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EnterpriseControl Integration

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Title: EnterpriseControl Integration


1
ISAThe Instrumentation, Systems, and Automation
Society
Enterprise/Control Integration
Philadelphia Section October 19, 2005 Samuel M.
Herb, PEInvensys Process Systems
2
Managing The Enterprise
  • Significance of IntegratingEnterprise Resource
    Planning (ERP)withPlant Process Control
    (OCS)in the Real World

Plant Wide MIS/MES/ERP Network
Remote Access
UNIX Operators Stations
Batch Supervisor Workstation
Workstation
PC
X-Terminal
PC
Windows Operators Stations
Controllers
Fieldbus
Remote I/O
3
Types of Systems
  • ERP
  • Enterprise resource planning systems
  • MES
  • Manufacturing execution systems
  • OCS
  • Open control systems

4
Managing The Enterprise
  • Corporations must re-engineer... continuously to
  • Respond to market changes
  • Respond to technology changes
  • Reduce internal fear of change
  • Reduce business perturbations
  • Manage costs (margins)

5
Managing The Enterprise
  • Managed, continual change
  • Customers see this as positive
  • Product growth improvement
  • Service growth improvement
  • Company growth improvement
  • Employees see this additionally as
  • Personal growth improvement

6
Managing The Enterprise
  • Properly directed continual change without
    traumatic bumps needs
  • Proper business parameters
  • Continually updated information from
  • Process control systems
  • Factory automation systems
  • Continual planning
  • Plant personnel acceptance
  • Focus on production
  • Focus on quality

7
Managing The Enterprise
  • Requires
  • Business Technology
  • To become
  • Business / Technology
  • Expanded workplace which transforms all employees
    into better business people!

8
Parts of a Batch Operation
Make a batch of QR6
Execution
The Schedule
The Report
The Equipment
QR6
The Recipe
The Batch
9
S88 Functional Models
Process Cell
Unit
EquipmentModule
ControlModule
Elements
Safety Protection
10
S95 Simplistic Model
Execution
Instructions (Open valve)
Coordinated
Data (valve opened)
11
The S95 Problem
Execution
Instructions (make a batch)
Mismatch
Data (valve opened)
12
Control System Must Link to Plant
Enterprise Site Area
Production Information Management
Recipe Management
Production Planning and Scheduling
Instructions (make a batch)
Process Management
Data (Batch Record)
Safety Protection
13
Disparate Computing Communities
  • Control People understand Plant Floor Complexity
  • Enterprise is some cloud..
  • Business People understandEnterprise Complexity
  • Control system is a little box...

14
Information Needs Differ
Board Room
Management Data Needs
Years Quarters Weeks Days Hours Minutes Seco
nds ?Seconds
Corporate Level Plant Level Unit Process Level
Gigabytes Megabytes Kilobytes Analog
Process Data Needs
Process
15
Information Capture Requirements
Level
Frequency
Calculation
Years
??
??
??
Quarters
Corporate
??
??
??
??
??
??
??
??
??
??
??
??
??
??
??
??
Material Handling Storage
??
??
??
??
??
16
Challenge of S95
  • Tasks of committee
  • Establish common vocabulary
  • Find common view of problems
  • Build common model
  • Define data structures
  • Useable for both process discrete
    manufacturing
  • Prompt completion, but thorough!

Business Plan
Control System
17
Managing The Enterprise
  • Business needs
  • Planning ERP
  • Execution MES
  • Control OCS
  • Control system contribution
  • Right information needed for business plan
  • Right timing when needed
  • Right context to be properly used
  • Right response to planning requirements

18
Managing The Enterprise
  • IdealDirectbutFlexible

Highly Integrated ERP/MES for Business Planning
Point Click Bridge Between The Two Systems
Complete Access in Place NOW!
Highly Integrated OCS for Production
19
Business Planning Vendor
Custom Developed Business Plan
Business Plan Software
Modules
  • Role managing the business
  • Resource management
  • Inventory management
  • Recipe management
  • Scheduling

