Trata de um guia de referência rápida para o mais completo framework de supply chain management do mundo, publicado e mantido pela American Productivity & Inventory Control Society (APICS)
Versão 11 do modelo SCOR (2015)
SCOR quick reference guide by apics (apics.org)
http://www.apics.org/docs/default-source/scc-non-research/apicsscc_scor_quick_reference_guide.pdf
Software Development Life Cycle By Team Paradise (Dept. of Pharmacy)Suman Mia
The software development lifecycle (SDLC) is the cost-effective and time-efficient process that development teams use to design and build high-quality software.
The goal of SDLC is to minimize project risks through forward planning so that software meets customer expectations during production and beyond.
SDLC Models and their implementations. Almong with the flow of each model. The PPT contains implementations of each model for various software development phases
The document provides an overview and agenda for a 3-day workshop on supply chain management. It discusses key supply chain planning functions like forecasting, production planning, inventory planning and their related flows. It also includes examples to calculate forecast accuracy and a workshop on defining the current state of forecasting and identifying gaps to address.
The document discusses project management for new product development. It outlines the key phases of product generating including market surveys, product definition, development, marketing, customer support and continuous improvement. It then provides details on project planning including defining work breakdown structures, milestones, activities, critical paths, buffers and allocating resources. An example case study of developing a new semiconductor metrology tool is also discussed.
An educational course covering all aspects of supply chain management. Includes workshops to design and implement your own supply chain management function
The primary goal of the SDLC process is to produce cost-efficient and high-quality products. The process comprises a detailed plan that describes how to develop, maintain, and replace the software.MAQ is one of the best software development company in Dubai, UAE for Innovative Software Solutions
The document discusses Design for Six Sigma (DFSS), a methodology for designing products and processes to meet customer needs and expectations from the beginning. DFSS aims to create designs that are efficient, high-quality, and robust. It recasts the DMAIC model into DMADV or I2DOV, emphasizing early design phases to predict and improve quality upfront. DFSS changes organizations from focusing only on functionality to incorporating statistical analysis of failure modes and risk assessment into design.
Versão 11 do modelo SCOR (2015)
SCOR quick reference guide by apics (apics.org)
http://www.apics.org/docs/default-source/scc-non-research/apicsscc_scor_quick_reference_guide.pdf
Software Development Life Cycle By Team Paradise (Dept. of Pharmacy)Suman Mia
The software development lifecycle (SDLC) is the cost-effective and time-efficient process that development teams use to design and build high-quality software.
The goal of SDLC is to minimize project risks through forward planning so that software meets customer expectations during production and beyond.
SDLC Models and their implementations. Almong with the flow of each model. The PPT contains implementations of each model for various software development phases
The document provides an overview and agenda for a 3-day workshop on supply chain management. It discusses key supply chain planning functions like forecasting, production planning, inventory planning and their related flows. It also includes examples to calculate forecast accuracy and a workshop on defining the current state of forecasting and identifying gaps to address.
The document discusses project management for new product development. It outlines the key phases of product generating including market surveys, product definition, development, marketing, customer support and continuous improvement. It then provides details on project planning including defining work breakdown structures, milestones, activities, critical paths, buffers and allocating resources. An example case study of developing a new semiconductor metrology tool is also discussed.
An educational course covering all aspects of supply chain management. Includes workshops to design and implement your own supply chain management function
The primary goal of the SDLC process is to produce cost-efficient and high-quality products. The process comprises a detailed plan that describes how to develop, maintain, and replace the software.MAQ is one of the best software development company in Dubai, UAE for Innovative Software Solutions
The document discusses Design for Six Sigma (DFSS), a methodology for designing products and processes to meet customer needs and expectations from the beginning. DFSS aims to create designs that are efficient, high-quality, and robust. It recasts the DMAIC model into DMADV or I2DOV, emphasizing early design phases to predict and improve quality upfront. DFSS changes organizations from focusing only on functionality to incorporating statistical analysis of failure modes and risk assessment into design.
A software testing practice that follow the principle of agile software development is called Agile Testing.
Agile is an iterative development methodology where requirement evolve through collaboration between the customer and self-organizing teams and agile aligns development with customer need.
