more education and thus more responsibility than the drafter but less than an architect or engineer.\r\n<h1 class=\"align-center\"><span style=\"font-weight: normal;\">What software do architects use?</span></h1>\r\n<p class=\"align-left\">Before computer-aided design software, architects relied solely on hand drawings and handmade architecture models to communicate their designs. With the evolution of technology and the architecture industry, architectural drafting software has changed the way architects plan and design buildings. Implementing 2D and 3D architecture software allows designers to draft at greater speed, test ideas and determine consistent project workflows. Advancements in rendering software provide architects and their clients with the ability to visually experience designs before a project is realized.</p>\r\n<h1 class=\"align-center\"><span style=\"font-weight: normal;\">Is CAD 2D or 3D?</span></h1>\r\n<p class=\"align-left\">A common misconception surrounding CAD is that it is a 3D architecture software modeling tool only. However, CAD can be used as a 2D drawing tool as well. Construction designers might use a CAD tool that only works in 2D while architects might work in a 3D software architecture tools that has a 2D converter. It is highly dependent upon the actual platform used. This can be convenient because a company might only use a 2D tool and can pay for that tool alone. However, as construction centers around 3D modeling software for architecture and informational models, it will be harder for companies who only to use a 2D tool.</p>\r\n<h1 class=\"align-center\"><span style=\"font-weight: normal;\">What is CAD used for in construction?</span></h1>\r\n<p class=\"align-left\">There are a lot of uses for CAD in construction. Subcontractor’s designers can take the drawings made by the architect and add in additional necessary details to ensure constructability. From there they have a plan that they can work off of and check their work against. Companies have already done this to a degree of success. Some companies were able to use a combination of drones and 3D models to notice issues with the construction. Specifically, a company can overlay their live drone footage with the model. They could note that the foundation would be off and make corrections.</p>\r\n<p class=\"align-left\">Architecture planning software benefits contractors because the drawings and plans can be easily stored in the cloud. This allows for contractors to use their plans at any location. Also, if they are included in a shared file for the project, they can easily see changes to the plans. So, a subcontractor could quickly determine which changes were made, by who, and how it will impact construction.</p>\r\n<p class=\"align-left\">Another benefit of professional architecture software is it is more accurate than manual drawings. It’s easier for construction design software than it is when it’s manual. And it’s easier for subcontractors to add details than it is in manual drawings.</p>\r\n<h1 class=\"align-center\"><span style=\"font-weight: normal;\">What architects’ tools have been transformed by technology?</span></h1>\r\nWorking methods that previously resulted in only the documentation of an idea are now moving toward the realization of a full virtual copy of a building and all its complex components before a single nail is hammered. As such, architects’ tools that used to be physical, like pens and pencils, are now mere basics in a virtual toolbox with capabilities an analog architect couldn’t even fathom. The breakneck pace of this change is good reason to reflect on the history of these architect software virtual tools by comparing them to their physical forebears.\r\n\r\n<ul><li><span style=\"font-weight: bold;\">Drafting Arm vs. Dynamic Input. </span>Appearing like an alien appendage affixed to a drawing board, a drafting arm originally consolidated a variety of tasks completed with separate rulers, straightedges and protractors into a single versatile tool. AutoCAD’s crosshair reticle, for example, once relied on manual input with compass-style designations before it featured point-and-click functionality with real-time metrics following it around the screen.</li></ul>\r\n\r\n<ul><li><span style=\"font-weight: bold;\">Tape Measure vs. Surveying App.</span> Documenting an existing building in order to plan its transformation is likely one of the most frequent tasks architects complete. Until recently, the only way to correctly do this was by hand, with a tape measure, pen and paper. Since the advent of infrared scanners, depth-sensing cameras and software that can communicate with them, the time-intensive process of surveying an existing space has been cut to a fraction of what it once was.</li></ul>\r\n\r\n<ul><li><span style=\"font-weight: bold;\">Drafting Template vs. Premade 3-D Models.</span> In the days of hand-drafting, adding furniture to a drawing meant choosing an appropriately scaled object from a stencil and tracing it. Today’s sophisticated equivalent that architecture software programs offer allows an infinite number of premade models to be brought into a wide range of design software with a single click. Despite technological advances in this practice, the old method may actually be advantageous due to its reliance on abstraction because choosing realistically detailed furnishings for an early design scheme often prompts cosmetic decisions long before they need to be made.</li></ul>\r\n\r\n<ul><li><span style=\"font-weight: bold;\">Electric Eraser vs. Undo.</span> The most simple, and, for this reason, the most underappreciated, transformation an architect’s tools have undergone between physical and virtual methods is the ease with which one can now reverse the work they’ve done. Allowing what essentially amounts to time travel, the Undo function is universal to almost all software programs and as such is often taken for granted. Prior to this wonderful invention, the savviest architects wielded handheld electric erasers allowing them to salvage large drawing sets in the event of a drafting mistake or last-minute design change.</li></ul>\r\n\r\n<ul><li><span style=\"font-weight: bold;\">Blueprint Machine vs. Inkjet Plotter. </span>If you hang around an architecture firm long enough, you might hear older designers talk about using a blueprint machine. Originally the premier method for producing copies of drawings, blueprint machines involved rolling an original drawing through a chemical mixture that reproduced the image on a special type of paper. For some time now, digital plotters have removed manual labor from the equation, being fed information directly from a virtual drawing file.</li></ul>\r\n\r\n<ul><li><span style=\"font-weight: bold;\">Digitizer Tablet vs. Touchscreen Workstation.