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It analyzes spatial location and organizes layers of information into visualizations using maps and 3D scenes. ​With this unique capability, GIS reveals deeper insights into data, such as patterns, relationships, and situations — helping users make smarter decisions.\r\n <span style=\"font-weight: bold; \">GIS applications</span> are tools that allow users to create interactive queries (user-created searches), analyze spatial information, edit data in maps, and present the results of all these operations. GIS (more commonly GIScience) sometimes refers to geographic information science (GIScience), the science underlying geographic concepts, applications, and systems. Since the mid-1980s, geographic information systems have become valuable tool used to support a variety of city and regional planning functions.\r\nGIS can refer to a number of different technologies, processes, techniques and methods. It is attached to many operations and has many applications related to engineering, planning, management, transport/logistics, insurance, telecommunications, and business. For that reason, GIS and location intelligence applications can be the foundation for many location-enabled services that rely on analysis and visualization.\r\nGIS can relate unrelated information by using location as the key index variable. Locations or extents in the Earth space–time may be recorded as dates/times of occurrence, and x, y, and z coordinates representing, longitude, latitude, and elevation, respectively. All Earth-based spatial–temporal location and extent references should be relatable to one another and ultimately to a &quot;real&quot; physical location or extent. This key characteristic of GIS has begun to open new avenues of scientific inquiry.\r\nGeographic Information Systems are powerful decision-making tools for any business or industry since it allows the analyzation of environmental, demographic, and topographic data. Data intelligence compiled from gis software applications help companies and various industries, and consumers, make informed decisions.\r\n<span style=\"font-weight: bold; \">Mapping.</span> GIS can be used to provide a visual interpretation of data. Google Maps is an excellent example of a web-based GIS mapping solution that people use for everyday navigation purposes.\r\n<span style=\"font-weight: bold; \">Telecom and Network Services.</span> Organizations can incorporate geographic data into their complex network design, optimization, planning, and maintenance activities. This data enhances telecom processes through better customer-relationship management and location services.\r\n<span style=\"font-weight: bold; \">Environmental Impact Analysis.</span> Data gathered via GIS program is vital for conserving natural resources and protecting the environment. Impact statements assess the magnitude of human impact on the environment, which GIS integration helps indicate.\r\n <span style=\"font-weight: bold; \">Agricultural Applications.</span> Geo informatic system data helps create more efficient farming techniques, alongside analyzing soil data in an advanced fashion. This can increase food production in different parts of the world.\r\n<span style=\"font-weight: bold; \">Navigation. </span>Web-based navigation maps use geo info systemsdata to provide the public with useful information. Web maps are regularly updated per GIS information and are used consistently in everyday life.\r\n<span style=\"font-weight: bold; \">Banking.</span> Banking has evolved to become market-driven, and a bank’s success depends mainly on its ability to provide customer-driven services. GIS data plays an essential role in planning, organizing, and decision making in the banking industry.\r\n<span style=\"font-weight: bold; \">Planning and Community Development. </span>GIS data helps us understand and meet global challenges. As GIS technology rapidly advances, there are various innovative applications in the planning sector. GIS tools can be used to integrate geographic intelligence into planning processes, and have the potential to change how we think and behave.","materialsDescription":"<h1 class=\"align-center\">How does GIS work? </h1>\r\nGIS technology applies geographic science with tools for understanding and collaboration. It helps people reach a common goal: to gain actionable intelligence from all types of data.\r\n<ul><li><span style=\"font-weight: bold; \">Maps: </span>maps are the geographic container for the data layers and analytics you want to work with. GIS maps are easily shared and embedded in apps, and accessible by virtually everyone, everywhere.<span style=\"font-weight: bold; \"><br /></span></li><li><span style=\"font-weight: bold; \">Data:</span> GIS integrates many different kinds of data layers using spatial location. Most data has a geographic component. GIS data includes imagery, features, and basemaps linked to spreadsheets and tables.</li><li><span style=\"font-weight: bold; \">Analysis:</span> spatial analysis lets you evaluate suitability and capability, estimate and predict, interpret and understand, and much more, lending new perspectives to your insight and decision-making.</li><li><span style=\"font-weight: bold; \">Apps:</span> apps provide focused user experiences for getting work done and bringing GIS to life for everyone. GIS apps work virtually everywhere: on your mobile phones, tablets, in web browsers, and on desktops.</li></ul>\r\n<h1 class=\"align-center\">What are the benefits benefits of Geographic Information Systems?</h1>\r\nMany different types of information can be compared and contrasted using GIS. The geo information services can include data about people, such as population, income, or education level. It can include information about the landscape, such as the location of streams, different kinds of vegetation, and different kinds of soil. It can include information about the sites of factories, farms, and schools, or storm drains, roads, and electric power lines.\r\nWith GIS technology, people can compare the locations of different things in order to discover how they relate to each other. For example, using GIS, a single map could include sites that produce pollution, such as factories, and sites that are sensitive to pollution, such as wetlands and rivers. Such a map would help people determine where water supplies are most at risk.\r\n<h1 class=\"align-center\">What is GIS Mapping Software?</h1>\r\nGeographic information software lets you produce maps and other graphic displays of geographic information for analysis and presentation. With these capabilities a GIS is a valuable tool to visualize spatial data or to build decision support systems for use in your organization.\r\nA GIS stores data on geographical features and their characteristics. The features are typically classified as points, lines, or areas, or as raster images. On a map city data could be stored as points, road data could be stored as lines, and boundaries could be stored as areas, while aerial photos or scanned maps could be stored as raster images.\r\n<h1 class=\"align-center\">Application of Geographic Information Systems</h1>\r\nGIS can be used as tool in both problem solving and decision making processes, as well as for visualization of data in a spatial environment.&nbsp; Geospatial data can be analyzed to determine (1) the location of features and relationships to other features, (2) where the most and/or least of some feature exists, (3) the density of features in a given space, (4) what is happening inside an area of interest , (5) what is happening nearby some feature or phenomenon, and (6) and how a specific area has changed over time (and in what way).\r\n\r\n\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/GIS_-_Geographic_information_system.png","alias":"gis-geographic-information-system"},"64":{"id":64,"title":"PLM - Product Lifecycle Management","description":"<span style=\"font-weight: bold; \">Product lifecycle management,</span> sometimes &quot;product life cycle management&quot;, PLM, represents an all-encompassing vision for managing all data relating to the design, production, support and ultimate disposal of manufactured goods. Product life management concepts were first introduced where safety and control have been extremely important, notably the aerospace, medical device, military and nuclear industries. These industries originated the discipline of configuration management (CM), which evolved into electronic data management systems (EDMS), which then further evolved to product data management (PDM).