20
Point Click Mapping
21
Software Components
22
Link Application Platform Vendor
Modules
Link
Control SystemWorkstation
  • Role connectivity
  • Point click mapping
  • Mapping audit (import/export)
  • Automatic event-driven messaging
  • Simplification of PP-PI data structures
  • Process data upload/recipe download

23
Control System Vendor
OCS Workstation
  • Role plant control/safety
  • Saves time
  • Less configuration
  • No links to create
  • Saves costs
  • Less hardware to buy install
  • Simple architecture to learn maintain
  • Protects investment avoids liabilities

Control
Safety
Control
Process Manufacturing
24
OCS Requirements
  • More productive results
  • Plant operator data available from beginning of
    project ......for faster analysis into business
    plan
  • Re-configure control to fit needs ......as
    discovered
  • Provides security of equipment, product, and
    personnel...specifically where needed w/o
    penaltyof installation and learning costs

25
Managing The Enterprise
BUSINESS NEEDS
Planning
Business planning software
Execution
Point click linking software
Control
Open control system
  • Must be easy to use
  • Must have consistent openness
  • Must have workable domains for both business
    control

gtgt Must work as ONE system!ltlt
26
Scope of S95
  • Simplified functional hierarchy, illustrates
    S95 scope

27
Scope of S95.01
  • To Define
  • Scope of manufacturing control domain
  • Organization of physical assets of manufacturing
    enterprise.
  • Functions associated w/ interface between control
    functions and enterprise functions
  • Information which is shared between control
    functions and enterprise functions

28
Scope of S95.01
  • Early Question
  • How can one single standard cover broad range of
    manufacturing policies and practices?
  • Make to order, make to stock, KANBAN, engineer to
    order, repetitive, continuous, batch,
  • The Answer
  • Establish model that separates business processes
    from production processes
  • Establish a model that defines information, and
    does not force any particular mapping of
    processes to the information

29
Range of Manufacturing Types
Continuous
Batch
Mix to Order
Identifying Final Product
Repetitive
Assemble to Order
Engineer to Order
Variability of Product
Amount of information from business systems to
manufacture systems
Variability of Product
30
Scope of S95
Alternate Logistics Strategies
  • S95 should not be restricted to specific business
    or manufacturing processes

Level 4
  • Level 4
  • Business Logistics Plant Scheduling
  • Level 3
  • Area Supervision Production Scheduling
  • Levels 2, 1, 0
  • Operators, Control Strategies, Sensors, etc.

Level 3
Alternate Manufacturing Strategies
31
Models For Integration
  • Multiple models are used to explain integration
    concepts
  • Each focuses on particular view of integration
    problem
  • Models show increasing levels of detail
  • Hierarchy Model of Activities
  • Data Flow Model of Functions
  • Information Categories
  • Object Model

32
Elements of Models Definitions
33
Domain Definitions
  • A function is in the control domain if
  • Function is needed by operators to do their job
  • Function is critical to maintaining regulatory
    compliance.
  • Function is critical to plant reliability
  • Function impacts operation phase of facilitys
    life (vs. design or construction)
  • Domain Determined by where responsibility lies.

34
Control Functions
  • Based on Manufacturing Execution System
    Association (MESA) Model
  • Manufacturing Execution System (MES)
    Functionality
  • Material Requirements Planning (MRP) to
    MES Data Flow Possibilities
  • Defines functions of MES Control layers
    in an abstract manner
  • Includes touch points to functions outside
    domain of control
  • Document Control
  • Labor Management
  • Maintenance Management

35
Functional Model
  • Defines major functions in a manufacturing
    enterprise, and
  • Defines what information is exchanged
  • Represented with a data flow model, like
  • Why ?
  • Provides common modeland set of terms thatcan
    be used to describemajor business operation
    functions

36
Functions in Domain(example)
37
Production Control Functions(example)
38
Selected Information Of Interest
  • Information that 'crosses the boundary' is
    identified and detailed

39
ISA 95 Part 1 and Part 2
Exchanged Information
Selected Information Of Interest
  • Information that must cross the boundary between
    business and manufacturing systems