Website: https://www.1solutions.biz/
This document discusses an agile project discovery process. It begins with introductions to software development life cycles and why agile is used. Scrum is explained as an agile framework using roles, ceremonies, and artifacts. The discovery process aims to find the right problem to solve through understanding objectives, existing knowledge, gathering requirements to develop hypotheses and conclusions on minimum viable products.
Software Development Life Cycle (SDLC) By Team Paramount (Dept. of Law)Suman Mia
In systems engineering, information systems engineering, engineering, and software engineering, the systems development life cycle, also referred to as the application development life cycle, is a process for planning, creating, testing, and deploying an information system.
The document provides information on various software versions used for engineering drawings, documents, technical illustrations, web browsing and document viewing. It lists applications such as AutoCAD, CorelDRAW, Microsoft Office, Netscape Navigator and Acrobat software. It also provides a link for an up-to-date list of software versions.
Udit Marwari has over 4 years of experience as an IT Analyst and Software Engineer working on supply chain and warehouse management systems. He currently works for Tata Consultancy Services in Noida, India on projects for clients like Walgreens and CVS Caremark. His responsibilities include application development, testing, defect tracking and ensuring timely delivery of quality products. He has experience with programming languages like RPG, CL and COBOL and databases like SQL.
The document discusses the process of project formulation, which begins with generating and screening project ideas. Ideas are generated through analyzing the economy, conducting surveys and studies, and using tools like SWOT analysis. The environment is also monitored across sectors like economic, governmental, and competition. Corporate strengths and weaknesses are appraised to identify opportunities. Several tools can help identify promising opportunities, such as the life cycle approach and Porter's five forces model. Project ideas are scouted, preliminarily screened based on factors like compatibility and costs, and rated using a project rating index to evaluate their feasibility. Successful entrepreneurs exhibit qualities like leadership, decisiveness, and marketing orientation.
The document discusses the Software Development Life Cycle (SDLC), including its objectives, common phases and models. The key models described are waterfall, prototyping, spiral, RAD and agile. Waterfall is the classical sequential model but is inflexible. Prototyping and spiral address changing requirements through iterative cycles. RAD focuses on rapid development through reuse, workshops and early user testing. Agile methods emphasize speed, reduced formal processes and adaptability. The conclusion recommends RAD for mashup projects due to its support for iterative requirements changes and modular development.
Overview of Software Development Life Cycle Models. Why traditional parametric estimating tools do not help estimate a software project developed using the Agile model. Explain and demonstrate the “nearest neighbor” analogy technique to estimate Agile software projects. Data and actions needed to implement the nearest neighbor technique
The document discusses the Software Development Life Cycle (SDLC) which is a process used by the software industry to design, develop, and test high-quality software. It describes several SDLC models including waterfall, iterative, spiral, V-model, and big bang. The different models are used depending on factors like requirements clarity, time and budget constraints, and technology maturity.
The document is Amith Mansingh Ramanund's resume, which details his contact information, personal details, preferred job positions, work experience including roles as a Business Analyst at DHL Global Forwarding and Accenture, skills including SQL, PL/SQL, Tableau, and projects he has worked on such as standardizing tracking, claims, and distribution systems and developing BI reports in Tableau and SSRS.
This document discusses building a 21st century supply chain organization through the Capability Maturity Model Integration (CMMI). It evaluates current processes, compares to CMMI, and identifies gaps. The vision is to exceed customer requirements through disciplined people and processes leveraging technology. CMMI will improve supplier management, increase predictability, and reduce risk. The strategy focuses on people through training and development, processes through metrics and standardization, and systems like web portals and data sharing. Institutionalizing processes through continuous improvement is key to success.
SchmidtCo is implementing a new ERP system to integrate its various business modules like inventory, purchasing, accounting etc. across its warehouses. The existing system is outdated and unable to handle growing business needs. The new ERP system aims to foster collaboration, improve processes and provide accurate real-time information. The implementation will involve mapping current processes, configuring the ERP software to meet requirements, integrating modules, training employees and providing post-implementation support. A design thinking approach will be used involving empathy with stakeholders, defining requirements, ideating solutions, prototyping and testing the system.
Khushbu Kumari is a software test engineer with over 2 years of experience in testing activities including test case planning, preparation, execution, defect reporting and tracking. She has knowledge of software development and testing lifecycles. She is proficient with tools such as SOAP UI, JIRA, TOSCA and testing methodologies including manual testing and regression testing. She has worked on projects in life insurance and motor insurance domains.