\r\nOver the last ten years, manufacturers of instrumentation, industrial machinery, consumer electronics, packaged goods and other complex engineered products have discovered the benefits of PLM management and are adopting efficient PLM software in increasing numbers.\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">The PLM Stages</span></p>\r\n<span style=\"font-weight: bold; \">Beginning of Life (BOL):</span> The beginning of life phase includes all of the design and manufacturing, which consists of the initial conceptualization and development, and any prototypes built. Initial development has multiple sub-actions that identify all the requirements, concepts, and necessary testing. \r\n<span style=\"font-weight: bold; \">Middle of Life (MOL):</span> The middle of life phase is post-manufacturing, when your product is distributed, used, and serviced. At this point, your product is in the hands of the end user. You can collect data on any failures, maintenance rates, and user experience to get information for immediate fixes and future development.\r\n<span style=\"font-weight: bold; \">End of Life (EOL):</span> The end of life phase is the retiring, recycling, or disposing of your product. At this point, the reverse logistics happen for the company. EOL starts when users no longer have a need for the product. At this stage, companies collect information about what parts and materials are still valuable.\r\n<span style=\"font-weight: bold;\">Product lifecycle management software</span> is used to deliver all kinds of products to market, which means there are a lot of different providers out there. Its purpose today is to help organizations: \r\n<ol><li>Develop new products using CAD software</li><li>Produce and manufacture new products</li><li>Bring those products to market</li></ol>\r\nAnd increasingly, product life management software has to process the feedback from the market back to the design and production processes. To achieve these goals, product lifecycle management solutions have to do four things:\r\n<ul><li>Link together CAD metadata with a bill of materials</li><li>Manage workflows for organizations needed to bring products to market</li><li>Manage product data as they move through the product development lifecycle stages</li><li> Hook in auxiliary suppliers and business stakeholders to a shared version of truth or single source of truth.</li></ul>\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Top PLM System Software Requirements</h1>\r\n<span style=\"font-weight: bold; \">Bill of Materials.</span> Having a common source of information across your company is incredibly important during product development. That’s why a bill of materials (BOM) is key to include in your list of product lifecycle management requirements. At the very least, your system should provide a single definition of a particular product and its components. More advanced options include features specifically designed for different team members such as designers, engineers and other professionals who frequently&nbsp; collaborate.\r\n<span style=\"font-weight: bold; \">Computer-Aided Design Management.</span> Managing your CAD activities and documents is more than useful when it comes to PLM. Your solution should be able to manage changes to product configurations while maintaining the functional and physical attributes of a product throughout its lifecycle. Production engineering changes should proliferate throughout your processes, with the changes evident in the subsequent BOMs and plans.\r\n<span style=\"font-weight: bold; \">Manufacturing Product Management.</span> During a product’s lifecycle, you want to keep an eye on your portfolio. With portfolio management, users can determine the proper investment balance to maximize their research and development investment returns. Some systems provide strategy tools to spotlight priorities and support planning. Top PLM software can even determine the best possible investment scenario. Users can also track project progress to completion, which is automatically documented in the product record. This allows greater insight into your processes, facilitating better resource management and allocation.\r\n<span style=\"font-weight: bold; \">Product Regulation and Governance.</span> Failing to follow regulation and compliance standards is one of the quickest ways to earn your business a bad reputation. But having the right tools built into your product life management system can make staying compliant much easier than it would be otherwise. Your solution should be able to centralize relevant information and documentation, making it easier for enterprise organizations to achieve and maintain compliance.&nbsp; You also may choose a system that can comply with medical, environmental, safety, FSA and ISO standards depending on your industry.\r\n<span style=\"font-weight: bold; \">Project and Component Maintenance.</span> Project management tools are vital for providing users visibility into daily processes and progress. These features include tracking and scheduling capabilities, which enable you to manage product development along with resource allocation in real time. Users can also see upcoming milestones and constraints for further planning.\r\n<span style=\"font-weight: bold; \">Quote Process Management.</span> Data from many different sources is often needed during the quote process. PLM’s inherent coordination capabilities gather and organize data pertaining to product design to support your engineering teams. This includes teams developing engineer-to-order and configure-to-order products. The system only shares the necessary data, meaning your team members can spend more time focusing on their work and less on hunting down information. \r\n<span style=\"font-weight: bold; \">Risk Management. </span>This feature brings risks to users’ attention, allowing them to manage, report and mitigate those instabilities. Reducing risks early on prevents issues from growing as they move through product development unseen, reducing the overall cost of development. Some systems do this by “detecting” or “highlighting” risks, whereas some systems simply offer full visibility through PM tools.\r\n<span style=\"font-weight: bold;\">Workflow and Change Management.</span> Plainly said, this suite of PLM software tools gives users insight into product activities. Users can determine phases for a project, as well as assign milestones to keep projects on track. Some systems allow users to see all pending and implemented changes, as well as all items that endure the subsequent effects. This visibility extends to portfolio and resource management, also.\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/PLM_-_Product_Lifecycle_Management.png","alias":"plm-product-lifecycle-management"},"780":{"id":780,"title":"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 />&nbsp;<br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.png","alias":"cad-for-architecture-and-construction-computer-aided-design"}},"branches":"Information Technology","companySizes":"More than 2000 Employees","companyUrl":"https://www.bentley.com","countryCodes":["ARE","AUT","AUS","BEL","BRA","CAN","CHE","CHN","CZE","DEU","ESP","GBR","IRL","IND","ITA","JPN","KOR","LTU","MEX","MYS","NLD","NOR","NZL","PHL","PAK","POL","PRT","ROU","SAU","SWE","SGP","SVK","TUR","USA","ZAF"],"partnerTypes":"Distributor and Reseller","certifications":[],"isSeller":true,"isSupplier":false,"isVendor":true,"presenterCodeLng":"","seo":{"title":"Bentley Systems","keywords":"Bentley, that, asset, work, infrastructure, needs, Systems, engineers","description":"At its core, Bentley Systems is a software development company that supports the professional needs of those responsible for creating and managing the world’s infrastructure, including roadways, bridges, airports, skyscrapers, industrial and power plants as we","og:title":"Bentley Systems","og:description":"At its core, Bentley Systems is a software development company that supports the professional needs of those responsible for creating and managing the world’s infrastructure, including roadways, bridges, airports, skyscrapers, industrial and power plants as we","og:image":"https://old.roi4cio.com/uploads/roi/company/benltey.jpeg"},"eventUrl":"","vendorPartners":[],"supplierPartners":[{"supplier":"MONT","partnershipLevel":"Distributor","countries":"Russian Federation","partnersType":"Distributor and Reseller"}],"vendoredProducts":[{"id":5918,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/AssetWise_CONNECTEdition_Logo.jpg","logo":true,"scheme":false,"title":"AssetWise","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"assetwise","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"Intelligently plan and implement asset performance and reliability strategies. AssetWise provides informed decision support from capital planning through proactive asset maintenance, enabling you to mitigate risk, increase operational efficiency, and ensure regulatory compliance. With improved information flow and interoperability you can collect, analyze, and control relevant asset information. AssetWise delivers actionable information that supports your business processes and drives the performance of your infrastructure assets.