SUPPLY CHAIN MANAGEMENT IN THE ERP INDUSTRY



Similar documents
Supply chain management in the ERP industry

SUPPLY CHAIN MANAGEMENT AT A GLOBAL LEVEL A CHALLENGE AND AN OPPORTUNITY FOR A LEADING OILFIELD SERVICE COMPANY. Amaar Saeed Khan

The Power of Customer Relationship Management in Enhancing Product Quality and Customer Satisfaction

Delivering Vertical Solutions to a Global Market

Copyright , Pricedex Software Inc. All Rights Reserved

IMPLEMENTING "GREEN"ELEMENTS INTO THE SUPPLY CHAIN - THE LITERATURE REVIEW AND EXAMPLES

Bachelor Thesis, Organization and Strategy. ANR : Study Program : Premaster logistics and operations management

Aligning Supply Chain Strategies with Product Uncertainties. Lee, Hau L. California Management Review, Vol. 44, No. 3, (2002) pp.

CRITICAL ATTRIBUTES ON SUPPLY CHAIN STRATEGY IMPLEMENTATION: CASE STUDY IN EUROPE AND ASIA

Zeki Ayag QUALITY FUNCTION DEPLOYMENT APPROACH TO EVALUATE SUPPLY CHAIN STRATEGIES IN TURKISH AUTOMOTIVE INDUSTRY

GAINING A COMPETITIVE ADVANTAGE BY INTEGRATION OF MARKETING AND LOGISTICS

UNDERSTANDING SUPPLY CHAIN MANAGEMENT AND ITS APPLICABILITY IN THE PHILIPPINES. Ma. Gloria V. Talavera*

STRENGTHS AND WEAKNESSES OF CURRENT SUPPLY CHAIN MANAGEMENT AND INITIATIVES FOR THE FUTURE. Diana-Maria DIACONU (NIDELEA) 1 Cristina ALPOPI 2

PLM and ERP Integration: Business Efficiency and Value A CIMdata Report

HISTORY AND INTRODUCTION

SCM. Logistics, Service, and Operations Management

Exploring Information Quality in Accounting Information Systems Adoption

26/10/2015. Enterprise Information Systems. Learning Objectives. System Category Enterprise Systems. ACS-1803 Introduction to Information Systems

A Methodology for Supply Chain Design An Application to Auto-part Industry

A SYSTEM DEVELOPMENT METHODOLOGY FOR ERP SYSTEM IN SMEs OF MALAYSIAN MANUFACTURING SECTORS

MKS Integrity & CMMI. July, 2007

The goal of this discussion is the development of one, comprehensive definition upon which we can use on our collaborative framework.

THE POTENTIAL EVALUATION FOR SUPPLY CHAIN VALUE ADDED IN TOURISM INDUSTRY OF THAILAND

An Integrated Methodology for Implementing ERP Systems

Outline. Logistics and Supply Chain Management. Competitive and Supply Chain Strategies. What is Supply Chain Management? Supply Chain Performance

Developing a Better ERP System: The Risk of Loosing Competitive Advantage

The Decision Making Systems Model for Logistics

Redesigning the supply chain for Internet shopping Bringing ECR to the households

Management of Uncertainty In Supply Chain

COSTING METHODS FOR SUPPLY CHAIN MANAGEMENT

Enterprise Systems: From Supply Chains to ERP to CRM

DESIGNED FOR YOUR INDUSTRY. SCALED TO YOUR BUSINESS. READY FOR YOUR FUTURE. SAP INDUSTRY BRIEFING FOR HEATING, VENTILATION, AIR CONDITIONING, AND

SAP Solutions for Small Businesses and Midsize Companies. Press Fact Sheet March 2008

Demand Chain Management: The Other Side of Supply Chain Management. Abstract

Globalization Drives Market Need for Supply Chain Segmentation: Research & Key Strategies

An Analysis of the B2B E-Contracting Domain - Paradigms and Required Technology 1

Non-Stop Manufacturing Excellence. Automotive. Answers for industry.

How to bridge the gap between business, IT and networks

ENTERPRISE RESOURCE PLANNING IN CONSTRUCTION: AN EVALUATION OF RECENT IMPLEMENTATIONS

Control and Synergies in the Outsourced Supply Chain -

Supply Chain Maturity and Business Performance: Assessment and Impact

ENTERPRISE MANAGEMENT AND SUPPORT IN THE AUTOMOTIVE INDUSTRY

Value Network Positioning of Expected Winners: Analysis of the Top Software Business Start-ups

Collaborative Software Needs for Contract Manufacturers

Designing a Process Architecture - A Concrete Approach

Microsoft Dynamics AX 2012 A New Generation in ERP

Component-based Development Process and Component Lifecycle Ivica Crnkovic 1, Stig Larsson 2, Michel Chaudron 3