The document discusses software development life cycles (SDLC) and agile development methods. It begins by defining SDLC and describing its typical stages. It then discusses various SDLC models like waterfall, iterative, V-model, and RAD. Next, it introduces agile development, describing its principles, comparing it to waterfall, and listing advantages and limitations. Finally, it discusses design patterns, their usage, and categories like creational patterns.
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The term "Software Development Life Cycle" (SDLC) refers to a methodology for producing high-quality software that includes well-defined processes. The phases of software development that the SDLC approach focuses on in depth are as follows:
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A software testing practice that follow the principle of agile software development is called Agile Testing.
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Website: https://www.1solutions.biz/
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The document discusses the Software Development Life Cycle (SDLC), including its objectives, common phases and models. The key models described are waterfall, prototyping, spiral, RAD and agile. Waterfall is the classical sequential model but is inflexible. Prototyping and spiral address changing requirements through iterative cycles. RAD focuses on rapid development through reuse, workshops and early user testing. Agile methods emphasize speed, reduced formal processes and adaptability. The conclusion recommends RAD for mashup projects due to its support for iterative requirements changes and modular development.
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2. 2 SCOR 12.0 Quick Reference Guide
SCOR Processes
The Supply Chain Operations Reference (SCOR) model describes the business activities
associated with all phases of satisfying a customer’s demand. The model itself is organized
around the six primary management processes of Plan, Source, Make, Deliver, Return
and Enable. Using these process building blocks, the SCOR model can be used to describe
supply chains that are very simple or very complex using a common set of definitions
across disparate industries. Today public and private organizations and companies around
the world use the model as a foundation for global and site-specific supply chain
improvement projects.
SCOR spans all customer interactions (quote to cash), all physical material transactions
(procure to payment, including equipment, supplies, spare parts, bulk product, software,
etc.) and all market interactions (manufacturing, from the understanding of aggregate
demand to the fulfillment of each order).
The model is designed and maintained to support supply chains of various complexities and
across multiple industries. The model focuses on three process levels and does not attempt
to prescribe how a particular organization should conduct its business or tailor its systems
or information flow.
People—Supply Chain Skills
The people section introduced in SCOR 10.0 provides a means for managing talent in the
supply chain by incorporating a standard for describing the expertise required to perform
tasks and manage processes. The SCOR skills management complements the existing
process, metrics, and practice reference components by aligning people and their skills to
the processes.
A Skill in SCOR is the capacity to deliver predetermined results with minimal input of time
and energy, characterized by a standard definition with associated experience, aptitudes,
and training.
Experience is the knowledge or ability acquired by observation or active participation,
obtained by doing the work in a real life environment, and undergoing different situations
that require different actions.
Training develops a skill or type of behavior through instruction.
All people skills are coded with a capital letter H followed by a capital letter representing the
element: S for Skills, E for Experience and T for Training. These are followed by a period and
a four digit number. Note: The number in the ID is a unique identifier and does NOT indicate
any kind of priority, importance, or other meaning.