\r\nAligned with BIM, PAS, and ISO asset management standards, AssetWise leverages a connected data environment to facilitate the interoperation of multiple data sources, providing a common view of data that delivers accurate and reliable information when it is needed to operations, maintenance, and engineering. With AssetWise CONNECT Edition, your organization can maximize collaboration by communicating critical requirements more effectively across IT, OT, and ET disciplines, and across the entire lifecycle of your assets. Multi-phase deployment allows you to spread investment over time, minimizing operational disruptions.<br /><br />With AssetWise Asset Reliability you can:\r\n<ul><li>Identify assets posing the greatest risk to your business and rank assets by failure consequence and relative risk</li></ul>\r\n<ul><li>View asset condition data and trends in an asset health dashboard to analyze and strategically plan inspections and maintenance</li></ul>\r\n<ul><li>Perform asset condition analytics for linear assets to enhance predictive maintenance and planning</li></ul>\r\n<ul><li>Provide proof of regulatory compliance with historical and real-time condition reports</li></ul>\r\n<ul><li>Manage assets spread across a wide geographic area with a solution that supports your mobile workforce</li></ul>\r\n<ul><li>Optimize worker safety by minimizing unplanned outages, preventing catastrophic failure, and maximizing worker engagement in the field</li></ul>","shortDescription":"AssetWise: Ensuring safe, reliable, compliant, and cost-effective operations","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"AssetWise","keywords":"","description":"Intelligently plan and implement asset performance and reliability strategies. AssetWise provides informed decision support from capital planning through proactive asset maintenance, enabling you to mitigate risk, increase operational efficiency, and ensure re","og:title":"AssetWise","og:description":"Intelligently plan and implement asset performance and reliability strategies. AssetWise provides informed decision support from capital planning through proactive asset maintenance, enabling you to mitigate risk, increase operational efficiency, and ensure re","og:image":"https://old.roi4cio.com/fileadmin/user_upload/AssetWise_CONNECTEdition_Logo.jpg"},"eventUrl":"","translationId":5918,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":417,"title":"Product Life-Cycle Management Applications","alias":"product-life-cycle-management-applications","description":"","materialsDescription":"","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Product_Life_Cycle_Management_Applications.png"},{"id":64,"title":"PLM - Product Lifecycle Management","alias":"plm-product-lifecycle-management","description":"<span style=\"font-weight: bold; \">Product lifecycle management,</span> sometimes &quot;product life cycle management&quot;, PLM, represents an all-encompassing vision for managing all data relating to the design, production, support and ultimate disposal of manufactured goods. Product life management concepts were first introduced where safety and control have been extremely important, notably the aerospace, medical device, military and nuclear industries. These industries originated the discipline of configuration management (CM), which evolved into electronic data management systems (EDMS), which then further evolved to product data management (PDM).\r\nOver the last ten years, manufacturers of instrumentation, industrial machinery, consumer electronics, packaged goods and other complex engineered products have discovered the benefits of PLM management and are adopting efficient PLM software in increasing numbers.\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">The PLM Stages</span></p>\r\n<span style=\"font-weight: bold; \">Beginning of Life (BOL):</span> The beginning of life phase includes all of the design and manufacturing, which consists of the initial conceptualization and development, and any prototypes built. Initial development has multiple sub-actions that identify all the requirements, concepts, and necessary testing. \r\n<span style=\"font-weight: bold; \">Middle of Life (MOL):</span> The middle of life phase is post-manufacturing, when your product is distributed, used, and serviced. At this point, your product is in the hands of the end user. You can collect data on any failures, maintenance rates, and user experience to get information for immediate fixes and future development.\r\n<span style=\"font-weight: bold; \">End of Life (EOL):</span> The end of life phase is the retiring, recycling, or disposing of your product. At this point, the reverse logistics happen for the company. EOL starts when users no longer have a need for the product. At this stage, companies collect information about what parts and materials are still valuable.\r\n<span style=\"font-weight: bold;\">Product lifecycle management software</span> is used to deliver all kinds of products to market, which means there are a lot of different providers out there. Its purpose today is to help organizations: \r\n<ol><li>Develop new products using CAD software</li><li>Produce and manufacture new products</li><li>Bring those products to market</li></ol>\r\nAnd increasingly, product life management software has to process the feedback from the market back to the design and production processes. To achieve these goals, product lifecycle management solutions have to do four things:\r\n<ul><li>Link together CAD metadata with a bill of materials</li><li>Manage workflows for organizations needed to bring products to market</li><li>Manage product data as they move through the product development lifecycle stages</li><li> Hook in auxiliary suppliers and business stakeholders to a shared version of truth or single source of truth.</li></ul>\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Top PLM System Software Requirements</h1>\r\n<span style=\"font-weight: bold; \">Bill of Materials.</span> Having a common source of information across your company is incredibly important during product development. That’s why a bill of materials (BOM) is key to include in your list of product lifecycle management requirements. At the very least, your system should provide a single definition of a particular product and its components. More advanced options include features specifically designed for different team members such as designers, engineers and other professionals who frequently&nbsp; collaborate.\r\n<span style=\"font-weight: bold; \">Computer-Aided Design Management.</span> Managing your CAD activities and documents is more than useful when it comes to PLM. Your solution should be able to manage changes to product configurations while maintaining the functional and physical attributes of a product throughout its lifecycle. Production engineering changes should proliferate throughout your processes, with the changes evident in the subsequent BOMs and plans.\r\n<span style=\"font-weight: bold; \">Manufacturing Product Management.</span> During a product’s lifecycle, you want to keep an eye on your portfolio. With portfolio management, users can determine the proper investment balance to maximize their research and development investment returns. Some systems provide strategy tools to spotlight priorities and support planning. Top PLM software can even determine the best possible investment scenario. Users can also track project progress to completion, which is automatically documented in the product record. This allows greater insight into your processes, facilitating better resource management and allocation.