Donatella Corti, Alberto Portioli-Staudacher. To cite this version: HAL Id: hal

THE SUPPLY CHAIN MANAGEMENT AND OPERATIONS AS KEY TO FUTURE COMPETITIVENESS FOR RESEARCH, DEVELOPMENT AND MANUFACTURE OF NEW VEHICLES

Leagility in Enterprise Networks Configuration of Capital Goods Sector

Chapter 2 Supply Chain Performance: Achieving Strategic Fit and Scope (24)

From Software Product Lines to Software Ecosystems

An Enterprise Resource Planning Solution for Mill Products Companies

Managing the links between manufacturing and logistics service

DESIGNED FOR YOUR INDUSTRY. SCALED TO YOUR BUSINESS. READY FOR YOUR FUTURE. SAP INDUSTRY BRIEFING FOR ELEVATOR, ESCALATOR AND MOVING SIDEWALK

Tilgin. Services Description Customer Support Portfolio

Cost of Poor Quality:

Controlling Data Resources in Distributed Environments Barbara Grant

SAP ERP FINANCIALS ENABLING FINANCIAL EXCELLENCE. SAP Solution Overview SAP Business Suite

Strategies and Methods for Supplier Selections - Strategic Sourcing of Software at Ericsson Mobile Platforms

RELATIONSHIP BETWEEN SUPPLY CHAIN STRATEGIES AND TRANSPORT OUSOURCING GOALS - THE RISK PERSPECTIVE

Software Development Governance: A Meta-management Perspective

NETWORK MANAGEMENT AND INFORMATION SYSTEMS INTEGRATION IN FINNISH MANUFACTURING COMPANIES

Yvonne van Everdingen, Jos van Hillegersberg, and Eric Waarts

TQM 20,1. E. de Lange-Ros Faxion, Leidschendam, The Netherlands

Developing CMMI in IT Projects with Considering other Development Models

When Worlds Collide: Next Generation ERP

The goals of reducing inventory and. Supply Chain Reengineering: Improving Inventory Management and Customer Service Quality

INVENTORY TURNOVER RATIO AS A SUPPLY CHAIN PERFORMANCE MEASURE

Logistics Management SC Performance, SC Drivers and Metrics. Özgür Kabak, Ph.D.

Machine to Machine Communications As a Service

The Customer Relationship Management Process

Today, the Cisco Enterprise B2B team has created automated and standardized processes in the following areas:

Innovative Analysis of a CRM Database using Online Analytical Processing (OLAP) Technique in Value Chain Management Approach

Software Quality Assurance in Agile, XP, Waterfall and Spiral A Comparative Study

Supply Chain Bullwhip Effect Simulation Under Different Inventory Strategy

The Supply Chain Management Processes

Verification and Validation of Software Components and Component Based Software Systems

Client-3PL Relationships: How expectations & asymmetry affect mutual satisfaction. Robert Wiedmer Doctoral Candidate wiedmer@bus.msu.

Global Supply Chain Control Towers

Distributor/Reseller Marketing A Riddle Wrapped in a Mystery Inside an Enigma

front line A telling fortune Supply chain demand management is where forecasting meets lean methods by john t. mentzer 42 Industrial Engineer

For Improved Efficiency, look at the supply Chain and Outsourcing Management

Business Process Management of Telecommunication Companies: Fulfillment and Operations Support and Readiness Cases

Best Practices in Lean Manufacturing. WHITE PAPER Cincom In-depth Analysis and Review

Development of Frameworks for Vendor Base Rationalization and Impact of this on Supplier Relationship: A study of Indian Manufacturing Sector

ENTERPRISE MANAGEMENT AND SUPPORT IN THE TELECOMMUNICATIONS INDUSTRY

The Role of Engineering in Supply Chain Management William K. Hoehn, Ph.D. Raytheon Systems Company Tucson, Arizona

SAP ERP OPERATIONS SOLUTION OVERVIEW

The IT Infrastructure Library (ITIL)

Sage ERP I White Paper. An ERP Guide to Driving Efficiency

INFORMATION TECHNOLOGIES AND MATERIAL REQUIREMENT PLANNING (MRP) IN SUPPLY CHAIN MANAGEMENT (SCM) AS A BASIS FOR A NEW MODEL

TEN TIPS FOR A SUCCESSFUL INFOR IMPLEMENTATION

Ten Questions to Ask PLM Solution Suppliers What You Need to Know to Make an Informed Decision. August A CIMdata White Paper

Process Improvement. Objectives

RISK MANAGEMENT & ISO 9001:2015. Greg Hutchins PE CERM Quality + Engineering CERM Academy GregH@CERMAcademy.com 800.COMPETE or