</span> Early iterations of digital drafting were often paired with a digitizer: a special keyboard that could choose commands or be directly drawn on. Software used in architecture eventually got better at incorporating a keyboard and mouse, but nowadays the tide might be turning back to a hands-on approach as devices like Microsoft’s Surface Studio are pushing an interface with touch-heavy tools just for architects. Though currently limited to apps for sketching and drawing review, the way architects work could be changed forever if a large influential company like Autodesk or Graphisoft were to fully embrace touchscreen capabilities.</li></ul>\r\n\r\n<p class=\"align-left\"><br /><br /> <br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.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":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"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]},{"id":305,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Intergraph.png","logo":true,"scheme":false,"title":"CADWorx","vendorVerified":0,"rating":"1.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"cadworx","companyTitle":"Intergraph","companyTypes":["vendor"],"companyId":2812,"companyAlias":"intergraph","description":"<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">The comprehensive series of CADWorx® design tools includes structural steel, equipment, process and instrument diagrams, and design review, plus automatic isometrics and bills of material.</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">CADWorx is quick and easy to set up and use, so design can begin immediately. The bi-directional links between CADWorx and analysis programs for pipes and vessels enable designers and engineers to easily share information while keeping the drawings, models, and related information continuously synchronized as changes are made. The fast processing and highly refined user-interface features in CADWorx empower users to work efficiently together, even on large models.</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Consult with an expert about Intergraph® CADWorx® Find answers to frequently asked questions about the CADWorx Plant Design Suite Check out CADWorx Webinars</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Request an evaluation. It is fully functioning and runs for 30 days.</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Has helped thousands of corporations create revenue-earning deliverables more quickly</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Intelligent design</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Empowers P&IDs by making diagrams and unlocking info locked within them to stakeholders</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Supports many industries</span></p>\r\n<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">Works with chemical, offshore, pharmaceutical, piping, power, shipbuilding, steelwork, water treatment</span></p>","shortDescription":"Intergraph® CADWorx® Plant Design Suite is an integrated, complete AutoCAD®-based software series for plant design that provides intelligent drawing and database connectivity, advanced levels of automation, and easy-to-use drafting tools.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":20,"sellingCount":11,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"CADWorx","keywords":"CADWorx, design, information, models, diagrams, about, CADWorx®, with","description":"<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">The comprehensive series of CADWorx® design tools includes structural steel, equipment, process and instrument diagrams, and design revi","og:title":"CADWorx","og:description":"<p style=\"line-height: 1.5em; \"><span style=\"font-family: Verdana, Arial, Geneva, Helvetica, sans-serif; font-size: 11px; \">The comprehensive series of CADWorx® design tools includes structural steel, equipment, process and instrument diagrams, and design revi","og:image":"https://old.roi4cio.com/fileadmin/user_upload/Intergraph.png"},"eventUrl":"","translationId":306,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"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":1425,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Dassault_Systemes_Catia.png","logo":true,"scheme":false,"title":"Dassault Systèmes Catia","vendorVerified":0,"rating":"1.00","implementationsCount":1,"suppliersCount":0,"supplierPartnersCount":0,"alias":"dassault-systemes-catia","companyTitle":"Dassault Systèmes","companyTypes":["supplier","vendor"],"companyId":2774,"companyAlias":"dassault-systemes","description":"CATIA delivers the unique ability not only to model any product, but to do so in the context of its real-life behavior: design in the age of experience. Systems architects, engineers, designers and all contributors can define, imagine and shape the connected world. \r\n<span style=\"font-weight: bold;\">CATIA, powered by Dassault Systèmes’ 3DEXPERIENCE platform, delivers: </span>\r\n<ul>\r\n<li>A Social design environment built on a single source of truth and accessed through powerful 3D dashboards that drive business intelligence, real-time concurrent design and collaboration across all stakeholders including mobile workers.</li>\r\n<li> An Instinctive 3DEXPERIENCE, for both experienced and occasional users with world-class 3D modeling and simulation capabilities that optimize the effectiveness of every user.</li>\r\n<li>An Inclusive product development platform that is easily integrated with existing processes & tools. This enables multiple disciplines to leverage powerful and integrated specialist applications across all phases of the product development process.</li>\r\n</ul>\r\n CATIA’s Design, Engineering and Systems Engineering applications are the heart of Industry Solution Experiences from Dassault Systèmes to address specific industry needs. This revolutionizes the way organizations conceive, develop and realize new products, delivering competitive edge through innovative customer experiences.\r\nCATIA DESIGN/STYLING From product to transportation industries, the style & design of the product plays a major role in its success on the market. Develop shape & material creativity, reach a high level of surface sophistication & quality, and get the right decision tools with physical & virtual prototypes. These are the key elements of CATIA Design/Styling to boost design innovation. From 3D sketching, subdivision surface, Class-A modeling to 3D printing, reverse engineering, visualization and experience, CATIA Design/Styling provides all the solutions for design creativity, surface excellence and product experience.\r\n<span style=\"font-weight: bold;\">KEY BENEFITS</span>\r\n<ul>\r\n<li>Industrial Design: whether starting 3D ideation from scratch or from 2D sketches, industrial designers can manipulate shapes with unrivaled freedom and take advantage of a true creativity accelerator to explore more ideas in the early conceptual phase.