\r\n<span style=\"font-weight: bold; \">Product Regulation and Governance.</span> Failing to follow regulation and compliance standards is one of the quickest ways to earn your business a bad reputation. But having the right tools built into your product life management system can make staying compliant much easier than it would be otherwise. Your solution should be able to centralize relevant information and documentation, making it easier for enterprise organizations to achieve and maintain compliance.&nbsp; You also may choose a system that can comply with medical, environmental, safety, FSA and ISO standards depending on your industry.\r\n<span style=\"font-weight: bold; \">Project and Component Maintenance.</span> Project management tools are vital for providing users visibility into daily processes and progress. These features include tracking and scheduling capabilities, which enable you to manage product development along with resource allocation in real time. Users can also see upcoming milestones and constraints for further planning.\r\n<span style=\"font-weight: bold; \">Quote Process Management.</span> Data from many different sources is often needed during the quote process. PLM’s inherent coordination capabilities gather and organize data pertaining to product design to support your engineering teams. This includes teams developing engineer-to-order and configure-to-order products. The system only shares the necessary data, meaning your team members can spend more time focusing on their work and less on hunting down information. \r\n<span style=\"font-weight: bold; \">Risk Management. </span>This feature brings risks to users’ attention, allowing them to manage, report and mitigate those instabilities. Reducing risks early on prevents issues from growing as they move through product development unseen, reducing the overall cost of development. Some systems do this by “detecting” or “highlighting” risks, whereas some systems simply offer full visibility through PM tools.\r\n<span style=\"font-weight: bold;\">Workflow and Change Management.</span> Plainly said, this suite of PLM software tools gives users insight into product activities. Users can determine phases for a project, as well as assign milestones to keep projects on track. Some systems allow users to see all pending and implemented changes, as well as all items that endure the subsequent effects. This visibility extends to portfolio and resource management, also.\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/PLM_-_Product_Lifecycle_Management.png"},{"id":377,"title":"IT Asset Management","alias":"it-asset-management","description":" IT asset management is the set of business practices that join financial, contractual and inventory functions to support life cycle management and strategic decision making for the IT environment. Assets include all elements of software and hardware that are found in the business environment.\r\nIT asset management generally uses automation to manage the discovery of assets so inventory can be compared to license entitlements. Full business management of IT assets requires a repository of multiple types of information about the asset, as well as integration with other systems such as supply chain, help desk, procurement and HR systems and ITSM.\r\nHardware asset management entails the management of the physical components of computers and computer networks, from acquisition through disposal. Common business practices include request and approval process, procurement management, life cycle management, redeployment and disposal management. A key component is capturing the financial information about the hardware life cycle which aids the organization in making business decisions based on meaningful and measurable financial objectives.\r\nSoftware Asset Management is a similar process, focusing on software assets, including licenses. Standards for this aspect of data center management are part of ISO/IEC 19770.","materialsDescription":" <span style=\"font-weight: bold;\">What is Information Technology Asset Management?</span>\r\nIT asset management (information technology asset management, or ITAM) is a set of business practices that combines financial, inventory and contractual functions to optimize spending and support lifecycle management and strategic decision-making within the IT environment.\r\n<span style=\"font-weight: bold;\">What is the purpose of IT asset management?</span>\r\nAsset management allows the organization to keep track of all their assets. It can tell where the assets are located, how they are used, and when changes were made to them. The data from the asset management solution can ensure that asset recovery will lead to better returns.\r\n<span style=\"font-weight: bold;\">What are the benefits of asset management?</span>\r\nWith a structure asset management framework in place, organizations will realize these and other benefits:\r\nGood Business Practice. Asset management results in better decisions;\r\n<ul><li>Improved Regulatory Compliance;</li><li>Improved Reliability;</li><li>Long Term System Integrity;</li><li>Cost Savings;</li><li>Eligibility for Federal Funding.</li></ul>\r\n<span style=\"font-weight: bold;\">What are the types of asset management?</span>\r\nThere are 7 types of asset management:\r\n<ul><li>Financial Asset Management.</li><li>Enterprise Asset Management.</li><li>Infrastructure Asset Management.</li><li>Public Asset Management.</li><li>IT Asset Management.</li><li>Fixed Assets Management.</li><li>Digital Asset Management.</li></ul>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_IT_Asset_Management.png"},{"id":285,"title":"Operations and Manufacturing Applications","alias":"operations-and-manufacturing-applications","description":" Manufacturing operations management (MOM) is a collection of systems for managing end-to-end manufacturing processes with a view to optimizing efficiency.\r\nThere are many types of MOM software, including production management, performance analysis, quality and compliance, and human-machine interface (HMI). Production management software provides real-time information about jobs and orders, labor and materials, machine status, and product shipments. Performance analysis software displays metrics at the machine, line, plant, and enterprise-level for situational or historical analysis. Quality and compliance software are used to promote compliance with standards and specifications for operational processes and procedures. HMI software is a form of manufacturing operations management (MOM) software that enables operators to manage industrial and process control machinery using a computer-based interface.\r\nAdvancements in technology and market demands are enabling new capabilities in MOM software platforms, gradually closing gaps in end-user needs.\r\n<ul><li>Collaboration Capabilities: Collaboration and workflow services support people-to-people, people-to-systems, and systems-to-systems interactions, enforcing procedures and rules while flexibly adapting to real-time situations with alternate workflows and processes.</li><li>Security Services: Future manufacturing platforms will leverage common security services that determine roles, responsibilities, authorities, and access across all systems and application functions while fitting into corporate IT security schemes.</li><li>Asset &amp; Production Model: Future manufacturing platforms will have a unified asset and production model that supports all of the interrelationships between physical production equipment, facilities, inventory/materials, and people, as well as production definitions such as the manufacturing bill of materials, productions orders, etc. This contrasts with older systems that either had subsets of these interrelationships across multiple databases or could not effectively deal with federating across multiple systems of record.