40
Exchanged Information
Enterprise Information Plant Production
Scheduling, Operational Management, etc
Production Capability Information (What
is available for use)
Product Definition Information (How to make a
product)
Production Schedule (What to make and use)
Production Performance (What was made and used)
Manufacturing Control Information Area
Supervision, Production Planning, Reliability,
Assurance, etc
41
Information Notation
  • Detailed definition of objects of interest and
    their relationships
  • Object relationships diagramed
  • Unified Modeling language (UML) notation
  • Defines typical attributes associated with each
    object

42
ISA 95.01 95.02
43
Typical Objects
  • Production Capability Information
  • Production Segments, Personnel, Equipment,
    Material
  • Product Definition Information
  • Product Segments, Product Material, Personnel
    Specifications, Equipment Specifications,
    Material Specifications
  • Product Information
  • Production Requests, Production Responses

44
4x4 Object Models
  • Four categories of resources
  • Personnel
  • Equipment
  • Material (and Energy)
  • Process Segments
  • Four Process, Product, Production Models
  • Capability Capacity Definition
  • Product Definition
  • Production Schedule
  • Production Performance

45
Four Resource Object Models
46
Material Definition Example
  • Common material information

47
Process Segments
  • Define the detail of the business view of
    production
  • How business processes view production
  • May not match the control system partitioning

Pharmaceutical Manufacturing (3 Segments)
Raw Materials
Finished Products
48
Capability, Product, Production Information
49
Capability Models
  • What is available
  • Current
  • Future
  • Per resource, usually a limited resource
  • Per segment

50
Production Capability
  • Production capability
  • Theoretical maximum capability and capacity
    available for use in production
  • Required information
  • For valid scheduling
  • For Available-To-Promise business processes
  • For supply chain integration
  • Made up of measurable capacities
  • Current capacity Future capacity
  • Committed capacity
  • Available capacity
  • Unavailable capacity

51
Current Future Capabilities(example)
52
Production Capability Model(example)
53
Product Definition
  • Shared information about each product
  • References manufacturing instructions
  • For Continuous may be flow sheets
  • For Batch may be site or master recipes
  • For Discrete may be setup or assembly
    instructions
  • Defines all materials used by manufacturing
  • References the Bill of Materials
  • References the Bill of Resources
  • May define resources required per segment
  • Equipment
  • Personnel
  • Material

54
Per Product Definitions
Material System
Scheduling System
Manufacturing System
55
Production Schedule
Per location (Site, Area, ) Per week, day,
shift, order,
  • What to make
  • Priority and/or dates
  • What materials to use
  • What equipment to use
  • What personnel to use
  • Production parameters (e.g. Color, Options,)
  • Per Segment

56
Production Performance
  • What was made
  • What material was actually produced
  • What materials were actually consumed
  • Equipment used
  • Personnel used
  • Production data (e.g. Purity, density,)
  • Per Segment

Per location (Site, Area, ) Per shift, hour,
end of batch,
57
Scope S95
95.03
BATCH PROCESS CELL
58
ISA Provides Direction
  • ANSI/ISA 95.01 Enterprise - Control System
    Integration - Part 1 Models and Terminology
  • Also Draft International Standard ISO/IEC 62264-1
  • ANSI-ISA 95.02 Enterprise - Control System
    Integration - Part 2 Object Attributes
  • ANSI-ISA 95.03 Enterprise - Control System
    Integration - Part 3 Models of Manufacturing
    Operations

59
More to S95
  • Standard planned continuation of series
    (Parts 4-6)
  • To cover object models and attributes of
  • manufacturing operations
  • management activities
  • business-to-manufacturing transactions
  • manufacturing operation transactions

60
Process Information Flow
ERP Enterprise Resource Planning
Corporate Level
Decision support System
MES Manufacturing Execution System
Plant Level Operational Planning and Decision
Making
RESULTS
OBJECTIVES
Unit Process Level Operational Monitoring and
Control System
OCS Open Control System
61
Corporate-wide Systems
62
Questions? Comments?
63
Glossary of Process/Computer Terms
  • http//www.jaomad.com/SamstufGlossary.htm

Selected slides prepared by, jointly with
Dennis Brandl As part of the S95 committee
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