</li>\r\n<li>Advanced Surface Modeling: fully addresses the Automotive Class-A shape design process with a solution for surface refinement that integrates industry-leading Icem surfacing technologies. Delivers a powerful and intuitive suite of tools for modeling, analyzing and visualizing aesthetic and ergonomic shapes for the highest Class-A surface quality.</li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">CATIA ENGINEERING EXCELLENCE</span> As products and experiences continue to increase in complexity, performance and quality targets are becoming more demanding. CATIA answers that challenge, enabling the rapid development of high-quality mechanical products. Mechanical engineers equipped with CATIA 3D Modeling tools can gain insight into key factors of quality and performance early in the product development phase. Digital prototyping, combined with digital analysis and simulation, allows product development teams to virtually create and analyze a mechanical product in its operating environment. CATIA Engineering provides the platform which enables engineers to create any type of 3D assembly, for a wide range of engineering processes.\r\n<span style=\"font-weight: bold;\">KEY BENEFITS</span>\r\n<ul>\r\n<li>Create any type of 3D part, from rough 3D sketches to fully detailed industrial assemblies.</li>\r\n<li>Unbreakable relational design - a new way to manage links between objects and related behaviors in configured assemblies.</li>\r\n<li>Enables a smooth evolution from 2D- to 3D-based design methodologies.</li>\r\n<li>Productive and consistent drawing update removes the need for additional user operations.</li>\r\n<li>Process oriented tools capture the manufacturing process intent in the early stages of design.</li>\r\n<li>A wide range of applications for tooling design, for generic tooling in addition to mold and die.</li>\r\n<li>Advanced technologies for mechanical surfacing, based on a powerful specification-driven modeling approach</li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">SYSTEMS ENGINEERING</span> Developing smart products has never been more challenging. Developers need an integrated systems engineering approach that enables them to manage the complete development process. Requirements engineering, systems architecture definition, detailed modeling and simulation of complex systems and the development of embedded software all need to be mastered in the context of the complete product. The Systems Engineering solution from Dassault Systèmes delivers a unique, open and extensible development platform – a platform that fully integrates the cross-discipline modeling, simulation, verification and business process support needed for developing complex ‘cyber-physical’ products. It enables organizations to quickly and easily evaluate requests for changes or develop new products or system variants, while utilizing a unified performance based systems engineering approach that reduces the overall cost of system and product development.\r\n<span style=\"font-weight: bold;\">KEY BENEFITS</span>\r\n<ul>\r\n<li>Leverage a best-in-class model-based system development platform to accelerate the development and validation of complex systems and products.</li>\r\n<li>Ensure compliance with market requirements and regulations while improving time-to-market and reducing costs through world-class requirements engineering.</li>\r\n<li>Collaborate across all disciplines to define a complete systems architecture through multiple operational, functional and component views.</li>\r\n<li>Verify the behavior of complex products and systems, that span multiple engineering disciplines, through Modelica based modeling and simulation.</li>\r\n<li>Integrate the embedded systems and 3D product design processes to leverage intelligent embedded systems in the 3DEXPERIENCE simulation of complex mechatronic products and systems.</li>\r\n</ul>\r\n","shortDescription":"CATIA is the World's Leading Solution for Product Design and Experience. 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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":1427,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/PTC_Creo.png","logo":true,"scheme":false,"title":"PTC Creo","vendorVerified":0,"rating":"1.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"ptc-creo","companyTitle":"PTC","companyTypes":["vendor"],"companyId":2777,"companyAlias":"ptc","description":"<span style=\"font-weight: bold;\">The Leading Product Design 3D CAD Software</span>\r\nNow more than ever, product design & manufacturing teams are expected to create products more efficiently & cost effectively, without sacrificing innovation or quality. Fortunately, Creo delivers the most scalable range of 3D CAD product development packages & tools in today’s market. Its variety of specific features, capabilities, & tools help engineers imagine, design, & create your products better.\r\nTake your products from concept to digital prototype efficiently, precisely and intuitively with Creo—on the cutting edge of CAD for more than 30 years.\r\n<span style=\"font-weight: bold;\">Features</span>\r\n\r\n<ul>\r\n<li>Modeling and Design</li>\r\n<li>Simulation and Analysis</li>\r\n<li>Smart Connected Design</li>\r\n<li>Collaboration</li>\r\n<li>Additive Manufacturing</li>\r\n<li>Model-Based Definition</li>\r\n</ul>\r\n\r\n<span style=\"font-weight: bold;\">Creo Capabilities</span>\r\nPTC’s developers created Creo Parametric as a sound foundation software that allows its users the ability to expand deeper functionality with each component. As your products become more complex in its engineering, Creo offers expanded capabilities to meet your requirements. Every product isn’t made equal, and your 3D CAD solution shouldn’t be either. Explore Creo’s capabilities that mold to your unique craft.\r\n \r\n<span style=\"font-weight: bold;\">3D Design</span>\r\n\r\n<ul>\r\n<li>Parametric & Freestyle Surfacing</li>\r\n<li>Direct Modeling</li>\r\n<li>2D Drawing</li>\r\n<li>Model-Based Definition</li>\r\n<li>Design Exploration</li>\r\n<li>Sheet Metal Design</li>\r\n<li>Mechanism Design</li>\r\n<li>Plastic Part Design</li>\r\n<li>Structural Framework & Weld Design</li>\r\n<li>Fastener Design</li>\r\n<li>Human Factors Design</li>\r\n<li>Routed Systems Design</li>\r\n<li>Smart Connected Design</li>\r\n<li>Concept Design</li>\r\n<li>Industrial Design</li>\r\n<li>Reverse Engineering</li>\r\n<li>Augmented Reality</li>\r\n<li>Multi-CAD</li>\r\n<li>Rendering & 3D Animation</li>\r\n<li>Assembly Management & Performance</li>\r\n</ul>\r\n\r\n<span style=\"font-weight: bold;\">Analysis</span>\r\n\r\n<ul>\r\n<li>Structural Analysis</li>\r\n<li>Thermal Analysis</li>\r\n<li>Motion Analysis</li>\r\n<li>Mold Fill Analysis</li>\r\n<li>Fatigue Analysis</li>\r\n<li>Creepage & Clearance Analysis</li>\r\n</ul>\r\n\r\n<span style=\"font-weight: bold;\">CAM</span>\r\n\r\n<ul>\r\n<li>Additive Manufacturing</li>\r\n<li>Tool & Die Design</li>\r\n<li>Production Machining</li>\r\n</ul>\r\n\r\n<span style=\"font-weight: bold;\">Other</span>\r\n\r\n<ul>\r\n<li>Performance Advisor</li>\r\n<li>Product Data Management</li>\r\n<li>Technical Illustrations</li>\r\n</ul>\r\n","shortDescription":"Imagine, Design, Create, Innovate your products better with PTC Creo. 