</li><li>Operations Database &amp; Historians: Evolving from older systems that had separate historians and production databases that were difficult to correlate across, service-based platforms will have a unified operations database and historian. This will capture and aggregate all time-series and production event information surrounding everything involved in each product and production run with a full genealogy of components and materials, related performance information, and federation across other systems and devices of record.</li><li>Visualization and Mobility: Today, different MOM applications support different graphical user interfaces, Web interfaces, specific mobile applications, etc. The future manufacturing platform will provide common visualization and mobility for a consistent user interface experience across different form factors, supporting dedicated and mobile workers that are orchestrated by consistent workflows and procedures.</li><li>Smaller and Focused 'Apps': Today’s monolithic systems and applications have too many interdependencies of databases, operate inconsistently, and are not inherently integrated. Being able to take advantage of many of the common software platform services described above, modular apps will be significantly smaller, simpler, and focused. These apps will be much lighter weight in functionality, and, as a result, significantly easier and faster to develop.</li></ul>","materialsDescription":" <span style=\"font-weight: bold;\">What is a manufacturing operating system?</span>\r\nA Manufacturing Execution System manages manufacturing operations such as product production rules, bill of materials, recipe data (product definition), resource management, scheduling, work batching (JiT Just in Time manufacturing), production data/logs, production performance, and some analysis.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Operations_and_Manufacturing_Applications_1_.png"},{"id":166,"title":"MES - Manufacturing Execution System","alias":"mes-manufacturing-execution-system","description":"<span style=\"font-weight: bold; \">Manufacturing execution systems (MES)&nbsp;</span> are computerized systems used in manufacturing, to track and document the transformation of raw materials to finished goods. MES software provides information that helps manufacturing decision makers understand how current conditions on the plant floor can be optimized to improve production output. Manufacturing execution solutions work in real time to enable the control of multiple elements of the production process (e.g. inputs, personnel, machines and support services).\r\nThe idea of&nbsp; Execution System might be seen as an intermediate step between, on the one hand, an enterprise resource planning (ERP) system, and a supervisory control and data acquisition (SCADA) or process control system on the other; although historically, exact boundaries have fluctuated. Industry groups such as MESA International— Manufacturing Enterprise Solutions Association were created in the early 1990s in order to address the complexity, and advise on execution, of MES Systems.\r\n<span style=\"color: rgb(97, 97, 97); \">Manufacturing execution software comes with a whole bunch of concepts and terms that help provide a better understanding of what they actually are. Here are some of the more common terms and concepts associated with MES:</span>\r\n<ul><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Enterprise resource planning (ERP) system</span>— strategic business process management tools that integrate all facets of an enterprise into one comprehensive information system that can be accessed by individuals across an entire organization.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">MESA-11</span>— published in 1997, this model — created by the Manufacturing Enterprise Solutions Association (MESA)— indicated the 11 core functions of a standard MES.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">ANSI/ISA-95 standard </span>— created for global manufacturers by the International Society of Automation, this is a standard set of guidelines for developers to follow when creating software that automatically links enterprise systems—like ERP—and control systems.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Overall equipment effectiveness (OEE)</span> — a general unit of measure that evaluates how well a machine works compared to its full potential.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Supervisory Control and Data Acquisition (SCADA) </span>— a system of software and hardware elements that allows manufacturers to maintain efficiency, process data for smarter decisions, and communicate system issues to help reduce downtime.</span></li></ul>\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \"><span style=\"color: rgb(97, 97, 97); \">Core MES Functionality</span></span></p>\r\n<ul><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Operations management.</span> Offer employees a global view of planned production orders and their production routing. <br /></span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Dispatching production units.</span> Manage the bidirectional flow of production data in real time between the ERP and the workshop. This ensures production data is always accurate, consistent, and up to date.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Product tracking and genealogy.</span> Group final parts or batches with all their corresponding manufacturing data—from the raw material to the component assembly. This data is especially useful for manufa</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Labor management.</span> Manages people, products, and/or operations and track any skills or authorizations they require.<br /></span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Quality management.</span> Manages the quality of manufacturing process and units. This function can be integrated directly into the Manufacturing execution system software or can use external software.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Maintenance management.</span> More easily and accurately plans preventative machine maintenance to reduce downtime and production interruptions.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Data collection and acquisition.</span> Tracks and gathers essential data and easily recall that data when needed.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Process management.</span> Provides process routing and operational sequencing—including full production traceability.</span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Performance analysis.</span> Consolidates data to calculate key performance indicators (KPIs) like rework, scrap, process capability, OEE, and more. <br /></span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Document control.</span> Provides a simple way for operators to access important documents—including instructions, drawings, notes, and more—when they need them. <br /></span></li><li><span style=\"color: rgb(97, 97, 97); \"><span style=\"font-weight: bold; \">Resource allocation and status.</span> Defines and tracks the status of resources and how they are used in the production process.</span></li></ul>\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Is an MES right for my business?</h1>\r\n<p class=\"align-left\">There are plenty of benefits—including increased productivity, improved data capture, real-time visibility into your operations, an optimized workforce, and more. MES manufacturing software provides materials traceability, which is invaluable for manufacturers that must adhere to strict regulations. Manufacturers in the food and beverage, medical device, aeronautics and aerospace, and defense industries require this traceability to ensure they are compliant with regulations.</p>\r\n<p class=\"align-left\">However, manufacturing enterprise system isn’t for everyone. Smaller manufacturers may find that their production operations aren’t large enough to justify an additional software system like an MES. Additionally, they may feel that their profit margins don’t allow for this type of investment. Like any piece of technology, you have to weigh your options and decide if an MES is worth it for your manufacturing enterprise.</p>\r\n<h1 class=\"align-center\">How do MES and ERP systems work together?