3. sP - Plan sS - Source sM - Make sD - Deliver
sP1
Plan Supply Chain
sP2
Plan Source
sP3
Plan Make
sP4
Plan Deliver
sP5
Plan Return
sS1
Source Stocked
Product
sS2
Source Make-to-
Order Product
sS3
Source Engineer-
to-Order Product
sM1
Make-to-Stock
sM2
Make-to-Order
sM3
Engineer-to-Order
sD1
Deliver Stocked
Product
sD2
Deliver Make-to-
Order Product
sD3
Deliver Engineer-
to-Order Product
sD4
Deliver Retail
Product
sP1.1:
Identify, Prioritize
and Aggregate
Supply Chain
Requirements
sP1.2:
Identify, Prioritize
and Aggregate
Supply Chain
Resources
sP1.3:
Balance Supply
Chain Resources
with SC
Requirements
sP1.4:
Establish and
Communicate
Supply Chain Plans
sP2.1:
Identify, Prioritize
and Aggregate
Product
Requirements
sP2.2:
Identify, Assess and
Aggregate Product
Resources
sP2.3:
Balance Product
Resources
with Product
Requirements
sP2.4:
Establish Sourcing
Plans
sP3.1:
Identify, Prioritize
and Aggregate
Production
Requirements
sP3.2:
Identify, Assess
and Aggregate
Production
Resources
sP3.3:
Balance Production
Resources
with Production
Requirements
sP3.4:
Establish
Production Plans
sP4.1:
Identify, Prioritize
and Aggregate
Delivery
Requirements
sP4.2:
Identify, Assess and
Aggregate Delivery
Resources
sP4.3:
Balance Delivery
Resources and
Capabilities
with Delivery
Requirements
sP4.4:
Establish
Delivery Plans
sP5.1:
Assess and
Aggregate Return
Requirements
sP5.2:
Identify, Assess
and Aggregate
Return Resources
sP5.3:
Balance Return
Resources
with Return
Requirements
sP5.4:
Establish and
Communicate
Return Plans
sS1.1:
Schedule
Product Deliveries
sS1.2:
Receive Product
sS1.3:
Verify Product
sS1.4:
Transfer Product
sS1.5:
Authorize
Supplier Payment
sS2.1:
Schedule
Product Deliveries
sS2.2:
Receive Product
sS2.3:
Verify Product
sS2.4:
Transfer Product
sS2.5:
Authorize
Supplier Payment
sS3.1:
Identify Sources
of Supply
sS3.2:
Select Final
Supplier and
Negotiate
sS3.3:
Schedule
Product Deliveries
sS3.4:
Receive Product
sS3.5:
Verify Product
sS3.6:
Transfer Product
sS3.7:
Authorize
Supplier Payment
sM1.1:
Schedule
Production
Activities
sM1.2:
Issue Material
sM1.3:
Produce and Test
sM1.4:
Package
sM1.5:
Stage Product
sM1.6:
Release Product to
Deliver
sM1.7:
Waste Disposal
sM2.1:
Schedule
Production
Activities
sM2.2:
Issue Sourced/In-
Process Product
sM2.3:
Produce and Test
sM2.4:
Package
sM2.5:
Stage
Finished Product
sM2.6:
Release Finished
Product to Deliver
sM2.7:
Waste Disposal
sM3.1:
Finalize Production
Engineering
sM3.2:
Schedule
Production
Activities
sM3.3:
Issue Sourced/In-
Process Product
sM3.4:
Produce and Test
sM3.5:
Package
sM3.6:
Stage
Finished Product
sM3.7:
Release Product
to Deliver
sM3.8:
Waste Disposal
sD1.1:
Process Inquiry
and Quote
sD1.2:
Receive, Enter,
and Validate Order
sD1.3:
Reserve Inventory
and Determine
Delivery Date
sD1.4:
Consolidate Orders
sD1.5:
Build Loads
sD1.6:
Route Shipments
sD1.7:
Select Carriers and
Rate Shipments
sD1.8:
Receive Product
from Source
or Make
sD1.9:
Pick Product
sD1.10:
Pack Product
sD1.11:
Load Vehicle
& Generate
Shipping Docs
sD1.12:
Ship Product
sD1.13:
Receive and
Verify Product
by Customer
sD1.14:
Install Product
sD1.15:
Invoice
sD2.1:
Process Inquiry
and Quote
sD2.2:
Receive, Configure,
Enter and
Validate Order
sD2.3:
Reserve Inventory
and Determine
Delivery Date
sD2.4:
Consolidate Orders
sD2.5:
Build Loads
sD2.6:
Route Shipments
sD2.7:
Select Carriers and
Rate Shipments
sD2.8:
Receive Product
from Source
or Make
sD2.9:
Pick Product
sD2.10:
Pack Product
sD2.11:
Load Product
& Generate
Shipping Docs
sD2.12:
Ship Product
sD2.13:
Receive and
Verify Product
by Customer
sD2.14:
Install Product
sD2.15:
Invoice
sD3.1:
Obtain and
Respond to RFP/
RFQ
sD3.2:
Negotiate and
Receive Contract