IAAS CLOUD EXCHANGE WHITEPAPER

Efficient Demand and Fulfillment Planning. Gabriel Werner, Senior Solution Consultant

Systems Engineering Complexity & Project Management

Data Migration through an Information Development Approach An Executive Overview

Transcription:

SUPPLY CHAIN MANAGEMENT IN THE ERP INDUSTRY Douwe Postmus * and Gert Kruithof Department of Business and ICT, University of Groningen, P.O. Box 800, 9700 AV Groningen, The Netherlands ABSTRACT Compared to traditional industries, the software industry has three interesting properties: (i) the software supply chain covers a range of value-adding services, (ii) many development decisions are related to the change of installed products, and (iii) the marginal costs of reproducing and distributing software are negligible. This paper explores how these industry-specific factors enable and/or constrain the supply chain management initiatives of software companies by conducting two case studies in the enterprise resource planning (ERP) domain. The results show that most of these initiatives are concerned with integrating quality management across the supply chain. Requirements management and demand management are the other two business processes that are object of supply chain coordination. The mechanisms by which the business processes are integrated and managed across the supply chain can be divided into three categories: information sharing, decision synchronization, and standardization. Keywords: ERP software, supply chain management, software industry INTRODUCTION Supply chain management is a management philosophy that takes a systems approach to viewing the supply chain as a single entity (Mentzer et al., 2001). It seeks integration of the business processes that make up the system across organizational boundaries to increase the performance of the supply chain as a whole. Implementing the supply chain management philosophy therefore entails a shift from market transaction towards long-term relationships through contractual and non-contractual agreements (Jagdev and Thoben, 2001). In the early days of supply chain management, these agreements where primarily targeted at increasing the efficiency of the flow of goods (Sila et al., 2006). The agreement to adopting just-in-time (JIT) delivery to reduce buffer inventories within the supply chain is a wellknown example (Slack et al., 2007). Nowadays, their scope has been extended to include all functions within the supply chain. Vehicle manufacturers, for example, do not only rely on inventory management to increase performance, they also give their suppliers more design responsibility to reduce time-to-market of new product introductions (Twigg, 1998). Researchers in the field of supply chain management have investigated many industries, including the automotive (Choi and Hong, 2002; Holweg and Miemczyk, 2003), the healthcare (Harland, 1996; Rivard-Royer et al., 2002), the food processing (Dzever et al., 2001; Van Donk, 2001), and the construction industry (Vrijhoef and Koskela, 2000; Fearne and Fowler, 2006). The software industry, * Corresponding author. Tel.: + 31 50 363 3982; fax: + 31 50 363 2275. Email addresses: d.postmus@rug.nl, g.h.kruithof@rug.nl 1

however, has hardly received any attention so far, despite the many potential benefits that software companies can gain from managing their supply chains. For example, customers often use a software system in combination with extensions from other software vendors. Without any form of coordination, this may result in malfunction when a customer upgrades the system. Controlling the quality of the components that a software manufacturer receives from its suppliers is another example. Compared to traditional industries, the software industry has three interesting properties. First, many effort in supply chain management is directed at reducing the unit cost of production. However, the marginal costs of reproducing and distributing a software product are already negligible. Second, the supply chain of enterprise software does not only cover the software product, but also a range of valueadding services, such as installation, configuration, and customization. Finally, in many industries, product development may start from scratch each time a new version of a product is created. In the automotive industry, for example, only about 10 percent of a former product s parts are adopted from predecessor models (Clark and Fujimoto, 1991). In the software industry, however, many development decisions are directly related to change of installed products. An example of such a decision is how the consistency of an installed software product can be guaranteed if parts of the product can have multiple versions. Another example is how the migration of a customer s data from one version to another can be achieved. The objective of this paper is to explore how these industry-specific factors enable and/or constrain the supply chain management initiatives of software companies. It achieves this objective by first adapting the general supply chain concept to the specific characteristics of the software industry. Subsequently, the paper identifies and discusses the business processes that software companies integrate with their suppliers and customers as well as the mechanisms that are used to achieve supply chain coordination by conducting two case studies in the Enterprise Resource Planning (ERP) domain. Its focus on ERP software is explained by the fact that the supply chains have considerably evolved in this part of the software industry: ERP software is distributed to customers through an extensive network of dealers and resellers, and manufacturers incorporate components of external suppliers into their products. The case study approach has been adopted because it lends itself to exploratory investigations in new research areas (Voss et al., 2002). The remainder of this paper is organized as follows. First, an overview is provided of relevant concepts from the field of operations management. Then, the general supply chain concept is adapted to the specific characteristics of the software industry. Subsequently, the research methodology is discussed. After that, the results from the two case studies are presented and subjected to a cross-case analysis. Next, the implications from this research are discussed. Finally, the paper concludes with a brief summary and suggestions for further research. CONCEPTUAL FRAMEWORK To define the focus of our research, this section specifies the concepts we intend to study. According to Eisenhardt (1989), a priori specification of constructs is valuable because it permits researchers to measure constructs more accurately. Voss et al. (2002) go even further by arguing that without a clear focus case study research risks degenerating into a fishing expedition, where the observer is hoping to catch valuable insights that in turn will lead to research questions. Supply chain A supply chain is a network of firms engaged in the production, storage, distribution, and delivery of a product or service. As is shown in Figure 1, the individual firms in a supply chain are linked to each other through a forward flow of goods (solid arrows) and a backwards flow of information, such as customer orders, and payments (dashed arrows). Taking the manufacturer as focal firm, we use the 2