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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":2204,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/kompas_3d.png","logo":true,"scheme":false,"title":"ASCON KOMPAS-3D","vendorVerified":0,"rating":"1.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"ascon-kompas-3d","companyTitle":"ASCON","companyTypes":["supplier"],"companyId":2698,"companyAlias":"askon","description":"<p>KOMPAS-3D is a flexible 3D modeling system that allows you to create models by several methods, including the following ones:</p>\r\n<ul>\r\n<li>Bottom-up modeling using finished components.</li>\r\n<li>Top-down modeling by designing components to match specific designs.</li>\r\n<li>Modeling based on layout drawings, such as kinematic diagrams.</li>\r\n<li>Or any combination of these modeling methods.</li>\r\n</ul>\r\n<p>The KOMPAS-3D system has powerful functions for managing project of thousands of sub-assemblies, parts, and standard library products. It supports all the capabilities of 3D solids and surface modeling that have become the standard among medium-level CAD/CAM programs, including these ones:</p>\r\n<ul>\r\n<li>Intuitive creation of new geometry, and importing and manipulation of surfaces.</li>\r\n<li>Associative settings for element parameters.</li>\r\n<li>Boolean operators for generating atypically shaped elements; functions include union, intersection, and subtraction.</li>\r\n<li>Advanced surface and shape modeling for designing complex, ergonomic, and easy to use industrial products; functions include point grids, by network of curves, ruled surfaces, extrusions, lofted surfaces, swept surfaces, and revolutions.</li>\r\n<li>Construction of auxiliary lines and planes, and spatial curves, including broken lines, splines, and spirals.</li>\r\n<li>Addition of structural elements, such as chamfers, fillets, holes, stiffness elements, and thin-walled shells.</li>\r\n<li>Creation of any shape of arrays and assembly components.</li>\r\n<li>Component modeling with assemblies, with relative positioning of parts in assemblies.</li>\r\n<li>Constraints for mating assembly components, including automatic constraints for faster assembly creation.</li>\r\n<li>Special tools to simplify work with large assemblies.</li>\r\n<li>Flexible parts and assembly editing, including characteristic points.</li>\r\n<li>Redetermination of the parameters of any element at any design stage causes a reconstruction of the whole model.</li>\r\n<li>Effective mould design with pattern drafts, joint lines, cavities defined by part shape, and shrinkage allowance.</li>\r\n<li>Capable sheet metal modeling through sheet body creation, bends, holes, louver, fillets, punching (stamping) and cutting, cap closing, sheet metal unwrapping, and associative drawings of unwrapped sheet metal.</li>\r\n<li>Inserting standards products into the model from a library, generating user model libraries.</li>\r\n<li>Efficient collision detection of parts.</li>\r\n</ul>","shortDescription":"KOMPAS-3D is a flexible 3D modeling system that allows you to create models by several methods.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":13,"sellingCount":16,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"ASCON KOMPAS-3D","keywords":"","description":"<p>KOMPAS-3D is a flexible 3D modeling system that allows you to create models by several methods, including the following ones:</p>\r\n<ul>\r\n<li>Bottom-up modeling using finished components.</li>\r\n<li>Top-down modeling by designing components to match specific ","og:title":"ASCON KOMPAS-3D","og:description":"<p>KOMPAS-3D is a flexible 3D modeling system that allows you to create models by several methods, including the following ones:</p>\r\n<ul>\r\n<li>Bottom-up modeling using finished components.</li>\r\n<li>Top-down modeling by designing components to match specific ","og:image":"https://old.roi4cio.com/fileadmin/user_upload/kompas_3d.png"},"eventUrl":"","translationId":2205,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[{"id":15,"title":"CAD for mechanical engineering - Computer-Aided Design"}],"testingArea":"","categories":[{"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":213,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/MicroStation.jpg","logo":true,"scheme":false,"title":"MicroStation","vendorVerified":0,"rating":"1.40","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"microstation","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"\r\n<p>MicroStation’s advanced parametric 3D modeling capabilities allow infrastructure professionals of any discipline to deliver data-driven, BIM-ready models. 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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":1423,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk.jpg","logo":true,"scheme":false,"title":"Autodesk AutoCAD Mechanical","vendorVerified":0,"rating":"2.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":33,"alias":"autodesk-autocad-mechanical","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"\r\n<ul> <li>Layer management. Isolate and restore layer groups and specify linetypes and lineweights.<span style=\"background-color: #ffffff;\">Create, delete, and rename layers and layer definitions, change their properties, or add layer descriptions</span></li> <li>Hidden lines. The AutoCAD Mechanical toolset automatically creates hidden lines when you specify which objects overlap the others. Update geometry automatically when changes occur. Minimize manual redraws.</li> <li>700,000+ standard parts and features. Produce accurate drawings with standard components.</li> <li>Machinery generators and calculators</li> <li> When you need to capture more complex engineering in a drawing, machinery generators can expedite the process. Efficiently analyze designs, including shaft, spring, belt, chain, and cam generators.</li> <li>Document 3D CAD models. Use the AutoCAD Mechanical toolset to detail native Inventor part and assembly models.</li> <li>Reusable mechanical drawing detailing tools. Use intelligent drafting tools made for mechanical design.</li> <li>Custom content library and publishing. The Content Manager lets you add a part or feature to a content library</li> <li>Command preview and contextual menus. Preview fillet, chamfer, and offset commands.