1. ©MIMOSA 2015 Enabling Collaborative Asset Life-cycle Management using Standards-based Interoperability ©2015 MIMOSA Enabling Industry to Gain Value from Standardization USPI and MIMOSA Cooperation

2. ©MIMOSA 2015 Proposed agenda ‒ Types of standards ‒ MIMOSA and USPI complements ‒ ISO related activities ‒ Groups cooperating on standards ‒ Open O&M architecture ‒ BP data Model map against life cycle ‒ Owner Operators objective ‒ USPI strategy ‒ MIMOSA strategy ‒ Standardized use case structures ‒ OGI business use cases roadmap ‒ Shared industry foundation architecture ‒ Key standard information models ‒ BP POC as presented at Fiatech 15 Apr 2015 ‒ ISDD project ‒ Objective, standard data sheets, API610 example, Build process, use ‒ OIIE and OGI pilot to be featured at future events

3. ©MIMOSA 2015 The Role of Standards in Sustainable Enterprise Solutions  Standards help rationalize chaos into widely accepted good practices  NGO Standards Organizations such as ISO and IEC  Industry Standards Organizations – API, ISA, OPC, MIMOSA, PCA, USPI  Practice Standards – Focus on what should be done  Such as PAS 55 and ISO 55000 - define good asset management practices to be followed  CFIHOS - Working to define good handover practices  Individual IT/IM Oriented Standards – Focus on IT/IM aspects of how  Such as ISO 15926, OPC, ISA 95/88, ISO 18101 and MIMOSA  Enable SoS to properly support good practices defined in Practice Standards

4. ©MIMOSA 2015 MIMOSA and USPI Complements MIMOSA Focal Points –Standards-based interoperability –Life-cycle asset information management –Focused more on How (from an IT and IM POV) OIIE Standard Solution Architecture –Driven by Standardized Use Case Methodology –Defined by a portfolio of standards MIMOSA CCOM (Asset Information Model) OGI Pilot USPI Focal Points –Plant life cycle asset information management in process industry supply chain –Standards for exchange and integration of data and information –Focused more on What needs to be done from an IM POV ISO 15926 roadmap Orchid information maturity model CFIHOS information handover specification

5. ©MIMOSA 2015 WG 6 – Oil and Gas Interoperability

6. ©MIMOSA 2015 GROUPS OF COOPERATING STANDARDS ORGANIZATIONS Name, head office location Fiatech, USA USPI, NL MIMOSA, USA THTH, Finland PCA, Norway eCl@ss, Germany ENAA, Japan PIDX, USA DEXPI, Germany VGB, Germany

7. ©MIMOSA 2015

8. Physical Asset Control Real-time Systems Enterprise Business Systems Enterprise Resource Planning (ERP) The OpenO&M™ Initiative Enabling Open Standards-based O&M Interoperability OpenO&M™ Operations Maintenance

9. ©MIMOSA 2015 Owner/Operators Objective Shared Industry Foundation Architecture 1 2 OpenO&M OpenO&M Information Service Bus Model (ISBM)

10. ©MIMOSA 2015 USPI Strategy Main strategic axes –Build on what happens already in companies –Build critical mass and focus in the order country-region-global –Common industry voice to software suppliers –Regulations will drive standardization  proactive response Standards development should fit Industry information maturity. –Refer EU Orchid roadmap 2010 Continuous action planning –What are the deliverables of the consortia? Use cases, implementable standards sets, maintenance schemes –Standards gap analysis What is missing against requirements? –Stakeholder analysis Who are the key players, what business do they have together? ”Food chain” OO’s, EPC’s, Equipment suppliers--> software industry –Orchestration plan Groups and consortia need to work together and cooperate in industry and in ISO Not as one centrally managed business unit but in consensus Key activities –CFIHOS for information handover specification –ISO TC 184/SC 4/WG 3 convener, Implementation Forum Leadership –ISO 15926 roadmap, OGI project use case 01, ISO 18101 –Owner operator workshops and standards priorities model –Maintenance Knowledge Management Standard (NTA) –Workshops on ISO 15926, CFIHOS, MKM NTA