term supply network to refer to the upstream part of the supply chain and the term distribution channel to refer to the downstream part of the supply chain. In analyzing a supply chain, a distinction can be made between primary and supporting members. Primary members perform value-adding activities designed to create a specific product or service for a particular customer or market, whereas supporting members support primary members by providing (non-value adding) assets, resources, knowledge, and utilities (Lambert and Cooper, 2000; Min and Zhou, 2002). Second-tier supplier First-tier supplier Manufacturer Distributor Retailer Customer Supply network Distribution channel Figure 1 - A schematic representation of a basic supply chain Supply chain management Lambert and Cooper (2000) define supply chain management as the integration of key business processes from end user through original suppliers that provide products, services, and information that add value for customers and other stakeholders. This definition suggests that the supply chain can be seen as a system that transforms inputs such as customer orders into outputs such as products and services. Supply chain management then involves integrating the business processes that make up the system across company boundaries in order to increase the performance of the system as a whole. The management techniques by which these business processes are integrated across the supply chain are referred to as coordination mechanisms. Three modes of supply chain coordination are often distinguished (Lee, 2000; Simatupang et al., 2002; Simatupang et al., 2004; Piplani and Fu, 2005): information sharing, decision synchronization, and incentive alignment. Information sharing refers to the exchange of information and knowledge among supply chain members. A retailer sharing sales information with its distributors and manufacturers to prevent large fluctuations in production rates and inventory levels upstream in the supply chain is a well-known example (Lee, 2000). Decision synchronization is the extent to which participating actors become involved in joint-decision making such as resolving conflicting objectives, mitigating uncertainty, redesigning workflow, and allocating resources (Simatupang et al., 2004). An example is vendor-managed inventory, which refers to a supplier taking full responsibility for replenishing the stock held by its customer (Slack et al., 2007). Finally, the term incentive alignment is used to refer to the sharing of risks, costs, and rewards in order to give supply chain members the incentive to participate in supply chain integration (Lee, 2000; Piplani and Fu, 2005). THE SOFTWARE SUPPLY CHAIN Firms in the software industry provide software assets or services related to software assets, such as deployment, configuration, and customization. Software assets can either be complete systems, also referred to as software packages, or individual parts of a system, called components (Szyperski, 1998; Sommerville, 2004). A component may be large or small and can be thought of as a black box that can be called by other components to perform a certain task. The details of the execution of the task are hidden. For example, a postcode checker may be one of the components of a logistics system. The 3

logistics system itself can, in turn, be one of the subsystems of a larger ERP package. The component concept is one of the enablers of the emergence of supply chains in the software industry because it enables division of work and purchasing of components from external suppliers (Hopkins, 2000). Supply network Firms in the supply network of a software manufacturer add value by providing components and subsystems. Before the primary members of the supply network can be described and analyzed, some kind of starting point is needed for determining the boundaries of a software system unambiguously. The license agreement between the software vendor and the end-user turns out to be a suitable criterion because it contains a description of the components that are considered to be part of the system. The use of components that form an integral part of it is always covered, while the use of an optional component is only covered if the customer requires this component. The license agreement also specifies the conditions under which the system can be used, whether modifications are allowed, and how payments to the licensor are arranged (Messerschmitt and Szyperski, 2003). From our criterion for the identification of a software system, we derive the following rule for demarcating the supply network of a software manufacturer: a component supplier is a primary member of the supply network if the use of the component is covered by the license agreement between the software manufacturer and the end-user. Consider an operating system supplier as an example. An ERP system depends technically on the services provided by the operating system, but the use of this system is generally not included in the license agreement. The operating system supplier is therefore not considered to be a primary member of the supply network of the manufacturer of the ERP system. Distribution channel Firms in the distribution channel of a software manufacturer add value by distributing the product, installing it at the customer s site, and tailoring it to the customer s specific requirements. ERP systems are high-volume products that are distributed to a large number of customers spread across many different market segments. To account for the differences in preferences among these customers, they allow for customization in the form of extensive parameterization (Messerschmitt and Szyperski, 2003). Examples of parameterization are language selection of the user interface, selection of the currency in which financial data are presented, and selection of the order in which certain activities are executed. Parameterization, however, does usually not provide sufficient flexibility to fulfill the requirements of individual customers completely. Component plug-ins (CPIs) are then required to provide the missing functionality. CPIs extend an application by building on its Application Programming Interface (API) and can be divided into domain-specific and customer-specific CPIs. Domain-specific CPIs are developed to meet the needs of specific market segments, whereas customerspecific CPIs are commissioned by an individual customer. METHODOLOGY To identify some of the supply chain management initiatives in the software industry, semi-structured interviews were conducted at four different companies. Three of them belonged to the domain of enterprise information systems, while the fourth company was a producer of embedded software. From these four companies, two were selected for intensive study, where follow-up interviews were conducted. One of them (referred to as company A) is a manufacturer of ERP software, the other company (company B) is a reseller of enterprise information systems, including ERP software. The reason for selecting these two companies for further investigation is the following. Although the companies belong to different supply chains, they operate under similar market conditions as both supply chains deliver an ERP system that is targeted at midsize and larger companies. Because of this, 4