</li> <li>AutoCAD mobile app. Take the power of AutoCAD wherever you go.</li> <li>Smart mechanical engineering dimensions. Create dimensions using abbreviated dialog boxes.</li> <li>Support for international drafting standards. Deliver standards-based design documentation.</li> <li>Associative balloons and bills of materials. Create automated part lists and BOMs.</li> </ul>","shortDescription":"AutoCAD Mechanical - Design faster with an industry-specific toolset for mechanical engineering including 700,000+ intelligent parts and features.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Autodesk AutoCAD Mechanical","keywords":"","description":"\r\n<ul> <li>Layer management. Isolate and restore layer groups and specify linetypes and lineweights.<span style=\"background-color: #ffffff;\">Create, delete, and rename layers and layer definitions, change their properties, or add layer descriptions</span></li>","og:title":"Autodesk AutoCAD Mechanical","og:description":"\r\n<ul> <li>Layer management. 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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":1424,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk_Inventor_Professional.png","logo":true,"scheme":false,"title":"Autodesk Inventor Professional","vendorVerified":0,"rating":"2.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":33,"alias":"autodesk-inventor-professional","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"Mechanical design and 3D CAD software Use Inventor® 3D CAD modeling software for product and mechanical design. Learn about the Inventor modeling, design, simulation, and rendering features. <span style=\"font-weight: bold;\">Product design and modeling</span>\r\n<ul>\r\n<li>Shape Generator. Create and evaluate high-performing design options in minutes.</li>\r\n<li>Parametric modeling. Create parameters as you sketch and dynamically size 3D objects. Focus on your design, not the interface.</li>\r\n<li>Assembly modeling. Put your model together in fewer steps.</li>\r\n<li>Drawing creation. Quickly create clear, accurate, detailed drawings. </li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">Collaboration and design automation</span>\r\n<ul>\r\n<li>3D PDF export. Create 3D documentation rich in visual and product information that anyone can view.</li>\r\n<li>Work with non-native data. Maintain an associative link to non-native CAD data.</li>\r\n<li>Automated frame design. Quickly design and test structural frames.</li>\r\n<li>Electromechanical design. Link your Inventor and AutoCAD Electrical data.</li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">Modeling</span>\r\n<ul>\r\n<li>Flexible modeling. Use the right modeling tool for every job with parametric, freeform, and direct modeling tools.</li>\r\n<li>Direct modeling. Use easy push/pull controls to move, rotate, resize, or scale features from imported geometries.</li>\r\n<li>Freeform modeling. Freely sculpt the shape of your design by moving points, edges, and faces.</li>\r\n<li>Mechanical concept and layout design. Open DWG™ files directly inside Inventor as the basis for your 3D model.</li>\r\n<li>Plastic parts design. Design and analyze plastic parts with purpose-built tools in Inventor.</li>\r\n<li>Sheet metal design. Design complex sheet metal products that conform to your company’s standards.</li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">Automation</span>\r\n<ul>\r\n<li>Automated product configuration. Easily set up and deploy complex product configurations.</li>\r\n<li>Part and assembly design automation. Create reusable, configurable parts, product features, or assemblies by defining variable parameters.</li>\r\n<li>Component generators and calculators. Use built-in calculators to inform the design of common joints such as welds, clamps, and press fits.</li>\r\n<li>Automated tube and pipe design. Use a combination of automated tools and full-control design functions in Inventor to build tube and pipe runs.</li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">Interoperability</span>\r\n<ul>\r\n<li>Cloud-based 3D design reviews. Share lightweight versions of your 3D designs in the cloud.</li>\r\n<li>Printed circuit board interoperability. Integrate your electronics and mechanical designs into a single, complete definition of your product.</li>\r\n<li>BIM interoperability. Access tools specifically created to help prepare your 3D models for use in BIM systems.</li>\r\n<li>Data management. Robust search function makes it easy to find files and quickly copy design files. Connects to Vault (included in Product Design & Manufacturing Collection).</li>\r\n</ul>\r\n<span style=\"font-weight: bold;\">Simulation and visualization</span>\r\n<ul>\r\n<li>Exploded views and animations. Use exploded views and animations of complex assemblies in product documentation, manuals, and assembly instructions.</li>\r\n<li>Dynamic simulation. Apply forces to evaluate the motion, speed, and acceleration of your design.</li>\r\n<li>Stress analysis. Run quick checks on parts or perform in-depth analysis of the entire product at any stage.</li>\r\n</ul>\r\n","shortDescription":"Inventor Professional 3D CAD software offers an easy-to-use set of tools for 3D mechanical design, documentation, and product simulation.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":true,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Autodesk Inventor Professional","keywords":"","description":"Mechanical design and 3D CAD software Use Inventor® 3D CAD modeling software for product and mechanical design. Learn about the Inventor modeling, design, simulation, and rendering features. <span style=\"font-weight: bold;\">Product design and modeling</spa","og:title":"Autodesk Inventor Professional","og:description":"Mechanical design and 3D CAD software Use Inventor® 3D CAD modeling software for product and mechanical design. Learn about the Inventor modeling, design, simulation, and rendering features. <span style=\"font-weight: bold;\">Product design and modeling</spa","og:image":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk_Inventor_Professional.png"},"eventUrl":"","translationId":1424,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[{"id":15,"title":"CAD for mechanical engineering - Computer-Aided Design"}],"testingArea":"","categories":[{"id":532,"title":"Software","alias":"software","description":" Computer software, or simply software, is a collection of data or computer instructions that tell the computer how to work. This is in contrast to physical hardware, from which the system is built and actually performs the work. In computer science and software engineering, computer software is all information processed by computer systems, programs, and data. Computer software includes computer programs, libraries and related non-executable data, such as online documentation or digital media. Computer hardware and software require each other and neither can be realistically used on its own.