sD3.3:
Enter Order,
Commit Resources
& Launch Program
sD3.4:
Schedule
Installation
sD3.5:
Build Loads
sD3.6:
Route Shipments
sD3.7:
Select Carriers &
Rate Shipments
sD3.8:
Receive Product
from Source
or Make
sD3.9:
Pick Product
sD3.10:
Pack Product
sD3.11:
Load Product
& Generate
Shipping Docs
sD3.12:
Ship Product
sD3.13:
Receive and
Verify Product
by Customer
sD3.14:
Install Product
sD3.15:
Invoice
sD4.1:
Generate
Stocking Schedule
sD4.2:
Receive Product
at Store
sD4.3:
Pick Product
from backroom
sD4.4:
Stock Shelf
sD4.5:
Fill Shopping Cart
sD4.6:
Checkout
sD4.7:
Deliver and/or
install
sR - Return sE - Enable
sSR1
Source Return
Defective Product
sSR2
Source Return
MRO Product
sSR3
Source Return
Excess Product
sDR1
Deliver Return
Defective Product
sDR2
Deliver Return
MRO Product
sDR3
Deliver Return
Excess Product
sE1
Manage Supply
Chain Business
Rules
sE2
Manage
Supply Chain
Performance
sE3
Manage
Supply Chain Data
and Information
sE4
Manage
Supply Chain
Human Resources
sE5
Manage
Supply Chain
Assets
sE6
Manage
Supply Chain
Contracts
sE7
Manage
Supply Chain
Network
sE8
Manage Supply
Chain Regulatory
Compliance
sE9
Manage
Supply Chain Risk
sE10
Manage
Supply Chain
Procurement
sE11
Manage
Supply Chain
Technology
sSR1.1:
Identify Defective
Product Condition
sSR1.2:
Disposition
Defective Product
sSR1.3:
Request Defective
Product Return
Authorization
sSR1.4:
Schedule Defective
Product Shipment
sSR1.5:
Return
Defective Product
sSR2.1:
Identify MRO
Product Condition
sSR2.2:
Disposition
MRO Product
sSR2.3:
Request
MRO Return
Authorization
sSR2.4:
Schedule
MRO Shipment
sSR2.5:
Return
MRO Product
sSR3.1:
Identify Excess
Product Condition
sSR3.2:
Disposition
Excess Product
sSR3.3:
Request Excess
Product Return
Authorization
sSR3.4:
Schedule Excess
Product Shipment
sSR3.5:
Return
Excess Product
sDR1.1:
Authorize Defective
Product Return
sDR1.2:
Schedule Defective
Return Receipt
sDR1.3:
Receive Defective
Product
(includes verify)
sDR1.4:
Transfer
Defective Product
sDR2.1:
Authorize MRO
Product Return
sDR2.2:
Schedule MRO
Return Receipt
sDR2.3:
Receive
MRO Product
sDR2.4:
Transfer
MRO Product
sDR3.1:
Authorize Excess
Product Return
sDR3.2:
Schedule Excess
Return Receipt
sDR3.3:
Receive
Excess Product
sDR3.4:
Transfer
Excess Product
sE1.1:
Gather Business
Rule Requirements
sE1.2:
Interpret Business
Rule Requirement
sE1.3:
Document
Business Rule
sE1.4:
Communicate
Business Rule
sE1.5:
Release/Publish
Business Rule
sE1.6:
Retire Business
Rule
sE2.1:
Initiate Reporting
sE2.2:
Analyze Reports
sE2.3:
Find Root Causes
sE2.4:
Prioritize
Root Causes
sE2.5:
Develop
Corrective Actions
sE2.6:
Approve & Launch
sE3.1:
Receive
Maintenance
Request
sE3.2:
Determine/Scope
Work
sE3.3:
Maintain
Content/Code
sE3.4:
Maintain Access
sE3.5:
Publish Information
sE3.6:
Verify Information
sE4.1:
Identify Skills/
Resource
Requirement
sE4.2:
Identify Available
Skills/Resources
sE4.3:
Match Skills/
Resources
sE4.4:
Determine Hiring/
Redeployment
sE4.5:
Determine
Training/Education
sE4.6:
Approve, Prioritize
and Launch
sE5.1:
Schedule Asset
Management
Activities
sE5.2:
Take Asset Off-line
sE5.3:
Inspect and
Troubleshoot
sE5.4:
Install and
Configure
sE5.5:
Clean, Maintain
and Repair
sE5.6:
Decommission
and Dispose
sE5.7:
Inspect
Maintenance
sE5.8:
Reinstate Asset
sE6.1:
Receive Contract/
Contract Updates
sE6.2:
Enter and
Distribute Contract
sE6.3:
Activate/Archive
Contract
sE6.4:
Review Contractual
Performance
sE6.5:
Identify
Performance Issues/
Opportunities
sE6.6:
Identify
Resolutions/
Improvements
sE6.7:
Select, Prioritize
and Distribute
Resolutions
sE7.1:
Select Scope
and Organization
sE7.2:
Gather Input
and Data
sE7.3:
Develop Scenarios
sE7.4:
Model/Simulate
Scenarios
