PLM and BIM – common roots or common future? « Daily PLM Think Tank Blog. I was looking at the evolution of PLM (Product Lifecycle Management) and BIM (Building Information Modeling) and found interesting parallels and associations. Fundamentally, for a long period of time, I associated PLM with Manufacturing and BIM with Architecture, Engineering and Construction. After doing some research in this field, I observed a sort of convergence between both areas from a strategic standpoint and from a (potential and future) technological standpoint. Based on the most fundamental definition of PLM from CIMData –” ‘PLM’ is the process of managing the entire lifecycle of a product from its conception, through design and manufacture, to service and disposal“; PLM integrates people, data, processes and business systems and provides a product information backbone for companies and extended enterprise.
Now, let’s shift gears to BIM. There are a few roots of BIM definitions. From my perspective, there are definitely common roots for both PLM and BIM. Like this: 360 for PLM - Product Lifecycle Management. Описание FormingSuite. FormingSuite – специализированный программный комплекс, предназначенный для анализа процессов листовой штамповки. FormingSuite предназначен для конструкторов, технологов, конструкторов штампов, нормировщиков и менеджеров по закупкам материалов. FormingSuite позволяет проверить, отработать и оптимизировать конструкцию изделия непосредственно на стадии разработки конструктором изделия. Благодаря этому существенно сокращаются сроки выпуска продукции, повышается ее качество и снижается себестоимость. Программа FormingSuite применяется в следующих отраслях промышленности:- Автомобилестроение- Авиация/космонавтика- Электроника/Электрика - Машиностроение- Приборостроениеи т.д. Программа FormingSuite имеет гибкую модульную структуру, позволяющую пользователю выбрать и приобрести оптимальный набор модулей под номенклатуру решаемых задач.
Программа FormingSuite существует как отдельная программа, так же может быть интегрирована в такие как CAD системы как CATIA, SolidWorks и Pro/ENGINEER. FTI Sheet Metal Forming Simulation | Stamping Die Blank Nesting Costing Training. CAS Authentication wanted! Advanced Solutions - The Leader in 2D and 3D Design Software. ISO/IEC 15504. ISO/IEC 15504 Information technology — Process assessment, also known as SPICE (Software Process Improvement and Capability Determination), is a set of technical standards documents for the computer software development process and related business management functions. It is another joint International Organization for Standardization (ISO) and International Electrotechnical Commission (IEC) standard, which was developed by the ISO and IEC joint subcommittee, ISO/IEC JTC 1/SC 7.[1] ISO/IEC 15504 initially was derived from process lifecycle standard ISO/IEC 12207 and from maturity models like Bootstrap, Trillium and the CMM.
Overview[edit] History[edit] A working group was formed in 1993 to draft the international standard and used the acronym SPICE. The first versions of the standard focused exclusively on software development processes. Organizationalmanagementengineeringacquisition supplysupportoperations. The ISO/IEC 15504 standard[edit] Reference model[edit] Processes[edit] This includes: Product Life Cycle Support (PLCS) Application Lifecycle Framework. Application Lifecycle Framework (ALF) was an Eclipse Foundation project to develop an open framework[vague] for system integration and interoperability for application lifecycle management tools.[1] The project failed to gain the support of significant vendors[2] and was terminated in 2008.[3] See also[edit] ISO/IEC 12207, this is an international standard for software lifecycle processes References[edit] External links[edit]
PAS 16739:2005 - Классы промышленных оснований, выпуск 2х, спецификация платформ (IFC2x Platform) ISO 15288. The ISO/IEC 15288 is a Systems Engineering standard covering processes and life cycle stages. Initial planning for the ISO/IEC 15288:2002(E) standard started in 1994 when the need for a common Systems Engineering process framework was recognized. The previously accepted standard MIL STD 499A (1969) was no longer supported due to an edict from SECDEF abolishing the MIL STD system. The first edition was issued on 1 November 2002. Stuart Arnold was the editor and Harold Lawson was the architect of the standard.[1] In 2004 this standard was adopted as IEEE 15288.
ISO/IEC TR 15504 which addresses capabilityISO/IEC 12207 and ISO/IEC 15288 which address lifecycle andISO 9001 & ISO 9000-3 which address quality The standard defines processes divided into four categories: TechnicalProjectAgreement, andEnterprise Each process is defined by a purpose, outcomes, and activities. See also[edit] References[edit]