the case study conducted at the second company can be seen as a literal replication of the case study conducted at the first company, which increases the external validity of the study s findings (Yin, 2003). To increase construct validity, a document study was performed to complement the answers provided by the respondents. Internal validity is not an issue for our study because we are not concerned with making causal claims (Yin, 2003). RESULTS Case A: the ERP manufacturer Company A is a producer of ERP software. Spread across several countries, the company serves over 100,000 customers through an extensive network of resellers. The company has organized its ERP system as a product line: the system consists of a large number of components that can be composed in customer-specific ways. Controlling the quality of components developed externally turns out to be problematic. As a result, company A has developed most of its ERP system in-house. An exception is the off-the-shelf database management system that forms an integral part of the ERP system. The use of the database is covered by the license agreement of company A, so the database supplier is a primary member of the company s supply network. Company A actively maintains the relationship with the database supplier by organizing monthly meetings in which changes, requirements, and new features are discussed. In developing the ERP system, the company uses several commercially available software tools to support user interface development, communication among components, etc. The tool suppliers are considered to be supporting members of the supply network of company A. The distribution channel consists of a large number of resellers that add value by distributing and installing the product. Company A provides a software development kit (SDK) that allows resellers to extend its ERP system by creating customer-specific CPIs. By keeping the messaging architecture as stable as possible, the company guarantees a forward compatibility of the CPIs developed with the SDK. Some companies in the distribution channel of company A are specialized in developing extensions for specific industries, such as healthcare or construction. To control the quality of the domain-specific CPIs produced by these independent software vendors (ISVs), company A has started a certification program. Extensions that meet the quality standards are certified and included in a catalogue that is published on the company s website. In the selection of the requirements to be fulfilled for a new release, quantitative market information is needed. This requires an information flow from the resellers to company A, which is supported by a web portal. The information flow back to the resellers on the requirements selected for development is not supported. Case B: the reseller Company B is a reseller of enterprise information systems. The company serves over 1,200 customers in more than 10 different countries. Its product portfolio contains several ERP systems. The one of company A is not included. The case study is concerned with the ERP system that is targeted at midsize and larger companies. Recently, company B privatized its business unit engaged in the development of domain-specific CPIs for the ERP system. The resulting company is further referred to as company C. The reason for privatization was that the market for the domain-specific extensions produced by this former business unit is much broader than the customers of company B only. Some of company C s extensions are marketed, sold, and supported by the ERP manufacturer as part of an industry solutions program. In this program, the ERP manufacturer works together with selected ISVs to deliver complete solutions 5