11. ©MIMOSA 2015 MIMOSA Strategy MIMOSA Mission: Help industry derive business value from standardization activities related to asset life-cycle management.  Methodology: Cooperative Industry Interoperability Standardization Framework –Prioritize High Business Value Functional Requirements of Owner/Operators Develop a standardized use case structure for “fully dressed” use cases Capture Functional Requirements in the standardized use case format Model business value, costs and risks for each use case to establish priorities –Establish the Shared Industry Foundation Architecture As Requested The Open Industrial Interoperability Ecosystem (OIIE™)  Select existing, supplier-neutral IT and IM standards and methods  Cooperate with other industry standards bodies in a mutually beneficial manner  Maintain MIMOSA CCOM™ as primary industry Asset Information Model Package the use cases in a consistent, reusable, extensible and sustainable portfolio –Establish Oil and Gas Interoperability (OGI™) Pilot Pilot builds and maintains Shared Oil and Gas Industry Interoperability Test-bed Use pilot for gap analysis and continuous improvement of the OIIE Align with industry research activities, without being held captive to research Close identified gaps with shared industry projects Gap Filling Industry Project - Industry Standard Datasheet Definitions

12. ©MIMOSA 2015 Standardized Use Case Structure Use Case –Background –Scope –Preconditions –Successful End Condition –Actors –Triggers –Process Workflow –Scenarios Scenario –Actors –Data Content –Data Formats –Reference Data –Information Service Bus Configuration

13. ©MIMOSA 2015 Plan / Program / Contract Engineer / Design Procure Fabricate / Construct Complete / Commission / Startup Operate / Maintain Decommission / Dispose Sustained Lifecycle Digital Asset Management Enterprise Capital Project Data Management Standards OGI Use Case 1: Capital project handovers to O&M OGI Use Case 4: Enterprise Product Data Library Management OGI Use Case 10: Automated provisioning of O&M systems OGI Use Case 11: Enterprise Reference Data Library (RDL) Management OGI Pilot Business Use Cases Roadmap - Part 1 Continuous Handover (Structured Digital Assets, Tags, Docs) Establishing an Environment for Lifecycle System of Systems Interoperability Enterprise Standards and Project Execution Template for all projects Levy contractual requirements on suppliers at start of specific projects USPI CFIHOS Collaboration

14. ©MIMOSA 2015 Plan / Program / Contract Engineer / Design Procure Fabricate / Construct Complete / Commission / Startup Operate / Maintain Decommission / Dispose Enterprise Capital Project Data Management Standards OGI Pilot Business Use Cases Roadmap - Part 2 OGI Use Case 2: Recurring Engineering Updates to O&M OGI Use Case 3: Field Changes to Plant/Facility Engineering OGI Use Case 4: Enterprise Product Data Library Management OGI Use Case 5: Asset Installation/Removal Updates OGI Use Case 6: Preventive Maintenance Triggering OGI Use Case 7: Condition-Based Maintenance Triggering OGI Use Case 8: Early Warning Notifications OGI Use Case 9: Incident Management/Accountability OGI Use Case 10: Provisioning of O&M systems OGI Use Case 11: Enterprise Reference Data Library (RDL) Management Continuous Handover of Structured Digital Assets Sustained Lifecycle Digital Asset Management Sustaining the Interoperable O&M Environment

15. ©MIMOSA 2015 Shared Industry Foundation Architecture Open Industrial Interoperability Ecosystem

16. ©MIMOSA 2015 Open Industrial Interoperability Ecosystem Key Standard Information Models Reference data and capital project artefacts ISO 15926 Lifecycle engineering configuration, condition, work and reliability management MIMOSA CCOM Real-time and historical time series data, alarms and events OPC Classic/UA Production and well data Energistics PRODML/WITSML Production schedules, forecasts, demand MESA B2MML