</h1>\r\n&nbsp;ERP and MES systems play separate but complementary roles in manufacturing operations. ERP systems integrate all facets of an enterprise into one comprehensive information system. For example, employees in planning and scheduling have access to the same data as the staff in financial management. All the data is also available in real time, which enables production managers to make faster, more informed business decisions.Meanwhile, MES is the layer between your manufacturing shop floor systems—like machines and supervisory systems—and your business, planning, and logistics systems—basically, your ERP solution. \r\nMES and ERP integrate with each other to provide a single source of truth throughout your organization. ERP systems can show you that you might need to improve your production output—MES management shows you how.\r\n<h1 class=\"align-center\">What should I be careful about as I pursue my MES strategy? </h1>\r\nKnow what you need. Know your own best-practices requirements. Know your production hardware and equipment inside out so you can be sure that it can be monitored and controlled by a prospective MES vendor's products. Don't believe every claim you hear from an MES software vendor. Ask them to prove their claims by checking with clients who've installed their applications and are seeing them work every day.\r\nKnow the vendor's responsibilities to uptime, production needs, tech support, training, and every other conceivable detail before you sign a contract. Know the answer to your question before you even ask the vendor, because you already did the research and know it from every angle. Be sure your prospective vendors value your critical business processes as much as their own before you put your factories and production into their hands.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/MES_-_Manufacturing_Execution_System1.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]},{"id":6754,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png","logo":true,"scheme":false,"title":"ContextCapture","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"contextcapture","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"<h3>Reality Modeling Software</h3>\r\nWith ContextCapture, you can quickly produce even the most challenging 3D models of existing conditions for infrastructure projects of all types, derived from simple photographs and/or point clouds. Without the need for expensive, specialized equipment, you can quickly create and use these highly detailed, 3D reality meshes to provide precise real-world context for design, construction, and operations decisions for use throughout the lifecycle of a project. \r\nHybrid processing in ContextCapture enables the creation of engineering-ready reality meshes that incorporate the best of both worlds – the versatility and convenience of high-resolution photography supplemented, where needed, by additional accuracy of point clouds from laser scanning.\r\nDevelop precise reality meshes affordably with less investment of time and resources in specialized acquisition devices and associated training. You can easily produce 3D models using up to 300 gigapixels of photos taken with an ordinary camera and/or 3 billion points from a laser scanner, resulting in fine details, sharp edges, and geometric accuracy. Dramatically reduce processing time with the ability to run two ContextCapture instances in parallel on a single project.<br /><br />Extend your capabilities to extract value from reality modeling data with ContextCapture Editor, a 3D CAD module for editing and analyzing reality data, included with ContextCapture. ContextCapture Editor enables fast and easy manipulation of meshes of any scale as well as the generation of cross sections, extraction of ground and breaklines, and production of orthophotos, 3D PDFs, and iModels. You can integrate your meshes with GIS and engineering data to enable the intuitive search, navigation, visualization, and animation of that information within the visual context of the mesh to quickly and efficiently support the design process. <br /><br />To explore the ContextCapture model on a desktop computer, click the middle mouse button to rotate, the right button to pan, and the scroll wheel or the left button to zoom. On a touch device, simply pinch and twist too rotate and pinch to zoom. Additional commands for measuring and display styles are available from the menu at the top right corner of the window.","shortDescription":"Create 3D models from simple photographs and/or point clouds ","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"ContextCapture","keywords":"","description":"<h3>Reality Modeling Software</h3>\r\nWith ContextCapture, you can quickly produce even the most challenging 3D models of existing conditions for infrastructure projects of all types, derived from simple photographs and/or point clouds. Without the need for expe","og:title":"ContextCapture","og:description":"<h3>Reality Modeling Software</h3>\r\nWith ContextCapture, you can quickly produce even the most challenging 3D models of existing conditions for infrastructure projects of all types, derived from simple photographs and/or point clouds. Without the need for expe","og:image":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png"},"eventUrl":"","translationId":6754,"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 />&nbsp;<br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]},{"id":6780,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png","logo":true,"scheme":false,"title":"RAM","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"programmnoe-obespechenie-ram","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"Easily produce high quality and economical designs for all your structural projects using various concrete, steel, and joist building materials. Design, analyze, and create documentation with ease for your building projects, saving time and money. Maximize your software investment with one fully integrated application suite offering complete building analysis, design, and drafting for both steel and concrete structures. Increase your productivity by eliminating tedious and time consuming tasks with RAM’s practical applications. Design anything from individual components to large-scale buildings and foundations.\r\nBrand RAM includes such products:\r\n<ul><li><span style=\"font-weight: bold;\">Structural WorkSuite.</span> Use what you want, when you want it, with our most comprehensive suite of trusted structural analysis and design applications like STAAD and RAM.</li><li><span style=\"font-weight: bold;\">RAM Structural System.</span> Tackle projects with confidence and quickly produce high quality and economical designs, using various concrete, steel, and joist building materials.</li><li><span style=\"font-weight: bold;\">RAM Connection.</span> Analyze and design of any connection type and verify your connections in seconds, all with comprehensive calculations, including seismic compliance.</li><li><span style=\"font-weight: bold;\">RAM Elements. </span>Perform analysis and design – including 3D finite element analysis – of almost any type of structure or structural component, in one affordable application.</li><li><span style=\"font-weight: bold;\">RAM Concept.</span> Economically design concrete slabs, mats, and rafts with exceptional visibility into compliance, efficiency, and practicality.</li><li><span style=\"font-weight: bold;\">RAM SBeam Virtuoso Subscription.</span> A specialized desktop application for the design of steel beams and joists.</li></ul>\r\n\r\n","shortDescription":"Works like an engineer thinks: Structural Design Software for Buildings ","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"RAM","keywords":"","description":"Easily produce high quality and economical designs for all your structural projects using various concrete, steel, and joist building materials. Design, analyze, and create documentation with ease for your building projects, saving time and money. Maximize you","og:title":"RAM","og:description":"Easily produce high quality and economical designs for all your structural projects using various concrete, steel, and joist building materials. Design, analyze, and create documentation with ease for your building projects, saving time and money. Maximize you","og:image":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png"},"eventUrl":"","translationId":6780,"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 />&nbsp;<br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]},{"id":6782,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png","logo":true,"scheme":false,"title":"RAM Concept","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"ram-concept","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"<h3 class=\"align-center\">Concrete Slab Design Software</h3>\r\nEconomically design post-tensioned and reinforced concrete floors including slabs, mats, and rafts, with exceptional visibility into compliance, efficiency, and practicality. Design floors and foundations reliably and efficiently, saving time and money, and overcoming the most common concerns you face as a designer. RAM Concept allows you to easily design complex floor geometries and incorporate changes with ease using powerful task automation and clearly organized output. \r\n<h3 class=\"align-center\">Capabilities </h3>\r\n<ul><li><span style=\"font-weight: bold;\">Design post-tensioned and conventional concrete floors.