Case B Case A for specific industries. The industry-specific extensions developed by the ISVs in the program are extensively tested to ensure that they meet the quality standards of the ERP manufacturer. In addition, the ISVs are committed to supporting every new release of the ERP system. Company B incorporates domain-specific CPIs from company C as well as plug-ins from other component suppliers. Custom solutions are developed in-house, sometimes in close cooperation with company C. If several customers require a solution initially developed for one particular customer, the solution may be sold to company C and then exploited as a domain-specific CPI. Company B acts as a test organization for new releases of the ERP system. The company keeps complete copies of all customer configurations, so testing includes integration testing with the CPIs used by these customers. In this way, compatibility problems are detected before the release is delivered to and installed at the customer s site. New releases are only accepted if they pass company B s quality standards. Occasionally, a new release is not accepted. Bugs in the software are reported to the manufacturer of the ERP system. Sometimes, if the ERP manufacturer does not solve the bug fast enough or if company B has a better technical solution, company B produces a workaround for a bug in the ERP system. It may happen that the work-around of company B is transferred to and used by the ERP manufacturer as a final solution for that bug. CROSS-CASE ANALYSIS Table 1 displays the data from the two individual cases according to a uniform framework. For each row in the table, the entry in the first column indicates the link in the supply chain that is integrated, and the entry in the second column shows the mechanism that is used to achieve supply chain coordination. To draw cross-case conclusions, we classify the coordination mechanisms from Table 1 along two dimensions: the mode of coordination, and the business process that is object of coordination. When combined, these dimensions yield the classification shown in Table 2. Table 1 Summary of the case study results Supply chain link Coordination mechanism Database supplier ERP manufacturer Monthly meetings in which changes, requirements, and new features are discussed (A1) ERP manufacturer - Reseller ERP manufacturer ISV ERP manufacturer ISV ERP manufacturer Reseller Exchange of customer requirements (A2) Standardization of the messaging architecture (A3) Certification of domain-specific CPIs (A4) Certification of domain-specific CPIs (B1) Exchange of workarounds for bugs in the ERP system (B2) Testing of new releases of the ERP system (B3) Reseller ISV Exchange of custom-developed solutions (B4) Modes of supply chain coordination The mode of supply chain coordination is the first dimension along which the coordination mechanisms are classified. Earlier in the paper, three different modes of supply chain coordination were distinguished: information sharing, decision synchronization, and incentive alignment. By holding the coordination mechanisms from Table 1 against these three modes of coordination, we find that the case descriptions contain four examples of decision synchronization (A1, B2, B3, B4), one example of information sharing (A2), and no examples of incentive alignment. The three remaining coordination 6

mechanisms (A3, A4, B1) do not fit well within any of the three categories. They can rather be seen as examples of standardization, which we identify as a fourth mode of supply chain coordination. Business processes The second dimension we have identified to classify the coordination mechanisms from Table 1 is the business process that is object of supply chain coordination. Table 2 shows that most of the coordination mechanisms serve to integrate quality management across the supply chain. The other two business processes that are object of supply chain coordination are requirements management and demand management. Quality management is concerned with planning and controlling the quality of a product or service (Sila et al., 2006). Many customers use an ERP system in combination with domain-specific extensions from other software vendors. To control the quality of these extensions, both ERP manufacturers have started a certification program. These programs force an ISV to implement the same quality standards as the ERP manufacturer, such that consistency with the ERP package is guaranteed. ISVs find it important to have their solutions certified because it increases the value that customers attach to the solution. In addition, the solution is marketed and sold through the distribution channel of the ERP manufacturer. The two ERP manufacturers differ with respect to how they have responded to the risk of extensions breaking down after an update of the ERP system. To prevent extensions from breaking down after an update, the ERP manufacturer from case study A has developed a software development kit. By keeping the messaging architecture as stable as possible, the company can guarantee a forward compatibility of CPIs that are developed with the software development kit. The ERP manufacturer from case study B, in contrast, has made little attempt in preventing extensions from breaking down due to an update of the ERP system. Instead, the company relies heavily on its resellers to detect and resolve compatibility problems before the new release is deployed at the customer s site. This explains why company B keeps complete copies of all customer configurations. Requirements management is the process of controlling changes to system requirements (Sommerville, 2004). The requirements of information systems are constantly changing because of changes in the business environment, such as the introduction of new legislation, technologies, and business models. In case study A, requirements management is coordinated at two different links in the supply chain. Meetings between the ERP manufacturer and the database supplier are used to discuss the features that are going to be incorporated in the next release of the database management system. The sharing of customer requirements between the ERP manufacturer and its resellers serves to align future releases of the ERP system with the observed changes in the needs of customers. Demand management is the process of balancing customer demand with a firm s supply capabilities (Slack et al., 2007). Company B and company C have integrated the demand management process by exploiting custom-developed solutions as domain-specific CPIs. This strategy increases economies-ofscale since the same solution is now shared among several customers. Table 2 - A classification of the mechanisms that are used to achieve supply chain coordination Quality management Requirements management Demand management Information sharing A2 Decision synchronization B2, B3 A1 B4 Standardization A3, A4, B1 7