17. BP POC as Presented at Fiatech Technology Showcase 04/15/2015

18. ©MIMOSA 2015 INDUSTRY STANDARD DATASHEET DEFINITION PROJECT Filling a major gap identified by the Oil and Gas Interoperability Pilot The need for Datasheet Oriented Information Management  Valuation Modeling for Activities and Asset/Device Classes  Build and deliver prioritized sets of Datasheet Definitions in 3-4 month phases  Datasheet Definitions are built as MIMOSA CCOM Business Objects  Datasheet Definitions plug directly into Interoperability Ecosystem

19. ©MIMOSA 2015 Primary Objective Capture machine-interpretable, consistent and directly reusable data sheet definitions from existing industry standard data sheets

20. Plan / Program / Contract Engineer / Design Procure Fabricate / Construct Complete / Commission / Start-up Operate / Maintain Decommission / Dispose Determine project % completeness by analyzing filled in datasheet properties required by equipment type for each phase Develop project specific engineering terminology and map to industry RDLs Handover machine- interpretable datasheets for immediate loading into engineering master data system to compare against the physical asset and configuring O&M systems Select project specific templates from ISDDs for structured data entry by engineers Pre-populate datasheets from previous phases (e.g. design basis) as engineers choose equipment to design Send completed datasheets to vendors with provision for their reply; receive, load, verify and compare vendor offerings Matchup requirements against product datasheets from equipment suppliers

21. ©MIMOSA 2015 Industry Standard Data Sheets Have identified 263 initial sources to be prioritized API15 (+20 ISO equivalents) ASME2 (+1 ISO equivalent) IEC10 ISA166 ISO28 NORSOK31 PIP11

22. ©MIMOSA 2015 API 610 Centrifugal Pump Data Sheet Elements Needed by Category As Determined by Plant Maintenance, Operations and Reliability Engineers Category Number of Elements Data Sheet Header10 Drive and Power Train6 Liquid Characteristics6 Service Conditions6 Notes on Pump Design6 Pump Performance14 Pump Physical Orientation22 Pump Casing 2 Case Pressure Limits6 Rotor Information3 Coupling Information8 Notes on Rotating Elements6 CategoryNumber of Elements Pump Materials4 Pump Bearings10 Base Plate Information14 Seal Plans2 Heating and Cooling8 Manifold Piping4 Painting Spec’s8 Maintenance Prep.4 Safety Limits25 Manufacturing Tests10 Welding PMI Inspections25 As Built Field Tests31 Total Data Sheet Elements needed per 240 per Pump out of approximately 600 in API 610 Red Operations Green Maintenance

23. XML BUILD Process BUILD Process API PIP ASME ISA EXISTING INDUSTRY STANDARD DATA SHEETS (ISD) INDUSTRY STANDARD DATA SHEET DEFINITIONS (ISDD) CCOM IEC 61360 SUBJECT MATTER EXPERTS Discipline Engineers Information Engineers IEC CDDPCA RDLSV RDLUSPI RDL INDUSTRY REFERENCE DATA LIBRARIES ISDD BUILD ISDD BUILD

24. INDUSTRY STANDARD DATA SHEETS ISDDs IEC CDDPCA RDLSV RDLUSPI RDL ISA API ASME NORSOK PIP INDUSTRY REFERENCE DATA LIBRARIES Owner/ Operators EPCs Capital Equipment Suppliers Map Elements ISDD USE ISDD USE

25. ©MIMOSA 2015 Close OIIE and OGI Pilot To Be Featured At Future Events  Solutions 2.0 – August 3-7, 2015, Westin Galleria, Houston, TX All OIIE and OGI Pilot Working Documents are available at www.mimosa.org www.mimosa.org Alan T. Johnston MIMOSA atjohn@mimosa.org