</span> Design elevated concrete slabs with or without post-tensioning. Consider all major aspects of slab design, including service, ductility, and strength limit states, punching shear requirements, long-term deflections, and walking vibration.</li><li><span style=\"font-weight: bold;\">Design raft or mat foundations to international standards.</span> Design raft or mat foundations using soil springs and a zero-tension analysis. Confidently complete your designs with the extensive support of international standards.</li><li><span style=\"font-weight: bold;\">Analyze gravity, lateral, and temperature loads.</span> Design and analyze simple or complex concrete floors for a wide range of loading conditions, including skip live loads, wind/seismic loads, and temperature loads.</li><li><span style=\"font-weight: bold;\">Optimize post-tensioned concrete floor designs.</span> Optimize the design of post-tensioning, reinforcement, and studded shear reinforcement for post-tensioned concrete floors using a cloud-based optimization feature. Save hours of engineering time by eliminating the need for tedious manual iteration. Let the optimizer sort through thousands of design alternatives and have confidence that your post-tensioned design has reduced material and labor costs.</li><li><span style=\"font-weight: bold;\">Integrate with RAM Structural System.</span>Transfer floor or raft/mat foundation geometry and loading, including lateral load effects, from RAM Structural System. Export reactions, including post-tensioning effects, to RAM Structural System for column design.</li><li><span style=\"font-weight: bold;\">Analyze deflections for time-dependent effects.</span> Capture the time-varying properties of concrete in your analysis. Account for creep, shrinkage, and cracking at various time stages in the analysis, accurately predicting deflections with consideration for how concrete truly behaves.</li><li><span style=\"font-weight: bold;\">Analyze floors for walking vibration.</span> Study dynamic behavior, including resonant and impulsive effects, of simple and complex concrete floors due to walking vibration. Evaluate sensitivity criteria for occupants or sensitive equipment.</li></ul>","shortDescription":"Your go-to concrete slab and foundation design workhorse ","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"RAM Concept","keywords":"","description":"<h3 class=\"align-center\">Concrete Slab Design Software</h3>\r\nEconomically design post-tensioned and reinforced concrete floors including slabs, mats, and rafts, with exceptional visibility into compliance, efficiency, and practicality. Design floors and founda","og:title":"RAM Concept","og:description":"<h3 class=\"align-center\">Concrete Slab Design Software</h3>\r\nEconomically design post-tensioned and reinforced concrete floors including slabs, mats, and rafts, with exceptional visibility into compliance, efficiency, and practicality. Design floors and founda","og:image":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png"},"eventUrl":"","translationId":6782,"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 />&nbsp;<br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]},{"id":6642,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png","logo":true,"scheme":false,"title":"Legion Simulator","vendorVerified":1,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"legion-simulator","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"<h1 class=\"align-center\">Simulation Software </h1>\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Generate simulations with predictive capacity across a wide range of scenarios and explore how pedestrians and crowds interact with infrastructure.</span></span>\r\nPerform virtual experiments on the design and operation of a site and assess the impact of different levels of pedestrian demand. With sophisticated modeling, analysis, and presentation capabilities for projects ranging from airports to train stations to sports venues, LEGION Simulator helps enhance pedestrian flow and improve safety by allowing the users to test evacuation strategies at any point of the simulations.\r\n<span style=\"font-weight: bold; \">Scientifically Validated: </span>Based on extensive scientific research of pedestrians’ behavior in real contexts. Algorithms are patented, and simulation results have been validated against empirical measurements and qualitative studies.\r\n<span style=\"font-weight: bold; \">Interoperable:</span> Integrate with other applications to understand interaction among pedestrians and vehicles and individuals' reaction to temperature and other variables.\r\n<span style=\"font-weight: bold; \">Accurate Reporting:</span> Export and report clear outputs via maps, graphs, and videos to accurately inform stakeholders about crowd density, evacuation, space utilization, social cost, and preferred paths over time. \r\n<h1 class=\"align-center\">Capabilities</h1>\r\n<ul><li><span style=\"font-weight: bold;\">Analyze Simulations</span></li></ul>\r\nSet up and run user-defined analyzes and generate rich outputs based on a variety of metrics.\r\n<ul><li><span style=\"font-weight: bold;\">Record and Playback Simulations</span></li></ul>\r\nRecord and play back parts of a simulation, or run a new simulation.\r\n<ul><li><span style=\"font-weight: bold;\">Simulate Movement</span></li></ul>\r\nMimic all aspects of an individual’s movement including personal preferences, surrounding awareness, spatial restrictions, and perception of behaviors.\r\n<ul><li><span style=\"font-weight: bold;\">Visualize Simulations</span></li></ul>\r\nView simulations in various speeds, zoom in/out, pause/restart, and export for analysis. Simplified and automated analyzes speed the analysis stage of a project to reduce risk.<br /><br />\r\n<div id=\"CarouselDescription\" class=\"carousel-description\">\r\n<div class=\"jwplayer-slider\" style=\"visibility: visible; \"><div class=\"flex-viewport\" style=\"overflow: hidden; position: relative; \"><ul class=\"slides\" style=\"width: 1000%; transition-duration: 0s; transform: translate3d(0px, 0px, 0px); \"><li class=\"active\" style=\"width: 159.667px; float: left; display: block; \"> </li></ul>\r\n\r\n\r\n","shortDescription":"Simulate People Movement and Test Space Performance to Deliver Fit-for-Purpose Infrastructure ","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Legion Simulator","keywords":"","description":"<h1 class=\"align-center\">Simulation Software </h1>\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Generate simulations with predictive capacity across a wide range of scenarios and explore how pedestrians and crowds interact with inf","og:title":"Legion Simulator","og:description":"<h1 class=\"align-center\">Simulation Software </h1>\r\n<span style=\"font-style: italic; \"><span style=\"font-weight: bold; \">Generate simulations with predictive capacity across a wide range of scenarios and explore how pedestrians and crowds interact with inf","og:image":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png"},"eventUrl":"","translationId":6642,"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 />&nbsp;<br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.