DISCUSSION Management of quality in supply chains The software industry has improved its efficiency by focusing on new development technologies, new development tools, and new methodologies. However, the fact that this has resulted in increasingly complex supply chains has received little attention. The case analysis suggests that the current coordination mechanisms are insufficient to achieve the desired level of product quality across the entire supply chain. This applies especially to the quality of the components that ERP manufacturers receive from their suppliers. This has led company A to develop most of its components in-house. Therefore, the absence of supply chain management practices in the software industry hinders further specialization and may well turn out to be the bottleneck in achieving higher levels of efficiency. The management of quality in supply chains is an issue that has received attention recently (Lo and Yeung, 2006; Sila et al., 2006). An important conclusion from this stream of research is that extending quality management practices to the whole supply chain requires a high level of quality planning and control within the individual companies. It is also stressed that quality management strategies must be aligned with those of supply chain partners. Organizations in the ERP industry can increase their performance by applying these lessons from the field of operations management. For example, several quality standards have been developed for the software industry, such as CMMI (Ahern et al., 2007). The CMMI model assumes that software development organizations evolve according to a staged maturity model. The process areas that require supply chain coordination are mainly concerned with the CMMI category engineering, which comprises the process areas requirements management, requirements development, technical solution, product integration, and verification and validation. Requirements management is needed to reach maturity level 2 ( processes performed ); the other ones are required to obtain maturity level 3 ( processes defined ). This latter maturity level requires standardization of processes at an organizational level. Lockamy and McCormack (2004) argue that supply chain management can only be applied successfully when organizations have defined and documented their processes. It can therefore be expected that the coordination of quality in software supply chains can only be achieved if all primary members have reached the third maturity level. In addition, a kind of decision synchronization is needed to ensure that software manufacturers and their suppliers apply uniform quality management strategies. In the case of CMMI, this requires the alignment of goals and practices in the process areas that are covered by the model. Criterion of identification This research has argued that a suitable criterion for the identification of a software product can be found in its legal definition. One should keep in mind, however, that the license agreement only covers the use of a specific version of a software product. In the course of time, a series of upgrades are produced to adapt this product to changing requirements. Although existing customers often require a separate maintenance agreement to receive these upgrades, they do become part of the basic license agreement for customers of the new version. Upgrades are used to preserve the existing functionality and performance of a software system through bug fixes based on error reports from customers. They also serve to increase the system s functionality and performance by adding new features and implementing performance upgrades (Wiederhold, 2006). The addition of new features causes the system to grow in size throughout its lifecycle. This may also result in changes to the supply chain structure, especially when part of the new code is provided by external suppliers. Using software licenses to identify a software product unambiguously therefore implies that the corresponding supply chain may evolve over time. 8

CONCLUSIONS Researchers in the field of supply chain management have investigated many industries, but the software industry has hardly received any attention so far. This paper has explored how the industryspecific characteristics enable and/or constrain the supply chain management initiatives of software companies by conducting two case studies in the ERP domain. The study s findings are as follows: The software supply chain does not only cover the ERP system, but also a range of valueadding services, such as installation, configuration, and customization. This explains why some companies in the distribution channel of an ERP manufacturer are specialized in developing industry-specific extensions. Since the quality of a customer configuration is partly determined by the quality of these extensions, both ERP manufacturers have started a certification program that forces these independent software vendors to implement the same quality standards as the ERP manufacturer. In the ERP industry, many development decisions are related to change of installed products. Because of this, one of the ERP manufacturers organizes monthly meetings with its database supplier to discuss the features that are going to be incorporated in the next release of the database management system. It also explains why this company has created a web portal where resellers can exchange customer requirements. As mentioned before, many customers use an ERP system in combination with extensions from other software vendors. To prevent these extensions from breaking down after an update of the ERP system, one of the ERP manufacturers guarantees a forward compatibility of extensions that are developed with its software development kit. The other ERP manufacturer, in contrast, relies heavily on its resellers to detect and resolve compatibility problems before the update is deployed at the customer s site. The marginal costs of reproducing and distributing software are negligible. Because of this, economies-of-scale increase significantly when the same solution is shared among several customers. This explains why one of the resellers sells its custom solutions to an independent software vendor specialized in developing industry-specific extensions if it turns out that several customers require this solution. To increase external validity, future research may be directed at replicating the study s findings. In addition, one should take into account that ERP software has specific market characteristics. Software companies belonging to supply chains that deliver other types of product, such as embedded or tailormade software, may face different challenges in managing their supply chains. Further research is needed to determine to what extent our results can be generalized to other parts of the software industry. REFERENCES Ahern, D.M., Clouse, A., and Turner, R. (2007), CMMI Distilled: A Practical Introduction to Integrated Process Improvement, 3 d Edition, Addison-Wesley, Boston. Clark, K.B. and Fujimoto, T. (1991), Product Development Performance, Harvard Business School Press, Boston. Choi, T.Y. and Hong, Y. (2002), Unveiling the structure of supply networks: case studies in Honda, Acura, and DaimlerChrysler, Journal of Operations Management, Vol. 20 No. 5, pp. 469-493. Dzever, S., Merdji, M. and Saives, A.L. (2001), Purchase decision making and buyer-seller relationship development in the French food processing industry, Supply Chain Management: an International Journal, Vol. 6 No. 5, pp. 216-229. Eisenhardt, K.M. (1989), Building theories from case study research, Academy of Management Review, Vol. 14, No. 4, pp. 532-550 9