sE7.5:
Project Impact
sE7.6:
Select and Approve
sE7.7:
Develop Change
Program
sE7.8:
Launch
Change Program
sE8.1:
Monitor
Regulatory Entities
sE8.2:
Assess Regulatory
Publications
sE8.3:
Identify Regulatory
Deficiencies
sE8.4:
Define Remediation
sE8.5:
Verify/Obtain
License
sE8.6:
Publish
Remediation
sE9.1:
Establish Context
sE9.2:
Identify Risk Events
sE9.3:
Quantify Risks
sE9.4:
Evaluate Risks
sE9.5:
Mitigate Risk
sE10.1:
Develop Strategy
and Plan
sE10.2:
Pre-Procurement
/ Market Test and
MarketEngagement
sE10.3:
Develop
Procurement
Documentation
sE10.4:
Supplier Selection
to Participate
sE10.5:
Issue ITT / RFQ
sE10.6:
Bid / Tender
Evaluation and
Validation
sE10.7:
Contract Award and
Implementation
sE11.1:
Define Supply
Chain Technology
Requirements
sE11.2:
Identify Technology
Solution
Alternatives
sE11.3:
Define/Update
Supply Chain
Technology
Roadmap
sE11.4:
Select Technology
Solution
sE11.5:
Define and Deploy
Technology
Solution
sE11.6:
Maintain and
Improve Technology
Solution
sE11.7:
Retire Technology
Solution
4. 4 SCOR 12.0 Quick Reference Guide
SCOR Practices
A practice is a unique way to configure a process or a set of processes. The uniqueness can
be related to the automation of the process, a technology applied in the process, special skills
applied to the process, a unique sequence for performing the process, or a unique method
for distributing and connecting processes between organizations. All practices have links to
one or more processes, one or more metrics and, where available, one or more skills.
SCOR Practices are classified to simplify identification of practices by area
of interest:
Special Applications
SustainableSCOR
SustainableSCOR is based upon The GRI Sustainability Reporting Standards (GRI Standards)
that are within scope of the SCOR model. GRI Standards are free to use and are available at
www.globalreporting.org/standards. The following strategic environmental metrics allow
the SCOR model to be used as a framework for environmental accounting:
The SCOR framework ties emissions to the originating processes, providing a structure for
measuring environmental performance and identifying where performance can be
improved. The hierarchical nature of the model allows strategic environmental footprint
goals to be translated to specific targets and activities.
SCOR Performance
The performance or metrics section of SCOR focuses on understanding the outcomes of the
supply chain and consists of two types of elements: Performance Attributes and Metrics., and
introduces the concept of Process/Practice Maturities.
A performance attribute is a grouping or categorization of metrics used to express a specific
strategy. An attribute itself cannot be measured; it is used to set strategic direction. For
example: “The LX product needs to be leading the competition in reliability“ and “The XY-market
requires us to be among the top 10 agile manufacturers“. Metrics measure the ability to
achieve these strategic directions. SCOR recognizes 5 performance attributes:
A metric is a standard for measurement of the performance of a supply chain or process.
SCOR metrics are diagnostic metrics (compare to how diagnosis is used in a medical office).
SCOR recognizes three levels of pre-defined metrics:
Level-1 metrics are diagnostics for the overall health of the supply chain. These metrics are
also known as strategic metrics and key performance indicators (KPI). Benchmarking level-1
metrics helps establishing realistic targets to support strategic directions.
Level-2 metrics serve as diagnostics for the level-1 metrics. The diagnostic relationship
helps to identify the root cause or causes of a performance gap for a level-1 metric.