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&amp;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 &amp; 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":6645,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png","logo":true,"scheme":false,"title":"OpenBuildings Station Designer","vendorVerified":1,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":1,"alias":"openbuildings-station-designer","companyTitle":"Bentley Systems","companyTypes":["vendor"],"companyId":2776,"companyAlias":"bentley-systems","description":"<h1 class=\"align-center\">Multi-Discipline Rail Station Design and Pedestrian Simulation </h1>\r\nOpenBuildings Station Designer improves design quality by optimizing the functional space layout of the station building and the path of travel for the pedestrian. Design, analyze, visualize, and simulate rail and metro stations of any size, form, and complexity. Create pedestrian simulation scenarios to improve the quality of your station design and facility operations.\r\nOpenBuildings Station Designer provides building information modeling (BIM) advancements so you can deliver station design projects faster and with greater confidence in your design, workflow, capabilities, and deliverables.&nbsp; Effectively communicate design intent and eliminate barriers between building disciplines and geographically distributed teams.\r\n<span style=\"font-weight: bold; \">Multi-discipline:</span> Increase collaboration among architects, mechanical, electrical, and structural engineers with a shared set of tools and workflows\r\n<span style=\"font-weight: bold; \">Interoperability:</span> Integrate information you have from multiple formats and easily work on projects of any size\r\nInformation-rich deliverables: Clearly communicate your design intent with reliable deliverables that you can easily customize\r\n<span style=\"font-weight: bold; \">Unrestrictive design environment:</span> Model anything with total freedom from stations with simple to highly complex geometry and designs\r\n<span style=\"font-weight: bold; \">Building performance:</span> Simulate station buildings and predict real-world performance of the asset quickly and with precision to explore various options for iterative refinement\r\n<h1 class=\"align-center\">Capabilities</h1>\r\n<ul><li><span style=\"font-weight: bold;\">Analyze building system performance</span></li></ul>\r\nSimulate real-world performance and evaluate building system performances so you can quickly discover the best design choices. Inform early design decisions with conceptual energy analysis that provides peak loads, annual energy calculations, energy consumptions, carbon emissions, and fuel costs.\r\n<ul><li><span style=\"font-weight: bold;\">Collaborate across multi-discipline teams</span></li></ul>\r\nCollaborate across multiple disciplines with tools for architectural, electrical, mechanical, and structural systems design in one application. Coordinate your designs better thanks to a common design environment and a streamlined workflow. Resolve clashes with built-in clash detection and share mark-ups of models and documentation across teams to reduce project errors.\r\n<ul><li><span style=\"font-weight: bold;\">Design mechanical, electrical and plumbing systems</span></li></ul>\r\nDesign complex MEP systems. Model fully parametric air-handling, piping, and plumbing systems. Design lighting, power, fire-detection, and other electrical subsystems.\r\n<ul><li><span style=\"font-weight: bold;\">Design station building structures</span></li></ul>\r\nModel steel, concrete, and timber structures from walls, foundations, and columns to other structural components. Produce plans, framing layouts, sections, and elevations. Integrate with detailing applications, including Bentley's ProStructures.\r\n<ul><li><span style=\"font-weight: bold;\">Design stations and facilities</span></li></ul>\r\nDevelop and design buildings and facilities of any size and complexity with comprehensive architectural capabilities. Produce coordinated architectural documentation directly from the building model. Create floor plans, sections, elevations, and schedules for any architectural component.<br /><br />","shortDescription":"Design, Analyze, Visualize, and Simulate Rail and Metro Stations ","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":0,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"OpenBuildings Station Designer","keywords":"","description":"<h1 class=\"align-center\">Multi-Discipline Rail Station Design and Pedestrian Simulation </h1>\r\nOpenBuildings Station Designer improves design quality by optimizing the functional space layout of the station building and the path of travel for the pedestrian. D","og:title":"OpenBuildings Station Designer","og:description":"<h1 class=\"align-center\">Multi-Discipline Rail Station Design and Pedestrian Simulation </h1>\r\nOpenBuildings Station Designer improves design quality by optimizing the functional space layout of the station building and the path of travel for the pedestrian. D","og:image":"https://old.roi4cio.com/fileadmin/user_upload/bentley_systems.png"},"eventUrl":"","translationId":6645,"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&amp;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 &amp; 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":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 />&nbsp;<br /><br /><br /></p>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_CAD.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&rsquo;s advanced parametric 3D modeling capabilities allow infrastructure professionals of any discipline to deliver data-driven, BIM-ready models. &nbsp;Your team can aggregate their work on MicroStation, including designs and models created with Bentley&rsquo;s discipline specific BIM applications. As a result, you can create comprehensive, multi-discipline BIM models, documentation, and other deliverables. Since your project team will work in a universal modeling application, they can communicate easily to share intelligent deliverables and maintain the full integrity of your data.</p>\r\n<p>MicroStation and all Bentley BIM applications are built on the same comprehensive modeling platform. You therefore can easily progress your MicroStation work into discipline specific workflows with Bentley&rsquo;s design and analytical modeling BIM applications. With this flexibility, each member of your project team has exactly the right application for the work they need to do.</p>\r\n","shortDescription":"MicroStation’s advanced parametric 3D modeling capabilities allow infrastructure professionals of any discipline to deliver data-driven, BIM-ready models.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":0,"sellingCount":11,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"MicroStation","keywords":"your, modeling, work, MicroStation, models, discipline, team, applications","description":"\r\n<p>MicroStation&rsquo;s advanced parametric 3D modeling capabilities allow infrastructure professionals of any discipline to deliver data-driven, BIM-ready models. &nbsp;Your team can aggregate their work on MicroStation, including designs and models created","og:title":"MicroStation","og:description":"\r\n<p>MicroStation&rsquo;s advanced parametric 3D modeling capabilities allow infrastructure professionals of any discipline to deliver data-driven, BIM-ready models. &nbsp;Your team can aggregate their work on MicroStation, including designs and models created","og:image":"https://old.roi4cio.com/fileadmin/user_upload/MicroStation.jpg"},"eventUrl":"","translationId":214,"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 &quot;CAD in engineering&quot; 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 &quot;middle weight category&quot;. 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 &quot;oligarchs&quot; 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 &quot;non-class stratum of society&quot;, 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":[]}],"suppliedProducts":[],"partnershipProgramme":{"levels":[{"id":347,"level":"Partner"},{"id":1337,"level":"Silver"},{"id":1339,"level":"Gold"},{"id":1341,"level":"Platinum"},{"id":1343,"level":"Distributor"}],"partnerDiscounts":{"Partner":"","Silver":"","Gold":"","Platinum":"","Distributor":""},"registeredDiscounts":{"Partner":"","Silver":"","Gold":"","Platinum":"","Distributor":""},"additionalBenefits":[],"salesPlan":{"Partner":"","Silver":"","Gold":"","Platinum":"","Distributor":""},"additionalRequirements":[]}}},"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":{},"comparisonByTemplateId":{},"products":[],"selectedTemplateId":null},"presentation":{"type":null,"company":{},"products":[],"partners":[],"formData":{},"dataLoading":false,"dataError":false,"loading":false,"error":false},"catalogsGlobal":{"subMenuItemTitle":""}}