\r\nAt the lowest programming level, executable code consists of machine language instructions supported by an individual processor — typically a central processing unit (CPU) or a graphics processing unit (GPU). A machine language consists of groups of binary values signifying processor instructions that change the state of the computer from its preceding state. For example, an instruction may change the value stored in a particular storage location in the computer—an effect that is not directly observable to the user. An instruction may also invoke one of many input or output operations, for example displaying some text on a computer screen; causing state changes that should be visible to the user. The processor executes the instructions in the order they are provided, unless it is instructed to "jump" to a different instruction, or is interrupted by the operating system. As of 2015, most personal computers, smartphone devices, and servers have processors with multiple execution units or multiple processors performing computation together, and computing has become a much more concurrent activity than in the past.\r\nThe majority of software is written in high-level programming languages. They are easier and more efficient for programmers because they are closer to natural languages than machine languages. High-level languages are translated into machine language using a compiler or an interpreter or a combination of the two. Software may also be written in a low-level assembly language, which has strong correspondence to the computer's machine language instructions and is translated into machine language using an assembler.","materialsDescription":" <span style=\"font-weight: bold; \">What is software?</span>\r\nSometimes abbreviated as SW and S/W, software is a collection of instructions that enable the user to interact with a computer, its hardware, or perform tasks. Without software, most computers would be useless. For example, without your Internet browser software, you could not surf the Internet or read this page. Without an operating system, the browser could not run on your computer. The picture shows a Microsoft Excel box, an example of a spreadsheet software program.\r\n<span style=\"font-weight: bold; \">How do you get software?</span>\r\nSoftware can be purchased at a retail computer store or online and come in a box containing all the disks (floppy diskette, CD, DVD, or Blu-ray), manuals, warranty, and other documentation.\r\nSoftware can also be downloaded to a computer over the Internet. Once downloaded, setup files are run to start the installation process on your computer.\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Free software</span></span>\r\nThere are also a lot of free software programs available that are separated into different categories.\r\n<ul><li>Shareware or trial software is software that gives you a few days to try the software before you have to buy the program. After the trial time expires, you'll be asked to enter a code or register the product before you can continue to use it.</li><li>Freeware is completely free software that never requires payment, as long as it is not modified.</li><li>Open-source software is similar to freeware. Not only is the program given away free, but the source code used to make the program is also, allowing anyone to modify the program or view how it was created.</li></ul>\r\n<span style=\"font-weight: bold; \">How do you use computer software?</span>\r\nOnce the software is installed on the computer hard drive, the program can be used anytime by finding the program on the computer. On a Windows computer, a program icon is added to the Start menu or Start screen, depending on your version of Windows.\r\n<span style=\"font-weight: bold;\">How to maintain software?</span>\r\nAfter the software is installed on your computer, it may need to be updated to fix any found errors. Updating a program can be done using software patches. Once updates are installed, any problems that may have been experienced in the program will no longer occur.\r\n<span style=\"font-weight: bold;\">How is software created and how does it work?</span>\r\nA computer programmer (or several computer programmers) writes the instructions using a programming language, defining how the software should operate on structured data. The program may then be interpreted or compiled into machine code.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Software.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":1429,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/autodesk_logo.jpeg","logo":true,"scheme":false,"title":"Product Design & Manufacturing Collection IC","vendorVerified":0,"rating":"2.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":33,"alias":"product-design-manufacturing-collection-ic","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"<span style=\"color: rgb(0, 0, 0); font-family: Verdana, sans-serif; font-size: 12px; \">From Inventor, to HSM, to Fusion 360, this myriad of MFG software allows you or your company to complete product lifecycles with ease, at an affordable and attainable price.</span>\r\n<span style=\"color: rgb(0, 0, 0); font-family: Verdana, sans-serif; font-size: 12px; \"></span><span style=\"color: rgb(0, 0, 0); font-family: Verdana, sans-serif; font-size: 12px;\">If you work within the Aerospace, Automotive, Industrial machinery, Manufacturing Product design or any other related industries you will know that developing top performing products and parts has always been a detailed, engineering-intensive and all-round tough job. With all the different materials and composites available, knowing how each one will behave/work, whilst ensuring your products perform as expected and within warranty requirements requires expert knowledge, endless working hours and a first class toolset.</span>\r\n<span style=\"color: rgb(0, 0, 0); font-family: Verdana, sans-serif; font-size: 12px;\"><br /></span><span style=\"color: rgb(0, 0, 0); font-family: Verdana, sans-serif; font-size: 12px;\">Thankfully, the Autodesk Product Design & Manufacturing Collection enables you to shorten product development lifecycle’s and cut design and production costs using powerful simulation tools and digital prototyping workflows. 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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":1431,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk_Navisworks.png","logo":true,"scheme":false,"title":"Autodesk Navisworks","vendorVerified":0,"rating":"2.