Level-3 metrics serve as diagnostics for level-2 metrics.
The analysis of performance of metrics from level-1 through 3 is referred to as metrics
decomposition, performance diagnosis or metrics root cause analysis. Metrics
decomposition is a first step in identifying the processes that need further investigation.
(Processes are linked to level-1, level-2 and level-3 metrics).
n Business Process Analysis/Improvement
n Customer Support
n Distribution Management
n Information Management
n Inventory Management
n Material Handling
n New Product Introduction
n Order Engineering (ETO)
n Order Management
n People Management (Training)
n Planning and Forecasting
n Production Execution
n Product Lifecycle Management
n Purchasing/Procurement
n Reverse Logistics
n Risk/Security Management
n Sustainable Supply Chain Management
n Transportation Management
n Warehousing
n Reliability
n Responsiveness
n Agility
n Cost
n Asset Management Efficiency (Assets)
n Materials Used
(Weight or Volume)
n Energy Consumed
(Joules,Watt-hours or Multiples)
n Water Volume Withdrawn
(Gallons, Liters or Multiples)
n Air Emissions
(Metric Tons or Equivalents)
n Liquid and Solid Wastes
(Gallons, Liters or Multiples, Weight
or Volume)
5. 5 SCOR 12.0 Quick Reference Guide
Agility
AG.1.1 - Upside Supply Chain Adaptability
AG.2.1 - Upside Adaptability (Source)
AG.2.2 - Upside Adaptability (Make)
AG.2.3 - Upside Adaptability (Deliver)
AG.2.4 - Upside Return Adaptability (Source)
AG.2.5 - Upside Return Adaptability (Deliver)
AG.1.2 - Downside Supply Chain Adaptability
AG.2.6 - Downside Adaptability (Source)
AG.2.7 - Downside Adaptability (Make)
AG.2.8 - Downside Adaptability (Deliver)
AG.1.3 - Overall Value at Risk (VAR)
AG.2.9 - Supplier’s/Customer’s/ Product’s Risk Rating
AG.2.10 - Value at Risk (Plan)
AG.2.11 - Value at Risk (Source)
AG.2.12 - Value at Risk (Make)
AG.2.13 - Value at Risk (Deliver)
AG.2.14 - Value at Risk (Return)
AG.2.15 - Time to Recovery (TTR)
Asset Management Efficiency
AM.1.1 - Cash-to-Cash Cycle Time
AM.2.1 - Days Sales Outstanding
AM.2.2 - Inventory Days of Supply
AM.3.16 - Inventory Days of Supply ( Raw Material )
AM.3.17 - Inventory Days of Supply ( WIP )
AM.3.23 - Recycle Days of Supply
AM.3.28 - Percentage Defective Inventory
AM.3.37 - Percentage Excess Inventory
AM.3.44 - Percentage Unserviceable MRO Inventory
AM.3.45 - Inventory Days of Supply ( Finished Goods )
AM.2.3 - Days Payable Outstanding
AM.1.2 - Return on Supply Chain Fixed Assets
AM.2.4 - Supply Chain Revenue
AM.2.5 - Supply Chain Fixed Assets
AM.3.11 - Fixed Asset Value (Deliver)
AM.3.18 - Fixed Asset Value (Make)
AM.3.20 - Fixed Asset Value (Plan)
AM.3.24 - Fixed Asset Value (Return)
AM.3.27 - Fixed Asset Value (Source)
AM.1.3 - Return on Working Capital
AM.2.6 - Accounts Payable (Payables Outstanding)
AM.2.7 - Accounts Receivable (Sales Outstanding)
AM.2.8 - Inventory
Responsiveness
RS.1.1 - Order Fulfillment Cycle Time
RS.2.1 - Source Cycle Time
RS.3.8 - Authorize Supplier Payment Cycle Time
RS.3.35 - Identify Sources of Supply Cycle Time
RS.3.107 - Receive Product Cycle Time
RS.3.122 - Schedule Product Deliveries Cycle Time
RS.3.125 - Select Supplier and Negotiate Cycle Time
RS.3.139 - Transfer Product Cycle Time