Fearne, A. and Fowler, N. (2006), Efficiency versus effectiveness in construction supply chains: the dangers of lean thinking in isolation, Supply Chain Management: an International Journal, Vol. 11 No. 4, pp. 283-287. Harland, C.M. (1996), "Supply chain management: relationships, chains and networks", British Journal of Management, Vol. 7 No. 1, pp. S63-S80. Holweg, M. and Miemczyk, J. (2003), Delivering the 3-day car the strategic implications for automotive logistics operations, Journal of Purchasing & Supply Management, Vol. 9 No. 2, pp. 63-71. Hopkins, J. (2000), Component primer, Communications of the ACM, Vol. 43 No. 10, pp. 27-30. Jagdev, H.S. and Thoben, K-D. (2001), Anatomy of Enterprise Collaborations, International Journal of Production Planning and Control, Vol. 12, No. 5, pp. 437-451. Lambert, D.M. and Cooper, M.C. (2000), Issues in supply chain management, Industrial Marketing Management, Vol. 29 No. 1, pp. 65-83. Lee, H.L. (2000), Creating value through supply chain integration, Supply Chain Management Review, Vol. 4 Bo. 4, pp. 30-36. Lo., V.H.Y. and Yeung, A. (2006), Managing quality effectively in supply chain: a preliminary study, Supply Chain Management: an International Journal, Vol. 11 No. 3, pp. 208-215. Lockamy III, A. and McCormack, K. (2004), The development of a supply chain management process maturity model using the concepts of business process orientation, Supply Chain Management: an International Journal, Vol. 9 No. 4, pp. 272-278. Mentzer, J.T., DeWitt, W.J., Keebler, J.S., Min, S., Nix, N.W., Smith, C.D. and Zacharia, Z.G. (2001), Defining supply chain management, Journal of Business Logistics, Vol. 22, No. 2, pp. 1-25 Messerschmitt, D.C. and Syperski, C. (2003), Software Ecosystem: Understanding an Indispensable Technology and Industry, MIT press, Cambridge. Min, H. and Zhou, G. (2002), Supply chain modeling: past, present and future, Computers & Industrial Engineering, Vol. 43 No. 1-2, pp. 231-249. Piplani, R. and Fu, Y. (2005), A coordination framework for supply chain inventory alignment, Journal of Manufacturing Technology Management, Vol. 16 No. 6, pp. 598-614. Rivard-Royer, H., Landry, S. and Beaulieu, M. (2002), Hybrid stockless: a case study. Lessons for health-care supply chain integration, International Journal of Operations & Production Management, Vol. 22 No. 4, pp. 414-424. Sila, I., Ebrahimpour, M. and Birkholz, C. (2006), Quality in supply chains: an empirical analysis, Supply Chain Management: an International Journal, Vol. 11 No. 6, pp. 491-502. Simatupang, T.M., Wright, A.C. and Sridharan, R. (2002), The knowledge of coordination for supply chain integration, Business Process Management Journal, Vol. 8, No. 3, pp. 289-308. Simatupang, T.M., Sandroto, I.V., and Lubis S.B.H. (2004), Supply chain coordination in a fashion firm, Supply Chain Management: an International Journal, Vol. 9 No. 3, pp. 256-268. Slack, N., Chambers, S. and Johnston, R. (2007), Operations Management, Fifth Edition, Prentice Hall, Harlow. Sommerville, I. (2004), Software Engineering, Seventh Edition, Addison-Wesley, Boston. Szyperski, C. (1998), Component Software: Beyond Object-Oriented Programming, Addison-Wesley, Harlow. Twigg, D. (1998), Managing product development within a design chain, International Journal of Operations & Production Management, Vol. 18, No. 5, pp. 508-524. Van Donk, D.P. (2001), Make to stock or make to order: The decoupling point in the food processing industries, International Journal of Production Economics, Vol. 69 No. 3, pp. 297-306. Voss, C., Tsikriktsis, N. and Frohlich, M. (2002), Case research in operations management, International Journal of Operations & Production Management, Vol. 22, No. 2, pp. 195-219. Vrijhoef, R. and Koskela, L. (2000), The four roles of supply chain management in construction, European Journal of Purchasing & Supply Management, Vol. 6 No. 3-4, pp. 169-178. Wiederhold, G. (2006), What is your software worth?, Communications of the ACM, Vol. 49 No. 9, pp. 65-75. Yin, R.K. (2003), Case Study Research: Design and Methods, Third Edition, SAGE Publications, Thousand Oaks. 10