Bill of Material Concept
BOM management is most important functionality of PLM system. BOM is most critical component in a product based industry and managing it is still most challenging aspect in PLM system. The complexity increases as BOM lifecycle doesn’t reside just in one system or domain but in multiple Enterprise systems. Also Bill of Material for a given Product or Part means different to different section of people in the company based on their perspective and functionality for the given BOM. In this blog, I will discuss BOM basic, variation and challenge for managing it in any enterprise.
Concept of Bill of Material: BOM is defined as “A comprehensive list of raw materials, components and assemblies required to build or manufacture a product”. Hence it is a detail recipe of product which help to define, build and maintain a product. Since product goes through various lifecycle and interacts with various discipline or domain from Design to Manufacturing to Service to Finance, Bill of material also goes through similar lifecycle and various discipline or domain. Hence for a given product there resides many BOM based on the lifecycle and discipline which required using it. For example Design Engineer mainly deals with Functional aspect of product where as Manufacture Engineer deals with manufacturability aspect of product. Hence the way the Design Engineer look same BOM is different from manufacture engineer. Same is true for Service Engineer, Procurement etc. Each one has his own way of looking of BOM. There is numerous ways for defining the BOM for same product. In technical terms, BOM can mainly classified as follow
a) Design BOM (EBOM): This deal with functional aspect of product. This is mainly first steps of BOM creation for a product. The design BOM usually originates from CAD model or Functional architecture breakdown. Manufacturing BOM usually derived from Design BOM.\
b) Manufacturing BOM (MBOM): This BOM deals with manufacturing aspect of Product. Hence it can have detail related to manufacture information along with part detail of product. For example Tools or Fixture can be part of Manufacturing BOM (or it can be reference in the Part). Also some single design part can be consider combination of component ( Ex : Welding two plates ).
c) Material BOM: This BOM mainly managed in ERP system for inventory and process planning. They deal with actual physical aspect of parts. Design or Manufacturing BOM can have component which might not be real or perishables item. For example MBOM can have component for intermediate manufacturing operation which doesn’t exist as storage or tangible part.
d) Service BOM: This BOM deals with Serviceability of Product. This BOM has only that information which defines the service aspect of Product. Hence it deals only with list of part which is serviceable. Therefore this BOM doesn’t have detail for subassembly which constitute as a single part from service perspective.
Apart from above BOM type there are some other BOM type like Order BOM, Procurement BOM etc which are derivatives of above BOMs with some variation. Also BOM can also be distinguishing based on configurability of BOM.
Configurable BOM: From single BOM, based on certain rules or condition you can derive various resultants BOM. For example for a given model of a car, you can multiple versions. The Configurable BOM is used to dynamically create "end-items" that a company sells. The rule as basically variant and condition are option for those variant. For example based on engine type, power train can be selected in a given BOM. Configurable BOM provide a means to company to manage single BOM for multiple products variant. This saves considerable time and cost to company. All major PLM tools provide configurable BOM management modules.
Master BOM: Looking at so many BOMs variant for a given product, it is always a night mare for the company to manage all BOM and synchronize all when there is any change in either upstream (Design) or downstream (Service). To overcome this challenge, the concept of Master BOM has come. Master Bill of Material can be defined as single source of BOM having all aspect of information for various configuration and discipline. Hence Master BOM by definition is single source of truth for all BOM. Industry is still struggling to find the exact solution in term of defining and managing Master BOM. Also it become more complex due to the facts that different BOM types are managed in different systems. PLM vendors including Siemens PLM has come various solution and tools, but still required to show the success and maturity of managing Master BOM as a single source of truth across various BOM lifecycle and discipline.
That’s all from my side on Bill of material. PLM vendors provide various powerful BOM tools for Managing, Collaboration and Visualization. I will discuss some of those in my coming blogs.
BOM management is most important functionality of PLM system. BOM is most critical component in a product based industry and managing it is still most challenging aspect in PLM system. The complexity increases as BOM lifecycle doesn’t reside just in one system or domain but in multiple Enterprise systems. Also Bill of Material for a given Product or Part means different to different section of people in the company based on their perspective and functionality for the given BOM. In this blog, I will discuss BOM basic, variation and challenge for managing it in any enterprise.
Concept of Bill of Material: BOM is defined as “A comprehensive list of raw materials, components and assemblies required to build or manufacture a product”. Hence it is a detail recipe of product which help to define, build and maintain a product. Since product goes through various lifecycle and interacts with various discipline or domain from Design to Manufacturing to Service to Finance, Bill of material also goes through similar lifecycle and various discipline or domain. Hence for a given product there resides many BOM based on the lifecycle and discipline which required using it. For example Design Engineer mainly deals with Functional aspect of product where as Manufacture Engineer deals with manufacturability aspect of product. Hence the way the Design Engineer look same BOM is different from manufacture engineer. Same is true for Service Engineer, Procurement etc. Each one has his own way of looking of BOM. There is numerous ways for defining the BOM for same product. In technical terms, BOM can mainly classified as follow
a) Design BOM (EBOM): This deal with functional aspect of product. This is mainly first steps of BOM creation for a product. The design BOM usually originates from CAD model or Functional architecture breakdown. Manufacturing BOM usually derived from Design BOM.\
b) Manufacturing BOM (MBOM): This BOM deals with manufacturing aspect of Product. Hence it can have detail related to manufacture information along with part detail of product. For example Tools or Fixture can be part of Manufacturing BOM (or it can be reference in the Part). Also some single design part can be consider combination of component ( Ex : Welding two plates ).
c) Material BOM: This BOM mainly managed in ERP system for inventory and process planning. They deal with actual physical aspect of parts. Design or Manufacturing BOM can have component which might not be real or perishables item. For example MBOM can have component for intermediate manufacturing operation which doesn’t exist as storage or tangible part.
d) Service BOM: This BOM deals with Serviceability of Product. This BOM has only that information which defines the service aspect of Product. Hence it deals only with list of part which is serviceable. Therefore this BOM doesn’t have detail for subassembly which constitute as a single part from service perspective.
Apart from above BOM type there are some other BOM type like Order BOM, Procurement BOM etc which are derivatives of above BOMs with some variation. Also BOM can also be distinguishing based on configurability of BOM.
Configurable BOM: From single BOM, based on certain rules or condition you can derive various resultants BOM. For example for a given model of a car, you can multiple versions. The Configurable BOM is used to dynamically create "end-items" that a company sells. The rule as basically variant and condition are option for those variant. For example based on engine type, power train can be selected in a given BOM. Configurable BOM provide a means to company to manage single BOM for multiple products variant. This saves considerable time and cost to company. All major PLM tools provide configurable BOM management modules.
Master BOM: Looking at so many BOMs variant for a given product, it is always a night mare for the company to manage all BOM and synchronize all when there is any change in either upstream (Design) or downstream (Service). To overcome this challenge, the concept of Master BOM has come. Master Bill of Material can be defined as single source of BOM having all aspect of information for various configuration and discipline. Hence Master BOM by definition is single source of truth for all BOM. Industry is still struggling to find the exact solution in term of defining and managing Master BOM. Also it become more complex due to the facts that different BOM types are managed in different systems. PLM vendors including Siemens PLM has come various solution and tools, but still required to show the success and maturity of managing Master BOM as a single source of truth across various BOM lifecycle and discipline.
That’s all from my side on Bill of material. PLM vendors provide various powerful BOM tools for Managing, Collaboration and Visualization. I will discuss some of those in my coming blogs.