RS.3.140 - Verify Product Cycle Time
RS.2.2 - Make Cycle Time
RS.3.33 - Finalize Production Engineering Cycle Time
RS.3.49 - Issue Material Cycle Time
RS.3.101 - Produce and Test Cycle Time
RS.3.114 - Release Finished Product to Deliver Cycle Time
RS.3.123 - Schedule Production Activities Cycle Time
RS.3.128 - Stage Finished Product Cycle Time
RS.3.142 - Package Cycle Time
RS.2.3 - Deliver Cycle Time
RS.3.16 - Build Loads Cycle Time
RS.3.18 - Consolidate Orders Cycle Time
RS.3.46 - Install Product Cycle Time
RS.3.51 - Load Product & Generate Shipping Documentation
Cycle Time
RS.3.102 - Receive & Verify Product by Customer Cycle Time
RS.3.110 - Receive Product from Source or Make Cycle Time
RS.3.111 - Receive, Configure, Enter, & Validate Order Cycle Time
RS.3.116 - Reserve Resources and Determine Delivery Date
Cycle Time
RS.3.117 - Route Shipments Cycle Time
RS.3.120 - Schedule Installation Cycle Time
RS.3.124 - Select Carriers & Rate Shipments Cycle Time
RS.3.126 - Ship Product Cycle Time
RS.2.4 - Delivery Retail Cycle Time
RS.3.17 - Checkout Cycle Time
RS.3.32 - Fill Shopping Cart Cycle Time
RS.3.34 - Generate Stocking Schedule Cycle Time
RS.3.97 - Pick Product from Backroom Cycle Time
RS.3.109 - Receive Product at Store Cycle Time
RS.3.129 - Stock Shelf Cycle Time
RS.2.5 - Return Cycle Time
Cost
CO.1.1 - Total Supply Chain Management Costs
CO.2.1 - Cost to Plan
CO.3.1 - Cost to Plan Supply Chain
CO.3.2 - Cost to Plan (Source)
CO.3.3 - Cost to Plan (Make)
CO.3.4 - Cost to Plan (Deliver)
CO.3.5 - Cost to Plan (Return)
CO.2.2 - Cost to Source
CO.3.6 - Cost to Authorize Supplier Payment
CO.3.7 - Cost to Receive Product
CO.3.8 - Cost to Schedule Product Deliveries
CO.3.9 - Cost to Transfer Product
CO.3.10 - Cost to Verify Product
CO.2.3 - Cost to Make
CO.3.11 - Direct Material Cost
CO.3.12 - Indirect Cost Related to Production
CO.3.13 - Direct Labor Cost
CO.2.4 - Cost to Deliver
CO.3.14 - Order Management Costs
CO.3.15 - Order Delivery and / or Install Costs
CO.2.5 - Cost to Return
CO.3.16 - Cost to Source Return
CO.3.17 - Cost to Deliver Return
CO.2.6 - Mitigation Costs
CO.3.18 - Risk Mitigation Costs (Plan)
CO.3.19 - Risk Mitigation Costs (Source)
CO.3.20 - Risk Mitigation Costs (Make)
CO.3.21 - Risk Mitigation Costs (Deliver)
CO.3.22 - Risk Mitigation Costs (Return)
CO.1.2 - Costs of Goods Sold
CO.2.7 - Direct Labor Cost
CO.2.8 - Direct Material Cost
CO.2.9 - Indirect Cost Related to Production
Reliability
RL.1.1 - Perfect Order Fulfillment
RL.2.1 - % of Orders Delivered In Full
RL.3.33 - Delivery Item Accuracy
RL.3.35 - Delivery Quantity Accuracy
RL.2.2 - Delivery Performance to Customer Commit Date
RL.3.32 - Customer Commit Date Achievement Time
Customer Receiving
RL.3.34 - Delivery Location Accuracy
RL.2.3 - Documentation Accuracy
RL.3.31 - Compliance Documentation Accuracy
RL.3.43 - Other Required Documentation Accuracy
RL.3.45 - Payment Documentation Accuracy
RL.3.50 - Shipping Documentation Accuracy
RL.2.4 - Perfect Condition
RL.3.12 - % Of Faultless Installations
RL.3.24 - % Orders/Lines Received Damage Free
RL.3.41 - Orders Delivered Damage Free Conformance
RL.3.42 - Orders Delivered Defect Free Conformance
RL.3.55 - Warranty and Returns