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":33,"alias":"autodesk-navisworks","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"<span style=\"font-weight: bold;\">Features</span>\r\nGain more control over construction projects\r\nNavisworks® tools enable greater coordination, construction simulation, and whole-project analysis for integrated project review. Some Navisworks products include advanced simulation and validation tools.\r\n\r\n<span style=\"font-weight: bold; text-decoration-line: underline;\">Coordination</span>\r\n Deeper integration between Navisworks and BIM 360 Glue provides cloud connectivity to Navisworks users\r\n<span style=\"font-weight: bold;\">BIM 360 Glue integration</span>\r\n<ul><li>MANAGE, SIMULATE</li><li>Share data and workflows with BIM 360 projects.</li></ul>\r\n<span style=\"font-weight: bold;\">BIM coordination with AutoCAD</span>\r\n<ul><li>MANAGE, SIMULATE</li><li>Open Navisworks files within AutoCAD</li></ul>\r\n<span style=\"font-weight: bold;\"> Clash detection in Navisworks</span>\r\n\r\n<ul><li>Clash detection and interference checking</li><li>MANAGE</li><li>View clashes in context to help find and resolve conflicts.</li></ul>\r\n<span style=\"font-weight: bold;\">BIM 360 shared views</span>\r\n<ul><li>MANAGE, SIMULATE</li><li>Create views and share using either Navisworks or BIM 360 Glue.</li></ul>\r\n\r\n<span style=\"font-weight: bold; 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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. 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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. 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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":458,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/autodesk_logo.jpeg","logo":true,"scheme":false,"title":"Autodesk Subassembly Composer","vendorVerified":0,"rating":"2.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":33,"alias":"autodesk-subassembly-composer","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"The Autodesk® Subassembly Composer for Autodesk® AutoCAD® Civil 3D® provides an interface for composing and modifying complex subassemblies, without a need for programming.","shortDescription":"The Autodesk® Subassembly Composer for Autodesk® AutoCAD® Civil 3D® provides an interface for composing and modifying complex subassemblies, without a need for programming.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Autodesk Subassembly Composer","keywords":"Autodesk®, Composer, Subassembly, subassemblies, modifying, complex, need, programming","description":"The Autodesk® Subassembly Composer for Autodesk® AutoCAD® Civil 3D® provides an interface for composing and modifying complex subassemblies, without a need for programming.","og:title":"Autodesk Subassembly Composer","og:description":"The Autodesk® Subassembly Composer for Autodesk® AutoCAD® Civil 3D® provides an interface for composing and modifying complex subassemblies, without a need for programming.","og:image":"https://old.roi4cio.com/fileadmin/user_upload/autodesk_logo.jpeg"},"eventUrl":"","translationId":458,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"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. 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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":1012,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk_Fusion_360.png","logo":true,"scheme":false,"title":"Autodesk Fusion 360","vendorVerified":0,"rating":"3.00","implementationsCount":6,"suppliersCount":0,"supplierPartnersCount":33,"alias":"autodesk-fusion-360","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \">Design </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; white-space: pre-wrap;\">Quickly iterate on design ideas with sculpting tools to explore form and modeling tools to create finishing features.</span><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \"> </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \">Engineer & simulate </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; white-space: pre-wrap;\">Test fit and motion, perform simulations, create assemblies, make photorealistic renderings and animations.</span><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \"> CAM </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; white-space: pre-wrap;\">Create toolpaths to machine your components or use the 3D printing workflow to create a prototype.</span><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \"> Collaborate & manage </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; white-space: pre-wrap;\">Bring design teams together in a hybrid environment that harnesses the power of the cloud when necessary and uses local resources when it makes sense.</span></p>","shortDescription":"Fusion 360TM is the first 3D CAD, CAM, and CAE tool of its kind. It connects your entire product development process in a single cloud-based platform that works on both Mac and PC.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Autodesk Fusion 360","keywords":"create, design, when, tools, prototype, Collaborate, manage, teams","description":"<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \">Design </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style","og:title":"Autodesk Fusion 360","og:description":"<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style=\"font-family: Verdana; font-weight: bold; white-space: pre-wrap; \">Design </span></p>\r\n<p dir=\"ltr\" style=\"line-height:1.38; margin-top:0pt; margin-bottom:0pt; \"><span style","og:image":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk_Fusion_360.png"},"eventUrl":"","translationId":1012,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":581,"title":"3D model Design","alias":"3d-model-design","description":" In 3D computer graphics, <span style=\"font-weight: bold; \">3D modeling</span> is the process of developing a mathematical representation of any surface of an object (either inanimate or living) in three dimensions via specialized software. The product is called a <span style=\"font-weight: bold; \">3D model.</span> Someone who works with 3D models may be referred to as a <span style=\"font-weight: bold; \">3D artist.</span> It can be displayed as a two-dimensional image through a process called 3D rendering or used in a computer simulation of physical phenomena. The model can also be physically created using 3D printing devices.\r\n3D modeling can be achieved manually with specialized 3D model design software, such as <span style=\"font-weight: bold; \">computer-aided design</span> (CAD) programs, that lets an artist create and deform polygonal surfaces or by scanning real-world objects into a set of data points that can be used to represent the object digitally.\r\nSoftware to create 3D models is a class of 3D computer graphics software used to produce 3D models. Individual programs of this class are called <span style=\"font-weight: bold; \">modeling applications</span> or <span style=\"font-weight: bold; \">modelers</span>.\r\nThree-dimensional (3D) models represent a physical body using a collection of points in 3D space, connected by various geometric entities such as triangles, lines, curved surfaces, etc. Being a collection of data (points and other information), 3D models can be created by hand, algorithmically (procedural modeling), or scanned. Their surfaces may be further defined with texture mapping.\r\nAlthough complex mathematical formulas are at the foundation of 3D drawing software, the programs automate computation for users and have tool-based user interfaces. 3D models are an output of 3D modeling and are based on a variety of digital representations. Boundary representation (B-rep) uses mathematically defined surfaces such as cones, spheres and NURBS (non-uniform rational basis spline) which are connected by topology to accurately represent objects as water-tight volumes. B-rep models are the preferred solution for engineering, and many 3D modeling applications for the design, simulation and manufacture of consumer and industrial products are B-rep based. \r\nVirtual 3D models can be turned into physical objects through 3D printing or traditional manufacturing processes. Models can also be converted into a static image through 3D rendering, commonly used to create photo-realistic representation for sales, marketing and eCommerce applications. 3D models can be created by the process of reverse engineering, in which 3D scanning technology is used to create digital replicas of real-world objects, including manufactured parts and assemblies, free-form models designed in clay and human anatomy. Modern 3d modeling and animation tools create and interact with a “digital twin”, which is used to develop, test, simulate and manufacture its real world counterpart as part of the product lifecycle.\r\n3D modeling is used in a wide range of fields, including engineering, architecture, entertainment, film, special effects, game development, and commercial advertising. It is an integral part of many creative careers. Engineers and architects use it to plan and design their work. Animators and game designers rely on 3D modeling tools to bring their ideas to life. And just about every Hollywood blockbuster uses 3D modeling for special effects, to cut costs, and to speed up production.\r\n\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Criteria to consider when choosing between 3D software programs</h1>\r\nThere is a wide range of 3D modeling and animation software addressing <span style=\"font-weight: bold; \">different fields of activity</span>. For instance, there is software dedicated to mechanical design, to engineering design, to civil engineering, to product design, to industrial design or to graphic design. The first thing to take into account is to select a design <span style=\"font-weight: bold; \">software targeted to your project</span>. Each field of activity has different needs. For example, a project about the creation of jewelry does not require the same 3D object software as a project of creation of aircraft models.\r\nAre you using a 3D drawing software for 3d printing, Laser Cutting or just for creating some digital art? Always take into account<span style=\"font-weight: bold; \"> the necessities of the technology</span> that you are designing for. Then, you can think: what is the <span style=\"font-weight: bold; \">budget</span> to select 3D modeling programs? If you afford to, you can pay for the required subscription. Alternatively, you can use the student license or the educational license that some design suites provide. Otherwise, there is various good quality 3D modeling app and software that is available for free and is equally good as professional options. In that case, you would like to get to know the software by downloading the limitied time and/or restricted functionality version that most vendors provide.\r\nChoose 3D design programs that are <span style=\"font-weight: bold; \">compatible with the Operating System</span> (OS) you are using, since not all the packages are meant to be used by all OS: Windows, Mac, Linux. Last but not least, choose a 3D modeling program according to your age and <span style=\"font-weight: bold; \">level of expertise.</span>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_3D_model_Design.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":1411,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Autodesk.jpg","logo":true,"scheme":false,"title":"Autodesk AutoCAD","vendorVerified":0,"rating":"3.40","implementationsCount":1,"suppliersCount":0,"supplierPartnersCount":33,"alias":"autodesk-autocad","companyTitle":"Autodesk","companyTypes":["vendor"],"companyId":180,"companyAlias":"autodesk","description":"Developed and marketed by Autodesk, AutoCAD was first released in December 1982 as a desktop app running on microcomputers with internal graphics controllers. 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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":[]}],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":["High costs of routine operations","No automated business processes"],"materials":[],"useCases":[],"best_practices":[],"values":["Reduce Costs","Enhance Staff Productivity","Ensure Compliance"],"implementations":[],"presenterCodeLng":"","productImplementations":[]}},"aliases":{},"links":{},"meta":{},"loading":false,"error":null,"useProductLoading":false,"sellProductLoading":false,"templatesById":{},"comparisonByTemplateId":{}},"filters":{"filterCriterias":{"loading":false,"error":null,"data":{"price":{"min":0,"max":6000},"users":{"loading":false,"error":null,"ids":[],"values":{}},"suppliers":{"loading":false,"error":null,"ids":[],"values":{}},"vendors":{"loading":false,"error":null,"ids":[],"values":{}},"roles":{"id":200,"title":"Roles","values":{"1":{"id":1,"title":"User","translationKey":"user"},"2":{"id":2,"title":"Supplier","translationKey":"supplier"},"3":{"id":3,"title":"Vendor","translationKey":"vendor"}}},"categories":{"flat":[],"tree":[]},"countries":{"loading":false,"error":null,"ids":[],"values":{}}}},"showAIFilter":false},"companies":{"companiesByAlias":{},"aliases":{},"links":{},"meta":{},"loading":false,"error":null},"implementations":{"implementationsByAlias":{},"aliases":{},"links":{},"meta":{},"loading":false,"error":null},"agreements":{"agreementById":{},"ids":{},"links":{},"meta":{},"loading":false,"error":null},"comparison":{"loading":false,"error":false,"templatesById":{"15":{"id":15,"title":"CAD for mechanical engineering - Computer-Aided Design"}},"comparisonByTemplateId":{},"products":[],"selectedTemplateId":null},"presentation":{"type":null,"company":{},"products":[],"partners":[],"formData":{},"dataLoading":false,"dataError":false,"loading":false,"error":false},"catalogsGlobal":{"subMenuItemTitle":""}}